GIL JOSE S (US)
BROWN MATTHEW J (US)
NGUYEN MINH MINDY BAO (US)
HAHN WENDY (US)
US20200239860A1 | 2020-07-30 | |||
US20180274004A1 | 2018-09-27 | |||
US20170044502A1 | 2017-02-16 | |||
US20200399614A1 | 2020-12-24 | |||
US201715409258A | 2017-01-18 |
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We claim: 1. A recombinant bacteriophage comprising a genetic construct comprising an indicator gene, wherein the recombinant bacteriophage specifically infects Listeria spp 2. The recombinant bacteriophage of claim 1, wherein the recombinant bacteriophage is constructed from a wild-type bacteriophage. 3. The recombinant bacteriophage of claim 1, wherein the recombinant bacteriophage is constructed from a mutant phage. 4. The recombinant bacteriophage of claim 1, wherein bacteriophage is capable of infecting L. grayi. 5. The recombinant bacteriophage of claim 1, wherein bacteriophage is capable of infecting L. innocua. 6. The recombinant bacteriophage of claim 1, wherein bacteriophage is capable of infecting serovar 3 A of L. monocytogenes. 7. The recombinant bacteriophage of claim 1, wherein the size of the bacteriophage genome is at least 200 kbp. 8. The recombinant bacteriophage of claim 1, wherein bacteriophage has one or more mutations in the tail receptor of the bacteriophage genome. 9. The recombinant bacteriophage of claim 1, wherein the indicator gene is codon- optimized and encodes a soluble protein product that generates an intrinsic signal or a soluble enzyme that generates signal upon reaction with a substrate. The recombinant bacteriophage of claim 1, further comprising an untranslated region upstream of the codon-optimized indicator gene, wherein the untranslated region includes a bacteriophage late gene promoter and a ribosomal entry site. A cocktail composition comprising at least one recombinant bacteriophage according to claim 1. The cocktail composition of claim 11, wherein at least one type of recombinant bacteriophage is constructed from a wild-type bacteriophage or mutant bacteriophage. The cocktail composition of claim 11, wherein the cocktail comprises at least one recombinant bacteriophage capable of infecting Listeria grayi. The cocktail composition of claim 11, wherein the cocktail comprises at least one recombinant bacteriophage capable of infecting Listeria innocua. The cocktail composition of claim 11, wherein the cocktail comprises at least one recombinant bacteriophage capable of infecting serovar 3 A of Listeria monocytogenes. The cocktail composition of claim 11, wherein the cocktail comprises at least one recombinant bacteriophage, wherein the size of the recombinant bacteriophage genome is at least 200 kbp. The cocktail composition of claim 11, wherein the cocktail comprises at least one recombinant bacteriophage comprising one or more mutations in the tail receptor of the bacteriophage genome. A method of preparing a recombinant indicator bacteriophage comprising: selecting a wild-type bacteriophage that specifically infects a target pathogenic bacterium; preparing a homologous recombination plasmid/vector comprising an indicator gene; transforming the homologous recombination plasmid/vector into target pathogenic bacteria; infecting the transformed target pathogenic bacteria with the selected wild-type bacteriophage, thereby allowing homologous recombination to occur between the plasmid/vector and the bacteriophage genome; and isolating a particular clone of recombinant bacteriophage. The method of claim 18, wherein preparing a homologous recombination plasmid/vector comprises: determining the natural nucleotide sequence in the late region of the genome of the selected bacteriophage; annotating the genome and identifying the major capsid protein gene of the selected bacteriophage; designing a sequence for homologous recombination downstream of the major capsid protein gene, wherein the sequence comprises a codon-optimized indicator gene; and incorporating the sequence designed for homologous recombination into a plasmid/vector. The method of claim 18, wherein the wild-type bacteriophage is a Listeria-specific bacteriophage and the target pathogenic bacterium is Listeria grayi, Listeria monocytogenes, Listeria innocua, or other Listeria spp. The method of claim 12, wherein isolating a particular clone of recombinant bacteriophage comprises a limiting dilution assay for isolating a clone that demonstrates expression of the indicator gene. A method for detecting one or more strains of Listeria spp. in a sample comprising: incubating the sample with a cocktail composition comprising at least one Listeria-specific recombinant bacteriophage according to claim 1 and detecting an indicator protein product produced by the recombinant bacteriophage, wherein positive detection of the indicator protein product indicates that Listeria spp. is present in the sample. 23. The method of claim 22, wherein at least one type of recombinant bacteriophage is constructed from a wild-type bacteriophage or mutant bacteriophage. 24. The method of claim 22, wherein the cocktail comprises at least one recombinant bacteriophage capable of infecting Listeria grayi. 25. The method of claim 22, wherein the cocktail comprises at least one recombinant bacteriophage capable of infecting Listeria innocua. 26. The method of claim 22, wherein the cocktail comprises at least one recombinant bacteriophage capable of infecting serovar 3 A of listeria monocytogenes. 27. The method of claim 22, wherein the cocktail comprises at least one recombinant bacteriophage, wherein the size of the recombinant bacteriophage genome is at least 200 kbp. 28. The method of claim 22, wherein the cocktail comprises at least one recombinant bacteriophage comprising one or more mutations in the tail receptor of the bacteriophage genome. 29. The method of claim 22, wherein the sample is a food, environmental, water, or commercial sample. 30. The method of claim 22, wherein the method detects as few as 10, 9, 8, 7, 6, 5, 4, 3, 2, or a single bacterium in a sample of a standard size for the food safety industry. 31. The method of claim 30, wherein the food sample comprises meat, fish, vegetables, eggs, dairy products, dried food products, or powdered infant formula. 32. The method of claim 22, wherein the sample is first incubated in conditions favoring growth for an enrichment period of less than 24 hours, 23 hours, 22 hours, 21 hours, 20 hours, 19 hours, 18 hours, 17 hours, 16 hours, 15 hours, 14 hours, 13 hours, 12 hours, 11 hours, 10 hours, 9 hours, 8 hours, 7 hours, 6 hours, 5 hours, 4 hours, 3 hours, or 2 hours. 33. The method of claim 22, wherein the total time to results is less than 28 hours, 27 hours, 26 hours, 25 hours, 24 hours, 23 hours, 22 hours, 21 hours, 20 hours, 19 hours, 18 hours, 17 hours, 16 hours, 15 hours, 14 hours, 13 hours, 12 hours, 11 hours, 10 hours, 9 hours 8 hours, 7 hours, 6 hours, 5 hours, 4 hours, 3 hours, or 2 hours. 34. The method of claim 22, wherein the method is capable of detecting at least one of: L. grayi, L innocua. and serovar 3 A of Listeria monocytogenes and at least one of serovars l/2a, l/2b, l/2c, 3b, 3c, 4a, 4b, 4c, 4d, 4e, 6a, and 6c of the species L. monocytogenes. 35. A kit for detecting Listeria spp. comprising a recombinant bacteriophage derived from a Listeria-specific wild-type bacteriophage. 36. The kit of claim 35 further comprising a substrate for reacting with an indicator to detect the soluble protein product expressed by the recombinant bacteriophage. 37. A system for detecting Listeria spp. comprising recombinant bacteriophages derived from a Listeria-specific wild-type bacteriophage. |
[0006] The time required for traditional biological enrichment is dictated by the growth rate of the target bacterial population of the sample, by the effect of the sample matrix, and by the required sensitivity. Due to the time required for cultivation, these methods can take up to eight days, depending upon the organism to be identified and the source of the sample. This lag time is generally unsuitable as the contaminated food, water, or other product may have already made its way into livestock or humans. In addition, increases in antibiotic-resistant bacteria and biodefense considerations make rapid identification of bacterial pathogens in water, food and clinical samples critical priorities worldwide.
[0007] Therefore, there is a need for more rapid, simple, and sensitive detection and identification of microorganisms, such as bacteria and other potentially pathogenic microorganisms.
SUMMARY
[0008] Embodiments of the invention comprise compositions, methods, systems, and kits for the detection of microorganisms such as Listeria spp. The invention may be embodied in a variety of ways.
[0009] In some aspects, the invention comprises a recombinant bacteriophage comprising an indicator gene inserted into a late gene region of a bacteriophage genome. In some embodiments the recombinant bacteriophage is a genetically modified Listeria-specific bacteriophage genome. In certain embodiments the recombinant bacteriophage comprises a genetically modified bacteriophage genome derived from a bacteriophage that specifically recognizes Listeria spp. In some embodiments, the bacteriophage used to prepare the recombinant bacteriophage specifically infects one or more Listeria spp. In an embodiment, the recombinant bacteriophage can distinguish Listeria spp. in the presence of other types of bacteria. In some embodiments the recombinant bacteriophage specifically recognizes Listeria monocytogenes. In some embodiments the recombinant bacteriophage specifically recognizes Listeria grayi.
[0010] In some embodiments of recombinant indicator bacteriophage, the indicator gene can be codon-optimized and can encode a soluble protein product that generates an intrinsic signal or a soluble enzyme that generates signal upon reaction with substrate. Some recombinant bacteriophage further comprise an untranslated region upstream of a codon-optimized indicator gene, wherein the untranslated region includes a bacteriophage late gene promoter and a ribosomal entry site. In some embodiments, the indicator gene is a luciferase gene. The luciferase gene can be a naturally occurring gene, such as Oplophorus luciferase, Firefly luciferase, Lucia luciferase, or Renilla luciferase, or it can be a genetically engineered gene such as NANOLUC®.
[0011] Also disclosed herein are methods for preparing a recombinant indicator bacteriophage. Some embodiments include selecting a wild-type bacteriophage that specifically infects a target pathogenic bacterium; preparing a homologous recombination plasmid/vector comprising an indicator gene; transforming the homologous recombination plasmid/vector into target pathogenic bacteria; infecting the transformed target pathogenic bacteria with the selected wild-type bacteriophage, thereby allowing homologous recombination to occur between the plasmid/vector and the bacteriophage genome; and isolating a particular clone of recombinant bacteriophage. In some embodiments the selected wild-type bacteriophage is a /.z.s/cz'zzz-specific bacteriophage.
[0012] In some embodiments, preparing a homologous recombination plasmid/vector includes determining the natural nucleotide sequence in the late region of the genome of the selected bacteriophage; annotating the genome and identifying the major capsid protein gene of the selected bacteriophage; designing a sequence for homologous recombination downstream of the major capsid protein gene, wherein the sequence comprises a codon-optimized indicator gene; and incorporating the sequence designed for homologous recombination into a plasmid/vector. The step of designing a sequence can include inserting a genetic construct comprising an untranslated region, including a phage late gene promoter and ribosomal entry site, upstream of the codon-optimized indicator gene. In some embodiments, the phage late gene promoter is an exogenous promoter, different from any endogenous promoter in the phage genome. Thus, in some methods, the homologous recombination plasmid comprises an untranslated region including a bacteriophage late gene promoter and a ribosomal entry site upstream of the codon-optimized indicator gene.
[0013] Some embodiments of the invention are compositions that include a recombinant indicator bacteriophage as described herein. For example, compositions can include one or more wild-type or genetically modified infectious agents (e.g., bacteriophages) and one or more indicator genes. In some embodiments, the compositions, methods, systems and kits of the invention may comprise a cocktail of at least one recombinant bacteriophage for use in detection of microorganisms such as Listeria spp. In certain instances, the cocktail compositions is able to detect L. grayi.
[0014] In some embodiments, the invention comprises a method for detecting a microorganism of interest in a sample comprising the steps of incubating the sample with a recombinant bacteriophage that infects the microorganism of interest, wherein the recombinant bacteriophage comprises an indicator gene inserted into a late gene region of the bacteriophage such that expression of the indicator gene during bacteriophage replication following infection of host bacteria results in a soluble indicator protein product, and detecting the indicator protein product, wherein positive detection of the indicator protein product indicates that the microorganism of interest is present in the sample.
[0015] In some embodiments of methods for preparing recombinant indicator bacteriophage, the wild-type bacteriophage is a Listeria 5/?/?. -specific bacteriophage and the target pathogenic bacterium is Listeria spp. In some embodiments, isolating a particular clone of recombinant bacteriophage comprises a limiting dilution assay for isolating a clone that demonstrates expression of the indicator gene. [0016] Other aspects of the invention include methods for detecting bacteria, such as Listeria spp. in a sample, including steps of incubating the sample with a recombinant bacteriophage derived from A/.s/c/va-specific bacteriophage and detecting an indicator protein product produced by the recombinant bacteriophage, wherein positive detection of the indicator protein product indicates that Listeria spp. is present in the sample.
[0017] Listeria spp. are gram positive rod shaped bacteria that are ubiquitous in soil, water, and in several animals intended for consumption. Listeria spp. can grow at wide temperature and pH ranges and can tolerate high concentrations of sodium chloride allowing for a greater ability to contaminate food during processing. In humans, Listeria monocytogenes is of particular concern as the causative agent of Listeriosis. Listeriosis is usually caused by eating food that has been contaminated with L. monocytogenes. It is estimated that 1,600 people get Listeriosis each year, resulting in about 260 deaths. The infection is most likely to sicken pregnant women and their newborns, adults aged 65 or older, and people with weakened immune systems. Most concerning are infections occurring in pregnant women were the infection can lead to miscarriage, still birth, premature delivery, or even life-threating infections such as sepsis or meningitis in the newborn
[0018] In some embodiments, the invention includes methods for the detection of Listeria spp. using a recombinant bacteriophage derived from a bacteriophage that targets Listeria spp. The sample can be a food or water sample. In some embodiments, samples include environmental samples (e.g., sponges and swabs of surfaces or equipment for bacterial monitoring in factories and other processing facilities).
[0019] In some embodiments of methods for detecting bacteria, the sample is first incubated in conditions favoring growth for an enrichment period of 24 hours or less, 23 hours or less, 22 hours or less, 21 hours or less, 20 hours or less, 19 hours or less, 18 hours or less, 17 hours or less, 16 hours or less, 15 hours or less, 14 hours or less, 13 hours or less, 12 hours or less, 11 hours or less, 10 hours or less, or 9 hours or less, 8 hours or less, 7 hours or less, 6 hours or less, 5 hours or less, 4 hours or less, 3 hours or less, or 2 hours or less. In some embodiments, the sample is not enriched prior to detection. In some embodiments, the total time to results is less than 26 hours, 25 hours, 24 hours, 23 hours, 22 hours, 21 hours, 20 hours, 19 hours, 18 hours, 17 hours, 16 hours, 15 hours, 14 hours, 13 hours, 12 hours, 11 hours, 10 hours, 9 hours, 8 hours, 7 hours, 6 hours, 5 hours, 4 hours, 3 hours or 2 hours. In some embodiments, the ratio of signal to background generated by detecting the indicator is at least 2.0 or at least 2.5 or at least 3.0. In some embodiments, the method detects as few as 1, 10, 15, 20, 30, 40, 50, 60, 70, 80, 90, or 100 of the specific bacteria in a sample of a standard size for the food safety industry.
[0020] Additional embodiments include systems and kits for detecting Listeria spp., wherein the systems or kits include a recombinant bacteriophage derived from Listeria-specifc bacteriophage. Some embodiments further include a substrate for reacting with an indicator to detect the soluble protein product expressed by the recombinant bacteriophage. These systems or kits can include features described for the bacteriophage, compositions, and methods of the invention. In still other embodiments, the invention comprises non-transient computer readable media for use with methods or systems according to the invention.
BRIEF DESCRIPTION OF THE FIGURES
[0021] The present invention may be better understood by referring to the following nonlimiting figures.
[0022] Figure 1 depicts an indicator phage construct according to an embodiment of the invention illustrating insertion of a genetic construct comprising a luciferase gene, a bacteriophage late gene promoter, and a ribosomal binding site (RBS) inserted into the late (class III) region of a bacteriophage. The promoter depicted is in addition to and separate from the endogenous late gene promoter upstream of the endogenous late genes, such as the gene for major capsid protein (MCP).
[0023] Figure 2 shows the genome of bacteriophage LMA4, a myovirus (related to Listeria phage LMTA-94) which was obtained from sewage. A hypothetical gene homologous to the putative prohead protease p85protein is upstream of cps, the major capsid gene within the late gene region, consisting of structural genes, which code for virion proteins. Following the cps, is a transcriptional terminator, followed by a homolog to the LMTA-94 tail sheath protein (tsh). As these virion proteins are expressed at a very high level, any genes inserted into this region can be expected to have similar expression levels, as long as late gene promoters and/or other similar control elements are used. [0024] Figure 3 shows two homologous recombination plasmid construct designs carrying the luciferase gene used to construct the recombinant phages with approximately several hundred basepairs of matching phage sequence upstream and downstream of the insertion site to promote homologous recombination. NANOLUC® luciferase is inserted into a pCE104 Gram positive shuttle vector plasmid backbone with an upstream untranslated region containing a dedicated phage late gene promoter and Ribosomal Entry Site. pCE104.ElR.A511.NanoLuc.v2 was used to construct recombinants for the Pecentumviruses A511, LMA4 and LMA8. pCE104.HR.LP- ESl.NanoLuc was used to construct the Homburvirus LP-ES1. Each construct consisted of 500 bp of homologous sequence consisting of a fragment of the Major Capsid Protein gene (cps) followed by a late gene promoter, which was added in addition to the endogenous late gene promoter upstream of the major capsid protein in the phage genome, the luciferase gene, and approximately 258 bp of downstream matching sequence for homologous recombination for pCE104.HR.A51 LNanoLuc.v2 and 500 bp of downstream for pCE104.HR.LP-ESl.NanoLuc. All recombinants used a PlOOvirus late gene promoter instead of the T4 late gene promoter.
[0025] Figure 4 depicts a filter plate assay for detecting bacteria of interest using a modified bacteriophage according to an embodiment of the invention where bacteria and recombinant phage are incubated on filter plates and after generation of progeny bacteriophage the indicator protein is detected directly without removal of the incubation medium.
[0026] Figure 5 shows data from embodiments of a Listeria detection assays using recombinant bacteriophage specific for Listeria to detect Listeria in spiked sponges. Figure 5A shows detection of Listeria in sponges spiked at <1CFU spike/lOmL. Figure 5B shows detection of Listeria in sponges spiked at <1CFU spike/90mL.
[0027] Figure 6 shows data from embodiments of a Listeria detection assay using recombinant bacteriophage specific for Listeria to detect Listeria in environmental surface swab sponge samples.
[0028] Figure 7 depicts phage morphology visualized by transmission electron microscopy. Figure 7A depicts LPJPl’s large icosahedral head and long straight tail. Figure 7B depicts LPJPl’s contractile outer tail sheath.
[0029] Figure 8 depicts gel electrophoresis of PCR-amplified LPJP1 DNA. Flanking lanes 1 and 6 contain O’GeneRuler Ikb plus DNA ladder. Lanes 2 through 5 contain the PCR amplification of either native LPJP1 DNA (lanes 2 and 4) or TempliPhi -treated LPJP1 DNA (lanes 3 and 5) using either the Q5 DNA polymerase (lanes 2 and 3) or the uracil-tolerant Q5U DNA polymerase (lanes 4 and 5).
[0030] Figure 9 depicts plaque formation by LPJP1 on /.. grayi (ATCC 19120). LPJP1 was diluted, mixed with overnight culture and 0.5% semi-solid BHI agar, and poured evenly atop BHI agar plates. Plates were imaged after overnight incubation at 30 °C.
DETAILED DESCRIPTION OF THE INVENTION
[0031] Disclosed herein are compositions, methods and systems that demonstrate surprising sensitivity for detection of a microorganism of interest, such as Listeria spp., in test samples (e.g., biological, food, water, and environmental samples). Detection can be achieved in a shorter timeframe than was previously thought possible using genetically modified infectious agents in assays performed with minimal enrichment times during which microorganisms could potentially multiply. Also surprising is the success of using a potentially high multiplicity of infection (MOI), or high concentrations of plaque forming units (PFU), for incubation with a test sample. Such high phage concentrations (PFU/mL) were previously purported to be detrimental in bacterium detection assays, as they were purported to cause “lysis from without.” However, a high concentration of phage can facilitate finding, binding, and infecting a low number of target cells.
[0032] The compositions, methods, systems and kits of the invention may comprise infectious agents for use in detection of microorganisms such as Listeria spp. In certain embodiments, the invention may comprise a composition comprising a recombinant bacteriophage having an indicator gene inserted into a late gene region of the bacteriophage. In certain embodiments, expression of the indicator gene during bacteriophage replication following infection of a host bacterium results in production of a soluble indicator protein product. In certain embodiments, the indicator gene may be inserted into a late gene (i.e., class III) region of the bacteriophage. The bacteriophage can be derived from Listeria 5/?/?. -specific bacteriophage, or another wildtype or engineered bacteriophage. In some embodiments, the recombinant bacteriophage is constructed from at least one of LPJP1, LMA4, LMA8, A511, P70, LP-ES1, and LP-ES3 bacteriophages. [0033] In some embodiments, the compositions, methods, systems and kits of the invention may comprise a cocktail of at least one recombinant bacteriophage for use in detection of microorganisms such as Listeria spp.
[0034] In some aspects, the invention comprises a method for detecting a microorganism of interest. The method may use an infectious agent for detection of the microorganism of interest such as Listeria spp. For example, in certain embodiments, the microorganism of interest is Listeria spp. and the infectious agent is a bacteriophage that specifically infects a Listeria spp. Thus, in certain embodiments, the method may comprise detection of a bacterium of interest in a sample by incubating the sample with a recombinant bacteriophage that infects the bacterium of interest. In certain embodiments, the recombinant bacteriophage comprises an indicator gene. The indicator gene may, in certain embodiments, be inserted into a late gene region of the bacteriophage such that expression of the indicator gene during bacteriophage replication following infection of host bacteria results in production of an indicator protein product. The method may comprise detecting the indicator protein product, wherein positive detection of the indicator protein product indicates that the bacterium of interest is present in the sample. In some embodiments, the indicator protein is soluble.
[0035] In certain embodiments, the invention may comprise a system. The system may contain at least some of the compositions of the invention. Also, the system may comprise at least some of the components for performing the method. In certain embodiments, the system is formulated as a kit. Thus, in certain embodiments, the invention may comprise a system for rapid detection of a microorganism of interest such as Listeria spp. in a sample, comprising: A component for incubating the sample with an infectious agent specific for the microorganism of interest, wherein the infectious agent comprises an indicator moiety; and a component for detecting the indicator moiety. In yet other embodiments, the invention comprises software for use with the methods or systems.
[0036] Thus, some embodiments of the present invention solve a need by using bacteriophage-based methods for amplifying a detectable signal indicating the presence of bacteria. In certain embodiments as few as 10 bacteria are detected. The principles applied herein can be applied to the detection of a variety of microorganisms. Because of numerous binding sites for an infectious agent on the surface of a microorganism, the capacity to produce progeny during infection, and the potential for high level expression of an encoded indicator moiety, the infectious agent or an indicator moiety can be more readily detectable than the microorganism itself. In this way, embodiments of the present invention can achieve tremendous signal amplification from even a single infected cell.
[0037] Aspects of the present invention utilize the high specificity of binding agents that can bind to particular microorganisms, such as the binding component of infectious agents, as a means to detect and/or quantify the specific microorganism in a sample. In some embodiments, the present invention utilizes the high specificity of infectious agents such as bacteriophage.
[0038] In some embodiments, detection is achieved through an indicator moiety associated with the binding agent specific for the microorganism of interest. For example, an infectious agent may comprise an indicator moiety, such as a gene encoding a soluble indicator. In some embodiments the indicator may be encoded by the infectious agent, such as a bacteriophage, and the bacteriophage is designated an indicator phage.
[0039] Some embodiments of the invention disclosed and described herein utilize the discovery that a single microorganism is capable of binding specific recognition agents, such as phage. Following infection and replication of the phage, progeny phage may be detected via an indicator moiety expressed during phage replication. This principle allows amplification of indicator signal from one or a few cells based on specific recognition of microorganism surface receptors. For example, by exposing as few as 10 bacteria cells to a plurality of phage, thereafter allowing amplification of the phage and high-level expression of an encoded indicator gene product during replication, the indicator signal is amplified such that the bacteria are detectable.
[0040] Embodiments of the methods and systems of the invention can be applied to detection and quantification of a variety of microorganisms (e.g., bacteria) in a variety of circumstances, including but not limited to detection of pathogens from food, water, and commercial samples. The methods of the present invention provide high detection sensitivity and specificity rapidly. In some embodiments detection is possible within a single replication cycle of the bacteriophage, which is unexpected. Definitions
[0041] Unless otherwise defined herein, scientific and technical terms used in connection with the present invention shall have the meanings that are commonly understood by those of ordinary skill in the art. Further, unless otherwise required by context, singular terms shall include pluralities and plural terms shall include the singular. Generally, nomenclatures used in connection with, and techniques of, cell and tissue culture, molecular biology, immunology, microbiology, genetics and protein and nucleic acid chemistry and hybridization described herein are those well-known and commonly used in the art. Known methods and techniques are generally performed according to conventional methods well known in the art and as described in various general and more specific references that are discussed throughout the present specification unless otherwise indicated. Enzymatic reactions and purification techniques are performed according to manufacturer's specifications, as commonly accomplished in the art or as described herein. The nomenclatures used in connection with the laboratory procedures and techniques described herein are those well-known and commonly used in the art.
[0042] The following terms, unless otherwise indicated, shall be understood to have the following meanings:
[0043] As used herein, the terms “a”, “an”, and “the” can refer to one or more unless specifically noted otherwise.
[0044] The use of the term “or” is used to mean “and/or” unless explicitly indicated to refer to alternatives only or the alternatives are mutually exclusive, although the disclosure supports a definition that refers to only alternatives and “and/or.” As used herein “another” can mean at least a second or more.
[0045] Throughout this application, the term “about” is used to indicate that a value includes the inherent variation of error for the device, the method being employed to determine the value, or the variation that exists among samples.
[0046] The term “solid support” or “support” means a structure that provides a substrate and/or surface onto which biomolecules may be bound. For example, a solid support may be an assay well (i.e., such as a microtiter plate or multi-well plate), or the solid support may be a location on a filter, an array, or a mobile support, such as a bead or a membrane (e.g., a filter plate, latex particles, paramagnetic particles, or lateral flow strip).
[0047] The term “binding agent” refers to a molecule that can specifically and selectively bind to a second (i.e., different) molecule of interest. The interaction may be non-covalent, for example, as a result of hydrogen bonding, van der Waals interactions, or electrostatic or hydrophobic interactions, or it may be covalent. The term “soluble binding agent” refers to a binding agent that is not associated with (i.e., covalently or non-covalently bound) to a solid support.
[0048] As used herein, an “analyte” refers to a molecule, compound or cell that is being measured. The analyte of interest may, in certain embodiments, interact with a binding agent. As described herein, the term “analyte” may refer to a protein or peptide of interest. An analyte may be an agonist, an antagonist, or a modulator. Or, an analyte may not have a biological effect. Analytes may include small molecules, sugars, oligosaccharides, lipids, peptides, peptidomimetics, organic compounds and the like.
[0049] The term “detectable moiety” or “detectable biomolecule” or “reporter” or “indicator” or “indicator moiety” refers to a molecule that can be measured in a quantitative assay. For example, an indicator moiety may comprise an enzyme that may be used to convert a substrate to a product that can be measured. An indicator moiety may be an enzyme that catalyzes a reaction that generates bioluminescent emissions (e.g., luciferase). Or, an indicator moiety may be a radioisotope that can be quantified. Or, an indicator moiety may be a fluorophore. Or, other detectable molecules may be used.
[0050] As used herein, “bacteriophage” or “phage” includes one or more of a plurality of bacterial viruses. In this disclosure, the terms “bacteriophage” and “phage” include viruses such as mycobacteriophage (such as for TB and paraTB), mycophage (such as for fungi), mycoplasma phage, and any other term that refers to a virus that can invade living bacteria, fungi, mycoplasma, protozoa, yeasts, and other microscopic living organisms and uses them to replicate itself. Here, “microscopic” means that the largest dimension is one millimeter or less. Bacteriophages are viruses that have evolved in nature to use bacteria as a means of replicating themselves. A phage does this by attaching itself to a bacterium and injecting its DNA (or RNA) into that bacterium, and inducing it to replicate the phage hundreds or even thousands of times. This is referred to as phage amplification.
[0051] As used herein, “late gene region” refers to a region of a viral genome that is transcribed late in the viral life cycle. The late gene region typically includes the most abundantly expressed genes (e.g., structural proteins assembled into the bacteriophage particle). Late genes are synonymous with class III genes and include genes with structure and assembly functions. For example, the late genes (synonymous with class III,) are transcribed in phage T7, e.g., from 8 minutes after infection until lysis, class I (e.g., RNA polymerase) is early from 4-8 minutes, and class II from 6-15 minutes, so there is overlap in timing of II and III. A late promoter is one that is naturally located and active in such a late gene region.
[0052] As used herein, “culturing for enrichment” refers to traditional culturing, such as incubation in media favorable to propagation of microorganisms, and should not be confused with other possible uses of the word “enrichment,” such as enrichment by removing the liquid component of a sample to concentrate the microorganism contained therein, or other forms of enrichment that do not include traditional facilitation of microorganism propagation. Culturing for enrichment for periods of time may be employed in some embodiments of methods described herein.
[0053] As used herein “recombinant” refers to genetic (i.e., nucleic acid) modifications as usually performed in a laboratory to bring together genetic material that would not otherwise be found. This term is used interchangeably with the term “modified” herein.
[0054] As used herein “RLU” refers to relative light units as measured by a luminometer (e.g., GLOMAX® 96) or similar instrument that detects light. For example, the detection of the reaction between luciferase and appropriate substrate (e.g., NANOLUC® with NANO-GLO®) is often reported in RLU detected.
[0055] As used herein “time to results” refers to the total amount of time from beginning of sample incubation to generated result. Time to results does not include any confirmatory testing time. Data collection can be done at any time after a result has been generated. Samples
[0056] Each of the embodiments of the methods and systems of the invention can allow for the rapid detection and quantification of microbes in a sample. For example, methods according to the present invention can be performed in a shortened time period with superior results.
[0057] Bacterial cells detectable by the present invention include, but are not limited to, bacterial cells that are food or water borne pathogens.
[0058] Samples may be liquid, solid, or semi-solid. Samples may be swabs of solid surfaces. Samples may include environmental materials, such as water samples, or the filters from air samples or aerosol samples from cyclone collectors. Samples may be of vegetables, meat, fish, poultry, peanut butter, processed foods, powdered infant formula, powdered milk, teas, starches, eggs, milk, cheese, or other dairy products.
[0059] In some embodiments, samples may be used directly in the detection methods of the present invention, without preparation, concentration, or dilution. For example, liquid samples, including but not limited to, milk and juices, may be assayed directly. Samples may be diluted or suspended in solution, which may include, but is not limited to, a buffered solution or a bacterial culture medium. A sample that is a solid or semi-solid may be suspending in a liquid by mincing, mixing or macerating the solid in the liquid. A sample should be maintained within a pH range that promotes bacteriophage attachment to the host bacterial cell. A sample should also contain the appropriate concentrations of divalent and monovalent cations, including but not limited to Na + , Mg 2+ , and Ca 2+ . Preferably a sample is maintained at a temperature that maintains the viability of any pathogen cells contained within the sample.
[0060] In some embodiments of the detection assay, the sample is maintained at a temperature that maintains the viability of any pathogen cell present in the sample. For example, during steps in which bacteriophages are attaching to bacterial cells, it is preferable to maintain the sample at a temperature that facilitates bacteriophage attachment. During steps in which bacteriophages are replicating within an infected bacterial cell or lysing such an infected cell, it is preferable to maintain the sample at a temperature that promotes bacteriophage replication and lysis of the host. Such temperatures are at least about 25 degrees Celsius (C), more preferably no greater than about 35 degrees C, most preferably about 30 degrees C. [0061] Assays may include various appropriate control samples. For example, control samples containing no bacteriophages or control samples containing bacteriophages without bacteria may be assayed as controls for background signal levels.
Indicator Bacteriophage
[0062] As described in more detail herein, the compositions, methods, systems and kits of the invention may comprise infectious agents for use in detection of pathogenic microorganisms. In certain embodiments, the invention comprises a recombinant indicator bacteriophage, wherein the bacteriophage genome is genetically modified to include an indicator or reporter gene. In some embodiments, the invention may include a composition comprising a recombinant bacteriophage having an indicator gene incorporated into the genome of the bacteriophage.
[0063] A recombinant indicator bacteriophage can include a reporter or indicator gene. In certain embodiments of the infectious agent, the indicator gene does not encode a fusion protein. For example, in certain embodiments, expression of the indicator gene during bacteriophage replication following infection of a host bacterium results in a soluble indicator protein product. In certain embodiments, the indicator gene may be inserted into a late gene region of the bacteriophage. Late genes are generally expressed at higher levels than other phage genes, as they code for structural proteins. The late gene region may be a class III gene region and may include a gene for a major capsid protein.
[0064] Some embodiments include designing (and optionally preparing) a sequence for homologous recombination downstream of the major capsid protein gene. Other embodiments include designing (and optionally preparing) a sequence for homologous recombination upstream of the major capsid protein gene. In some embodiments, the sequence comprises a codon- optimized reporter gene preceded by an untranslated region. The untranslated region may include a phage late gene promoter and ribosomal entry site.
[0065] In some embodiments, an indicator bacteriophage is derived from Listeria-specific phage. In some embodiments, the selected wild-type bacteriophage or cocktail of wild-type bacteriophages is capable of infecting at least one target Listeria spp. In some embodiments, the wild-type bacteriophage is mutated to expand the host range of the wild-type bacteriophage. Listeria species are ubiquitous in the environment and are often found in water, sewage and soil. In some embodiments, the selected wild-type bacteriophage or cocktail of wild-type bacteriophages is capable of infecting one or more, two or more, or three or more target Listeria spp. In certain instances the target species of Listeria is selected from L. monocytogenes, L. ivanovii, L. innocua, and L. grayi. Listeria grayi is a Gram-positive bacterial species, consisting of two genetically related subspecies: L. grayi subsp. grayi and L. grayi subsp. murrayi. Although typically classified as non-pathogenic, L. grayi has been associated with severe disease in rare cases involving immunocompromised individuals (Todeschini, et al., A case of Listeria murray/grayi bacteremia in a patient with advanced Hodgkin's disease. Eur J Clin Microbiol Infect Dis 1998, 77, 808-810; Rapose, et al., Transpl Infect Dis 2008, 10, 434-436; Salimnia, et al., Listeria grayi: vancomycin-resistant, gram-positive rod causing bacteremia in a stem cell transplant recipient. Transpl Infect Dis 2010, 72, 526-528). L. grayi shares a number of important characteristics with the food-borne pathogen, L. monocytogenes, including motility and growth at refrigerated temperatures (Orsi, R.H.; Wiedmann, M. Characteristics and distribution of Listeria spp., including Listeria species newly described since 2009. Appl Microbiol Biotechnol 2016, 100, 5273-5287). These shared features have allowed this and other non-pathogenic Listeria species to serve as useful tools in food safety. One particular example of this can be seen in Listeria environmental monitoring programs (Tompkin, R.B. Control of Listeria monocytogenes in the food-processing environment. J Food Prot 2002, 65, 709-725). If any viable Listeria species are detected during sampling, preventative intervention allows the elimination of permissive growth conditions in an effort to preempt contamination with pathogenic species, particularly L. monocytogenes.
[0066] Hundreds of Listeria phages have been described over the years and the deficiency in lytic phage appears unique to the L. grayi species. For example, previous work developing a bacteriophage typing system for Listeria species revealed that none of the 16 typing phage could lyse Z. grayi (Loessner, M.J.; Busse, M. Appl Environ Microbiol 1990, 56, 1912-1918). Additionally, studies isolating Z/.s/c/va-specific phage from food processing plants found phage capable of lysing all tested Listeria species except for L. grayi (Kim, et al., Host ranges of Listeria-specific bacteriophages from the turkey processing plant environment in the United States. Appl Environ Microbiol 2008, 74, 6623-6630). The lack of reported lytic phages for this species could have indicated a unique phage resistance mechanism or simply imply that such a phage was incredibly rare or challenging to isolate. [0067] In some embodiments, the selected wild-type bacteriophage is from the Caudovirales order of phages. Caudovirales are an order of tailed bacteriophages with double-stranded DNA (dsDNA) genomes. Each virion of the Caudovirales order has an icosahedral head that contains the viral genome and a flexible tail. The Caudovirales order comprises five bacteriophage families: Myoviridae (long contractile tails), Siphoviridae (long non-contractile tails), Podoviridae (short non-contractile tails), Ackermannviridae , and Herelleviridae . The term myovirus can be used to describe any bacteriophage with an icosahedral head and a long contractile tail, which encompasses bacteriophages within both the Myoviridae and Herelleviridae families. In some embodiments, the selected wild-type bacteriophage is a member of the Myoviridae family such as, Listeria phage B054, Listeria phage LipZ5, Listeria phage PSU-VKH-LP041, and Listeria phage WIL-2. In other embodiments, the selected wild-type bacteriophage is a member of the family Herelleviridae. The genus Pecentumvirus, under the family Herelleviridae includes bacteriophages such as Listeria phage LMSP-25, Listeria phage LMTA-148, Listeria phage LMTA-34, Listeria phage LP-048, Listeria phage LP-064, Listeria phage LP-083-2, Listeria phage LP-125, Listeria virus P100, Listeria phage List-36, Listeria phage WIL-1, Listeria phage vB_LmoM_AG20, and Listeria virus A511. LMA4 and LMA8 are also likely in the genus pe centumvirus, under the family Herelleviridae . In other embodiments, the selected wild-type bacteriophage is LMA4 or LMA8.
[0068] In some embodiments, the host range of the selected wild-type bacteriophage is expanded prior to construction of the recombinant bacteriophage. For example, WT A511 bacteriophages are not capable of infecting the 3 A serotype of Listeria monocytogenes . In some embodiments, the host range of bacteriophage using the methods described in US 2020/0399614, which is incorporated in its entirety herein. For example, in some embodiments, a mutant bacteriophage with a an expanded host-range is produced using a method comprising: (i) preparing a series of first co-culture mixtures of varying ratios comprising a host bacterial strain and a target-host bacterial strain; (ii) adding a phage strain to each of the first co-culture mixtures; (iii) incubating the first co-culture mixtures and the phage strain under bacterial culture conditions; (iv) collecting a phage lysate from each of the plurality of first-co-cultures; (v) pooling the phage lysates from each of the plurality of first co-cultures; (vi) assaying phage lysates to determine if the bacteria host-range has expanded; and (vii) isolating a mutant phage with expanded host-range. In certain instances the selected wild-type bacteriophage is LP-ES3 (A511-3 A), which is derived from wild-type bacteriophage, A511, but has been adapted to be capable of infecting serotype 3 A of Listeria monocytogenes . In some embodiments, the mutant bacteriophage comprises a mutation in a gene encoding the tail receptor. In some embodiments, the mutation is a single nucleotide polymorphism. In certain instances, mutant bacteriophage comprising a mutation in a gene encoding the tail receptor are capable of infecting serotype 3 A of Listeria monocytogenes.
[0069] In still other embodiments, the selected wild-type bacteriophage is a member of the family Ackermannviridae . In still other embodiments, the selected wild-type bacteriophage is a member of the family Siphoviridae , which includes Listeria phages A006, Al 18, A500, B025, LP-026, LP-030-2, LP-030-3, LP-037, LP-101, LP-110, LP-114, P35, P40, P70, PSA, vB_LmoS_188, and vB_Lmos_293. In other embodiments, the selected wild-type bacteriophage is LP-ES1. LP-ES1 is also likely in the genus Hombiirgvirus. under the family Siphoviridae. LP- ES1 is capable of infecting L. innocua. In certain embodiments, the selected wild-type bacteriophage is capable of infecting L. innocua.
[0070] In some embodiments, the selected wild-type bacteriophage is a jumbo or giant bacteriophage. Jumbo phages are prokaryotic viruses with genomes greater than 200 kbp in length. Compared with smaller phage, jumbo phages are rarely described and the vast majority (greater than 95%) of these phages recognize Gram-negative bacteria, with only a few recognizing Gram-positive species, primarily within the genus Bacillus (Yuan, Y.; Gao, M. Jumbo Bacteriophages: An Overview. Front Microbiol 2017, 8, 403). The majority of identified jumbo phages belong to the order Caudovirales. They have a head with icosahedral symmetry and a tail. The majority of the genes in a jumbo phage are functionally unassigned. These phages are able to create highly complex virions compared to those of phages with smaller genomes. Some genomes have novel host infection strategies.
[0071] Many Listeria phages are not species-dependent but are specific for one or more serovars. Broad host range Listeria phage, such as A511, can infect multiple serovars by binding to conserved substituents of cell wall teichoic acids (WTAs). Other Gram-positive jumbo phage, such as PBS1 of Bacillus, appear to recognize active host flagella. L. grayi is the only motile species of the Listeria sensu lato group. Additionally, the flagellar antigens of L. grayi have previously been found to be unique compared to all other species. Although the regulation of flagella in L. grayi is poorly described, it is worth noting that flagellar expression in L. monocytogenes is typically suppressed at 37 °C. Thus, in some embodiments, the bacteriophage is specific for a flagellar antigen of a bacteria of interest. In certain instances, the bacteriophage is specific for a conserved substituent of WTAs of a bacteria of interest.
[0072] In some embodiments, an indicator bacteriophage is derived from /./.s/c/va-specific phage. An indicator bacteriophage may be constructed from a Pecentumvirus, Tequatravirus, Vil, Kuttervirus, Homburgvirus, LPJP1, LMTA-94, LMA4, LMA8, P70, LP-ES1, LP-ES3 or another bacteriophage having a genome with at least 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, or 99 % homology o Listeria phage LPJP1, LMTA-94, P70, T7, T7-like, T4, T4-like, Listeria spp. -specific bacteriophage, Vil, or Vil-like (Kuttervirus, per GenBank/NCBI) bacteriophages. In other embodiments, the selected wild-type bacteriophage is LPJP1, LP-ES1, LP-ES3, LMA4 or LMA8. In some embodiments, the indicator phage is derived from a bacteriophage that is highly specific for a particular pathogenic microorganism. The genetic modifications may avoid deletions of wild-type genes and thus the modified phage may remain more similar to the wild-type infectious agent than many commercially available phage. Environmentally derived bacteriophage may be more specific for bacteria that are found in the environment and as such, genetically distinct from phage available commercially.
[0073] In some embodiments, the recombinant bacteriophage is constructed using the WT bacteriophage LPJP1 (SEQ ID NO: 1). In certain embodiments recombinant bacteriophage is constructed using a WT bacteriophage having SEQ ID NO:1 or at least 95, 90, 85, 80, or 75% homology to SEQ ID NO: 1.
[0074] In another aspect of the invention, a cocktail composition comprises at least one type of recombinant bacteriophage. In some embodiments, the cocktail composition comprises at least one type of recombinant bacteriophage constructed from LPJP1, LMA4, LMA8, A511, P70, LP- ES1, and LP-ES3. In other embodiments, the cocktail composition comprises at least one type of recombinant bacteriophage constructed from LPJP1, LMA8, LP-ES1, and LP-ES3. In some embodiments, the bacteriophage cocktail is capable of infecting L. monocytogenes. In certain embodiments, the bacteriophage cocktail is capable of infecting at least 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, or 13 or more serovars of /.. monocytogenes. In some embodiments, the bacteriophage cocktail is capable of infecting at least one of serovars l/2a, l/2b, l/2c, 3a, 3b, 3c, 4a, 4b, 4c, 4d, 4e, 6a, and 6c of the species L. monocytogenes.
[0075] In some embodiments, the cocktail composition comprises ate leat one recombinant bacteriophage capable of infecting L. innocua. LP-ES1, likely in the genus Homburgvirus. under the family Siphoviridae, is capable of infecting L. innocua.
[0076] Although phages have been found for most Listeria species, phages targeting L. grayi have thus far remained elusive. In some embodiments, the bacteriophage cocktail, comprises a recombinant bacteriophage capable of detecting L. grayi. The L. grayi -specific phage LPJP1 was isolated from farm silage. TEM revealed that LPJP1 was morphologically similar to the dsDNA Myoviridae family, with a large icosahedral head, a long straight tail, and a contractile outer tail sheath (Figure 7A,B). LPJP1 is a jumbo phage displaying a genome with only limited homology to available viral DNA sequences. Jumbo phages are tailed bacteriophages with genomes larger than 200kbp having both a large phage virion and large genome size. Jumbo phages are difficult to isolate. Top hits by BLAST analysis were other jumbo phages, specifically those that infect another Gram-positive genus, Bacillus. Poor sequence homology among jumbo phages has been previously described and genome annotation is often underwhelming due to the significant occurrence of genes of unknown function. The paucity of jumbo phage in Gram-positive genera besides Bacillus has resulted in speculation that this could indicate a unique property of Bacillus or alternatively, that phage targeting other Gram-positive genera simply remained to be discovered. To date, only one example of a jumbo phage infecting a Gram-positive genus outside of Bacillus had been reported. The Staphylococcus phage S6, although not fully sequenced, was originally described as a giant myophage with an approximate genome size of 270 kbp.
Surprisingly, LPJP1 appears to not only be the first identified L. grayi phage, but also the first jumbo phage infecting the Listeria genus. In some embodiments, the phage is a jumbo phage. In certain instances, the jumbo phage is specific for Listeria. In some embodiments, the jumbo phage is specific for /.. grayi.
[0077] Moreover, phage genes thought to be nonessential may have unrecognized function. For example, an apparently nonessential gene may have an important function in elevating burst size such as subtle cutting, fitting, or trimming functions in assembly. Therefore, deleting genes to insert an indicator may be detrimental. Most phages can package DNA that is a few percent larger than their natural genome. Thus a bacteriophage with a larger genome size may be advantageous. In some embodiments, the bacteriophage is a jumbo bacteriophages. In some embodiments, the jumbo bacteriophage has a genome that is at least 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, or 550 kbp in length.
[0078] In some instances, a jumbo bacteriophage may not be available for a particular bacteria of interest. With this consideration a smaller indicator gene may be a more appropriate choice for modifying a bacteriophage, especially one with a smaller genome. OpLuc and NANOLUC® proteins are only about 20 kDa (approximately 500-600 bp to encode), while FLuc is about 62 kDa (approximately 1,700 bp to encode). Moreover, the reporter gene should not be expressed endogenously by the bacteria (i.e., is not part of the bacterial genome), should generate a high signal to background ratio, and should be readily detectable in a timely manner. In some embodiments, the indicator gene is a luciferase. In other embodiments, the indicator gene is an active subunit of a luciferase. Promega’s NANOLUC® is a modified Oplophorus gracilirostris (deep sea shrimp) luciferase. In some embodiments, NANOLUC® combined with Promega’s NANO-GLO®, an imidazopyrazinone substrate (furimazine), can provide a robust signal with low background.
[0079] In some indicator phage embodiments, the indicator gene can be inserted into an untranslated region to avoid disruption of functional genes, leaving wild-type phage genes intact, which may lead to greater fitness when infecting non-lab oratory strains of bacteria. Additionally, including stop codons in all three reading frames may help to increase expression by reducing read-through, also known as leaky expression. This strategy may also eliminate the possibility of a fusion protein being made at low levels, which would manifest as background signal (e.g., luciferase) that cannot be separated from the phage.
[0080] An indicator gene may express a variety of biomolecules. The indicator gene is a gene that expresses a detectable product or an enzyme that produces a detectable product. For example, in one embodiment the indicator gene encodes a luciferase enzyme. Various types of luciferase may be used. In alternate embodiments, and as described in more detail herein, the luciferase is one of Oplophorus luciferase, Firefly luciferase, Lucia luciferase, Renilla luciferase, or an engineered luciferase. In some embodiments, the luciferase gene is derived from Oplophorus. In some embodiments, the indicator gene is a genetically modified luciferase gene, such as NANOLUC®.
[0081] Thus, in some embodiments, the present invention comprises a genetically modified bacteriophage comprising a non-bacteriophage indicator gene in the late (class III) gene region. In some embodiments, the non-native indicator gene is under the control of a late promoter. Using a viral late gene promoter ensures the reporter gene (e.g., luciferase) is not only expressed at high levels, like viral capsid proteins, but also does not shut down like endogenous bacterial genes or even early viral genes.
[0082] In some embodiments, the late promoter is a Pecentumvirus, Tequatravirus, Homburgvirus, or Kuttervirus promoter, or another phage promoter similar to that found in the selected wild-type phage, i.e., without genetic modification. The late gene region may be a class III gene region, and the bacteriophage may be derived from Listeria phage LMTA-94, P70, A511, LP-ES1, LP-ES3, LMA4, LMA8, Pecentumvirus, Tequatravirus, Homburgvirus, Kuttervirus, T7, T4, T4-like, Vil, Listeria spp. -specific bacteriophage, or another wild-type bacteriophage having a genome with at least 70, 75, 80, 85, 90 or 95% homology to LMTA-94, LMA4, LMA8, Pecentumvirus, Tequatravirus, Homburgvirus, Kuttervirus, T7, T4, Vil, or Listeria-specific bacteriophage. The Pecentumvirus late gene promoter is distinct from the T4 or Tequatravirus promoter, as it consists of not only the -10 region, but also a -35 region. This -35 region differs from the standard -35 region found in most bacterial promoters.
[0083] Genetic modifications to infectious agents may include insertions, deletions, or substitutions of a small fragment of nucleic acid, a substantial part of a gene, or an entire gene. In some embodiments, inserted or substituted nucleic acids comprise non-native sequences. A non- native indicator gene may be inserted into a bacteriophage genome such that it is under the control of a bacteriophage promoter. Thus, in some embodiments, the non-native indicator gene is not part of a fusion protein. That is, in some embodiments, a genetic modification may be configured such that the indicator protein product does not comprise polypeptides of the wildtype bacteriophage. In some embodiments, the indicator protein product is soluble. In some embodiments, the invention comprises a method for detecting a bacterium of interest comprising the step of incubating a test sample with such a recombinant bacteriophage. [0084] In some embodiments, expression of the indicator gene in progeny bacteriophage following infection of host bacteria results in a free, soluble protein product. In some embodiments, the non-native indicator gene is not contiguous with a gene encoding a structural phage protein and therefore does not yield a fusion protein. Unlike systems that employ a fusion of a detection moiety to the capsid protein (i.e., a fusion protein), some embodiments of the present invention express a soluble indicator or reporter (e.g., soluble luciferase). In some embodiments, the indicator or reporter is ideally free of the bacteriophage structure. That is, the indicator or reporter is not attached to the phage structure. As such, the gene for the indicator or reporter is not fused with other genes in the recombinant phage genome. This may greatly increase the sensitivity of the assay (down to a single bacterium), and simplify the assay, allowing the assay to be completed in two hours or less for some embodiments, as opposed to several hours due to additional purification steps required with constructs that produce detectable fusion proteins. Further, fusion proteins may be less active than soluble proteins due, e.g., to protein folding constraints that may alter the conformation of the enzyme active site or access to the substrate. If the concentration is 1,000 bacterial cells/mL of sample, for example, less than four hours of infection may be sufficient for the detection of the target bacterium.
[0085] Moreover, fusion proteins by definition limit the number of the moieties attached to subunits of a protein in the bacteriophage. For example, using a commercially available system designed to serve as a platform for a fusion protein would result in about 415 copies of the fusion moiety, corresponding to the about 415 copies of the gene 10B capsid protein in each T7 bacteriophage particle. Without this constraint, infected bacteria can be expected to express many more copies of the detection moiety (e.g., luciferase) than can fit on the bacteriophage. Additionally, large fusion proteins, such as a capsid-luciferase fusions, may inhibit assembly of the bacteriophage particle, thus yielding fewer bacteriophage progeny. Thus a soluble, nonfusion indicator gene product may be preferable.
[0086] In some embodiments, the indicator phage encodes a reporter, such as a detectable enzyme. The indicator gene product may generate light and/or may be detectable by a color change. Various appropriate enzymes are commercially available, such as alkaline phosphatase (AP), horseradish peroxidase (HRP), or luciferase (Luc). In some embodiments, these enzymes may serve as the indicator moiety. In some embodiments, Firefly luciferase is the indicator moiety. In some embodiments, Oplophorus luciferase is the indicator moiety. In some embodiments, NANOLUC® is the indicator moiety. Other engineered luciferases or other enzymes that generate detectable signals may also be appropriate indicator moieties.
[0087] In some embodiments, the use of a soluble detection moiety eliminates the need to remove contaminating parental phage from the lysate of the infected sample cells. With a fusion protein system, any bacteriophage used to infect sample cells would have the detection moiety attached, and would be indistinguishable from the daughter bacteriophage also containing the detection moiety. As detection of sample bacteria relies on the detection of a newly created (de novo synthesized) detection moiety, using fusion constructs requires additional steps to separate old (parental) moieties from newly created (daughter bacteriophage) moieties. This may be accomplished by washing the infected cells multiple times, prior to the completion of the bacteriophage life cycle, inactivating excess parental phage after infection by physical or chemical means, and/or chemically modifying the parental bacteriophage with a binding moiety (such as biotin), which can then be bound and separated (such as by Streptavidin-coated Sepharose beads). However, even with all these attempts at removal, parental phage can remain when a high concentration of parental phage is used to assure infection of a low number of sample cells, creating background signal that may obscure detection of signal from infected cell progeny phage.
[0088] By contrast, with the soluble detection moiety expressed in some embodiments of the present invention, purification of the parental phage from the final lysate is unnecessary, as the parental phage do not have any detection moiety attached. Thus any detection moiety present after infection must have been created de novo, indicating the presence of an infected bacterium or bacteria. To take advantage of this benefit, the production and preparation of parental phage may include purification of the phage from any free detection moiety produced during the production of parental bacteriophage in bacterial culture. Standard bacteriophage purification techniques may be employed to purify some embodiments of phage according to the present invention, such as sucrose density gradient centrifugation, cesium chloride isopycnic density gradient centrifugation, HPLC, size exclusion chromatography, and dialysis or derived technologies (such as Amicon brand concentrators - Millipore, Inc.). Cesium chloride isopycnic ultracentrifugation can be employed as part of the preparation of recombinant phage of the invention, to separate parental phage particles from contaminating luciferase protein produced upon propagation of the phage in the bacterial host. In this way, the parental recombinant bacteriophage of the invention is substantially free of any luciferase generated during production in the bacteria. Removal of residual luciferase present in the phage stock can substantially reduce background signal observed when the recombinant bacteriophage are incubated with a test sample.
[0089] In some embodiments of modified bacteriophage, the late promoter (class III promoter, e.g., from Pecentumvirus, Homburgvirus, T7, T4, Vil, or LMA4/8) has high affinity for RNA polymerase of the same bacteriophage that transcribes genes for structural proteins assembled into the bacteriophage particle. These proteins are the most abundant proteins made by the phage, as each bacteriophage particle comprises dozens or hundreds of copies of these molecules. The use of a viral late promoter can ensure optimally high level of expression of the luciferase detection moiety. The use of a late viral promoter derived from, specific to, or active under the original wild-type bacteriophage the indicator phage is derived from (e.g., a Pecentumvirus, Homburgvirus, T4, T7, Vil, or LMA4/8 late promoter with a Pecentumvirus, T4, T7-, Vil-, or LMA-based system) can further ensure optimal expression of the detection moiety. The use of a standard bacterial (non-viral/non-bacteriophage) promoter may in some cases be detrimental to expression, as these promoters are often down-regulated during bacteriophage infection (in order for the bacteriophage to prioritize the bacterial resources for phage protein production). Thus, in some embodiments, the phage is preferably engineered to encode and express at high level a soluble (free) indicator moiety, using a placement in the genome that does not limit expression to the number of subunits of a phage structural component.
[0090] Compositions of the invention may comprise one or more wild-type or genetically modified infectious agents (e.g., bacteriophages) and one or more indicator genes. In some embodiments, compositions can include cocktails of different indicator phages that may encode and express the same or different indicator proteins. In some embodiments, the cocktail of bacteriophage comprises at least two different types of recombinant bacteriophages. Methods of Preparing Indicator Bacteriophage
[0091] Embodiments of methods for making indicator bacteriophage begin with selection of a wild-type bacteriophage for genetic modification. Some bacteriophage are highly specific for a target bacterium. This presents an opportunity for highly specific detection.
[0092] Thus, the methods of the present invention utilize the high specificity of binding agents, associated with infectious agents that recognize and bind to a particular microorganism of interest as a means to amplify a signal and thereby detect low levels of a microorganism (e.g., a single microorganism) present in a sample. For example, infectious agents (e.g., bacteriophage) specifically recognize surface receptors of particular microorganisms and thus specifically infect those microorganisms. As such, these infectious agents may be appropriate binding agents for targeting a microorganism of interest.
[0093] Some embodiments of the invention utilize the specificity of binding and high-level genetic expression capacity of recombinant bacteriophage for rapid and sensitive targeting to infect and facilitate detection of a bacterium of interest. In some embodiments, a Listeria- specific bacteriophage is genetically modified to include a reporter gene. In some embodiments the late gene region of a bacteriophage is genetically modified to include a reporter gene. In some embodiments, a reporter gene is positioned downstream of the major capsid gene. In other embodiments, a reporter gene is positioned upstream of the major capsid gene. In some embodiments, the inserted genetic construct further comprises its own exogenous, dedicated promoter to drive expression of the indicator gene. The exogenous promoter is in addition to any endogenous promoter in the phage genome. As bacteriophage produce polycistronic mRNA transcripts, only a single promoter is required upstream of the first gene/cistron in the transcript. Conventional recombinant constructs only use the endogenous bacteriophage promoter to drive inserted genes. In contrast, addition of an additional promoter upstream of the reporter gene and ribosomal binding site may increase gene expression by acting as a secondary initiation site for transcription. The complicated and compact genomes of viruses often have overlapping genes in different frames, sometimes in two different directions.
[0094] Some embodiments of methods for preparing a recombinant indicator bacteriophage include selecting a wild-type bacteriophage that specifically infects a target pathogenic bacterium such as Listeria spp.; preparing a homologous recombination plasmid/vector that comprises an indicator gene; transforming the homologous recombination plasmid/vector into target pathogenic bacteria; infecting the transformed target pathogenic bacteria with the selected wild-type bacteriophage, thereby allowing homologous recombination to occur between the plasmid/vector and the bacteriophage genome; and isolating a particular clone of recombinant bacteriophage.
[0095] Various methods for designing and preparing a homologous recombination plasmid are known. Various methods for transforming bacteria with a plasmid are known, including heatshock, F pilus-mediated bacterial conjugation, electroporation, and other methods. Various methods for isolating a particular clone following homologous recombination are also known. Some method embodiments described herein utilize particular strategies.
[0096] Thus, some embodiments of methods for preparing indicator bacteriophage include the steps of selecting a wild-type bacteriophage that specifically infects a target pathogenic bacterium; determining the natural sequence in the late region of the genome of the selected bacteriophage; annotating the genome and identifying the major capsid protein gene of the selected bacteriophage; designing a sequence for homologous recombination adjacent to the major capsid protein gene, wherein the sequence comprises a codon-optimized reporter gene; incorporating the sequence designed for homologous recombination into a plasmid/vector; transforming the plasmid/vector into target pathogenic bacteria; selecting for the transformed bacteria; infecting the transformed bacteria with the selected wild-type bacteriophage, thereby allowing homologous recombination to occur between the plasmid and the bacteriophage genome; determining the titer of the resulting recombinant bacteriophage lysate; and performing a limiting dilution assay to enrich and isolate the recombinant bacteriophage. Some embodiments comprise further repeating the limiting dilution and titer steps, following the first limiting dilution assay, as needed until the recombinant bacteriophage represent a detectable fraction of the mixture. For example, in some embodiments the limiting dilution and titer steps can be repeated until at least 1/30 of the bacteriophage in the mixture are recombinant before isolating a particular clone of recombinant bacteriophage. A ratio of 1 :30 recombinant:wild-type is expected, in some embodiments, to yield an average of 3.2 transducing units (TU) per 96 plaques (e.g., in a 96-well plate). The initial ratio of recombinant to wild-type phage may be determined by performing limiting dilution assays based on the TCID50 (tissue culture infectious dose 50%) as previously described in U.S. App. No. 15/409,258. By Poisson distribution, a 1 :30 ratio generates a 96% chance of observing at least one TU somewhere in the 96 wells.
[0097] Figure 1 depicts a schematic representation of the genomic structure of a recombinant indicator bacteriophage of the invention. For the embodiment depicted in Figure 1, the detection moiety is encoded by a luciferase gene 100 inserted within the late (class III) gene region 110, which is expressed late in the viral life cycle. Late genes are generally expressed at higher levels than other phage genes, as they code for structural proteins. Thus, in the embodiment of the recombinant phage depicted in Figure 1, the indicator gene (i.e., luciferase) is inserted into the late gene region, just after the gene for major capsid protein (cps) 120, and is a construct comprising the luciferase gene 100. In some embodiments, the construct depicted in Figure 1 may include stop codons in all 3 reading frames to ensure luciferase is not incorporated into the cps gene product through creation of a fusion protein. Also as depicted in Figure 1, the construct may comprise an additional, dedicated late promoter 130 to drive transcription and expression of the luciferase gene. The construct also comprises a ribosome binding site (RBS) 140. This construct ensures soluble luciferase is produced such that expression is not limited to the number of capsid proteins inherent in the phage display system.
[0098] As noted herein, in certain embodiments, it may be preferred to utilize infectious agents that have been isolated from the environment for production of the infectious agents of the invention. In this way, infectious agents that are specific to naturally derived microorganisms may be generated.
[0099] For example, Figure 2 shows the genome of bacteriophage LMA4, a wild-type bacteriophage that specifically infects Listeria spp. As discussed in the Examples, the Major Capsid Protein (cps) 240 and various other structural genes are within the late gene region 210, consisting of structural genes, which code for virion proteins. Genes coding for tRNA 220 represent genomic sequence adjacent to, but outside of the late gene region. A hypothetical gene homologous to the putative prohead protease of Listeria phage LMTA-94 230 is upstream of cps 240, consisting of structural genes, which code for virion proteins. Other late genes depicted are homologs to Listeria phage LMTA-94’s putative Major Capsid Protein (cps) 240, followed by a transcriptional terminator 250, and a homolog to Listeria phage LMTA-94 Tail Sheath Protein (tsh) 260. As these virion proteins are expressed at a very high level, any genes inserted into this region can be expected to have similar expression levels, as long as late gene promoters and/or other similar control elements are used.
[0100] There are numerous known methods and commercial products for preparing plasmids. For example, PCR, site-directed mutagenesis, restriction digestion, ligation, cloning, and other techniques may be used in combination to prepare plasmids. Synthetic plasmids can also be ordered commercially (e.g., GeneWiz). Cosmids can also be employed, or the CRISPR/CAS9 system could be used to selectively edit a bacteriophage genome. Some embodiments of methods of preparing a recombinant indicator bacteriophage include designing a plasmid that can readily recombine with the wild-type bacteriophage genome to generate recombinant genomes. In designing a plasmid, some embodiments include addition of a codon-optimized reporter gene, such as a luciferase gene. Some embodiments further include addition of elements into the upstream untranslated region. For example, in designing a plasmid to recombine with the Listeria -specific bacteriophage genome, an upstream untranslated region can be added between the sequence encoding the C-terminus of the gp23 / Major Capsid Protein and the start codon of the NANOLUC® reporter gene. The untranslated region can include a promoter, such as a T4, Tequatravirus, Homburgvirus, T7, T7-like, Pecentumvirus, Listeria-specific bacteriophage, Vil, or Kuttervirus promoter. The untranslated region can also include a Ribosomal Entry / Binding Site (RBS), also known as a “Shine-Dalgamo Sequence” with bacterial systems. Either or both of these elements, or other untranslated elements, can be embedded within a short upstream untranslated region made of random sequences comprising about the same GC content as rest of the phage genome. The random region should not include an ATG sequence, as that will act as a start codon.
[0101] The compositions of the invention may comprise various infectious agents and/or indicator genes. For example, Figure 3 shows a homologous recombination plasmid construct used in making the indicator phage specific for Listeria spp. Constructs were made and used in recombination with Listeria spp. phage LMA4, Listeria spp. phage LMA8, Listeria spp. phage LP-ES3, Listeria spp. phage LP-ES1 or other Listeria- specific phages to generate recombinant bacteriophage of the invention. The construct in Figure 3 shows a general schematic for the recombination plasmid used for homologous recombination insertion of the NANOLUC® luciferase into both Listeria spp. Pecentumvirus phages LMA4 and LMA8, each with 500 bp of upstream and downstream homologous sequence: homologous recombination plasmid pCE104.HR.ListeriaPhage.NANOLUC.v2. P ecentumvirus ,NANOLUC.v2 and the recombination plasmid used for homologous recombination insert of the NANOLUC® luciferase into Listeria spp. Homburgvirus phage LP-ES1, pCE104.HR.LP-ESl.NanoLuc
[0102] In certain embodiments a plasmid is designated pCE l 04.HR.Pecentumvirus.NanoLuc.v2. The detection/indicator moiety is encoded by the NANOLUC® reporter gene 300. The insert, represented by the series of rectangles, is in the Gram positive shuttle vector, pCE104 310. The upstream homologous recombination region consists of 500bp of the major capsid protein C-terminal fragment 320. A f ecentumvirus late promoter consensus sequence & Shine-Dalgarno Ribosomal Entry /Binding Site within the 5’ untranslated region 330. The codon-optimized NANOLUC® reporter gene 300 follows immediately after. The endogenous transcriptional terminator comes next, along with the untranslated region (UTR) and hypothetical protein N-Terminal fragment consisting of the downstream homologous recombination 340 are at the end of the Homologous Recombination region.
[0103] The Major Capsid Protein fragment is a part of a structural gene that encodes a virion protein. As these virion proteins are expressed at a very high level, any genes inserted into this region can be expected to have similar expression levels, as long as late gene promoters and/or other similar control elements are used.
[0104] In some embodiments, indicator phage according to the invention comprise Listeria- specific bacteriophage genetically engineered to comprise a reporter gene such as a luciferase gene. For example, an indicator phage can be Listeria spp. -specific bacteriophage wherein the genome comprises the sequence of the NANOLUC® gene. A recombinant Listeria-specific NANOLUC® bacteriophage genome may further comprise a consensus promoter of P ecentumvirus, T4, T7, Listeria-specific, Vil, LMA4, or LMA8 bacteriophage or another late promoter. In further embodiments, the promoter is an exogenous promoter. Insertion of an exogenous promoter to drive expression of an indicator gene is advantageous in that expression is not limited by the expression of other phage proteins (e.g., the major capsid protein).
[0105] Thus, in the embodiment of the recombinant phage generated as a result of the recombination, the indicator gene (i.e., NANOLUC®) is inserted into the late gene region, just downstream of the gene encoding the major capsid protein, and thus creates recombinant bacteriophage genomes comprising the NANOLUC® gene. The construct may additionally comprise the consensus promoter of Listeria phage LMTA-94, T4, T7, Listeria-specific bacteriophage, Vil, or another late promoter or another suitable promoter to drive transcription and expression of the luciferase gene. The construct may also comprise a composite untranslated region synthesized from several UTRs. This construct ensures soluble luciferase is produced such that expression is not limited to the number of capsid proteins inherent in the phage display system.
[0106] Recombinant phage generated by homologous recombination of a plasmid designed for recombination with the wild-type phage genome can be isolated from a mixture comprising a very small percentage (e.g., 0.005%) of total phage genomes. Following isolation, large scale production may be performed to obtain high titer recombinant indicator phage stocks appropriate for use in the Listeria spp. detection assay. Furthermore, cesium chloride isopycnic density gradient centrifugation may be used to separate phage particles from contaminating luciferase protein to reduce background.
[0107] NANOLUC®-expressing phage have repeatedly been found to exhibit impressive diagnostic sensitivity and robust signal production across multiple genera. Some jumbo phages have recently been described to form a novel nucleus-like proteinaceous shell upon infection, which protects phage DNA from host defense mechanisms and could conceivably interfere with genetic engineering. Despite this possibility, a NANOLUC®-expressing recombinant, LPJP1.NL was successfully generated using standard homologous recombination methods. LPJP1.NL produced substantial RLU from limited bacterial burdens without enrichment, requiring only a single log phase L. grayi bacterium to yield a detectable signal after a 4 h infection. As expected, signal increased proportionally with bacterial burden. Overall, LPJP1.NL is both the first jumbo phage reporter and the first phage reporter capable of detecting L. grayi. The success of LPJP1.NL highlights the untapped potential of jumbo phage in phage-based diagnostics.
Methods of Using Infectious Agents for Detecting Listeria spp. [0108] As noted herein, in certain embodiments, the invention may comprise methods of using infectious particles for detecting microorganisms. The methods of the invention may be embodied in a variety of ways.
[0109] In an embodiment, the invention may comprise a method for detecting a bacterium of interest in a sample comprising the steps of: incubating the sample with bacteriophage that infects the bacterium of interest, wherein the bacteriophage comprises an indicator gene such that expression of the indicator gene during bacteriophage replication following infection of the bacterium of interest results in production of a soluble indicator protein product; and detecting the indicator protein product, wherein positive detection of the indicator protein product indicates that the bacterium of interest is present in the sample. In certain instances, the invention comprises a method for detecting Listeria spp. in a sample comprising: incubating the sample with a cocktail composition comprising at least one Listeria-specific recombinant bacteriophage; and detecting an indicator protein product produced by the recombinant bacteriophage, wherein positive detection of the indicator protein product indicates that Listeria spp. is present in the sample.
[0110] In certain instances, the recombinant bacteriophage or cocktail of recombinant bacteriophages are capable of detecting one or more target species of Listeria. In some embodiments, the target species of Listeria is selected from L. monocytogenes, L. ivanovii, L. innocua, and L. grayi. In certain embodiments, the bacteriophage or cocktail of recombinant bacteriophages is capable of infecting at least 1, 2, 3, 4, 5, 6, or 7 or more serovars of L. monocytogenes. In some embodiments, the bacteriophage cocktail is capable of infecting at least one of serovars l/2a, l/2b, l/2c, 3a, 3b, 3c, 4d, 4d, 4e, and 7 of the species L. monocytogenes.
[0111] In some embodiments, at least one type of recombinant bacteriophage is constructed from LMA4, LMA8, A511, P70, LP-ES1, and LP-ES3. In other embodiments, at least one type of recombinant bacteriophage is constructed from LMA8, LP-ES1, and LP-ES3. In embodiments, the recombinant bacteriophage is cpable of infecting one or more of L. innocua, L. grayi, L. monocytogenes serovar 3 A.
[0112] In certain embodiments, the assay may be performed to utilize a general concept that can be modified to accommodate different sample types or sizes and assay formats. Embodiments employing recombinant bacteriophage of the invention (i.e., indicator bacteriophage) may allow rapid detection of specific bacterial strains such as Listeria spp., with total assay times under 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 8.5, 9.0, 9.5, 10.0, 10.5, 11.0, 11.5, 12, 12.5, 13.0, 13.5, 14.0, 14.5, 15.0, 15.5, 16.0, 16.5, 17.0, 17.5, 18.0, 18.5, 19.0, 19.5, 20.0, 21.0, 21.5 22.0, 22.5, 23.0, 23.5, 24.0, 24.5 25.0, 25.5, or 26.0 hours, depending on the sample type, sample size, and assay format. For example, the amount of time required may be somewhat shorter or longer depending on the strain of bacteriophage and the strain of bacteria to be detected in the assay, type and size of the sample to be tested, conditions required for viability of the target, complexity of the physical/chemical environment, and the concentration of “endogenous” non-target bacterial contaminants.
[0113] The bacteriophage (e.g., T7, T4,P70 P100, A511, LP-ES3, LP-ES1, LMA4 or LMA8 phage) may be engineered to express a soluble luciferase during replication of the phage. Expression of luciferase is driven by a viral capsid promoter (e.g., the bacteriophage Pecentumvirus or T4 late promoter), yielding high expression. Parental phage are prepared such that they are free of luciferase, so the luciferase detected in the assay must come from replication of progeny phage during infection of the bacterial cells. Thus, there is generally no need to separate out the parental phage from the progeny phage.
[0114] Figure 4 depicts a filter plate assay for detecting Listeria using a modified bacteriophage according to an embodiment of the invention. Briefly, samples 416 that include a bacterium of interest 418 may be added to wells 402 of a multi-well filter plate 404 and spun 406 to concentrate the samples by removal of liquid from the sample. Genetically modified phage 420 are added to wells and incubated with additional media added for enough time sufficient for adsorption 408 followed by infection of target bacteria and advancement of the phage life cycle 410 (e.g., ~ 240 minutes). Finally, luciferase substrate is added and reacts with any luciferase present 424. The resulting emission is measured in a luminometer 414 which detects luciferase activity 426.
[0115] In some embodiments, enrichment of bacteria in the sample is not needed prior to testing. In some embodiments, the sample may be enriched prior to testing by incubation in conditions that encourage growth. In such embodiments, the enrichment period can be 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, or 24 hours or longer, depending on the sample type and size. [0116] In some embodiments, the indicator bacteriophage comprises a detectable indicator moiety, and infection of a single pathogenic cell (e.g., bacterium) can be detected by an amplified signal generated via the indicator moiety. Thus the method may comprise detecting an indicator moiety produced during phage replication, wherein detection of the indicator indicates that the bacterium of interest is present in the sample.
[0117] In an embodiment, the invention may comprise a method for detecting a bacterium of interest in a sample comprising the steps of: incubating the sample with a recombinant bacteriophage that infects the bacterium of interest, wherein the recombinant bacteriophage comprises an indicator gene inserted into a late gene region of the bacteriophage such that expression of the indicator gene during bacteriophage replication following infection of host bacteria results in production of a soluble indicator protein product; and detecting the indicator protein product, wherein positive detection of the indicator protein product indicates that the bacterium of interest is present in the sample. In some embodiments, the amount of indicator moiety detected corresponds to the amount of the bacterium of interest present in the sample.
[0118] As described in more detail herein, the methods and systems of the invention may utilize a range of concentrations of parental indicator bacteriophage to infect bacteria present in the sample. In some embodiments the indicator bacteriophage are added to the sample at a concentration sufficient to rapidly find, bind, and infect target bacteria that are present in very low numbers in the sample, such as ten cells. In some embodiments, the phage concentration can be sufficient to find, bind, and infect the target bacteria in less than one hour. In other embodiments, these events can occur in less than two hours, or less than three hours, or less than four hours, following addition of indicator phage to the sample. For example, in certain embodiments, the bacteriophage concentration for the incubating step is greater than 1 x 10 5 PFU/mL, greater than 1 x 10 6 PFU/mL, or greater than 1 x 10 7 PFU/mL.
[0119] In certain embodiments, the recombinant infectious agent may be purified so as to be free of any residual indicator protein that may be generated upon production of the infectious agent stock. Thus, in certain embodiments, the recombinant bacteriophage may be purified using cesium chloride isopycnic density gradient centrifugation prior to incubation with the sample. When the infectious agent is a bacteriophage, this purification may have the added benefit of removing bacteriophage that do not have DNA (i.e., empty phage or “ghosts”). [0120] In some embodiments of the methods of the invention, the microorganism may be detected without any isolation or purification of the microorganisms from a sample. For example, in certain embodiments, a sample containing one or a few microorganisms of interest may be applied directly to an assay container such as a spin column, a microtiter well, or a filter and the assay is conducted in that assay container. Various embodiments of such assays are disclosed herein.
[0121] Aliquots of a test sample may be distributed directly into wells of a multi-well plate, indicator phage may be added, and after a period of time sufficient for infection, a lysis buffer may be added as well as a substrate for the indicator moiety (e.g., luciferase substrate for a luciferase indicator) and assayed for detection of the indicator signal. Some embodiments of the method can be performed on filter plates. Some embodiments of the method can be performed with or without concentration of the sample before infection with indicator phage.
[0122] For example, in many embodiments, multi -well plates are used to conduct the assays. The choice of plates (or any other container in which detecting may be performed) may affect the detecting step. For example, some plates may include a colored or white background, which may affect the detection of light emissions. Generally speaking, white plates have higher sensitivity but also yield a higher background signal. Other colors of plates may generate lower background signal but also have a slightly lower sensitivity. Additionally, one reason for background signal is the leakage of light from one well to another, adjacent well. There are some plates that have white wells but the rest of the plate is black. This allows for a high signal inside the well but prevents well-to-well light leakage and thus may decrease background. Thus the choice of plate or other assay vessel may influence the sensitivity and background signal for the assay.
[0123] Methods of the invention may comprise various other steps to increase sensitivity. For example, as discussed in more detail herein, the method may comprise a step for washing the captured and infected bacterium, after adding the bacteriophage but before incubating, to remove excess parental bacteriophage and/or luciferase or other reporter protein contaminating the bacteriophage preparation.
[0124] In some embodiments, detection of the microorganism of interest may be completed without the need for culturing the sample as a way to increase the population of the microorganisms. For example, in certain embodiments the total time required for detection is less than 28.0 hours, 27.0 hours, 26.0 hours, 25.0 hours, 24.0 hours, 23.0 hours, 22.0 hours, 21.0 hours, 20.0 hours, 19.0 hours, 18.0 hours, 17.0 hours, 16.0 hours, 15.0 hours, 14.0 hours, 13.0 hours, 12.0 hours, 11.0 hours, 10.0 hours, 9.0 hours, 8.0 hours, 7.0 hours, 6.0 hours, 5.0 hours, 4.0 hours, 3.0 hours, 2.5 hours, 2.0 hours, 1.5 hours, or less than 1.0 hour. Minimizing time to result is critical in food and environmental testing for pathogens.
[0125] In contrast to assays known in the art, the method of the invention can detect individual microorganisms. Thus, in certain embodiments, the method may detect as few as 10 cells of the microorganism present in a sample. For example, in certain embodiments, the recombinant bacteriophage is highly specific for Listeria spp. In an embodiment, the recombinant bacteriophage can distinguish Listeria spp. in the presence of other types of bacteria. In certain embodiments, the recombinant bacteriophage can be used to detect a single bacterium of the specific type in the sample. In certain embodiments, the recombinant bacteriophage detects as few as 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 30, 40, 50, 60, 70, 80, 90, or 100 of the specific bacteria in the sample.
[0126] Thus, aspects of the present invention provide methods for detection of microorganisms in a test sample via an indicator moiety. In some embodiments, where the microorganism of interest is a bacterium, the indicator moiety may be associated with an infectious agent such as an indicator bacteriophage. The indicator moiety may react with a substrate to emit a detectable signal or may emit an intrinsic signal (e.g., fluorescent protein). In some embodiments, the detection sensitivity can reveal the presence of as few as 50, 40, 30, 20, 10, 5, or 2 cells of the microorganism of interest in a test sample. In some embodiments, even a single cell of the microorganism of interest may yield a detectable signal. In some embodiments, the bacteriophage is a Pecentumvirus, Tequatravirus, Homburgvirus, or Kuttervirus bacteriophage. In some embodiments, the recombinant bacteriophage is derived from Listeria- specific bacteriophage. In certain embodiments, a recombinant /./.s/c/va-specific bacteriophage is highly specific for Listeria spp.
[0127] In some embodiments, the indicator moiety encoded by the infectious agent may be detectable during or after replication of the infectious agent. Many different types of detectable biomolecules suitable for use as indicator moieties are known in the art, and many are commercially available. In some embodiments the indicator phage comprises an enzyme, which serves as the indicator moiety. In some embodiments, the genome of the indicator phage is modified to encode a soluble protein. In some embodiments, the indicator phage encodes a detectable enzyme. The indicator may emit light and/or may be detectable by a color change in an added substrate. Various appropriate enzymes are commercially available, such as alkaline phosphatase (AP), horseradish peroxidase (HRP), or luciferase (Luc). In some embodiments, these enzymes may serve as the indicator moiety. In some embodiments, Firefly luciferase is the indicator moiety. In some embodiments, Oplophorus luciferase is the indicator moiety. In some embodiments, NANOLUC® is the indicator moiety. Other engineered luciferases or other enzymes that generate detectable signals may also be appropriate indicator moieties.
[0128] Thus, in some embodiments, the recombinant bacteriophage of the methods, systems or kits is prepared from wild-type Listeria-specific bacteriophage. In some embodiments, the indicator gene encodes a protein that emits an intrinsic signal, such as a fluorescent protein (e.g., green fluorescent protein or others). The indicator may emit light and/or may be detectable by a color change. In some embodiments, the indicator gene encodes an enzyme (e.g., luciferase) that interacts with a substrate to generate signal. In some embodiments, the indicator gene is a luciferase gene. In some embodiments, the luciferase gene is one of Oplophorus luciferase, Firefly luciferase, Renilla luciferase, External Gaussia luciferase, Lucia luciferase, or an engineered luciferase such as NANOLUC®, Rluc8.6-535, or Orange Nano-lantern.
[0129] Detecting the indicator may include detecting emissions of light. In some embodiments, a luminometer may be used to detect the reaction of indicator (e.g., luciferase) with a substrate. The detection of RLU can be achieved with a luminometer, or other machines or devices may also be used. For example, a spectrophotometer, CCD camera, or CMOS camera may detect color changes and other light emissions. Absolute RLU are important for detection, but the signal to background ratio also needs to be high (e.g., > 2.0, > 2.5, or > 3.0) in order for single cells or low numbers of cells to be detected reliably.
[0130] In some embodiments, the indicator phage is genetically engineered to contain the gene for an enzyme, such as a luciferase, which is only produced upon infection of bacteria that the phage specifically recognizes and infects. In some embodiments, the indicator moiety is expressed late in the viral life cycle. In some embodiments, as described herein, the indicator is a soluble protein (e.g., soluble luciferase) and is not fused with a phage structural protein that limits its copy number.
[0131] Thus in some embodiments utilizing indicator phage, the invention comprises a method for detecting a microorganism of interest comprising the steps of capturing at least one sample bacterium; incubating the at least one bacterium with a plurality of indicator phage; allowing time for infection and replication to generate progeny phage and express soluble indicator moiety; and detecting the progeny phage, or preferably the indicator, wherein detection of the indicator demonstrates that the bacterium is present in the sample.
[0132] For example, in some embodiments the test sample bacterium may be captured by binding to the surface of a plate, or by filtering the sample through a bacteriological filter (e.g., 0.45 pm pore size spin filter or plate filter). In an embodiment, the infectious agent (e.g., indicator phage) is added in a minimal volume to the captured sample directly on the filter. In an embodiment, the microorganism captured on the filter or plate surface is subsequently washed one or more times to remove excess unbound infectious agent. In an embodiment, a medium (e.g., Luria-Bertani (LB) Broth, Buffered Peptone Water (BPW) or Tryptic Soy Broth or Tryptone Soy Broth (TSB), Brain Heart Infusion (BHI) Buffered Listeria Enrichment Broth (BLEB) University of Vermont (UVM) Broth, or Fraser Broth) may be added for further incubation time, to allow replication of bacterial cells and phage and high-level expression of the gene encoding the indicator moiety. However, a surprising aspect of some embodiments of testing assays is that the incubation step with indicator phage only needs to be long enough for a single phage life cycle. The amplification power of using bacteriophage was previously thought to require more time, such that the phage would replicate for several cycles. A single replication cycle of indicator phage can be sufficient to facilitate sensitive and rapid detection according to some embodiments of the present invention.
[0133] In some embodiments, aliquots of a test sample comprising bacteria may be applied to a spin column and after infection with a recombinant bacteriophage and an optional washing to remove any excess bacteriophage, the amount of soluble indicator detected will be proportional to the amount of bacteriophage that are produced by infected bacteria.
[0134] Soluble indicator (e.g., luciferase) released into the surrounding liquid upon lysis of the bacteria may then be measured and quantified. In an embodiment, the solution is spun through the filter, and the filtrate collected for assay in a new receptacle (e.g., in a luminometer) following addition of a substrate for the indicator enzyme (e.g., luciferase substrate). Alternatively, the indicator signal may be measured directly on the filter.
[0135] In various embodiments, the purified parental indicator phage does not comprise the detectable indicator itself, because the parental phage can be purified before it is used for incubation with a test sample. Expression of late (Class III) genes occurs late in the viral life cycle. In some embodiments of the present invention, parental phage may be purified to exclude any existing indicator protein (e.g., luciferase). In some embodiments, expression of the indicator gene during bacteriophage replication following infection of host bacteria results in a soluble indicator protein product. Thus, in many embodiments, it is not necessary to separate parental from progeny phage prior to the detecting step. In an embodiment, the microorganism is a bacterium and the indicator phage is a bacteriophage. In an embodiment, the indicator moiety is soluble luciferase, which is released upon lysis of the host microorganism.
[0136] Thus, in an alternate embodiment, the indicator substrate (e.g., luciferase substrate) may be incubated with the portion of the sample that remains on a filter or bound to a plate surface. Accordingly, in some embodiments the solid support is a 96-well filter plate (or regular 96-well plate), and the substrate reaction may be detected by placing the plate directly in the luminometer.
[0137] For example, in an embodiment, the invention may comprise a method for detecting Listeria spp. comprising the steps of infecting cells captured on a 96-well filter plate with a plurality of parental indicator phage capable of expressing luciferase upon infection; washing excess phage away; adding BHI broth and allowing time for phage to replicate and lyse the specific Listeria spp. target (e.g., 60-240 minutes); and detecting the indicator luciferase by adding luciferase substrate and measuring luciferase activity directly in the 96-well plate, wherein detection of luciferase activity indicates that the Listeria spp. is present in the sample.
[0138] In another embodiment, the invention may comprise a method for detecting Listeria spp. comprising the steps of infecting cells in liquid solution or suspension in a 96-well plate with a plurality of parental indicator phage capable of expressing luciferase upon infection; allowing time for phage to replicate and lyse the specific Listeria spp. target (e.g., 60-240 minutes); and detecting the indicator luciferase by adding luciferase substrate and measuring luciferase activity directly in the 96-well plate, wherein detection of luciferase activity indicates that the Listeria spp. is present in the sample. In such an embodiment no capturing step is necessary. In some embodiments, the liquid solution or suspension may be a consumable test sample, such as a vegetable wash. In some embodiments, the liquid solution or suspension may be a vegetable wash fortified with concentrated Luria-Bertani (LB) Broth, Buffered Peptone Water (BPW) or Tryptic Soy Broth or Tryptone Soy Broth (TSB), Brain Heart Infusion (BHI) Buffered Listeria Enrichment Broth (BLEB) University of Vermont (UVM) Broth, or Fraser Broth. In some embodiments, the liquid solution or suspension may be bacteria diluted in BHI Broth.
[0139] In some embodiments, lysis of the bacterium may occur before, during, or after the detection step. Experiments suggest that infected unlysed cells may be detectable upon addition of luciferase substrate in some embodiments. Presumably, luciferase may exit cells and/or luciferase substrate may enter cells without complete cell lysis. Thus, for embodiments utilizing the spin filter system, where only luciferase released into the lysate (and not luciferase still inside intact bacteria) is analyzed in the luminometer, lysis is required for detection. However, for embodiments utilizing filter plates or 96-well plates with sample in solution or suspension, where the original plate full of intact and lysed cells is directly assayed in the luminometer, lysis is not necessary for detection.
[0140] In some embodiments, the reaction of indicator moiety (e.g., luciferase) with substrate may continue for 60 minutes or more, and detection at various time points may be desirable for optimizing sensitivity. For example, in embodiments using 96-well filter plates as the solid support and luciferase as the indicator, luminometer readings may be taken initially and at 10- or 15-minute intervals until the reaction is completed.
[0141] Surprisingly, high concentrations of phage utilized for infecting test samples have successfully achieved detection of very low numbers of a target microorganism in a very short timeframe. The incubation of phage with a test sample in some embodiments need only be long enough for a single phage life cycle. In some embodiments, the bacteriophage concentration for this incubating step is greater than 7 x 10 6 , 8 x 10 6 , 9 x 10 6 , 1.0 x 10 7 , 1.1 x 10 7 , 1.2 x 10 7 , 1.3 x 10 7 , 1.4 x 10 7 , 1.5 x 10 7 , 1.6 x 10 7 , 1.7 x 10 7 , 1.8 x 10 7 , 1.9 x 10 7 , 2.0 x 10 7 , 3.0 x 10 7 , 4.0 x 10 7 , 5.0 x 10 7 , 6.0 x 10 7 , 7.0 x 10 7 , 8.0 x 10 7 , 9.0 x 10 7 , or 1.0 x 10 8 PFU/mL. [0142] Success with such high concentrations of phage is surprising because the large numbers of phage were previously associated with “lysis from without,” which killed target cells and thereby prevented generation of useful signal from earlier phage assays. It is possible that the clean-up of prepared phage stocks described herein helps to alleviate this problem (e.g., clean-up by cesium chloride isopycnic density gradient ultracentrifugation), because in addition to removing any contaminating luciferase associated with the phage, this clean-up may also remove ghost particles (particles that have lost DNA). The ghost particles can lyse bacterial cells via “lysis from without,” killing the cells prematurely and thereby preventing generation of indicator signal. Electron microscopy demonstrates that a crude phage lysate (i.e., before cesium chloride clean-up) may have greater than 50% ghosts. These ghost particles may contribute to premature death of the microorganism through the action of many phage particles puncturing the cell membrane. Thus ghost particles may have contributed to previous problems where high PFU concentrations were reported to be detrimental. Moreover, a very clean phage prep allows the assay to be performed with no wash steps, which makes the assay possible to perform without an initial concentration step. Some embodiments do include an initial concentration step, and in some embodiments this concentration step allows a shorter enrichment incubation time.
[0143] Some embodiments of testing methods may further include confirmatory assays. A variety of assays are known in the art for confirming an initial result, usually at a later point in time. For example, the samples can be cultured (e.g., selective chromogenic plating), and PCR can be utilized to confirm the presence of the microbial DNA, or other confirmatory assays can be used to confirm the initial result.
[0144] In certain embodiments, the methods of the present invention combine the use of a binding agent (e.g., antibody) to purify and/or concentrate a microorganism of interest such as Listeria spp. from the sample in addition to detection with an infectious agent. For example, in certain embodiments, the present invention comprises a method for detecting a microorganism of interest in a sample comprising the steps of: capturing the microorganism from the sample on a prior support using a capture antibody specific to the microorganism of interest such as Listeria spp.,' incubating the sample with a recombinant bacteriophage that infects Listeria spp. wherein the recombinant bacteriophage comprises an indicator gene inserted into a late gene region of the bacteriophage such that expression of the indicator gene during bacteriophage replication following infection of host bacteria results in a soluble indicator protein product; and detecting the indicator protein product, wherein positive detection of the indicator protein product indicates that Listeria spp. is present in the sample.
[0145] In some embodiments synthetic phage are designed to optimize desirable traits for use in pathogen detection assays. In some embodiments bioinformatics and previous analyses of genetic modifications are employed to optimize desirable traits. For example, in some embodiments, the genes encoding phage tail proteins can be optimized to recognize and bind to particular species of bacteria. In other embodiments the genes encoding phage tail proteins can be optimized to recognize and bind to an entire genus of bacteria, or a particular group of species within a genus. In this way, the phage can be optimized to detect broader or narrower groups of pathogens. In some embodiments, the synthetic phage may be designed to improve expression of the reporter gene. Additionally and/or alternatively, in some instances, the synthetic phage may be designed to increase the burst size of the phage to improve detection.
[0146] In some embodiments, the stability of the phage may be optimized to improve shelflife. For example, enzybiotic solubility may be increased in order to increase subsequent phage stability. Additionally and/or alternatively phage thermostability may be optimized.
Thermostable phage better preserve functional activity during storage thereby increasing shelflife. Thus, in some embodiments, the thermostability and/or pH tolerance may be optimized.
[0147] In some embodiments the genetically modified phage or the synthetically derived phage comprises a detectable indicator. In some embodiments the indicator is a luciferase. In some embodiments the phage genome comprises an indicator gene (e.g., a luciferase gene or another gene encoding a detectable indicator).
Systems and Kits of the Invention
[0148] In some embodiments, the invention comprises systems (e.g., automated systems or kits) comprising components for performing the methods disclosed herein. In some embodiments, indicator phage are comprised in systems or kits according to the invention. Methods described herein may also utilize such indicator phage systems or kits. Some embodiments described herein are particularly suitable for automation and/or kits, given the minimal amount of reagents and materials required to perform the methods. In certain embodiments, each of the components of a kit may comprise a self-contained unit that is deliverable from a first site to a second site.
[0149] In some embodiments, the invention comprises systems or kits for rapid detection of a microorganism of interest in a sample. The systems or kits may in certain embodiments comprise a component for incubating the sample with an infectious agent specific for the microorganism of interest, wherein the infectious agent comprises an indicator moiety and a component for detecting the indicator moiety. In some embodiments of both the systems and the kits of the invention, the infectious agent is a recombinant bacteriophage that infects the bacterium of interest, and the recombinant bacteriophage comprises an indicator gene inserted into a late gene region of the bacteriophage as the indicator moiety such that expression of the indicator gene during bacteriophage replication following infection of host bacteria results in a soluble indicator protein product. Some systems further comprise a component for capturing the microorganism of interest on a solid support.
[0150] In other embodiments, the invention comprises a method, system, or kit for rapid detection of a microorganism of interest in a sample, comprising an infectious agent component that is specific for the microorganism of interest, wherein the infectious agent comprises an indicator moiety, and a component for detecting the indicator moiety. In some embodiments, the bacteriophage is a Tequatravirus, Vil, Kuttervirus, Homburgvirus, Pecentumvirus, o Listeria 5/?/?. -specific bacteriophage. In one embodiment, the recombinant bacteriophage is derived from Listeria 5/?/?. -specific bacteriophage. In certain embodiments, the recombinant bacteriophage is highly specific for a particular bacterium. For example, in certain embodiments, the recombinant bacteriophage is highly specific for Listeria spp. In an embodiment, the recombinant bacteriophage can distinguish Listeria spp. in the presence of other types of bacteria. In certain embodiments, a system or kit detects as few as 1, 10, 15, 20, 30, 40, 50, 60, 70, 80, 90, or 100 specific bacteria in the sample.
[0151] In certain embodiments, the systems and/or kits may further comprise a component for washing the captured microorganism sample. Additionally or alternatively, the systems and/or kits may further comprise a component for determining amount of the indicator moiety, wherein the amount of indicator moiety detected corresponds to the amount of microorganism in the sample. For example, in certain embodiments, the system or kit may comprise a luminometer or other device for measuring a luciferase enzyme activity.
[0152] In some systems and/or kits, the same component may be used for multiple steps. In some systems and/or kits, the steps are automated or controlled by the user via computer input and/or wherein a liquid-handling robot performs at least one step.
[0153] Thus in certain embodiments, the invention may comprise a system or kit for rapid detection of a microorganism of interest in a sample, comprising: a component for incubating the sample with an infectious agent specific for the microorganism of interest, wherein the infectious agent comprises an indicator moiety; a component for capturing the microorganism from the sample on a solid support; a component for washing the captured microorganism sample to remove unbound infectious agent; and a component for detecting the indicator moiety. In some embodiments, the same component may be used for steps of capturing and/or incubating and/or washing (e.g., a filter component). Some embodiments additionally comprise a component for determining the amount of the microorganism of interest in the sample, wherein the amount of indicator moiety detected corresponds to the amount of microorganism in the sample. Such systems can include various embodiments and subembodiments analogous to those described above for methods of rapid detection of microorganisms. In an embodiment, the microorganism is a bacterium and the infectious agent is a bacteriophage. In a computerized system, the system may be fully automated, semi-automated, or directed by the user through a computer (or some combination thereof).
[0154] In some embodiments, the system may comprise a component for isolating the microorganism of interest from the other components in the sample.
[0155] In an embodiment, the invention comprises a system or kit comprising components for detecting a microorganism of interest comprising: a component for isolating at least one microorganism from other components in the sample; a component for infecting at least one microorganism with a plurality of a parental infectious agent; a component for lysing at least one infected microorganism to release progeny infectious agents present in the microorganism; and a component for detecting the progeny infectious agents, or with greater sensitivity, a soluble protein encoded and expressed by the infectious agent, wherein detection of the infectious agent or a soluble protein product of the infectious agent indicates that the microorganism is present in the sample. The infectious agent may comprise Listeria-specific NANOLUC® bacteriophage carrying the NANOLUC® indicator gene.
[0156] The systems or kits may comprise a variety of components for detection of progeny infectious agents. For example, in an embodiment, the progeny infectious agent (e.g., bacteriophage) may comprise an indicator moiety. In an embodiment, the indicator moiety in the progeny infectious agent (e.g., bacteriophage) may be a detectable moiety that is expressed during replication, such as a soluble luciferase protein.
[0157] In other embodiments, the invention may comprise a kit for rapid detection of a microorganism of interest in a sample, the system comprising: a component for incubating the sample with an infectious agent specific for the microorganism of interest, wherein the infectious agent comprises an indicator moiety; a component for capturing the microorganism from the sample on a solid support; a component for washing the captured microorganism sample to remove unbound infectious agent; and a component for detecting the indicator moiety. In some embodiments, the same component may be used for steps of capturing and/or incubating and/or washing. Some embodiments additionally comprise a component for determining amount of the microorganism of interest in the sample, wherein the amount of indicator moiety detected corresponds to the amount of microorganism in the sample. Such kits can include various embodiments and subembodiments analogous to those described above for methods of rapid detection of microorganisms. In an embodiment, the microorganism is a bacterium and the infectious agent is a bacteriophage.
[0158] In some embodiments, the kit or system comprises (1) Listeria recombinant phage cocktail, (2) lysis buffer, (3) assay buffer, (4) luciferase substrate, (5) 96 well plate, (6) plate sealing tape, and (7) package instructions. In some embodiments the kit or system comprises two or more of the components enumerated above, or substantially similar alternatives (e.g., 384-well plate or any other configuration/container).
[0159] In some embodiments, a kit may comprise a component for isolating the microorganism of interest from the other components in the sample.
[0160] These systems and kits of the invention include various components. As used herein, the term “component” is broadly defined and includes any suitable apparatus or collections of apparatuses suitable for carrying out the recited method. The components need not be integrally connected or situated with respect to each other in any particular way. The invention includes any suitable arrangements of the components with respect to each other. For example, the components need not be in the same room. But in some embodiments, the components are connected to each other in an integral unit. In some embodiments, the same components may perform multiple functions.
Computer Systems and Computer Readable Media
[0161] The system, as described in the present technique or any of its components, may be embodied in the form of a computer system. Typical examples of a computer system include a general-purpose computer, a programmed microprocessor, a microcontroller, a peripheral integrated circuit element, and other devices or arrangements of devices that are capable of implementing the steps that constitute the method of the present technique.
[0162] A computer system may comprise a computer, an input device, a display unit, and/or the Internet. The computer may further comprise a microprocessor. The microprocessor may be connected to a communication bus. The computer may also include a memory. The memory may include random access memory (RAM) and read only memory (ROM). The computer system may further comprise a storage device. The storage device can be a hard disk drive or a removable storage drive such as a floppy disk drive, optical disk drive, etc. The storage device can also be other similar means for loading computer programs or other instructions into the computer system. The computer system may also include a communication unit. The communication unit allows the computer to connect to other databases and the Internet through an I/O interface. The communication unit allows the transfer to, as well as reception of data from, other databases. The communication unit may include a modem, an Ethernet card, or any similar device which enables the computer system to connect to databases and networks such as LAN, MAN, WAN and the Internet. The computer system thus may facilitate inputs from a user through input device, accessible to the system through I/O interface.
[0163] A computing device typically will include an operating system that provides executable program instructions for the general administration and operation of that computing device, and typically will include a computer-readable storage medium (e.g., a hard disk, random access memory, read only memory, etc.) storing instructions that, when executed by a processor of the server, allow the computing device to perform its intended functions. Suitable implementations for the operating system and general functionality of the computing device are known or commercially available, and are readily implemented by persons having ordinary skill in the art, particularly in light of the disclosure herein.
[0164] The computer system executes a set of instructions that are stored in one or more storage elements, in order to process input data. The storage elements may also hold data or other information as desired. The storage element may be in the form of an information source or a physical memory element present in the processing machine.
[0165] The environment can include a variety of data stores and other memory and storage media as discussed above. These can reside in a variety of locations, such as on a storage medium local to (and/or resident in) one or more of the computers or remote from any or all of the computers across the network. In a particular set of embodiments, the information may reside in a storage-area network (“SAN”) familiar to those skilled in the art. Similarly, any necessary files for performing the functions attributed to the computers, servers, or other network devices may be stored locally and/or remotely, as appropriate. Where a system includes computing devices, each such device can include hardware elements that may be electrically coupled via a bus, the elements including, for example, at least one central processing unit (CPU), at least one input device (e.g., a mouse, keyboard, controller, touch screen, or keypad), and at least one output device (e.g., a display device, printer, or speaker). Such a system may also include one or more storage devices, such as disk drives, optical storage devices, and solid-state storage devices such as random access memory ("RAM") or read-only memory ("ROM"), as well as removable media devices, memory cards, flash cards, etc.
[0166] Such devices also can include a computer-readable storage media reader, a communications device (e.g., a modem, a network card (wireless or wired), an infrared communication device, etc.), and working memory as described above. The computer-readable storage media reader can be connected with, or configured to receive, a computer-readable storage medium, representing remote, local, fixed, and/or removable storage devices as well as storage media for temporarily and/or more permanently containing, storing, transmitting, and retrieving computer-readable information. The system and various devices also typically will include a number of software applications, modules, services, or other elements located within at least one working memory device, including an operating system and application programs, such as a client application or Web browser. It should be appreciated that alternate embodiments may have numerous variations from that described above. For example, customized hardware might also be used and/or particular elements might be implemented in hardware, software (including portable software, such as applets), or both. Further, connection to other computing devices such as network input/output devices may be employed.
[0167] Non-transient storage media and computer readable media for containing code, or portions of code, can include any appropriate media known or used in the art, including storage media and communication media, such as but not limited to volatile and non-volatile, removable and non-removable media implemented in any method or technology for storage and/or transmission of information such as computer readable instructions, data structures, program modules, or other data, including RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disk (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by the a system device. Based on the disclosure and teachings provided herein, a person of ordinary skill in the art will appreciate other ways and/or methods to implement the various embodiments.
[0168] A computer-readable medium may comprise, but is not limited to, an electronic, optical, magnetic, or other storage device capable of providing a processor with computer- readable instructions. Other examples include, but are not limited to, a floppy disk, CD-ROM, DVD, magnetic disk, memory chip, ROM, RAM, SRAM, DRAM, content-addressable memory ("CAM"), DDR, flash memory such as NAND flash or NOR flash, an ASIC, a configured processor, optical storage, magnetic tape or other magnetic storage, or any other medium from which a computer processor can read instructions. In one embodiment, the computing device may comprise a single type of computer-readable medium such as random access memory (RAM). In other embodiments, the computing device may comprise two or more types of computer-readable medium such as random access memory (RAM), a disk drive, and cache. The computing device may be in communication with one or more external computer-readable mediums such as an external hard disk drive or an external DVD or Blu-Ray drive.
[0169] As discussed above, the embodiment comprises a processor which is configured to execute computer-executable program instructions and/or to access information stored in memory. The instructions may comprise processor-specific instructions generated by a compiler and/or an interpreter from code written in any suitable computer-programming language including, for example, C, C++, C#, Visual Basic, Java, Python, Perl, JavaScript, and ActionScript (Adobe Systems, Mountain View, Calif.). In an embodiment, the computing device comprises a single processor. In other embodiments, the device comprises two or more processors. Such processors may comprise a microprocessor, a digital signal processor (DSP), an application-specific integrated circuit (ASIC), field programmable gate arrays (FPGAs), and state machines. Such processors may further comprise programmable electronic devices such as PLCs, programmable interrupt controllers (PICs), programmable logic devices (PLDs), programmable read-only memories (PROMs), electronically programmable read-only memories (EPROMs or EEPROMs), or other similar devices.
[0170] The computing device comprises a network interface. In some embodiments, the network interface is configured for communicating via wired or wireless communication links. For example, the network interface may allow for communication over networks via Ethernet, IEEE 802.11 (Wi-Fi), 802.16 (Wi-Max), Bluetooth, infrared, etc. As another example, network interface may allow for communication over networks such as CDMA, GSM, UMTS, or other cellular communication networks. In some embodiments, the network interface may allow for point-to-point connections with another device, such as via the Universal Serial Bus (USB), 1394 FireWire, serial or parallel connections, or similar interfaces. Some embodiments of suitable computing devices may comprise two or more network interfaces for communication over one or more networks. In some embodiments, the computing device may include a data store in addition to or in place of a network interface.
[0171] Some embodiments of suitable computing devices may comprise or be in communication with a number of external or internal devices such as a mouse, a CD-ROM, DVD, a keyboard, a display, audio speakers, one or more microphones, or any other input or output devices. For example, the computing device may be in communication with various user interface devices and a display. The display may use any suitable technology including, but not limited to, LCD, LED, CRT, and the like.
[0172] The set of instructions for execution by the computer system may include various commands that instruct the processing machine to perform specific tasks such as the steps that constitute the method of the present technique. The set of instructions may be in the form of a software program. Further, the software may be in the form of a collection of separate programs, a program module with a larger program or a portion of a program module, as in the present technique. The software may also include modular programming in the form of object-oriented programming. The processing of input data by the processing machine may be in response to user commands, results of previous processing, or a request made by another processing machine.
[0173] While the present invention has been disclosed with references to certain embodiments, numerous modifications, alterations and changes to the described embodiments are possible without departing from the scope and spirit of the present invention, as defined in the appended claims. Accordingly, it is intended that the present invention not be limited to the described embodiments, but that it have the full scope defined by the language of the following claims, and equivalents thereof.
EXAMPLES
[0174] Results depicted in the following examples demonstrate detection of a low number of cells, as few as 1 Listeria bacteria, in a shortened time to results.
Example 1. Creation and Isolation of Indicator Phage from Listeria-Specific Bacteriophage
[0175] Indicator Phage Listeria-specific LMA4.NANOLUC, LMA8.NANOLUC, and other Listeria bacteriophages were created through homologous recombination using procedures as previously described. See Figures 1-3 which depict and describe recombinant Listeria phages derived from LMA4 and LMA8.
[0176] The genomic sequences of these phage were obtained through whole genome sequencing using the Illumina MiSeq system with de novo sequence assembly. Based on previously known and annotated genomes of related phage, the late gene regions and Major Capsid Protein genes were located on the new phage genomes. Plasmids were designed and synthesized to insert NANOLUC® along with the appropriate late gene promoter and ribosomal binding site, flanked by approximately 200-500 bp of matching phage sequence to promote homologous recombination. [0177] Target bacteria were transformed with the Homologous Recombination Plasmids under appropriate antibiotic selection and infected with their respective wild-type phage to allow for homologous recombination with the plasmid. Following homologous recombination to generate the recombinant bacteriophage genomes, a series of titer and enrichment steps was used to isolate specific recombinant bacteriophages that express NANOLUC® as previously described.
[0178] Finally, large-scale production was performed to obtain high titer stocks appropriate for use in the Listeria spp. detection assays. Cesium chloride isopycnic density gradient centrifugation may be used to separate phage particles from contaminating luciferase protein to reduce background. In other embodiments, sucrose isopycnic density gradient centrifugation may be used to separate phage particles from contaminating luciferase protein to reduce background.
Example 2. Inoculated Sponge Sample — Sponge Assay for Listeria
[0179] EZ Reach polyurethabe sponge samplers were pre-wetted with Dey/Engley Broth and spiked with < 1 CFU of Listeria monocytogenes, which was diluted from an overnight culture or with 100 CFU challenge bacteria (Cronobacter sakazakii).
[0180] The handle of the sponge was broken off and the sponge was placed into medium in a bag. Buffered Listeria Enrichment Broth (BLEB) (Remel) medium (10 or 90 mL) was added to cover as much of the sponge as possible. The sponge was then gently massaged to release bacteria into the medium and enrichment followed at 35 °C for 16-18 hours or 24 hours. After enrichment, sponges were gently massaged/squeezed to remove the liquid and were then moved away from the medium in the bag. The bag was then gently massaged to mix the contents. 150 pl aliquots were transferred to a 96-well plate. The sponge was then placed into the medium for further enrichment at 35 °C, if necessary.
[0181] Sponge samples were tested with Listeria phage cocktail following 1-hour and 4-hour infection. Briefly, phage reagent (10 pl) was added to samples and the samples incubated at 30 °C for 1 hour or 4 hours. Finally, 65 pl of Luciferase Master Mix reagent was added to each well and gently mixed by pipetting up and down. Samples were read (i.e., luminescence detected) on a luminometer (GloMax96) instrument 3 minutes after substrate addition. Sponges/swabs were placed back into the bag/tube and enrichment continued at 35 °C for a total of 24 hours. Optionally, aliquots may be taken and further enriched and tested again.
[0182] Results are shown in Figure 5. A signal to background ratio (S/B) greater than 3 was considered positive. The background level was determined to be 100 RLU based on prior phage characterizations. These experiments indicate that the Listeria Phage Assay can detect a 1 CFU spike of L. monocytogenes ATCC 19115 following 16-18 hours of enrichment and 1 hour of infection. Figure 5A (10 mL medium) shows that sponge samples 1 and 4 were negative for detection of Listeria (i.e., S/B < 3.0). Sponge samples 2, 3, 5, and the 10 CFU control were all positive for all enrichment and infection times. Figure 5B (90 mL medium) shows that sponge 1 was negative for detection of Listeria while all other samples had positive detection. These data indicate that sponges with 10 mL of added medium generated a better signal with higher relative S/B than samples with 90 mL added medium.
[0183] Thus the experiment demonstrates it is possible to detect 1 CFU spike from an overnight culture with all the conditions tried (i.e., 16-18 hr enrichment - 1 hr infection, 16-18 hr enrichment - 4 hr infection, 24 hr enrichment -1 hr infection, and 24 hr enrichment - 4 hr infection.
Example 3. Environmental Surface Sample — Sponge Assay for Listeria
[0184] Stainless steel surfaces were inoculated with the indicated number of cells in medium. Cells were allowed dry onto the surface and kept at room temperature for 18-24 hours before being swabbed with EZ Reach polyurethane sponge samplers were pre wet with Letheen medium (World BioProducts). Listeria monocytogenes 19115 was used as the target and Staphylococcus aureus 12600 was used as the challenge strain.
[0185] The handle of the sponge was broken off and the sponge was placed back into medium in the bag. Buffered Listeria Enrichment Broth (BLEB) (Remel) medium (20 mL) was added to cover as much of the sponge in medium as possible. The sponge was gently massaged to release bacteria into the medium and enrichment followed at 35 °C for 20 hours. After enrichment, sponges were gently massaged, squeezed to remove the liquid, and then moved away from the medium in the bag. The bag was gently massaged to mix the contents. 150 pl aliquots were transferred to a 96-well plate. The sponge was replaced into the medium and incubated at 35 °C if further enrichment was necessary. [0186] Sponge samples were tested with Listeria phage cocktail following 1-hour and 4-hour infection. Briefly, phage reagent (10 pl) was added to samples and incubated at 30 °C for 4 hours. Finally, 65 pl of Luciferase Master Mix reagent was added to each well and gently mixed by pipetting up and down. Samples were read (i.e., luminescence detected) on a GloMax96 instrument 3 minutes after substrate addition.
[0187] Phage reagent (10 pl) was added to samples and incubated at 30 °C for 4 hours. Finally 65 pl of Luciferase Master Mix reagent was added to each well and gently mixed by pipetting up and down. Samples were read (i.e., luminescence detected) on a GloMax96 instrument 3 minutes (180 seconds) after substrate addition.
[0188] Figure 6 shows the RLU generated from the stainless steel surface swabs. Samples generating RLU >300 were considered positive. These data show that the Listeria Phage Assay can detect a 100 CFU surface inoculation of L. monocytogenes with a 20-hour enrichment and 4 hours of infection in the presence of a non-Listeria bacteria present at a 10-fold greater CFU level than the target Listeria bacteria. Sample 2 and the negative control were negative for detection of L. monocytogenes. All other samples, including the positive control, were positive. Compared to the spiked sponge experiments, the swabs of stainless steel required longer enrichment period and a higher CFU level for positive detection. This can be attributed to several variables, including increased injury to surface inoculated cells as compared to those from an overnight culture. Surface inoculated cells typically have significant loss of viability. Also, recovery of cells form a surface with sponges can be highly variable.
Example 4. Bacteriophage Isolation, Purification, and High Titer Stock Preparation
[0189] The Listeria grayi bacteriophage LPJP1 was isolated from silage collected from a Wisconsin farm. 3 g of silage was added to 30 mL of BHI media and allowed to diffuse at 2-8 °C for 72 h. To remove bacteria and debris, this solution was centrifuged at 4700 x g for 10 min and the supernatant passed through a 0.45 pm filter followed by a 0.2 pm filter (Nalgene, Rochester, NY, USA). As an initial assessment to determine phage presence, a spot test was performed using a standard overlay method (Gratia, A., Ann. Inst. Pasteur 1936, 57, 652-676). Briefly, 100 pL of a log phase culture of the L. grayi strain (ATCC 19120) was mixed with 3 mL of melted 0.5% (w/v) semi-solid BHI agar and then poured evenly atop BHI agar plates to form a lawn. Once the semi-solid agar solidified, plates were spotted with 5 pL of the filtered supernatant and incubated overnight at 30 °C. As spot testing yielded promising results, isolation of single plaques was pursued using a modification of the above overlay method. 100 μL of a log phase culture, 100 pL of diluted filtered supernatant, and 3 mL of melted semi-solid was poured atop a BHI agar plate and incubated overnight at 30 °C. Individual plaques were then isolated by picking them with a pipette tip and resuspending them in 1 mL BHI media. This process of single plaque isolation, dilution, and plating was serially repeated five times to ensure a pure culture of a single phage.
[0190] High titer phage stocks were generated from broth lysates as described previously (Nguyen, et al.. Sci Rep 2020, 10, 17463). Briefly, a log phase culture of L. grayi (ATCC 19120) was infected at a multiplicity of infection (MOI) of 0.05 and incubated statically for 5 min to facilitate bacteriophage adsorption. Infected cells were diluted into fresh BHI media and incubated at 30 °C with shaking at 225 rpm until lysis was visually apparent. To remove debris, the lysate was clarified by centrifugation. The supernatant was centrifuged to pellet phage and this pellet was resuspended in TMS Buffer (50 mM Tris-HCl pH 7.8, 10 mM MgC12, and 300 mM NaCl). Resuspended phage were treated with RNase and DNase I before being further purified using a sucrose density gradient (10-30%) and ultimately being resuspended in SM buffer (50 mM Tris-HCl pH 7.5, 8 mM MgSO4 7H2O, 100 mM NaCl, and 0.01% (w/v) gelatin). This method frequently yielded stock solutions with a titer around 1.5 x 1011 plaque forming units (pfu) per mL.
[0191] LPJP1 formed small clear plaques at 30 °C on the L. grayi strain ATCC 19120 (Figure 9). Interestingly, plaques were not observed at 37 °C. The mechanism behind this phenotype is not fully understood but is consistent with temperature-dependent plaque formation observed with other Listeria phages. A one-step growth curve on LPJP1 revealed a burst size of approximately 50 to 60 pfu with cycle time of roughly 60 min. To our knowledge, LPJP1 is the first published phage capable of lysing and forming plaques on /.. grayi.
[0192] Transmission electron microscopy was used to confirm phage presence and determine the morphology of LPJP1. Microscopy revealed the presence of a large icosahedral head, nonflexible long straight tail, and contractile outer tail sheath (Figure 7A,B). These characteristics match the morphology of the Myoviridae family of dsDNA phage (Fokine and Rossmann, Bacteriophage 2014). Example 5. Bacteriophage Characterization (Burst size, Replication Cycle Time, and Microscopy)
[0193] To calculate the burst size and replication cycle time of LPJP1, a standard one-step growth curve was performed using the L. grayi strain ATCC 19120, as described previously (Ellis and Delbriick, Journal of General Physiology 1939, 22, 365-384).
[0194] Transmission electron microscopy (TEM) of LPJP1 was performed as described previously (Nguyen, et al., Sci Rep 2020, 70, 17463). Briefly, 400 mesh grids coated with a thin carbon film were glow discharged, floated on purified high titer phage stock, and subsequently stained with 2% uranyl acetate. A Technai G2 Spirit BioTWIN with an accelerating voltage set at 30 kV was used for image capture.
Example 6. Bacteriophage DNA Isolation, Sequencing, and PCR
[0195] To isolate phage DNA, 6* 10 10 pfu/mL were first heated at 95 °C for 2 min and then allowed to cool to room temperature. Sodium dodecyl sulfate (SDS), ethylenediaminetetracetic acid (EDTA), and proteinase K were added to a final concentration of 0.1% SDS, 5 mM EDTA, and 53 pg/mL proteinase K. This mixture was incubated for 1 h at 50 °C before performing three rounds of phenol/chloroform extractions, serially separating the aqueous phase. After the addition of 0.1 volumes of 3 M sodium acetate and 2.5 volumes of ethanol to this phase, DNA was precipitated at -80 °C. Precipitated DNA was pelleted and washed twice with 70% ethanol. Washed DNA was pelleted once again, air dried, and finally resuspended in 10 mM Tris-HCL pH 8.0.
[0196] Phage DNA was quantified using absorbance at 260 nm on a NanoDrop (Thermo Fisher Scientific, Waltham, MA, USA) and sent to Laragen Inc. (Los Angeles, CA, USA) for sequencing. Laragen Inc. quantified dsDNA using a Qubit dsDNA HS assay kit (Thermo Fisher Scientific, Waltham, MA, USA) and performed library preparation using the Nextera DNA Flex library prep (Illumina, San Diego, CA, USA). When successful library preparation was achieved, samples underwent MiSeq whole genome sequencing (Illumina, San Diego, CA, USA) and contig assembly. When indicated, DNA was amplified prior to sequencing using a Illustra TempliPhi DNA amplification kit (Cytiva, Marlborough, MA, USA) according to manufacturer’s instructions. Amplified DNA was quantified and submitted for sequencing, as described above. Genome assemblies obtained from Laragen Inc. were examined for homology to other viruses using the Basic Local Alignment Search Tool (BLAST) (BLASTN, limited to viruses (taxid: 10239)) (Altschul, et al, Nucleic Acids Res 1997, 25, 3389-3402; Altschul, et al., J Mol Biol 1990, 275, 403-410).
[0197] Polymerase chain reaction (PCR) was performed using either the Q5 hot start high- fidelity DNA polymerase or the Q5U hot start high-fidelity DNA polymerase (New England BioLabs, Ipswich, MA, USA). DNA templates were either native phage DNA or TempliPhi- amplified DNA prepared as described above. To ensure elements of the TempliPhi reaction did not interfere with PCR, amplified DNA was cleaned up using a Monarch PCR and DNA cleanup kit (New England BioLabs, Ipswich, MA, USA). PCR was performed using 2 ng of DNA, either amplified or native, and either the Q5 or Q5U polymerase, as per manufacturer’s instructions. Primers were (5’- AGGAAACAGCTATGACATGATTACGTTATCATAAAACTTTCGATGTAC-3’) and (5’- ATT TATACTCTATTTAACGAGCGTATTGAGTTG-3’) and were obtained from Eurofins Genomics (Louisville, KY, USA). PCR reactions were assessed using gel electrophoresis. Half of each reaction was mixed with GelPilot DNA loading dye (Qiagen, Hilden, Germany) and loaded onto a 1% agarose gel (Bio-Rad Laboratories, Hercules, CA, USA) in standard Tris- acetate-EDTA (TAE) buffer. For size comparison, O’GeneRuler Ikb plus DNA ladder (Thermo Fisher Scientific, Waltham, MA, USA) was added to flanking wells. SYBR DNA Gel Strain (Invitrogen, Carlsbad, CA, USA) was included in the gel to allow visualization of results. The gel was electrophoresed for 100 Vh while submerged in TAE buffer. Gel imaging was performed using the Gel Doc EZ system and ImageLab (version 6.0.1) software (Bio-Rad, Hercules, CA, USA).
[0198] The success of library preparation only after DNA amplification with the phi29 bacteriophage polymerase could indicate the presence of modified base pairs, such as uracil, in the genome of LPJP1. This hypothesis was further supported with PCR. In particular, DNA isolated from LPJP1 could only be directly amplified when an uracil-tolerant polymerase, such as Q5U, was used (Figure 8). Importantly, modified base pairs are also found in several other jumbo phage, including those displaying limited homology to LPJP1. In particular, the genomes of the Bacillus jumbo phages AR9 and PBS1 and the Staphylococcus phage S6 were found to contain deoxyuridine in place of thymidine (Lavysh, et al., Virology 2016, 495, 185-196; Uchiyama, et al., ISME ./ 2014, 8, 1949-1952; Takahashi and Marmur, Nature 1963, 797, 794- 795). Furthermore, AR9 library preparation was performed following DNA amplification using the uracil-tolerant polymerase, KAPA HiFi Uracil+. The benefit of DNA amplification using an uracil-tolerant polymerase is clear. Thus, while it is possible that LPJP1 represents an exceptionally rare phage, it is equally likely that such jumbo phages have been overlooked due to technical limitations and challenges.
Example 7. Design and Engineering of Luciferase Reporter Phage Recombinants
[0199] Homologous recombination was used to insert a late gene promoter and NANOLUC® downstream of the predicted major capsid protein to create a NANOLUC®-expressing recombinant of LPJP1. No predicted genes are anticipated to be disrupted following recombination at this site. A predicted major capsid protein was identified in LPJP1 by manual screening of possible open reading frames in the LPJP1 genome assembly. This prediction was supported by homology observed using BLAST (BLASTP) (Altschul, et al., Nucleic Acids Res 1997, 25, 3389-3402; Altschul, et al., FEBS ./ 2005, 272, 5101-5109). A shuttle vector containing homology flanks to mediate recombination, a late gene promoter, and NANOLUC® sequence was designed as follows. The upstream flank begins with a Kpnl restriction site followed by 500 bp of homology upstream of the insertion site. The insertion site was immediately after the predicted major capsid protein of LPJP1. Following this flank, a promoter was added containing -10 and -35 elements from A51 l’s major capsid protein (a late gene) sequence and an A511 consensus ribosome binding site sequence (Loessner and Scherer, J Bacterial 1995, 777, 6601- 6609; Klumpp, et al., J Bacterial 2008, 190, 5753-5765). NANOLUC® coding sequence was added following this promoter. The downstream flank contained 500 bp of homology downstream of the target insertion site and was followed by a Sall restriction site. Sequences for both flanks and the promoter are provided (Table 1). The sequence of NANOLUC® has been previously described. These sequences were synthesized and inserted between the Kpnl and Sall restriction sites of the multiple cloning site in the previously described shuttle vector pCE104 (Murray, et al., 1. Infect Immun 1996, 64, 371-374).
Table 1. DNA Sequences Used in Homologous Recombination (HR)
Feature DNA Sequence GGTACCATGTACATCCAAATGGTGGATACAACATGCATCCGCATGAATGGCGCCGTGGTA TT CGTGACGTTATTGACTGGATGTCTCAAGCAATGAAAAATGATTACAAAACTTATGATGCT TA CTTTGTAATTGTTGGTAATCCAATTGACACTCAATTGATTCCTGACATTGAATGGGAATT CCA AGGAGCTACTGATGAAGTTGCGGGAATTAACGTTTCTTATAGCGTTGGTGCTTCTTCTAC AGT Upstream
, , TAACCGTTATAAAGTTGTTTCTTCTGACTTAGTACCTGCTGGAGATCTATTAATCTTTGC AGTT HR Flank 1
CCTACTCGTGAAGACTTCAAAACTTACGAATACTACCCATACACTTTCAATATCGTT AATAAT TACAACAATGCTGTTAACCAAAGCGTTCCTAACATTATGCTTTCTCGCCGTTATACAGTT GAA GAATTTGTTCCAATTATCGGTAAAGTTACAATTAAAAACAACGATGCAACTCAATACGCT CG _ TTAA _ TAAATATTATGAACCTTTCAGAGACCTTTTGGTTTCTGAAAGGTTATTATTTATAAAAAT TTA AATTGGCGGTGCAACCATGCATATTGATTATGGTATTGAAAAGAATATATCAAAGTACTT AC ATGAAGAATTACTAACTGAAGATATCTATAATCATCCTTTATTAAAAAAGATTGATGATG AA TTTCAGAAAATATTAGATGAAGATAATATTAATGATACTAAACTACCAGTAACATCATAT AA Downstream
, , AAAAATTCAAAATATAATTAAATATGTCTCAACTATATTTAATATAAATTTAATTATAAC GAT HR Flank 2
TGATAACGATAATATCCTTACTTATGGAATGATGACATTTATTCCGGTTAAAAATCT AACAA AGATATCTAATAATATAAAGAAGATTGTACTTCAACCAAAAACTGGTTTTGAATATATTA AA ACTGAAGTTATTGAAATTAAAATACAGAAAAAATTAATATCTTTCATTAAGGATCCAAAC TT ACGTCGAC
Promoter 3 ATAGAGTATAAATTCTATTCAGTTTCGTATATTAATACTAGTAGATAGGAGGTGTTTCGA
1 Upstream homologous recombination flank consists of a Kpnl restriction site (underlined) and 500 bp of homology immediately upstream of desired insertion site (predicted major capsid protein) 2 Downstream homologous recombination flank consists of 500 bp of homology immediately downstream of desired insertion site, followed by a Sall restriction site (underlined) 3 Key elements of the promoter sequence used are underlined. -35 (ATAGAGTA) and -10 (TATATT) elements are from the late gene major capsid protein sequence of A511, while the ribosome binding site used (AGGAGGTG) is the reported A511 consensus sequence.
[0200] ATCC 19120, the L. grayi strain used during isolation of LPJP1, was also selected as a host for recombination. Electrocompetent ATCC 19120 was generated using a modification of a previously described method (Park, S.F.; Stewart, G.S. High-efficiency transformation of Listeria monocytogenes by electroporation of penicillin-treated cells. Gene 1990, 94, 129-132).
10 pg/mL of Penicillin G (Thermo Fisher Scientific, Waltham, MA, USA) was added to a log phase culture of ATCC 19120 and incubated for 1 h at 37 °C with shaking (225 rpm). Treated cultures were then chilled on ice for 30 min, pelleted, and washed three times with cold SMP (272 mM sucrose, ImM MgC12, 7mM Sodium phosphate pH 6.8). Cells were pelleted a final time and resuspended in ImL of cold SMP. 100 pL aliquots were frozen and stored at -80 °C until use. 100 ng of homologous recombination plasmid DNA was added to thawed electrocompetent cells, incubated on ice for 15 min, and transferred to a 0.2 cm cuvette. Electroporation was carried out using a MicroPulser electroporation apparatus (Bio-Rad Laboratories, Hercules, CA, USA) with voltage of 2.5 kV and a 2.8 msec time constant. Electroporated cells were recovered in fresh BHI for 2 h at 30 °C before being plated on BHI agar plates containing 5 pg/mL erythromycin sulfate (Alfa Aesar, Haverhill, MA, USA). Plates were incubated at 37 °C for 24 h before being examined for transformants.
[0201] Erythromycin-resistant colonies were picked, grown up BHI containing 5 pg/mL erythromycin sulfate, and infected with varying amounts of LPJP1 equivalent to MOIs of 0.01 to 0.1. Infections were incubated for 4.5 h at 30 °C with 225 rpm shaking. To remove debris and intact bacteria, samples were centrifuged for 2 min at 6,800 x g and the supernatant passed through a 0.45 pm filter. This solution was transferred to a 100 kDa pore protein concentrator PES column (Pierce Biotechnology, Rockford, IL) and buffer exchanged with TMS. Potential phage recombinants were identified from this reaction. Briefly, enrichment of limiting dilutions followed by screening for luciferase production was used to improve the likelihood of finding a recombination event. When found to be positive, these enrichments were plated to isolate single plaques on semi-solid agar, as described above. Candidate plaques were picked, mixed with diluted cultures of ATCC 19120, and evaluated for NANOLUC® production. Single plaque isolation, dilution, and plating was serially performed five times to establish a pure NANOLUC®-expressing recombinant, called LPJP1.NL. Using the same preparation method described above, high titer stocks of LPJP1.NL were made and sent for genome sequencing. Analysis of the assembled genome of LPJPl.NL verified that the homologous recombination occurred as desired, inserting the promoter and NANOLUC® downstream of the predicted major capsid protein.
Example 8. Limit of Detection of LPJP1.NL
[0202] The limit of detection of LPJPl.NL in L. grayi was determined as follows. A log phase culture (OD 600 of 0.1 to 0.5) of the L. grayi strain ATCC 19120 was diluted in BHI media to achieve 10 to 100,000 CFU/mL. 100 pL of each bacterial dilution or BHI media was added to at least six replicate wells on a 96-well plate. Each well was infected with 10 pL of LPJP1.NL at 1.2 x io 7 pfu/mL and the infection was allowed to proceed for 4 h at 30 °C. At the end of the infection, 65 pL of a luciferase detection solution was added to each well. The luciferase detection solution consisted of 50 pL of NanoGio buffer, 15 pL of Renilla lysis buffer, and 1 pL of NanoGio substrate (Promega Corp., Madison, WI, USA). A GloMax Navigator luminometer (Promega Corp., Madison, WI, USA), set to a 3 min wait time and 1 sec integration, was used to detect light production. Using this method, relative light units (RLU) values were obtained for each well and averaged among replicates.
[0203] When indicated, the above protocol was modified to determine the effect of infection temperature in signal production. Bacteria were prepared and infected as described above with the following exception. For each burden, two wells were infected with LPJP1.NL. One set of wells was infected for 4 h at 30 °C, while the other set was infected for 4 h at 37 °C. RLU values were obtained using a luciferase detection solution as described above.
[0204] NANOLUC®-expressing bacteriophage typically yield robust signal following infection of even a few bacterial cells. In order to evaluate the sensitivity of LPJP1.NL for L. grayi, the limit of detection of this recombinant reporter was determined. LPJP1.NL was allowed to infect 0 to 10,000 CFU of L. grayi for 4 h at 30 °C. After addition of substrate, NANOLUC® production in each sample was quantified using a luminometer. Infection of L. grayi with LPJP1.NL yielded an easily detectable signal over media background and increased proportionally with CFU (Table 2). Background from media and reporter alone was a minimal 96 RLU while a single CFU of L. grayi was sufficient to achieve an average RLU signal of twice this amount. As expected, variation between replicate wells was noted when low bacterial burdens were tested. Overall, these results indicate that LPJP1.NL is a sensitive reporter capable of producing a signal over background from a single CFU of L. grayi after a 4 h infection.
Table 2. Limit of Detection of LPJP1NL in L. grayi
Detected Cells 1 Replicate Wells Avg. RLU 2 SD 3 % CV 4 S/B 5
0 6 96 6 6 1.0
1 10 191 135 71 2.0
2 10 553 327 59 5.8
5 10 1012 474 47 10.6
10 10 2565 1055 41 26.9
100 10 24,056 2463 10 251.9
1000 6 264,210 24,637 9 2766.6
10,000 6 4,414,026 322,722 7 46,220.2
1 Log phase cultures of L. grayi (ATCC 19120) were diluted to the indicated burden and infected with LPJP1.NL for 4 h at 30 °C. 2 Average (Avg.) Relative Light Units (RLU) across replicate wells. 3 Standard Deviation (SD) 4 Coefficient of Variation (CV) 5 Signal over background (S/B) was calculated by dividing the Avg. RLU for each condition by the Avg. RLU of background (0 cells). [0205] Previous concerns over the phenomenon of temperature-dependent plaque formation with Listeria phages and the implications on phage reporters have been raised (Tokman, J. I., et al., Front Microbiol 2016, 7, 631). Since LPJP1 shared this phenotype, an experiment was carried out to determine the role of temperature during infection on the signal production of LPJP1.NL. Minimal differences were noted between the RLU obtained from a 4 h infection at 30 °C or 37 °C and both temperatures yielded comparable results across all burdens (Table 3). In spite of the lack of plaque formation at 37 °C, the robust signal from LPJP1.NL at this temperature suggests that phage DNA was injected successfully. These results suggest that, while higher temperatures may prohibit plaque formation in many Listeria phage, increased temperatures do not impede the production of signal from Listeria phage reporters.
Table 3. Comparison of Limit of Detection After 30 °C or 37 °C Infection
Detected Cells i RLU - 30 °C 2 RLU - 37 °C 2
0 89 (Neg.) 88 (Neg.)
1 248 (Pos.) 909 (Pos.)
2 821 (Pos.) 966 (Pos.)
5 1692 (Pos.) 2926 (Pos.)
10 2155 (Pos.) 2893 (Pos.)
100 24,407 (Pos.) 34,156 (Pos.)
1000 250,905 (Pos.) 391,186 (Pos.)
10,000 5,940,865 (Pos.) 5,546,562 (Pos.)
1 Log phase cultures of L. grayi (ATCC 19120) were diluted to the indicated burden and infected with LPJP1.NL for 4 h at 30 °C or 37 °C. 2 Relative Light Units (RLU) are provided. Positive (Pos.) and negative (Neg.) detection was determined for each sample using a threshold of 190 RLU, approximately twice media background.
Example 9. Genome Sequencing and Engineering of LPJP1
[0206] LPJP1 was sequenced in order to determine suitable siters for inserting a genetic construct. Initial attempts to sequence the genome of this phage were unsuccessful. Despite obtaining sufficient DNA quantity and quality, library preparation using bead-lined transposomes (Illumina, San Diego, CA, USA) could not be achieved, failing at DNA amplification. This library preparation method is generally considered to be quite robust, demonstrating resistance to poor DNA quality and productivity with various DNA quantities (Bruinsma, S. et al. BMC Genomics 2018, 19, 722). One possible explanation for this failure is the presence of modified DNA base pairs, which have been observed to serve a number of functions in some bacteriophage (Weigele, P. et al. Chem Rev 2016, 116, 12655-12687). In particular, the presence of deaminated base pairs, such as uracil or hypoxanthine, in DNA templates can inhibit commercial high-fidelity proof-reading archaeal polymerases (Fogg, MJ et al., Nat Struct Biol 2002, 9, 922-927; Russell, H.J. et al, Nucleic Acids Res 2009, 37, 7603-7611). DNA preparations of LPJP1 were amplified using the TempliPhi DNA amplification kit, which utilizes the Phi29 bacteriophage polymerase capable of reading past uracil-containing DNA (Reagin, M.J. et al., J Biomol Tech 2003, 14, 143-148; Serrano-Heras, G. et al. Proc Natl Acad Sci USA 2008, 105, 19044-19049). Library preparation was successfully completed using PCR- amplified DNA of LPJP1. Further support of both the presence of modified base pairs in LPJP1 and the ability to overcome this with the TempliPhi kit was obtained using the assembled sequence. Primers were designed to amplify an approximately 550 bp region within the LPJP1 genome. PCR amplification was performed using equivalent amounts of either native LPJP1 DNA or TempliPhi -treated LPJP1 DNA. The reaction was performed using either the Q5 polymerase or the uracil-tolerant Q5U polymerase. When these reactions were analyzed by gel electrophoresis, a distinct band of the expected size was observed with native DNA and the Q5U polymerase and TempliPhi -treated DNA with both polymerases (Figure 8). A clear difference was observed between the uracil-sensitive Q5 polymerase and the uracil-tolerant Q5U polymerase on native phage DNA. Importantly, the failure of the Q5 polymerase in PCR was specific to native DNA and TempliPhi-treated DNA could be effectively amplified by both polymerases. These results support the hypothesis that LPJP1 contains modified base pairs.
[0207] Assembly of LPJP1 sequences revealed a large genome, 223,580 bp in length. This crosses the threshold of 200,000 bp to be considered a jumbo phage (Hendrix, R.W. Curr Top Microbiol Immunol 2009, 328, 229-240). Two interesting sequence features were identified. First, LPJP1 had minimal homology to available viral nucleotide sequences when using BLAST . The top three matches by query coverage were phage vB BpuM-BpSP (8% query coverage, 67% identity), phage PBS1 (6% query coverage, 66% identity), and phage AR9 (6% query coverage, 66% identity). Of note, all three of these genomes are from jumbo phage infecting Bacillus (Yuan, Y. et al. Front Microbiol 2016, 7, 745; Lavysh, D. et al. Virology 2016, 495, 185-196). Secondly, LPJP1 has an abnormally low GC content (25.9%) when compared to its host /.. grayi (41.6%). Interestingly, this GC content discrepancy is also shared by the previously mentioned jumbo phage vB BpuM-BpSP (25.9%) compared to 41.2% for its B. pumilus host, and jumbo phage PBS1 (27.7%) and AR9 (27.8%) compared to 43.5% for their B. subtilis host. These basic features indicate that LPJP1 has homology, albeit limited, to jumbo phages capable of infecting another Gram-positive genus, Bacillus.
[0208] Manual examination of potential open reading frames in LPJP1 revealed a candidate major capsid protein. BLAST analysis of this protein sequence indicated homology with the precursor of major head subunit protein of the Bacillus jumbo phage AR9 as a top hit (97% query coverage, 40.5% identity). Amino acid homology was also observed with the structural protein sp46 precursor of both the jumbo phage Bacillus vB BpuM-BpSP (99% query coverage, 36.4% identity) and the Yersinia jumbo phage phiRl-37 (98% query coverage, 30.3% identity). Homologous recombination was used then to mediate insertion of a late gene promoter and the NANOLUC® luciferase immediately downstream of the coding sequence for this candidate major capsid protein. Insertion of this sequence was not predicted to disrupt any phage genes. A recombinant NANOLUC®-expressing LPJP1, referred hereafter as LPJP1.NL (SEQ ID NO: 2) was isolated, purified, and confirmed using genome sequencing.
SEQ ID NO: 1 LP-JP1 Genome Sequence>2020-01-17 LP-JP1 reassembled vl (223,580 bp)
CCAGTTGAGTTTGACGAAAAAGCATGTCTTCTACATCTACCGGTACATCTGAAATAT CTTTCTTACATT TACTACATGTTAATCCATGAATTGCATAAGAAATACCATATTTATCAGATTGCTCACTAA TCATTTCAC TAAGACTCTTCATGTCACTAACTTCAAGATTACTAATGATCTTAAGAATTTGTTCTGGGT TTGTTACTTT TACAAATTTAAGTTCTCCAGTTTTTTCCAATCTATCTAGGTCAGGAACCATTATTTTTTT AGTGAATAAA ATTAGATCAATATAATCTCTAACTTCATCATAGCTTTCAGGTTTAATATATGATAGTAAT GTTAATTTAT CTTTTAGTGAAGGTATTTGAATATCGAATACCATTTTACTTAACGGCATTTGGGAACGAG TGATCTTAT TTACTGCTGAATACTTTTTAATGACGCTTGGATCTTTAACTGTATCAGTAATTTGTTTTA AACGAGAAT ATGTTTCTTCATTCTTAACAACAATAAGATTCTCATTATAAGCTTTAACATTCCTCATAA CGTTTCCACA TGATCCACACTTAATATCAAAAGAAGTTCCACGTGGGAATGTTTGACAGAATAGTCCGTA AATTAAAG TATCTAGATCATAGATAGATGTAATGTCAATGAATGTATCCCAATCTAATTTACCTAGTG TAGTGGAAT TAATTTTACTAAAGTATGTTTGATATTGACGTAATGTAGATTCATATGCAGAAGCGGTGC TTGATGAGA TAGAAAGCATATCATTCATACGTAGACTCTCTACATGAGCAATATATGCTGATTGATTTA ATGTAACTT GATAAGTAGGGCTTCCTGTTAATGCATATTTAAATTTATCAAAATTAATATCTTTAAATT TATCTTCATC ATCAATAATTAATGAGTCGATATCTTTTAAATTATCAATTTTTGCTTTATCAAGAATATC TTTAACTGAG TCTTTTTTAGGTTCTTGTTTAATTTCAGTTAATGTTTCATCTACTTGTAMGTTGTTAATA TTTTCTTGATT AATTGGGTCTTTAATAGGAATCTCATCACTTGGTTCTTCAAAAATTCCTTTAATCTCTTC TTCTTCTTTTT TCTCATTATCAGGAACATCATCAGGTATTGGATTTCCATCTAAAGGCTCAATGTCTGATG GATTATACG CAAATTGTTCTTCATTTTCTTGTGATTTTTGTTCATATTGATATTGTTGAGTCATTGCTT GTTCGGTATTT TCATTTTCTCCAGTATTATTCGTTACTGAGGAATCTTCTTCTTTCTGGTAAACATCAATA CCTGTACCAG AGAGAGATAAGTTAGGATCAATATTCTCTTCTTTTTTAGCTTCTTCAGATTTTCTACGTT GCTCTGCTTC
TAGAAATAATTTTGCTACATGTTGAGGATCTTCACCTACTACTTGGGCATGTAACAT TGCTATTTCTAG
ATCGCTCATCTTTTTATCGGGAATATTAATATTTGTAGGAATATTGTTATTTTCATT ATTATCTGATTTT
AATACCATTGTATATTTTACCTCCACATAATTTATATTATTTTTAATTATACATTAT TTTTGATACAGTT
GTATTTGTTTTATTATTGTATCCATATAATAATCCAAAGTTTAGATTAGTAGTAGTA TTAGAATCTACTA
AATTAATATCTATATAAAACGTATTTACATTTACGTTTGAATTACTAGAAAGAACGT TTTTAACATTTT
GTATATTAATCTTTACAACGATATCTTGATGTACAATATATGATTCTATTTGATTTT CAATTTTACTTTG
AAGTTCTAATCTAGTTTCCKTATCCAAGATTTCATATAAATATAATCCGATACCGAT GCCCATATTAGG
TTGGTTCGGGTACGTTCCTTGCTCTATTATAATTAAATTTTGGATCTGTTGTGCTAA TGCTTCTAGGTTT
TCTCTTAATATTGGTTGATTGAAGTCATCCCTCTCTAGTATAACTTCAGGTCTGAAT GATATATTTGATT
CATCCGCTTTAAAGTCTGCCATAATTTTCACCACTTTCTATTTAAAGTATTCTATAA AAATCAATAGCTT
TTAATTATAATTATATGTTGCAGTAAAAATTAACATTTTAAAAAATTATTTGTGAAC AATATTATATAT
AAGTTTAGAAAAATTTTTTTCTGGGTTTATATAATACTTAAATATCACTAAATTGTT TAAAATACTCGG
GTTGTAGTTCACATTGTTGACTAACCATTTAAATAATATAATTACATTTAGTGATAT TATACATATCTTT
CATCATAACATTATTCTAAAAAATAATGTTATGATGAATATTGTTTTAATGAACATA TACTTATTATAG
ATATATTAATGCAGAAAGAAGTGAATATTTTGAAACAATTTAAATGTCCATATGACA GAAAGATATTT
GTAAATAAAAAGGCATTATATGATTATATGGAAAAGAATTATTCAGATCAATTAAAT GGACTATCTCC
GGCTAATGCTTATTTTAATATCAAGTATAACAAAACACATGGTAGATGTATTGTATG CGGTAAGAATA
CACCATTTAACGAAACTACTGAAAAGTATGATCGTTTATGTTCAGATAAATGTAAAA TTAAATATAGA
AAGCAGTTTGTAGAGAGAATGAAAAAAGTTCACGGAACAGATACTCTATTAAGAGAT CCTGAAATGC
AGAAAAGAATGTTAGCTAATCGTAAAATTGCAGGAGTATATACGTGGTCTGATGGTA GTAAATTTAAA
TATGTGGGTAGTTATGAGAAAGATGCGTTAGAATATATGGATAAGATATTAGGATTT CACTCTAAGGA
TATTATTGTTCCTTCTCCAATAATCTTTGATTATACGCTTGATGGTAAAAAACATTT CTATATACCAGAT
ATATTTATTGTTCCTTTCAACATRGTGGTAGAAGTAAAAGGTACTAACAATCATTAC CAAACTAGGGAT
AGACGTACTGAAGATGCTAAGGATAAAGCGGTTCTTAAGACAAAGTATCGTTATGCA AAATTAGTTGA
CAAGAAATATGACAAGTTCAATGACATTATTGAGAATCTTAAAGAATCAAAGGACGA TAAAGTCCGTT
AATATAAATAAAATTTTAAACCCTCATTTCAATAATATATTATAATTAAGATAATGT ATATTATCATAT
TGAAATGAGGGGATTTTATTGGAAAATAAGAAACGTAAATTCTTGGCACTGTGTGGA ATTAGTGGTTC
GGGTAAGAATTCTGTTGAATCTATACTTGATGGTTATTATGATAATGTTAATGGAGT GTTTTTTAAAAA
ACTAAATCAAGTAACAACTAGGAATATTCGAAATACTGATGAATTTAATAGTGGAAT ATATAGTTTTA
TAACTATAGATATTTATAATCTAATAAAAGAAAATCTCATTGGAAAAACAGTTATCG ATAATAAATAT
TATTATGGTACGCTTGATACTAGTACTACAGATGGTTGTATTAATACTATTATTGTC AATGCAAAAGGA
TTATCTAATCTTAAGAATGATCTTAATAATAAGTATGGTGAAGATAACTATGACCTA TTTGTATTGCAG
ATTGCTAATAATACTCCTGTGGAAAGAAGAAATAGAGACGCAGAATTTATCAGAGGT GAATATAATG
ATTTAAAAGGATTGTCTAACGCAACTCTTATAAATAATCCTAGTAAATGGTTAACTG TCTCTGACGTAA
TTAACTGTCTTAAGAAAGAAGGTTTTTTGGATACATGACATTAGTTAGTCATACTAA GTTATATGAAAA
AACAAATTATCGTAATAAAAGAATTAGCTATATTAAAAATACGTTGATTACTGAGTT TGATATAAAAA GTGCTGGTCTAAATATTCTATATGAAATGGAATATTTAGACCAAAATCAATATGAAAAAT TATTATCA
ATGGAAAAGTATGAAAGAAACRTTACAATCGGAAAGATATTAAGGTCTAATAAAGAA ATGAATGAAG
CATTATCATTTGGTTTTTCAGAAGCGAGAAGATTATTTTTCGAATTAAATCAAATTG ATGATTCAGAAT
TATTATCTATTAAGAAGGATGCAATATTTCTTATAGGTAGAAATAATATAAATATTA ACGGTAATGTTT
CTGAATTTATAAAATTTAGACCAAAGAAATCTTATACAACGTTTGTTGAAGTGTTAG ACCGAGAACAC
TATTTGAACTTTGAAAGCGAAGAAATAATTTATGATATTAAAGGATACTCTAGTGAT ATTAAAGATAT
TCATAATGAATATTTATTAAAGGATCTTCTTAATGTAATGAAGTTTGATTATGTTAA TGATAAAGATAG
AATATTTGAATATTTAGCAGTTCTTAAGGATGACCTAATTAAATATAGACTTCCAGT ATCATACTATAA
TGATATTAAAGTAGGAAAATATATTGTAGAAATGGGTAACGCATTATTTGATCTAGA TAATATTAATG
ATAATATTAAGCAATATTGCCTGTTGTCTAATAATCTTAGTTTTATTTTAAATCTAA TCAATAAGACTCT
TTCATAAAAAAAAAATAAATAATATATTAAGGTAACGATCATTAATTTGATMGTTAC CTCTTTTTTTTT
TTTTCTATGATCCATAATATACTATATATTTACAGATTTTATTTTCTTGTCAATCGT TAATGATACTTCA
GTCATGATAAGCATAATCTTGCTCATAACATATTCCTCAATATGTTCTTCTGAAATG ATGGTAGAAACC
CTATATTTTAAGTCACTAGACATTCTTTCTACAACTTCATTAGTACATGATATAACA GATTCTTCAAATT
CATCTGTAGTTGTATCGATATCTATATCATCACTAAGTTCACTCTGATCTTCATCAA TAGATGTTTCAGT
AGTCGCAGTATTTTCTACATATTCATTTCCTTCATTGTCATACTGAATATTCATACC ATTAATTGCAGTA
ACTTCACTTAATCTAGGAAGTATTCTATCAATACTTTCAGCAATTAAATTATTCTTT ACTATCCATATGC
TAATATCAATAAGAATATCTAATTCCTTTAGTGCTTTTTCACCATCAATATTATTAT GCATCATTCTATT
ATTACGGTTAGATTTAATAATCAATCTTCCAATAATTATATGTGTAATAAATATAAT TATTAGTATTGA
AGGTACTGTAATGTAAAATAAATTTGTAGTCATCAAATAAACTTCCCCTATTCATTT ATTATTTATATA
TAATTATTCATACTAAAAACTTGAATTTTATTTTCTTCTAAGAAAGATACAACTTCC TGAGAATTATCA
TATTCTTCTAAATAATATACTTTAGATATTCCTGAAGCAATAATCGTTTTGGCACAA TTAAAGCATGGT
GAATGAGTAATAAACATTCGATGCGCCTTCTGTATTTCCAGAGTTTCTAGCCACCTT AGATATTGCGTT
TATTTCTGCATGTATTTCATATTTTAATGACCATTTATGATGAATTTCCATATCTTC ACATAAATAAAAT
TTCTTTCCTTGACTTTCAATATAATAATCTTTGCGACAAATGAAATACGATTGTGAA GTATACCATAAT
CCTTCTTTCTTTATGAATATATCATTACAGTTAGCGTATCCACTAGGGGTTCCATTA ATTCCTGAAGATA
TAATGGAGTTATTCTTAACAATAATGCAGGAGACTTTCTTTGCAGAGCATTTACTTA TTTCTGACATTC
TTATTGCAATATTCATAAAGTTTACTTCGTTTGTCGTAAATAGTCATCCATATTATT ATCTTCATTATCT
ATAAATATATCTACCAAGATATGGCCACTGATCTTATTCTAATTATAATAAATTATT TGAAATGATGCA
TTGTTTAAATACTTTTAATTTTCCGAATGTTAATGTTAATATCAACACGATTTATAA AATTGTCAATTTC
TGTATCTGTATTAGAGAACATATTTTCAAAGATATCAAACTTTATAATTCGATAAAA GCTATCTTGACT
TATATAATGTGCAATATTATTAACAATATTATCATTATCTGTAAGATAAAGATACTT CACAACAAGACT
AAGCGTTGTTAATATTAGTCTGTATATTTCTTTTATACGATAATCGTTTATATTTTT ATCTATAATTAAC
GTATCATATGATTCTGTCTGGAAGTTAAATTTATATGTTTCTTGAGAATTTACTTTC TTCATCAAACTAA
TTATAGATACTGCGTTTGATGGCATTTTTTTCACTTTTGGAAATATCAATTCTTTAT TATTTATTCTTCTT
TTTGTATCTTTTATTAATTCATCAATAAATTTTGAAAATTCGGCATTATATAACTCA TCATTACTTAGAT
CCATATTTTTTTGTAGTTCAATATACATTTTAAATTCTAGTTCCAATCTATTTAATA TATGAACTTCATG CTTTGATAATAAGTTAATATATAATACGTTTATTGTAGGAAATTTAATATTGGATTTATC ATCAGTATC
TATATCAGTGGATTCTATATAGTATGATGAGGGTGAAATATAATTTTTATATTTATA CATATGCGTATA
TGAGTAAATAACTAATTCATTAGTATACGTAAAATTCATTAAATTATCATTATCATA ATTATCCACTTC
AATATAGTTGTTTATTATTGCATCTTTTCGACTGATTAACGATCTTTCTTTATTATA TTTGTGCATTATA
AAAGAGATATATCTATTATTATTTATATAATTAGATGAATCGATAAACATGTCATAT TCTTGTAATTCT
TCAAAACATAGTTCTAAAATATTTGCAAGCAATATTTGAATTATATTTCTATTATCT TTTATTTTATTAT
AACCATAATAATTTTTGTGACTTATCATAGGAATATCTGAAAATATGATGTAATTTT CAGAAGTAAGA
AAAAAATTAGAATTATTTAAATCATTGAAGATACCAGTAATTTTACTGATATCTTCA AGACTTATATTT
TTAAATTTTTCATAGTTCCATAAATTTCTCACTTTAATATTATGGTTAGCATCAGTA TAGAAATATTTAG
TATCAATATTCATTAACTAATCACTATCCTTATATAATATTTTAGTATCGATATTTA CTTTTGTTTTTAA
AGTTAACGTCTCTTACTGTTCCTGGAGGATTATTGATTGATAATCCTGCATTATTAT TACTTTCTGTAAG
AAGCCAGATAGTATATCCTTTAGGTTTCTTACAATCAAGCGTATTCTCACCAAAACC ATCCGTAATAAT
AATATTAATATCTGATCGAATATTTTCATTAATATATTTAATTGGAGCAGTCAATGT AGTTCCACCATA
AGCAGTTCTTTCAAATTTACGTAATCTATCTTTCTTAGATAACGGATATACATCATG AACCATTGTATC
AAAGTGAATTACATATAGTTTACTTTTAATATTTGAAATAATCTGACGAATTTGATC AAAAGCCAAAG
CCACTTCTTCGTCACTCATTGATCCTGACATGGTCGATAGCTACGGTAATTTTAGAT TCACATTCGACA
TTCTTCCTAATAAGTCACCACGATCTGGCATTCTTCTATTTCTACGCAGATTAGTTC TTTTATAAGGAAC
TTTTAAAGAACCAATCTTCGTACGTAAGATTTGTTGCCAAGGAATAACTTTTTCCTT ATTAATATTTTCT
AGAAATTTATTAATAGAAACAGGAACTGATCCGGCTAAAGATAGTCGTTCAATAGTA TTTTCGATATT
TTGTTTTATTGAACGTTGAATGTCTTCTTCAGAATAATCGCCGTTTTTCCATTTTGA GTGAGAAGAATTA
GCACTATTATTCATGTTAATGCGTATCTTTCTTACCTTCTGAATCTAATTCATTACC TAGATCATTTTCA
TCTTTTCCGTATTCATGAGATTTGCCAGTATTACCATTAGAAGAACCTTCTTCTTCA TTTTCGCTGTCAT
TATCTCCACCATTATCAGTATCAGATGAATCATCATCATTATTCCCACTTTGATTAC TTGGCATTCCATT
ATTATTTTGACCGCTTTTATTATTTTCATTAGCTTCTAATAATGCATCCATATAGTA TTCAAAAGATTTA
TCTTTTTCCAAATCCTTATTATTAGTTAACATTCTTACATAATCTAGTGTAATAGAA CCTTCTGGAATAT
CATCAATATATTGATTAATAGAACAATCCATAGCAATATTTGCCATATGCATGAAGT CTTGATTTTTAC
TAATCGACTTATTCTTCAATATCGGAAAATATGATTATTTGAAATATGAAGTAATTC ATGAGTAATAAC
TGCAATGAATTCTCGATCATTAAACATTAAAATTTTATATGGATTTAGATATAATGT AAATGTATCTTT
AAATGTATTTTCAGCATAGCTAACTGCTGCCGGAGCAAAGTTCGGATCATGAACAAC TTCTTTAATCAT
ATTAATTGTAAATAGAGCAAAGAATTTGTCATCATTAATGTTATCACTAATTAAATT AGTGAATGTTAA
CTTAATATATGCTTCAAATGCTTTTTCTAACTTTTTTGAAGCTTCAAGAGGTAAAAG CTTCTCCTTACCA
TAATATTCAAGAAGAAACTTTTTTAATTCTTTTCTAGTCATACTATTAGAATTATAA TTATCTAAAGTA
GGCATTAATATCCTCCACCGATCTAATTATTTTAAACGGTTTACTAATTTTTTGATT GATTGCGATATAT
TCATCATATTGATAAACTCTGTTATAGAAATCATCTGCAGTATTATTTACGAGTCTA ATTAACATTGCA
AAAGTACTCATGATAACTTCTTCTTCTCCCAAAGTATCTACAAATTTAATATAGTTC GCAGTCATTCTA
TCTAAATCTTTTTTATTTTTTACTCGTTTACTATCGTTACCCATTTCACGAACAACA TAATTAATTACAT
AACGACTAAGTAGTGTTTTACGTAAGTTTGTTTCCTCTTTAATTTGGGTCAATAGTT TTTCATCTTTAGA TAAGTTTGGGTTATCGATAATCAATTCAGCTCGGATCATAGGGTTTGTTTTGTCTTTTAG GAAATTAAA
GAATAATGAAGTAGCTTTCGAACCTAGATTACCTTCAAACACTGCACGTAGTTTATG ACTAATAGATA
CTGTATCTTCTGGGAATTGTTTCATATGTTCATAATACGCATCAGAACTACGTTTCC ATGAACGTGGAG
TAGGTGACTTACCTAATGCTTGAATTTTCTACAAATGACAGCAACTCAGGATTTGTT GCAATAAATTCA
GAAATATCTTCATGAATGTTTGGTCGAATATATAGTGGAGTAGAAGTATTTGCATCT ACATATTCAAAT
TCTTGAATAGCCCAATCTAACCATTCTTCTGGATCTGGATCTAGTCTAAGATCTGTA AATAGGTTATGT
AGGGCATAGTTCATTGTGTTTACTTGATAATCAATACCGTCACTGTTTTCATCTGTA GGATTTCCTGCA
GTAATAATATATAATTCTTCTGGAAGAGAGTATTGATGAATTCTCCGATCAAGAATA ATATTCATTAAC
TCTTGTTGAACAGCTAAATCTGAACGGTTAAGTTCATCGATAAATAGTAATGGAATT TTTCCATTATCT
GCAATCTTATATAGTTTACCAATTGTACTATGAATAGTATATTCATTTTCTTTAGGT TGTTCTTCATTTTT
AAACCATGTTTTGATATTTGTAAGTTTAAATTTATTTTTAGGTTCTGCAATATGAGG GATACTGTTAATT
TCTCCTTCTTTAAGTAAGTTACCATCAAGCTTAACAAACTCAATTAAGTCACCATTT CTTTCATTATAAC
GTTCAACAAATAATTAAGCCAAACTAGATTTTACGATCCCTGCATGACCTTCAATAA ATGGTACGCTTC
CTGAAGCTACCACTACGCCTACTACATCTAACAAGTCTGACATTTTCATAAATAAAT TCCACCAATCTA
TATTTTTTATTTTATTACTAATTTATAATATATATTTATAAATTATTTATAATTGTG TATATCACGCTACT
AATTTTGGTTAATGTTTCTTCAAGGTTTAAAAATGAAGAACTTTCTTATCATCATTT TTATACTTCTAAT
GCAAGATTGTCAAATCTATGATTATATTCAATAAAGTGAGGAAGTAATTCTTCTGGA ATATATCGATTT
CTTTTTGATGTACCTTTTTTAAATGAATTAGTAGTATGTCCTTTAACCCACGTAA AATTAAATTCATATT
GAGAAGAACTATTATTAATAATATTTACTAATAACTTCCACATCTCAGCATTCTTTA CTGGTGTTCCTG
AACTACTCATCCAGTTTCGATTAATCCATCCAGTCATATATTCTGTAATACCTCTGA TAACGTATTGAC
TATCTGAAACAACACTAATATTAAACTTTTCTTTATTACCATTCTTATAATTATCTC TCATAATATGCGC
TATTCCATAAATAACGGCTAATAATTCATTTTGGTTAATTGTTGAATCATGAAAAGA TCTTTTAATACT
GTATAGCGTATTAAATTCGGTGTCAGTAATATAGCATCCAAATCCTCCATACATAGG CTTACTGGGGTC
TTTCCTACCATTATTAAAGCTACTTGCATCCGTAAATAAATATATGTAATTTGTATT ATCGTTGTCCAAT
ATATTTTCACTCCCACGTTTAGTTATTTCTTTTCGCCTATATTCTATTATTGTAATT CTAGAATAAAAAA
TTAATTATAATAAACAATATAATATAAGCACTTCTATAAGAAAGGTCTGATATTTAT GAAAGTTCCAA
ATAAGAATATAATAAATGATATTATAGATAAGGAACTAGAAGAAAATAAAACATTTG TAGTAGATAC
TAATGAATTTGATACTGAGAATATGATCAATAGTGTTGTTCCTAGTGAAGAAAAATT TAATAAAGCTA
TTGAAAAAATTATTCGTAAGTCTAATGAATATCGTAGATATATCGGAATACTGAAAA ATAATATTGAT
CTAACTTCTTGTAAATTTTTGAAACGTGTTGATGTTTCTGAAATAAGAAGAGTTAAT ATTGAAATGCAT
CATTACCCATTTACTCTCTATGACATCGTATCTATGCATCGAGAACGTATCAAGCAA GATTTAGGTGAA
TTTTATTCATATGATACATTCACAATTGCAGAAAATATTATGAAAATGCACTATGAG AATAAAATCGG
TATTGTACCTTTATCATATACTGCTCATGAATTAGCTCATTCCGGAAAACTAGTTAT TCCTCTTAATAAA
GATTATGTCTTTGGTAACTGGCAAGAATTAGAAAAAGAAGATATTATTATTACAGAT AGTATGCGAAA
GCAACTAGAAGTATTAGAACAAATGACAAATAGTATTGAGTCTGGAAGCCTTAACTC AAACGAAGAT
CTATTTAGTAATATTCAGACTGTAATCAATATGAAAAGTTCTGGAATACCAAATAAG ATTATAAAGGA
AAAATCAATCATTGAGGATATTAATAATCCTGAAACTGATGAAGATATAATATAATA AAAATCCCTTA ACGTATAATAATACTATACGTTAAGGGATATAATGTTATATTATGATTTTTTGCCATTAA CTTGATCTA
ATAACTTATATATGAATAATTCTTTATATACTTTCTGATCTCTATTATATTTATCAA TAGTTGCTTTTTCA
TCATCAGAAATAACTTCTGTACTAAAGTCTTTAACTTTAATAACCATATCTAACTCT GTGTTTAAAGAT
TCTGATTTTAATACGATATGGAATAAATTTATGAATTTAGTATTTTCACCTTCAATA AATTCATAATTAT
CTAATAAAGAAATTTTCTTATCAACATCAGAAGAACTAAATATTTTTCCAAAGAAAT CATCAATATATT
GATTAATTGATAGTTTAATAATTTCTTCTTCACTATAATTTTTATTAGTTGGAATAT CCTGAGTGTACCA
AATTTTTTGAATTTTATCATGGAGCAATACATTAAATACGCCCGGAGAATTTACCAT AATATTGCTAAC
AACAAAGCTAATACTAAACGTATATACCTTTGGCTTAGTTTCTAATTTATCATCTGA GTTACATGATCC
TTCTGATGAAGTAAAGTTATAAAATGTATTAAATTCTTTTACAAACTGAGCATATAA TCTTTCAATAAA
ATTATCTTCAAAAGGTCCAAAATCTGTACTTAATGGAAGTTCAAGGTCTCCACTCTC CATTAAATTAAT
TGCTTCTTGAATTGATTCAATTAATATATCAATCTTACTATTTACTTCATTATCAAT ACGATCAGTTACA
CCTTTCGGACCATAGATATTTAACGTCATATATTCATTATTGTTATCATTCTTATTA AGTACGTCATATG
TTACACTAGTAATAACTTCACAATTACGTGAAAAATCCAATTCTTTATCAGTGATAT CATCTAAATCTT
TGATATCACCAATAATTCTTAAACTAATAGCATCCTCAATATTAGGCATCCTAATTC CACATCCATTTC
TTTTTATTTGATAATAATTTATTAATAAATAAATATAATTTTTTACATTCATTTACA AGATTATACATTC
CCTATAACTATGATATATTCAATAGTTATAGGGAATGTATTTATAATTAATTAGTGC ATTGTATTAATA
TATTGTATATACGATGAAGCGTTATCCTTTATTACATTATCATGTTGTCTTATTTCA TATTTCGTTAACA
TGATATTAATGAAGATATAAGTTATAATAAAGAATATATAACTAAGTATTAATAGTT TTAATAATAGTT
TATTTTTAGTTCGATTATCTTGGTTTTCATCAGTATCTATATTTTTTCTTAAATTCT TCATTAAAAAGTCC
CCCTTTTATTCTATATATTATATTGTTTTTTAATAAAAGCGTAATAAACGAATATAT AGACATATATTAT
AATTATGATAAAATAATAAATAATATAAAGAAAAGGATGATATTATAATGAAAAAAT TTGTACAAGT
ATTATTAGTAGGAGTTCTATTAGCAGTAGCAGTAACAATTGTAACTATTAACGTTAC AGAAAGTAATA
ACGGTACAATGCAAAAAGAATTATTACCAAAAGTAATTTTAAATAGACAATAGTATA ATTACTACTAT
TGTCTATTTTTTTTTTTAGTTGATTAAGAATATTTTATCATAATCTAGATTATCGTT GAATTCTAAAAAG
AAGTCCCCAACATTACTTACTGTACATTTTCTAATAGAAGATACTCCTTCATCTATT GGTGTAGTCTTAT
TTACTTCTAGCTCCATACTATTATCACTATAAACTCAGGATAGATATTTTCCAAGAA TAGATAACTTCT
ACATTTTCTTCATTTAATACTTTTTGTATCATGTATAAGTGATATATATTGTCATCA TCCCTCTTCATATC
GTTTGGGAAGATGTATCCAATAGTTTTATCATTCTTATCAAAATAAAAATTTTCCAC AATAAATTCTTT
GACAAGATTAGTATTCAGTAATTCAATAGCGTTATTTAAGAAATCTTGTCTAAATAA ACCTAAATTATG
AATATTGATTTCTAGCATATTATAATCCACACCTTTTTCTTTTTTCTTTTAAGATAT TAATTCATTATTAA
GATAAATGTTTACACTAAAGTCATCTTTAGAAGTATTATTTATTTCTAACGTAATAA TGTAATCATTGT
TAGCACTATAAAAGATGTATTCTTTTATATACCTAAAATTATGTTGTTTATCAATAA ATGAATCAATCG
TGTTTGATGTAATATCCCCCTTATAATCTTTGATATAATTCTTATCAAAATATATTT TTGCTTTATATAT
CTTTTCTTTAATATATTCAAAAGATTCTTTGTTATCTGCAGTAATTGTAACTTGATT ATTTAGAAATTTG
TTATAATCAATATTAAGTATATTTACTTCATTATGATTATAACAAACGTTCCATGCA GTAAATATTTCTT
TTGAAATAAACTCAAAAATATTATTATCCCCACTGTTATTCATAATAAATTTCCCCC GATATATTTATTT
GATATAGTAAGTTTTATTCTAATATTTATTTAAGTTTATAATGATATATTATAGATA TGGCAAATATAT AATATATATTTTAATTTTTCATTAACAATATTTTAAGGAATAAGGAGTGCTGATTAATGT ATAGATATA
TACGTACAAACGGTTCTATGCGAAATAAATTGAAAGAAATGAATATTGATAAGAATG ACAGTATCTTT
GAAAATACTGTTAAGATTATTAATGAATTAATAAATCATTTCTATTCAATAAGTGAA GTATTTAACTTC
ATAGAAAAAGAAAATATTCATATCAATAATGAAGTGATGCAATATTTAAGTTCTGAT GAATTTTATAA
ATCTGCATATACTTCGAAAATAATGATGAAGAATCATATGTCTAAACATTCATTTAT TCGCATGATAAA
AAATGAATTGTGTTATCGTAATATTAGTTTTATTTTTAATGATTCATTATTTACTAA TGATGATATTGCC
ACGATAATAGTTAGGAATGATCTAGCTGAAATACCATTTGATATTATGGTTAAGGAA AATCCATTAAG
CTTGAAAGATTTTAAGAAGACTTTAAGATATAATAATTTAAATGATCATGAAAAATC TATTTTAGAATT
ACGTAATATTTAAATTTATTAAGAAAAAAAAAAGATAACTATTGTAATTTTAATAGT TATCTTTTTTTC
GGATCATAGAAATATTTTATATATTATATAGGATAATCATATTATATATCTTTAATG ATGATAATCTGT
TGGCTAATTCTGGACTTCTTTTCTCTAATGAATAGATATCGATAGCTTCAATAAGAT TAATTACTTTAAT
AAATCCTAGATTTCGATATCTTTTATTTATTAAAACAAAATTAAGTAATTCTATGAA TTGTATTAATCTT
TCAGCATGATACAACGATTTTATTTTATATTTTTCTTCAACATCAGCGAGATCTAAT CCATATTCTTTGT
AGTAATTTTTCTTTAATAGCGGCTTCATCCTACGTATCATGATACTAATATATCTAT TAAGTTCATTATA
GGTAGTTTTAGTATTCTTATACACTGCCATTTTATGAGTTTTAAAGTAGTTATATAA GTAATCTATTATA
TCATTAAAGAAATATTCGTTTGCATAAATAATCTTTATAAAACTAGACTTTGGCATA ATAATATCTAAT
ATTTTAGGGTTAATCGTAATCCGAGTATTTTCAACCCTTGATAAGAATTTAATATAT GTTTCAGTTATA
AATTTATATACAACTTCTGATTCAATATTAAACTTTTCACAAAAATTACATATGACA TCATTGATATCA
TACTTATTATCACAACAGAAGACGTAAGACGAAATTGTATACAATAATATATATTCA GTATTATTATTA
TTACTATGACTAATATTATCATATAAATCACTTATCATGATCATCATATTTTCAGGT TTAATATCATATA
AATAGAATATATTTTGATAGTATGATAATATTTGTTGACTTTTACGTTTATTATTCT TTAATAAGTACGT
AATAATATTCATAGGTAATAATGTAACCGATTCCGTATCTTTTTTATCTAATGCCCT ATTATTACCTAAG
TATGATAAGATATCGATAATATCACCAAAGTTAGAAATATCATTGTATATATCTAGT ATACTTTCAATG
TTTTCATTTAATGACATTGGTTGTAATTTATATTTATACGTTATCATAATTTGTCAC CTGTATTCTTTTCA
ATGATATTTCTAATTTTATTATTAGTATATTCATCATTTGAGTAAATTCTAGGTAAT ATCTTTGGTTTAT
TCTTATTAGAAGGAAGATTATCAATTATTGAAAAAATTGATATTACTTTATTAATAA TATTTATAATAT
TGGTATTTTTAGATTTCAATAACTTATTAATGTCATATGATAATAATTCATTATCAC TATCAAACTTCTT
ATAGAATGTAAAACCGTACATATTAATATTATTTTCTAGTAATATTAACGTATCCAT AATATTATTATA
TCTTACGTCATCCAATTTATCTGAATACTCCGTTCTCATAACAAAGCTTATTACTTT AACAATAAAATC
AACTACGTTATATTTATTTTTATATCTACGATATATTCTAGGATAATTGAATATAGA ATTGATAAAAGT
TGTATCTTTATACGTTATATAGGATACTGATATAGAAGGGTCTCCGGTATCAATAAT TCTAGTAATATT
TTCATATTCATCATCAATTATATTATCATTGTTAAGATATTTTAACAATATATATTC AATATATAGTAAA
TTCATATTTAAAAAAGGATCTAATATACATTGAATTTCATTAAAATTTTTAATATTT ATATCATATCCCT
CATACATTATAATATTTTCGATAAACCTTGATTTTTCAGTGCGAGAATAATCTTTAA TTTTACAAATATT
ATTTTTTGTTAAGAGACATTTATACTTCATTGTATTGTTATTAATAACCATATCC CTAAAAATTTCTTTT
GTATCTTTTGTAGGTTGATCTACATATTTAGAAAATTTACGATTAAAATCAATTGTA TCCCTTAATGATT
TTGGATTATAGGTTCGTGAATTAATTTCTAAATATTCTTGAATGTCTGTATTAATTG ATATACTATTTGT CACGCTATATCACGTCCTATCATTTATTATATGCTTAACAAATTAATTCGGCTTTTCATT AACTTACATA
ATTCATCTATTCGTTTAATATTATTAAGAGTGTTCTTTCTTATTAATGAATTATGAT TATCCGCACTAAC
ATTATCTTCATATCTTCTAAATAATTCATAATTATTATTAGTATAATCTATAGAATC CAAAATTTTAATA
CGTGCATTATTTTTTACGCTAGTCATTTTATTATTATTAAAATTAATATATAAGTTT AATAATTCAAAAA
TAATGGATATTCTATCAATACTGCTTTCAAATAATATTAGATCATCTTTATTGTTAA AATTAAGATATCT
AGATATTCTTAATGCACTATGAGGGTCTATTCCGATAATACTGTTAATTGCTTTTTT ACTATTAAGTATT
ATATCTTTCTGATTATCTGTAAAAAATTTAGAATAACCACTACCATATATTGTATTG AATATTTTAGCC
ATTGATGATTTACTAATAAATTTTTTAAAATGTTTATCATCAATATCTCTAACGCCA TATATCGCACAG
AATAGATTGGTTGAATATAGATTCATTTTGTCAATCATAGTTAAATATTCATTATCT GTAATTGTAGAA
GATTCTGAAATGCATGTTTTAAACTTTTCAGATATCCTATTTCTTATACCGAAGTCA GGATCATCGTCA
TTGGATATATTGTTATATGTGTCAAATAGTCTAAAAATAATTTTTCTAATGTATGAA GAGTTTATTTGT
AAATTACTACTAGTATACTTATACTTCTTACTAGATGGTGATATAATAAAGTCAATT AAATCGTCAAAC
AGTACACTATACATGGAATTATTATTGATAAATGAATCATATAATTTGTCAATATTC TTCTTAGTAATT
ATATAATTACTATAATTCATACTTCTTTTCGTATATATATGATTAATATTAACATAT TGAGTATTATCCA
TAAAAGTACTAAACAGTTTATTGTATATTACGCTTGACCTAATACTATATTTAAACA TAATGTAATCCT
TTCTTAAATATTAATGTCCTTAATATAATGACGTAATAATTCCTCGGATATTCCTAG TTCCTTAGACATT
ACTTCAATAGGTTTGTTAAGATTCTTTTCAATATAGTCTGTTATATATTGTTCTGAA CTACGTGAATTAC
CTACCTTAATATCAGTAGTACTTAATGGCATTTTAAACCCAATAGTTCTTGGGTTAG TAATTTTTTCATA
TTCGGGAACTGGATCATTCTTAATAATATGGTCTGGTAGTTTCATATTATGTTTTTC TAGGCTACAATTA
TCCAATCTTTTAAGTTTATCTAATGATTCATTAGTAATGATAATCATTAGATCGTTT CTACTTAGGTCTA
CTGACATTTCTTTCACATTTTCATCATAAAGTAGTGTAGACATATGACTAATAATAT CATGTGAATTTT
CCAATGTAATATTTTGATCCATATATTTTCTAATATATTCGACTAATTTTTTCTGCA TATTCCGATTCCA
CCAATCTATATTATTTATTAGAGATTATACGTATATCCATTCAATTGTTAGGTTGTT TAGAATTACCTTC
ATTTAGTTTTATATTTAATACATATTGAATATTGTTTCCTTTATTAAATTTAATGTA ATACTTAGTCATA
TCACCAGTAGTATTATTAATAAGTCTAATTGAATAGGATTTCTTACTATGTTTATTA ATATGAGTATAT
AGATTATCTTCATCCTCTATAATGATATTCTTTTCTGTAAAGTAATCTAATATAGAT TCTATTCGTTTTA
ATTTATTCATCCTTATCGATAATAATATCGATAAGGATGAGAATAATATAGTTAACA TGATAAATATA
ATCATATATCCATCGTTCCTTCCATATCTATTTTATGGACATTCATTAAAGTAATAT CATACTTTTTAAC
TTCAATATCAATTGCAGTATAGTTTACCATAAATGTATATCGATTCTTTCCAATTTT ACTAAGACTATTA
TATATCTGGATTGAATATTCACGGATATTTGGAGAAGTTATTATATTCGTATTCATT TTATTATCATATT
CAGTTAATTTATCAATAATTGAGTATGATAACATGATTTTTTTATGTACAATAGATC TGTACACTATTG
AGACTATAAAGATTATAATCATAATCGATAATAATAATATCATTTAAACATCCTTTC TTATATAGATTT
ATTTAATTTTTTGATTACTGATATACACAACTTCTTTAAAGTCTTCATCATATACTA ATTCAAATTTATC
GTTATTGTAGAAAAAAGTGTATGTATTATGAGTCCTATTTAAAGATCTTTCACAGTG ATATAACAGATC
TTTAAATACATTTTCCGGATTTACATAAGATTCCTCCATAACATTTTCATATCCAGA AAGAATTAAATA
ATTTCTAATGTCTGGATAGACTTTTTCCTTAAGAAACTTTGGATCCATTCTTTTTCT AAATTCAGCCCCA
AGAATATAATCATTTATAGAATCCATTATCTTATCAATAATTAAAAATCCGATTAAC ACTAAAAGTAAT ACTCCTACAATATTAAATAATAACATAAATTTATCACTATCCTTTTCTTTTTATATATAT ATAAAAATCG
ATATCACTCCATTATAGTAACAATTATTGGAGTGATATCGATTTAATTTTAAGTTAT ATACTAAGAATT
ATTTCGTGAGATAAATATTTCTTAGTATAATGAAATAAACATGCTTTAGACTAATAA TAAGATAAATTG
TCAAGGGGAATTTGATCTTTATACATTATTTTCATTTAATAACAAGTTTATTTATAA TTCTAATTATTAT
ATCAGAATTATAATATATTATTAAAATGTAACTATAAATTTTTATAATTATACATTG ATAATCATATCT
ACATTAATATTTTTCTGTTGAATCATTAGATTAGAATTCTTTAATGTATTATTAATT TTATTAATATTTA
GGTTATCCGACTCAATATATTTGTTGATAAATACATCAATGTATGCTTTTGGATTAT TCATTGAATTAAT
AATCGTATCTTCCATATTATCAATAGGTTTAGGAGATATGACCATATTGATAATAGA TGACATTTCATT
AGTCATTCCCGCTTCAATAGTAATCTTATCAAATATATTTTTTTCATCTTTCCATAA GGTATTATCAATA
TTCATTTTATTAATATTGAATTCTTCTAAAATGAAACAATTGTTTTCTAATACATCT TTTATTTCATGAG
TTAGAGTGATAACGTTTCTTAACCAAAAGGAACACTGTTTATTAAGTTCTTCTAGAA TTACATTCTTTT
GAGATATATTTTCCCTTAATTCATCAATATCCTTGGTGTAGTTATCATATCTATTTT TATATAAATTATA
TTCATCCATATTGGATTCTTCTAATTTTATATCCATAATTTCAGAAACAGCATTTTT TGCATCTATAAAT
TTAGATATCAATTTTTCAGATCGATTAATAGTGAAACCATTAAAATATTCTTTTGCC TTACTATTAATAC
ATAAATATGTATCATATAGGAAATTAATAGTTTTTTGTCTATTTTCCCTTAGCGTAT TAAGATCTTTGTT
ATTCAATGATTTTCTAAATTTAACTGCTAATTCATAATCATTATCGATATTTGTACC TTCAGTGCTGATG
ATATTATAATAAGTAGTAGTATTCTTTTTTAAAGGTTTATTGATAATATTTAACTGA AATGTTCTAATTT
CCTTCATACTTACTCCCACCACCATTATTATCTAAATATTTATCATACTAATAATAT TATCTAATTTTTC
ACTTTTAACAATATTTTCATTTAATACTAAAACATCATTTATATATGGAAAACATTC TGTAATGTGTTTA
ATTATAAATTCTGACGTAATAGATCTTTGATTCATTAGTACTTCTTTATGATTTAAT TTATACCAGTATA
TTTCAATAAAGTCAATTGACAACTTTTGTCTTCTTGATATAATATCCCAACAATCAT CATCAATATATA
CTGATATAAGTTCATATAGCGTTTTTTCATCAAGATTAGCATAATAGATATTCTTCT TCATATATTGGG
AAAACTTTATTAAGAATTCCTTACTATAGTTACAATGCATAACAATATGACTATCCC AAGGAATAAAA
TCTATATTTTGAGAGTATTCTTCAATTGTCATGTGTTTGTATATACTATGATCAATA TATTCCCAAAATA
TTTTAGTTTGGTTTTTAGTAATAAATTTCATATACATTTTATTATATTTCACCCGAT AACTAAATCTAAA
CCATTCAGGATCATTTATATCTTCTTTTTTAGTCATATCAAGATTAAATAAGACCCC AATAAATAATCT
TAGTTGATTTATAAATCGACCTTTATACGTGTCCATTATATTCAAGTTATTCTTTTC CTTTCTTAATATA
ATTATATTCCATTTATATATTAACTATTTATTTTATACATATTAAAACCCAATAGAT ATATAGTAAATAT
CTATTGGGTTAGTGTTTTATTCAGAGATCTTAACTGTACATACTAATGGATTATGCT GTAATTCACTAA
CTAATTTAGGAATAGTTGTAAGTTTATATCTAATAGATGGATTTTGTTTTTCTTCTT CCAATATACTAAT
CGATTCATGAATTCGAATAATTTCTTCACGACTAATTGGTTTAACAAATATTGCAGG CTTACCAGTATT
AATATTGATTCCCTCAATAATATTCATTTCATCATGACTTGATAAGTAACCCACAAT AATCTTAATATT
TTTTAAATCTTTATACGTTAATCTTGTTTCTAATAATGAATCATCTTTCATTACGCA TAAACTTCCCTTC
CAGTTTAAGTTTTATTTTATATAATTATTAGTTAAACTAGTATATAAAAAATTAAAC TGAATTATAGAA
TAATTTATTTAAAAGAATATAACGTACCTTTCATATCATTATAATAACTATATTTAA TCGATTTAAATTT
ATCCATACTATTGAAGAAGATAAATTCCGGAGTATCTTTCTTAGGAGGATAGTTTAC AATATCAATAAT
ATGAGCGATAACTTGCATATCCATATCGGTATATTTAATATTAGATAGTTTTGTTTT TGATCGATTTACT GTAGTTTTTCTAGTCCTTTTATCAATGTAAATAGTAATTTCTTCGGGATTTTCAGTAAGT TCTTCATGAA
TTATATTGAGAAAATTTACCGCTTGAAGATACGGTACTAGCGATATTTCCATTGTAC TATTAAAGTTTT
CTTCATTACTTTTAGAGTTGATCATATTTTTAATATTTTTTAGTTTACCTATTGTTT TTAACATTATAATT
TCCACCTTTAATTATTTATTTGTTGTTATCATATTAATAAAAAATGTATAGTCGATA AAATTAGACCCA
TTGTCTCTAATAATTTTTACATCATCTTTAAAATTAACATATTCTTTAATAAAATCG AGATTATGGGTTT
TTCCTTTAATCGATTTTGAGTCAATATCGTTAATTGCAAGATTTCTTATAACGTATG GACTATCTTTAGA
ATCATAATACAAGTTATGGATTCTAAGAATAAATATACTATTATATAAATTTTCTTT TAAGAAAGATAA
ACTTTCAGTGAATCCTAATTCATGAGTCTTATCATTATATCCAGTAATATGACCAGT GCTGACATGTCC
ATTACTATGGATAATTTCAACTTTATTATTAATTAATGATTCAATATTCGTTTCGTT TGTATACTTATCA
AAAATAGTATGATTAGACGCATTATAAATATTAATATTCATATCGTCATCAATTGTA TAAATATATTTT
TTTGAGATAAGTTTATCGAGAATTAATTTTAATGTATTTTTTCTTAATTTAAATAAA CGCTCTTTTAGAT
AACATACTTTATCAATATCCGGATACTTTTCTTTTAGTGAATAATCTTTATTGATAG TATTAACGTCAAT
ATATGATATGTATTCAATATAATGAAGATTAATAATATCATTATCATTAAATGATGT TAATTTCTTTTTA
ATTGTAGTGATATTCATTACTTCATAGTAAATATCATTATTAATCTTTTCTTTTAAA CTAATAATCAATA
TTTCCTCAGACTTATCATTTGTAAATAAGAAACCTAAATTGCTCATAGCACTTTCAA TAAAAGAAATAT
TATTATCCATTTAGATTTACACCCTTTCTAATCTATATATTCATTATAGTTAATGCA TCTTTAAATTTTTG
ATCTTCATTCATATATTTAATTAAGTATGGATGTTCTTTAAATTCATTATCATACTT AGTTAATTTATTA
TAGTATCTAATAATAAATTTTTTTGGTAAGTTTTCTTGACTTCTCGATATTTTGAAC CATAAATTAGCAT
TATCTAAGGGTACAGTGCTTAGTATATATTCAATTGATACTATTGGTAATTGGTATC TTGAAATAGTCA
TTATAATTGTGTGCAAGTCAAAATATTCTATATATTTTAGTATTACGCTTAATTCTA ATTTATGGTTTGA
AACGATAATATAATTCCAGAATAATTTTGGAGCATATTTATCAAGAGAAATAATATT ATCTATTGTTAC
ATCATACTCAATATCGTATTGAGAGAATATTAATTCTGCAGTTATATTTTCCCAAAT TTTAGTATTAAT
ATCTATACTGTCTGCATACTTAATAAATAGATTAATATCGTACAGTAATAGTTTATA ATTATATCCTAT
GGAAAAATCTATATTGTCAAGAATATTAGGATTATTTCTCGATATATCTAATATTCT ATTGCATATTTC
AGGAATATTGTGATCATATTTATATGAGTTAAATTGAGATTCAATAAAAGAAGGGTA GTAATTTTCTTC
ACCAGTATCATACTTTTTATCAATATCTATAACTAATTTAATTATATCGATTTTTTC ATTCTTTTTAGAA
ATAATAATTTTTCTTATATCTTCGTTACTAATAGGCTCGGTATCAGTTCTAGACATA ATATTCTAACAAT
CCTTTCTATTATTAAAAAATAAAATCTGAGACTATAATTGATCATATAGTCTCAGAA ATATTTTATATT
AATCTTCTAAATTATTATTTAATATATTCATAGACATATTAAAAATACTTCTTGAAC GTTTACCGATAC
GATTTATTGTTTTTTCAGATATATTTAAATAATCTTTAAATTTTATCGGAAAATACT TGAGGTACATAG
AAATTTGTTCTGGATTATCAATAATATTGTTATCAATGATAGTTCGAACAACAGTAT AAATTTGACCAT
TAAGTAATTCGTCAATAGTTGTTTGGATCGTATGCTTGAATAATTCATCCTTTCTTA AATGTTGATGATC
TTTATACTCCATTTTCATTCTAACTTTAATATAAGGATCGTTATAATCTTGATGATC ATTAACTAGAGAT
TCAGGATGAAATATTTCATTAAATAATTTAATATCGTCATTTTTTCCATATTTTATA ATAATATTTGTAA
TTAATAATCTCGAAATTTCACCAATTTCATTATAAGGAATTTCTGATTCTTCAAATT TTAATGTATAATT
AATTTCTTTTAAATACTCATTATAGTATCGGTATTTATAATTAGATGTTAATGCAAG AGAAGTTACAAA
GTTAAGATTATTTTGATAACTTCCTACTAATCTAACTTCATTATAAAATACATTATC CTTTATAAGTTGA TTAATGATTTTATAATATCTTTGCATTAATACATTAAACTTATCGGTACTACAATTTTTT GGTTTAGTAA
TTGATTTAATTAATGATTGTTGGGTATTAATTAAATTTTCCATTTCGCTAAAGTCTG AAAGAACAAACT
TGTCAGGATCAATATTCTTTAATAAGTTATACGCATACATTAGAGTATTAACAATAT CGTAATCACTAC
AAGAATAAATATGGTTATTTCGCATAAAATTATACTTGAATTCATCACTAATTTCAG TAATTTGGTATG
GAATACCGTTATTAAGAAATGAAGTTATAATGTGTTTAACTTCTTGAACTGGTGAAC CGGAATTAAAT
AATTTTTCAATACATTTAATTCCGTGATAACTGAATTCTAAGTCATCTATATCATTA CAATAGTTCTTTT
TAGGAACAATTGAATTCTTCGTAATATTCTTATGAATATTACGAAATTCCCTATGAA GATCTTTAAAGT
TCTTTTTGAATGTATCATTATTACTAGTTTCTTTTAAATTAGCATAAATCTTAATTG TATTATTCATTATT
TATCAATCCTTTAATATATTTTTATTTTTCAATATTAACTTTAAATTCTATTCCTTG ATCTACCATATCAT
AATCAATATCAGCAACTCGACCAACGCTGATAATATATTGCTTGTACAATTCAGTAT CTTTAAGATTAT
GACCAAGATATGCAGTATCATATCTGTCACTTTCAATCTCTCCTGGACTATATTGAA CATTGGAGATCG
GGTTATCATTTAGATCTTTTAATACGTTATATTCTTTACGATCAGTATCAAAAAGCC TATTCATTGAACC
TTCAAAAGCTACTTCACCATCACTAAAATTTTCTATGATGAACTTACTGTTAAGAAA TATAGTGAGTCA
GTTGTTCTAACTTTATCATTAGGGTCAAAATTAGATGGTTTTGGGTCATTATCAAAC TTAACCCCTTTAT
TAGGAATAATATCCATACGAACTAGAGCTACTGTATAATCAGTGGCTTGTACTGGTC CGATTGTAAAC
ACATAATTTTCAGGAGAATTAACGATAACTGTCATAATAATTTTATAATCATTATCA TTAGTTACCCTA
TAGTCTCCTACCTCTGTAAGTTCATATTCTTCTTCTTTTTTGTTTTCATAAGGGGTT TAAGTTCTTGTATT
TTTGATTGAACTGAATCTTTGTTAACATGATTACTATCATTATTTAATACAAAATAA ATAACTACTGAT
AACCCTATTAATAATACTACAAATATTAATATTTTTTTCATTTGAAAGTTCCTCCGT TTTCTAGATTTTT
ATTGATTTTATATATTACTTTTAAACCTTTAGCAAATCTTTTAGATTTTACATCTTT CATACTAATTACA
TTACTTTTCTTAGCTACTTTTTTAATTTTCATAATTGATCCATCCTTTATATTTTAT TTAATCATTATTAT
AATATATTAATGAAAATTATATTATTACGCTAAAAAAAAAAAAATCCGTAATACTCA TAAAAGAGTAT
TACGGGAATATTTATATTATTTAAAATCTTTCACATATATGAAAACCATGATCAGTG GCTAATTTATAA
TCAAAGTTTAATCCTAGATTCATTAAATAAAACTTATCAGCTTCTTCCTTACTGAAT GTATTGATTAAT
GTTTCTAGTGACATATGACATTCTTTATCATAATCATAAGTTTCGCAAGAAGCATCA TGATATATCTCA
TCAAAGTAACCTTGATGAATAAGACTTTCAATATCATCACCGAAATTATTTGCGTCA CCACTATAATAT
ATTACTTTTTCATCAACCTTAATAATATATCCATACGTCATAATGCTCGGAGAATGT CCAACAGATACT
GCTTTTATTTGAACGTTAGAGTCAATATGATAAAATTCATATTCTTCAATAAATTGT ATTTTATAATCTA
CGTCTGCATGAACATCATTAATCTTTAATAAATTAACGATATTTTCACCATATGATA AAAATAGATTAA
CTTTTATATTATGAATATGTTTAAAGTATCTAATAAATGTTGGTAAGGAACCTATAC GGTCAGCGTGAG
TATGAGTAATAATTACATTAATGCTATCAAAATTCTTTATCATACTATCCATAAAAT AATCATCAATTA
ATATATCAAACACCATACTTCCACAATCAATAAGATAAAAATTGTTATTATTAATAA AGTATGCAGAC
GTATTTCCTAATTCTGTATTAAATTCATTTCCGGTTCCTATAAAATTTAGTAAATTA TTATACATTTTAT
ATACCGCCTTTATTTTTTTTTTTTATTATTTTTTCTAAAAAAATATTGGATATTGTC ATTTATTTGACAAT
ATCCAATAAAATAAGGAAAGTGTAAACTAGTTAGAATATTACACTTTTAGACGAAAG AGTAATATGGA
GATAACAACTAGTCGTACGGGATTAGAGATAGTTATATTTAGGCATAAGATTTACCT AAATATAATAT
ATTATTATCCAAAATATTAATTTTTTATTTTTACAGTTTACGCATATAAATCTTCAT TATAAGCGTATTG AATTCTTTATTGTATGAATTAATATCCGTAATATTATAATTATGACCAATAAGATTATCA TTGTTAATAT
TAGAATTATATACGCTAATTGCATTATTATATAATGCTTCTAATTCATCATAATTTT CTAATAAACTATA
CTTGTAATGTATATATACAAAGTTACTTATAATCATATCGATAAATTTTGAATCGAT ATTTGCAAAATA
TATTTTACTAGAATTAGATATAAGCGTTGGTATTGTAAAATTACCATGATACATTTC AGCATTAAAATA
ATTCTTCTTACATATTTCATAAATAACAGTATCGTCATTACTATTTAGATATTCATT ATACGTCATATTA
ATAAAATTTGCAAGATTGATTGGTTCTGTTTTGATATTTGAATAGACGATATTATTA TATGATTTATAA
TCGTGTAGCGTAGATCGTAATACATTTTCAGTAATTACACTATTACTACGAGAAAAA TTTTCTTTATAT
TGAAAGTACTTTTCAATATTAATTCTTAAGCAATTATTAACTTCTTCTAGATTAGAT CTAGATTCATTAT
TCGAAGTATCAATAATATCTTCCTTAATATAATTTCGCAGACTTTTCTCATCAGGAT TATTATGTAATAT
ATCTACTATAATAATCGCAGTTTTAATTAGTATATCCGTAGATTTTTTATCCGATCT ATTTCCAAAATTA
ATAATATTTCTTAAGAAATAAATTAATATCTTTGGATCATAGTTATACATATTATAT ATCATGCTGACA
AATATATTGTTAATTCCAATTCTTCCATTAAGAATATGTTCTATAAAATAATAATAC TTATTTGTAGAA
TCTTCATTATATTTATTATTAGCAATATACGCTGATTGGTTGGATACACGAATAAAG CTTGAATATAAT
GCAGAGATATAACTATTATTAAAATAAATAGTTGGAACGATATTACAAAAGAAATCA GCTAATTCTTT
AATATCTATAATATTTAGTATAGATTTTTTATAATACTTCATAAATTCTTTTGGCGT ATATTGGAGATTA
TCAATCTTGATCTTTTCAGTGTCAAACATAAGAGCGTGGGACTCATTTATAAATATA TTAAAATCATAT
ATATTTGAAGTGAATATATCTTTTAGGAAACTATATTTATCTTTGATTAATGAATAC ATTGTATTTCTAA
TCATATTTTGAAAATATATAATTCGTAGATTATTACTTTTTTTAGTATTGTCAGAAT CGACTAATGATTT
AATTTCTTTATAATATTTTGATAGATTAGATTTGGAAAAAGTTTCGTTAAATTCTTT ACAATCATCTAAA
AATTTGTTATATACTTTATCGACAAGATCACTATTACTGATTTCATGAGTATCATAT TTATTTTTTATTT
TATCGATAGAATTTTCGTCATAATAAATTCTATCGATAAAACTACTAATTATCGGCA TGTTGATGTATC
ACTTCTTTCCATTGATATAGTGCATAATGTCAATATGTAACAAAATGCTCTTACTCT GATCTCTACTGG
CATTACAATAATCAAATTCATGCTGATAATGATCCAATAACATTAATGCATAGTTAT ATTGATTTTGGA
TGATGCTTGAAATATTATTACTTAATTTATATTCTAAATATTCAATAATATTTAGAA CTTCATTGTCAAT
AGGATTAATTTTTTCATAATTATTTAATAAGTAATGATATACATTTTTATAAATTTC GACAGAATCATT
ACTTATTTGAATGTCATTATTTATTGAAAAACAAAATAACGAATTAAAATCATTAGG ATCAATTAATA
GTTTTTCTAAAATAATCTTAGTCTTTTCACTTTCTTTATATTCAATCCATCTTAC AGGGATATATTCAGC
TCTCTGCATGCTAATGAGAGATTTAAATAACTTAATTGAATTTTTCTTTTCTTGCAA ACTATATTTACTA
AAAATATAATTTATCATATTTTCTACAAAAAGATTAATTCTACCAATAGTATGGTTT ACTGTAGCCATG
TTTGTTCCTTCAATAATATGATCTTTACTGCTAACATTAATAATAAACATTCTTTAT CATCCTTCACTGT
TTTATTTTATTCACATTATTATAATATATACTTATCTTATTAGTAAAAAAAGAACTA TCACATTTTATTA
TGTAATAGTTCTTCTATGGATTAATTGATGAATTAATTTCTGTACTATTATTTATTC GGTTAATTTTATC
TTCTAAAGATATCAACCTAATAACATTTTTTTTTTTATTTGTCATATAAAATAAATC ACTCTTTTATTCA
TAATTATTCTATTATCATATGCACTTCTTTATAAGATATATTTATAGAAACTGTATA TTAATAACAGTTT
CTATATTAATGATAGTTTAACTTTATCAAAGATGTTTCTATGATTAAGAGAATTCTT AATAAGGTCATT
AATAGTTATATTTATGTGGTAAGGTTTTACATTATCTTCTGCATTATAAATCTGTAA ATTTATATTGTAT
CCATTTACTATAAATTTATAATATACCGAAACATATTCTCTTGTTACTGGTTGCTTA AAACGGTCAGAC GTAAAAGTATAATTAAATGTATAAGAATCAATATAACCATTATTAGTTGATAAATCACTG ATATTATA
AGTATATTCATCGATGTCTGATGGGTCAAGATCTGTATTATTTCTAATAAATTCATA GATCATACTTTTT
AGGATTTCCGATAGATATGTGATAGTTAATATTGAAGAACTAAATCTTTTACTATTA AATTTTTCTTTTA
TATTGTAAGTATTATCATTATATTCAATATCTTTTGATGGAATATTATAATTAGATG TAAACATTTCGTT
AAATGTTTTTCGTTCTTCAGAAGTTAATTCATTTAATGTTTTAATTAATTCTTTGTC ATTATATAATAAA
AATGAATTAATTATATGGTACGTAATATTCCCATTAACATGTAAAGGTTTACTTAAA AATCCTAGAGAT
TTTACCATTAGATAATTTCCTTTCTTTTTTTTTTTAATATTAATTTTAGATATTATA CATTTTAATTCTAT
CATAATATTTGATATTCTACTTCTTTCCTTTATACTTATATGGATTCAAGAATCATT TTATCATATATTTT
CATATGTTTCCCACAATCAAATAATAGATCAATCATATTAATATTTTTGTTAAAAAT TTTATCATTAAT
GAAAAAATCAATATCTAATTCATTGCTATCTTTATCCATACTAAATTTAATTTTGTC AGAAATAAATGT
AAATTTAGTATAAGGATGATAATTCTCCATAAATTTATATTCGGGTATATCTTGAAT TCTTATTAGGGC
AGAGACTTCAAATTTTAATATTAATGCTAAAAATTTCTTAAAGAAATTAGATTCTAG TATATTCCAGAC
GCCAAAAATATCATTCTCTCGATATTTACTAAAACTAAATATACGCTCTAAGTTATC AATCATTTCCAT
ATTATTTAGTTTTGTCAATTTTTCTTCTAAGTCATCATAAATCTCAAATATTTGTAC AATATCATTTTGA
TTTGTTTCGAAAATATACATAGATACTATTTCCTCATACACGCTATTATCTATGTAT GGAATAAATGAA
TTTTTAGCTGAATCTTTAATCTGTTTTATATTTTTCATGTATACCATTCCTTTCATT CTTTAATTTCAAGA
ATATTATGTGGGAAGATATCAATTAAAGATACCTTCCCACATAATATATGTAACGAT TGTTTAGTACAA
CATATCACTATATTTATTCATAATATTCTTTGTAAATATATAAAGGACTTGTTCAAA TTCAATATCGGTC
AAACATAATTTACCGTAGGCTTGACGATTACAAAATGATGAGATAGTTGATAATGAA TTACCATGAAA
AACCATTCTTTCAAGCACTCTGTTTTGATTGTCATTAAGCTTATCATATTTTTCTTG GGAAGTGATCATT
TTATGAGTCATACTTAATAGATCGCCTTCTAAAGTATTAGGGAAAACATAATTACCT TCAGAATTTAAA
TAAAAATGGTTAAATCGATTTAATATTTCTTTTTGATAATTTTCTTTTGTTTTATTC AACACTATTAAAA
CCCCCATAACCAATTAGAATTATTTATATACTATATATTTATTTATTAGTATATCAA TTTATTTTGAGTA
ATATGGAAAAAATTATTTTAAAATCCCTAAATAAACATATAAGTTTACTTAAGGATC ATAGATATTTTT
AATTCTTTATTTTATTAAATACTTTTTAATTTATTAATATCAATTAATTTCTTTTTC ATACTTTCAGGTAA
TATTTCATCATGATACTTTAATATTAAAGGAATATTTAATTTATCAATATACGTATC AATAAATTCTAG
TGATATATCTTGACATTTGCTAATAATATCCCAATTAACTTTATCTTGAAACTCAAT AATAAAGTCTTCT
GATAATGTCTGGTACCAACTAATAAAGTACCAATCTAAAGAATCTTTGAATCTACGA ATAAAATCTTC
TGATAATTTCTGTTGTGAACTAATATTATACCAATCTAATTCATCTTGGAACCTTTC AATAAATTCTTCT
GATAATGTCTCGATACCTACTGATGCTAAACCAGTTTAATTTATCTTGAAACTTTTC AATGAATTCTTCT
GATAACTCTTGATGTATGCTGATGCTAGACCAGTTTAATTTATCTTGAAACTTTTCG ATAAATTCTTCG
GATAATTTCTGTTGTGAACTAATATTATACCAATCTATTTTATCCTGAAACTTCTCA ATGAATTCTTCTG
ATAATGTCTGATTCCTACTGACATGATTCCTATTAATGGTTATTTTTCCATAAATAA GTATACCACCTTT
TTGCTATATACTTTTTAATTTAATAATTTCTTTATGTTTATTAATAAATTATCGTGA TACATTTTGAATC
GATTCAATATAATGCCAATTTACTTTATTCTGAAACTTCTCAATAAACTTTTCCGAA AATTTCTGTTCTC
TACTGATATAACTCCAATTTACTTTATCTTGAAATTTTTCGATGAATTCTTCTGATA GTTTTTGGTCAGA
CGATATATAGTCCCAATCTACTTTATCTTGAAACTCTTCGATGAATTTTTCGGATAA TCTCTGATATATA CTAATATGCTTCCAATTAACTTTATCTTGAAATTTTCTAATTAATTCTTCTGATAATTTC TGGCATAAAC
CAATATAATGCCAATCTACTTTATCCTGAAACTTCTCAATGAATTCTTCGGATAATT TATAATATTCAG
AGATACTACACCAATTAACTTTATCCTGAAACTTTTCAATAAACTGCTCAGATAATT TCTGATATGAAC
TAATATTGTACCAAACTACTTTATCCTGATATTTAGAAATAAAATTTTCTGATAAGT TCTTTTGATCCCT
ACTAATATTGTACCAAACTACTTTATCTTGAAACTCTTCAATAAACTGCTCAGATAA TGTCTGATACCA
ACTAATATTGTACCAATTAACTTTATTCTGATATTTAGAAATAAAATTTTCTGATAA GTTCTTTTGATCC
TTACTAATATAATACCAATCTACTTTATCCTGAAACTTTTCAATGAATTCTTCTGAT AATTTTTGATGTG
AGCTAATATATTTCCAATCTACTTTATCCTGAAACTTTTCAATGAATTCTTCGGATA ATTTTTTCTTCCA
ACTAATCTCAGTCCAATCTACTTTTACTGAATCATCAACGATTATTTTATCCATAGA TAATATTACATCC
TTTCTTTTTTCACTATATACTTTTTAATTTATCAATAGCAATCAATTTATCCATTGT TTCTTCAGATAGTG
TATCTTCGTATCTATATATTAGATATTTAACGTATAATTTATGCATATATCTAATAA TGAATTCTTCCGA
TAATTCTTGATGCATACTAATAGCTTTCCAATTAATTTTATCCTGAAACTCTTCAAT AAAATTTTCAGAC
AATGTCTGATATTTGCTAATTTCATTCCAATCTACCATATCCTGACAGTTACGAATA AAATCTTCTGAT
AAGTCTCGAACTGACGAAGAAGCATGCCGCCAATTAACATTTTCTGGAAATTTTAGA ATAAGGTCATT
AGATACATTTCTATTTAAGCAAAAATAATCCCAACATATCTTATCTTGAAATTTGGC AATAAATGATTC
ACTATTTAATTTCTGATGCATACTGATTTCATTCCAATTAACTCTATCCTGAAACTC TTCAATGAATTCT
TCTGATAGTTTTTGGTCAGACGATATATATTGCCAATTAACTTTATCTTGATATTTA CGAATAAATTTTT
CCGATAATTTTTGGTATTGACTTATAATATCCCAGTTTAATTTATCTTGATATTTAA TGATAAACTTTTC
AGGCAATTCTTCATTATATGCAATATATTCCCAGTTAGGTTCAACAGTAAAATTATA TTTTTCATTATA
CTTCATAGGAAACCCTCTTTCTTTTAAGCTATTATATATTCTTCATTATAGTAATAT TAGTCAGCTTATC
TATAGTTTTCTGAGATAACGAGTTTTTATGAATTTCAAGTACGAATTCAATATCCAA GCAATGAATATT
CCTAAGAATAAAATCATCTGACAATTTCTGGTATTGGATAATAAAATCCCAGTACAC TTTATTTCCAAA
ATTTTCAATGAATTCTTCTGATAATTTTTGATATTGGGAAATATTATACCAATTAAC TCTATCTTGAAAC
TCAATAATAAAGTCTTCTGATAATGTCTGGTACCAACTAATTTCATTCCAATCTACT ATATTCTGACAA
TTACGAATAAGATCTTCTGATAGCTTTTGGTTTATACTGATGTAGTACCAATTAACT CTATCCTGAAAC
TTAATAATAAATGAATCAGATAATTCCTGAAATATACTAATATATTTCCAATTAACC ATGTCTTGATAT
TTATGGATAAGTTTTTCTGATAATTTCTGTTTTATACTAATAAAGTCCCAATCTAAT TTGTCTTGAAAAG
TATCAATAAATTTTTCATTCAACATTATGTTCTTAGATATGTATGTCCAATCAATTT TATCATCATTTAT
GTTAATATCATTAGTTTTAATGTACTCGTTAATATTCATAAATTATAACCACCTTAT TTTTCTTCTATAT
GTATAATATATAATTTTAATTTATGTTAGATGTATAAAAAAAAGGAAATGCGTATTT AATAAATGTATA
ATTCCTATATAATTATTATATTATATAAGAATTATACATTTAGTAGTTATATATGTC TTAATGCATCAAT
TTCCTCTAATCTATTTATGAATTCTTTAGATAATGATTCTGAATTATTATTTATTAT TGAACTAATCGAT
ACTTTATCAATATGATTATTAATAAATTCTTCTGATAATTGTTGCTCTCCACTAATA ACGTTCCAATTAA
CTTTATCTTGAAATTTATCAATAAAAGATTCCGATAATGTCTGATATCTACTAATAT AGTACCAACTAA
GTTTATCTTGAAATTTCTCAATGAATTCTTCTGATAATTGTTGATCTGTACTAATAA CATCCCAGTCTAC
TTTATCCTGATATTTACGAATAAATTTTTCCGATAATATTTGGTATTGACTTATAAT ATCCCAGTTTAAT
TTATCTTGAAATTTCTCAATGAATTCTTCTGATAATTTCTGTTGTGAACTAATAATG TACCAATCTATTT TATCTTGGAACCTTTCAATGAATTCTTCTGATAATTTTCGATACCTGCTGATGCTAGACC AGTTTAATTT
ATCTTGGAACTTCTCAATGAATTCCTCAGATAATTCTTGATGTATACTGATGCTAGA CCAGTTTAATTT
ATCTTGGAACTTCTCAATGAATTCCTCAGATAACTTTTGATTTCTACTAATATCATA CCAATCTAATTTA
TTTTTCAGATTATTAATAAAATCTTTATCATCTAAGTTTTTATTTTTCATAAGTATA TCAATCCTTTATAC
TAATATTTAAACATGTCTTAATTTATTAATTTCTTTTAATTTATCTACAAATTCTTT AGATAATGATTTT
GAATTGTATTGTAGTAATGCTTCAAGATTTAATTTATTTAGATATTTATGGATAAAT GTCTTAGATAAC
TTTTGGTTTCTACTAATAGACTCCCAGTTTAATTTATCCTGAAACTTAATGATAAAT TCTTCTGATAATA
CTTGACATGCACCAATATATTGCCAGTTAATCCTATTTTGGAACTTCTCAATGAATT CTTCTGATAATTG
TTGCTCTTCACTAATAACGTCCCAATCAATTTTATCTTGAAATTTATCAATAAAAGT TTCAGATAATTTT
TGGAACCGACTAATTAAGTACCAATTTACATTACTCTGAAACTCTTCAATAAATTCT TCTGATAACTTT
TGATGTTCACAGATTAAAAGCCAATTTACATTACTCTGAAATTTACGAATAGATTCT TCAGATAATTTT
TGAGATCGACTAACTTGACTCCAGATTAATTTATTTTGAAACTTACTAATAAATTCT CCTGACAGTTTTT
CACATTGAGATATATAATACCAATCCAATTTATCTTGGAACTTCTCGATAAACTCTT CAGATAATTTTT
GATATGTTACAATAAAATCCCAGTCAACAGTATTCTGAAACTTATCAATAAAAGTTT CAGATAATTTTT
GATATATGCTGATATAAAACCAATTAACTTTATCTTGGAATTCTTCGATGAATTCTT CTGATAGTTTTTG
GTATATACTGATATTTGACCATACTACTTTATCTTGGAATTTTCTAATAAAGTCTTC AGATAATGTACGT
TTTTCACATAATAACCCCCAATTAATCTTTTCGGGGAATTCACTTATAAACTCTTCG GTTAGGTTTTTAT
TCCACATAAAAGTATACCATTCCTTCTCTATAAAGATATTTAGATACTTTTTATTTT ATTAATTTGAATT
AGTTTATTTAACAATTGAGGTGATAATAATTCTGAATTGTACTGTATTAGGTGTTCA ATATTTAATTTAT
TTAAATGATTATAGATAAACTTCTCAGATAATTTTTGATATCTGCTAATATAATCCC AATTAACTTTATC
TTGGAACTTAATGATAAAGTTTTCTGATAGTTTTTGATATTGACTTGTAGCATCCCA ATCAAGCTTATTC
TGAAAATCAGTGATGAATTCTTCCGATAATATTTGATATTGACTAACATCCTCCCAA TCATTTATCATA
TCTTGAAACTTAATGATAAAGTTTTCTGACAATTTATGATAAATTACGACTAAGTAC CAATTAAGTTTA
TATCTAAATTTTTCGATGAATTCTTCTGATAATTTTTGATCTCCACTAATAGTATGC CAATCAATATTGT
CCTGAAGTTCTTCGATGAATTCTTCGGATAATTCTTGATATTCACTAATATTAATCC AATTAACTTTATC
TTTAAATCTAGCAATAAAGTCTTCTGATAATTTCTGATATTGGCTTATATTATACCA ATCTACATTGTTT
TGAAATTCTTCAATAAAGTCTTCCGATAATTCTTGATATCGACTAATAATATCCCAT TTTAAATTATTCT
GGAATTTACGGATAAAGTCTTCCGATAATTCTTGATATCGACTAATAATATCCCATT TTACATTATTCT
GGAATTTGCGAATAAAGTCTTCTGATAATTTCTGATATTCACTAATATTAGTCCAGT CAACTTTATCTT
GAAATTCGATAATAAATTTCTTTGATAGTTTTTGATGTTTAGAAATACTGTGCCAAT TTACTTTATCTTG
AAACTCACGGATAAATTTTTCCGATAATTTTTGATATTTACTAACGTCTGTCCATCT AATAATATCTTGA
TATTCACGGATAAAATCTTCAGGCAACTTAACACATGATACCGTAGTATACCAATCA TAACCAAACCT
TTCAAGTGTTACGTGACTTATATTATTATTGACTGTTTCCATAGTACTTAATTCCTC CTATAATATCATT
TTTAATCTTATTAAGAAATTAGACCAAGTTAATATCTAATTTTTTGAAGTATAAATT AATAAATTCCTC
TAATAGTTTTATGAAAATAAAATATATTCTCAGTATATTTATTATGTGAAAAATCAG CACATATTCATC
ATATCATTAATAATACGCTTTCTCTCTTTTTTTGATACAATGTAATACGTGTTATCA ATATAATTAAATT
CTTTAATAAAATCTTCCGATAATATTTGATATCGACTTATAATATCCCAGTTTACAT TATCTTGAAACTC ATGGATAAAATCTTCAGATAATTTTTGGTACATACTAATATAATCCCAATCTACTTTATC CTGAAATTC
TCTAATAGAGTCTTCTGACAATCTTTGATATATGCTAATATTTTCCCAGTCTACATT ATCTTGGAATTCT
TCAGATAATTTTTGATACCTTGAAGATTGATACAAATTTGTAATTTTATTATATTCA ATATTAATATCAT
TGTTATATTTGATATCGCTATCATGATTATCATTATTATTTAGTGATAACACATGAT TTTTATCTTTTAT
AACATTATCATATTTTGGAATATACAATATTAAGGGATCATTATTACTATTATCATC TAGATTTTTTGA
AATTTCAATATTAGCGGAATTAGATTTAATTTTATCAATATATACTTTATTTCTAAA TTCTATAATAAAC
TTTTTGGATAGTTTTTGCGAATTGGATAATTTTTGTGAAAATATAAGATGTTCCCAA TATAATTCCGATT
CATATTTTCTTATAAATTCTTCAGACAATCCTCTGGTTCTATCAATCATGTTCCAAT TTAAATTATATGG
ATTAAGTTCGACAATCTCTTCGACAGTATAATAACAATTAATATCCATAATAATCCC TCATTTCATTTA
TTATTTTAATATATGATGCATTTATACATTATAATTATAATATATATTTATCCTATA AGTTATAAAAAAA
AAAATCAAACGTGATATATAATGATTATCACGTTTGATATGTAATTATTTTTTAAGA ATGTTTAATAGT
CTTAGAGAATATTCTAAATATTTAGATTGATTTTTTACATTGTAAGTTATTAATAAT AATAATGAAGAG
AGAAGGAACAGATCTCCTGATTTACAATAATCTTTTTGATATTTTCCATACATTACA TTACATTTCAAT
AGCGTTAATAAGATCTAATTCTGCAATAAGCTGACTTACTCGGTGATCTGATAGATT TTTCCTATTTTG
AATTTCTTGTTCTTTTGCTTCATCTAAAATATTATTTAATGCTAACATAATTCTATC TAATAGAACCATC
GATTCCTTATAAACTTTTACAGAATTTTCACGATTTTTAAGAATATTTATTAAATTA CTGAGACTTAATT
CATACTGTCTTATTTCTTCGCCATGATTATTGATTTTTGTAAGTTCAAGTTTTGCAA TAAATAACCGAAT
AATATCAATATTCCTATCCCTATTATCCATTAATAGAATTATATTTTTTAGATTTTC GCAAATACCATCA
ACTGATACCATTATATTTCACCTTCTATTCTACTTTTAGTAAACATATTAAGTGCTT CTAATTCATTATT
GATCATTTCCAAATTTACTTCTTGTAAATTCTTTTCTTTCATTAATTTAATTTGTTC TTGATTTTCTTTTTC
TTTTTCTACAGATTTAGTAATTACTTCTTCAATCTTAACAAGTAATGAATTTACTGT TGTATATACTTCA
TCTGAAAATATTGCACTATTTTCATTTAAGTGTCCAATAATTATATCATTTATGCTT GATAAACTTAATC
TAATTTTATCATGTGTATGGATATTGTATTTTAATAGATTAGATACTTTTTTGTTTT TCATTAATGAATT
AATAGTTCTTCTTAATCGATTATTATAGTTTTTATCTTTAAAGTATTGAATATACTC GATATTTTTATTA
ATGAATTTAATAAAATCAATAGCGTCCATATCCGGAATATATTTTTCAGTTGAATAA ATTATTGCATTA
TCATTATTATTTTTATATCTTAGTGAGTTTGATCTAGTTAAGTGCCTATTTATATAT CTAAGATCATTTG
TAGCTTGATCTATTTCACTGAAATTAACGGAATCATCTCTTACAATATCTTTATAGT CACGAAGTATTA
AATATCCTGAACTAATAATACCTTTAGTTAAATGATTATTTTTAATGCGCATATAAG TCTCAATATTAT
TTTTAATAATATTGAGGCAACTTTGGATATTTAATGAATCAATATTATTTAAACTAA TATATTCGATTTC
ATTAAACAATTTAGACAATTCTTTACTTCTAGATAAATTTTCTGAAAGTAAAAATTT ATCTAAAAGATC
ATCATTCTTATTATTTTTTATTTTAATAAATTTAAACATTCGATCACCATCCAGTTA ATTATTATAATTC
TTTCTAATCTTTGTTATATAAATTTATTATCATTTCGAAAATTCAGATATTTCTCAA TTCTCTGATCTTA
ACTAATTTACGCTTTATTTTATTAGATATTAGTTTATCATGTGATATCAATAGATCA ATATCTAATTTCT
TGAAGAATATATTAATGAATTCTTCTGATAAATTTTCACAATATATAGATTTGCCCT TCCAGTTGATTG
TACTATTATTTTCAATAGATAAGTATTAATCTTCAGTTAGATCAATAATATCTTCAA GATGTGAACCAA
AAGTAGAATAGTCTATTAACCATATTTCTTTTAATGGGTCTTCTTCAAGAAAGATTG CAATATCTTTTG
CATGTTTCTTAATTTTATCCACAATATAATTATACGTTCGATCAGCACCACTAGGAT TCTTAATGGATCT TAGAAAAACGTCATCATAAGATTCAGTTTCAATAATATGATATCCTTCATAAGTTTTATT TCCTTTTTGT
AACGTCACCGATCTTAATACACTTTTTCGAGTTTCTTTAATGCCAATTAGGTCAGCT AAATTAATTACTT
CTTTTTTATTCAGATCAATTCCATTTTCTAGTACAAAAGGAACTGGTTGTAGGTT CTCGTATTCCTCATC
ATCAATATCACTTAGTGAATTAATATATTCTAAAGCATCATTATATGATTTAAATAC CTTATGTTTATTC
TTTTCCGTATTAGTAATTTTATATTTGATTGTCATAGACCATCAATCCCTTCATTTA GTTAATTTTTATTT
TTAAATTCTAGTTTAATATTATTACTCTGAACCTTACGTAAATACGATAATATCGAA TTCACCTTTACTT
TCCATACATCATTCACAACAGAAAGTATTTGCTTCATCCGATAATATATCTGATTAT TATTATCGATGG
CAAGAATTATACTCATATGCTGAGCCTGAATTACCTTATCAATCGTAATAATATCGT ACAAGTTTCTTT
CATTTCTACTTTTAATTAATTCTTCGCCATCATTATACTTAATTGGTCTTATCTTCA TAAGTTCACTAAC
AGATTTAATAATTTCAGACGTATTTATACATTCCATATTATCATTCAAAATTTCTTT TAAATATTGAATA
TTATTATCTGTCTGCTTAATATTATTTAATAAGTATACTTCATATTCTGCGATAATA AATAAAATATCCT
TATATTTTTCACGAACAGTACTAATCTCACGATTATTTCGAATATTATAGTCACTAT CAATATTGGACA
TCATTCTCATAATAGTATCAGATTTTTCTTCAATATAATTAATATACGTTTCATTAT ATGCGTAACGTAT
AATATCCTTTGATACTTGGTTATTTATTGACTGAAGTTTATGCGATATTTCAAAGAT CTCTATTTTACGA
TTAACTACGTCATAATATATTTCTTGAGCTTCTTTCTTTTTATCCAGTGATAAGCTT GAATACGTAGGAA
CTTTATCATACATAGCAGGATGTATATACAATATATTATCTCCTTTCATTATTATTA TTATTGTTGATTT
ATTAAATATATATTAATAATATATATGCATTTTTATAATAAAGTTTAATATTATTCC CTAATACAAGAA
TTTACATTTATCTTGTATTAGGGAACAAATTTATTTATTTTGATCTATATTAATAAA ATATAATACCCAA
AAAGACCATATTAACCCAAAGATGATTATTAAAAATCTAAAAATTAATGAATCTATA AGCAATCCTAA
TATAATTAATATTAGTGACATTATGGTTAAAATCATTAATACTATTTCTTTATGATC TTTTAATAAGTTA
AATATTTTTTTCATAATAAAACCCCCATTATAATATAATAATTAAATGTATAAAAAA ATTAAATCATAA
AATTTAATTTATGTAACTTGTTAGGGGAGAACGAGTTACGTCGTATCTCTTGCGTTA TCAACAATATTT
ATAGTTGTTCATAAATATTATGACTTTTGTATTTTGCATTTTTGTTATTTCCAATAA TTGTTATATAGTTT
TGGTATATTAATCTATATATTATTTCATCATTACAATAGAACCAACCTTATAGTAAA AATTATATATAA
AGAATAAAAAATCTATATAATTTACCTTCGGTATAAGGATTGTTACATAGAAGGAAA GATCTACATAT
TTTTATTAAAAAGCATATATGGATTTATAGTTAAGTCAGAACCAACCCTATAGTAAA AATTATATTAAT
AATTATATTTTATTATGAGTTTAATGCTTCGTTGTAAGAATCTTTACATGCACGGAT AAATTATAGTTA
ATTGTTATGTATAATATATCCAAGCATGTAAGGTTTCTTAGATTATTTTTATTTTTT ATTATTTTAATAA
CTAATAAAGATATTAAACTTAATTTATTTCGTTATATATAATATTAAAGTAATTATT TATCTATATGATT
TACTTCTATAACTTTAATTTCTAGTTCTGAAACTTCTTCGTGTTTTCTGAATACTGA TGCAGTATTTCTT
GTAACGTATATTTTATGTTTTCCGGGAATCCATTCAATATTGATTTTAAGATTATCC TGAATCATTTTAA
TGAGCGTTAGTCTACTAGCTTTATTTACTAATTCGCCCCAAAGGTAATATTCATTAT AACCATTATTCCT
AAGAATGTCTAATTCTTTTTTTGATAATTTGTATTTTGTTTCATAAGTTATTTCCAT GATTTATTAATTAT
CCACCTTTATTTATTATTTTTAAAGATCAATAATGTTATCTAGATGTAAAGATTCTT TATCTAATGAATT
ATTATCGATAATATAGTTAATTCTTGATTTAACGATGACGTCAGTTATTCTCTTAAT TTCTTTAATGCAG
GCACTATATAATTCATTCTTGTCTATTTTTGTTATCTTTAAGGTAAGATCTTCAAGC TTTTCGTAATCAA
TTGGTTGTTCACGTCCATACATAATCCAACTTGTATATCCACTACTTACTTTTTTTC TTTTCAGTATTTCA GTGTTATAGTAATTTGTGATGGTAGAAAAATATTTTTGCCTTTTTCTTTTAATACTTTTA AAGTATATTT
TGTTGTCTGAATGAACGCAGAATTTTAAGTTAAATGAATTGTTAATAAGAACTTCAA AATCTAAATCAT
CTAATACCATTTAATAATTCATTCCTTTCATTTATTTAATTGTTTTATGCTCCAAAG AATATCTGATTTT
AAGTCTTCTAGGAATTTTACCGTACTAATAATAGTGTTTTCGTGTAAGTAATCTTTT TCTAGTATCATTC
TTTCTTTATATATTTCAATTAATTGGAATAATCTTTCTTTATGTTTAGAAAGATAAG CATAACCTAAGAT
TTCTGCTGAGAAGACGATATATTCATCATTCAAATTATCAATTCTTTTTTGAGACAG ATTATTATCATTT
TTATAAGACGTCATAATTTCAGAGATTAGATCATAATATAAGTTACTTAATACTTTT ATTGTCTTTTCTA
TTAACCTATTAAATTTTTCTGCTTTTTCTTCTTGAATTAAAATAATCGTATCATTAA TAGCATTATTATA
GGAATATTCTTCATTGCTGTAAAGATATGTTTTCTTTTTATCTTCTAATTTCTTTTC TATTTCCTTAATAG
TATTGATTTGTATTTTTATACTATTAATTGAATCATCATCGCTGATTGGGATATTGT CCATCTTTTTAAT
AAGAGACGTATCCGTTTTTAAATAATTATCTTTAGTATCAATCGCTACCTTATTACC ATCTAATTCTTTT
ATTATACCTTCTTTTGTAACGCCATTATGCATTACTTTTACACGTTCACCTATCTCA AACTTTTCCATCA
TTTTCACCCCACATCTATTTCTTCAATAGGAACTGCAAATTGCCAATAACGCTCATC TGATGACTTTATT
TGTTCTTTTGTTAACTTAGTAGTAAACCCAGATGATATTTGAAAAGGAATAAGTTGT CTTTTTGCAAAC
ATACCACTTACGCCTGTAGAAGGGTTTATCGCTAGATATAAATAATCATTAACTTTT TTAGAAACATTT
TTATCCCATTTCAGTTCATTATTTTCAATAAATTGAACTTGTTCGTCTATTTCGAAT TTCATAAATATGA
TTTCTTAAATTAATTATTTTTTCACTAATAGTCTTATCAATATTAATAATATTATTT TTCTTCTTTTTAAA
AAACATATTCACCATTCCTTTAACTTATTCATTCTTTAATTTTTTGTTAATTGAATC TTTACTAATATTTC
GAATAATTTCTAGTTCATCAGATAATATATCATCAATAGTATTATTCTTAGATATTT TAATATTTTTATC
CATATCTTTATATACTTCGAATATTTTAGAGAAATCGTTATAGATAGTAATTAATAT TTCTTTAATTTTT
TCATACATAGATTTGGTAATTATTCCTTCAGTCTCTTGACCAATATTAATAATAATA TTGTAAATATTAT
TAATTGTATCAATATACTGGGAGAGTTCTTCAGTGAATTCATTTTTTTGTTGATTTA ATATTGACATATT
ATCAGACTTAATAAGTATTTTATCGATTATATCTAAAAGTTTAACATGATAATTAGT TTTACCATTTAC
ACCCATTACATAATCATATAACGGTTTAGATCTATTAATATTTTCGTCAATTTCATT ATCTGATAATCTA
TCGTAGTTATACAAACGATATCCACCTTTTTTTAATATATTATACCTTTTTACATAT GGATGAGATTTAT
TAATATTAATTTTGAAATCATATACTATATTTTTAATACTAAATTTATCATACATAA TCTGATACTCATA
ACTAATAGTAGAACGTTCTCGGATGTAGTATTTTTTATCCATAAAGATATTATCAAA GTATTCATAATA
TTCTTGGGGTGAAGGTAGTTTGTCTGTAGTAATTTGAATTATTGATACCTTATGAAT TGATTCAACTAA
GGTATTAATAATTTGCTTTCTTAATTTGATTAATTCATTATCGATAGTTATAACCGA TTCTGTATCTGAT
AATTCATCAGTAATCACATCTTCAGGTTCTTCATTATTTATTTTTTTATGTGATTTT CTTTTAAAAAACA
TGTTCATCATTCCTTTTCTATAATATTTATTTAATTTATTAATAACAATAAAGTTTT TTCTTTAGTAACTA
TCTTTTTAAAATATTAGTTTATCATTACAGGAATAACTAATTTAATAGTTATTCCTG TAATAATTTTTCT
TTTAATTTATATCTTCGTATATAATAAGATACTGAATCATTTTTCATATGAACATTG GTTGAGATTTCAG
AGATAGTTGCTTTTGGATTCTTTTTTAGATATTCTAAGATACTATTGATTCTTGAAT TAGTAGAATCATC
ATCACTATTTCGAATACCTTTAATTTTTCGATTATATTTAATATTATTCTTTTTAAT ATATGACTGAATT
GTGTGATATTCTACATTAAAATGTTTTGCAATTTCTGTCATTGTTAAATTCGGATTT TCTTCAATAAATT
TGGATAATCCTTCAATTTTTACTTTTATTTTCGGACCAATACCTTTTTTACTTACAT ATGGTAGATCATA TTTTTTAATCTTTTCCCTTAATGTATTTGGAACATAGTAAATTTTTTCAGATAAT TCATTAACTGATAAT
TCGGGATTTTTCATAATGATATTTCTTAGATATTCTTTTTCCTGAATTTGATCTTTA GAAAGTTTTTTGAT
CATTATATATACCTTCTTTGTTATATAATTTTTCTACTTTTATTAATTCGTCTAATA TAATTATTAATTGT
AGATACATTTGCATTAAAATGTTTAGCAATCTTGCTTGCTGTAGCTTCAGGATATTT TATCATAAAATT
AATAATTTCATTATCATCAAACATTTTATCCACCCTTTTACTTTTATAGGGGATATT GTTTCTTTTAATT
GTATTACCAATAAATGACTTTGATACATAAAAGTGTTTTGCAATTTTATCTAATGTT AAGTCAGGATTA
TCGCTAATATATTTAGAAAGGTCGTTAATATTGATAATATCTTCATAAATAACAGTA TCGTTATCATAA
TTATATTGCATATTATATTCCTTAATATATTTACGGATGGTTGGTGCAGAGTAACCA GTTCCTGATGCA
ATTTTCTTTATTGAATGAGTAGGGTTACTATTAATATATTCTTTAATAATATTAGGA TCTACTTTTTTCA
AAACTTTATTCACAACACTTTCATTTTATTTAGTATTCTTCTTTTCCTTAGCAAAGT ATGCAATTAGTAT
GTATATTATCATAGATATTAATGTTATTATATCTAAGACATATTCATTAATAGTTAT TGCATTATGGTGT
ATTCCATATAAGAATGTATATATTGTGGTATACACATTATTGAATATAAGGATTATT AGAGGTATATAC
CTCATTTTATAACGAAGTTTATATAGGGATACTTCATGACTACTATATAGTAATAAT CCAATAAGAAGA
TTAGCCGTTAATGCTAATGTATATGTTATTTTTTCAGACAATACTTCATTAGTAGTA AATAAATTTATTG
TAAGAAATATAATCATAAAGAATATAAATAAGCTTGTTATTAGTCTAGTTCGAATAT CAATTTTTTCAT
TATTAATACACGATATATAGACTAATAAAAAGATTACAAGATTTGTTAGTAACATAT AATAATAATCC
TACTTTCCATATACTTATAAGAAGAATCCCCATTAATAAAGGATTCTTCTTATAATC TAAATTTATTTTA
CATATACTTTATATGATTCAAGTAATTTATTTTTCTTTGATAGTTTAGTATTGATAA GTTTTCTGAAAAA
TAACTTTGTGTTGAAAGAGATTTGCGTTAATTCTGTTTTATCTTCACCAAAATTAGT GCTTTCGTAAGAT
GCGGCTGATTTAATTACACCCCTATTAATAAGATTTTCTTCAGAATATGTAGATAAT TTACCGTTATTA
CCAATCATAACTACAAATTCAATTGATTCATCAATATTGCCGATAAAATGTTTTAAA TTTTCAATAAAA
ATTCTTTTTTCATTAAATGTTCTAAGTCTACGTTTTCTATCAATTTCAATAATAAAT GCTTTCGGTTTCTT
TTTGATATTATTAAATAGTTTAATAATATCTTCTTTAATAAATTTTAGATTAGTATC ACTGGTGATATAG
TATTGTAAGTAATATTCTTCAGATTTTAAATTATTTACTTTTTTGGTAATATCATAA AAAGTAGTAGTTT
CAATTAATGGAATAATATAGTTACTTTTAATACTCGTGATAGCAGTATTAATACCAG TGACATCTTTAT
CGCCAATCACAATTGTTTTTTTATTCTTCTTAGCAAATTTTTCTAGATTATCAATCA TTCTTGAGAAATC
AGTTTTCTTAGTTTTTTTATTAGATCTTAACAAACTTGCAACATTTAACATATAGTT TACCATCCTTTTT
ATTTTTTAGGTTTTTTATTTACAAACAGTAGAATAATAATGGCAACGCCAATTCC AATAATTGCAGGAA
GTAAATCTTTAAATATATCCATGTCGAATCACCTTTTATATTTTATTTTTTGTATAC ATATTCCGTATCA
TAATTTTCAATAATAAGTTTAACAGTTCCATGAGAAACTCCAAGAGATCTTGCAATC TTAGCAATTGAA
AATTCAGGATGTTCCATTATAATATTATTAACAGATTCTATAATTTTTTCATTAGTT AAAGAATTATTAG
ACATATTAACTTGGTTATACGTTGCGATACTAAATTTATATTCTTCAAATAGACTAA TAATATATTCTTC
GGAGAATCCTGTATCTTCAGATAATCTTGCTGGAGTCATAATATCATTACTGTCTAA TACAATTTTACT
TAATCTTTTAAAGTCTGATAATCGTGTATCAATCTTCATATCTGAAATGCTCATTTT TTGAAGTCTAATA
GATGAAATATCTTTTCCTTCTTCTTTCATAATTCTTCTAATAGTTGATTTTGCAATT GAAAATTCAACAT
TACATTTTTCAGCAATTTCTAATATTGTCATTTCAGGATTATTACGATAAGTATAAA TAATATCTTTAGT
CATCTTACTAAATTTATCATTATGCTCATAAGTTTCTCTTCTCTCTCTTCTTTGTCT TCTTCTACTTTCTG CACTTGTTAAAACATTTTGACTCATTACCATGATAATCTTCCACCCTTTTTAATTAATTT AATAAATTGT
ATTAATATAAGATTATAAAGTATATCTATGATAGTTTAAATTAAATATATTGTAATC GTTTATCACATG
CCTGAATTACAATAGCATCCCATAAAGCATTATGTTTATCTTCATTTACTATGACAT TAATATATTCACT
AGCAAATTCTTCACGATTAATATCCGGATCAATATTTTTAGTTCTAAATACTGTAGA AATATCATAATA
GTACATGTCAACAAATTCTGGAATTAATGTAGCATCTTTTCCTTTATTAATTAGATC CACAAATAACAT
CCAATCGTATGCCATTAAGTCACTAACAAATACTAGTTTTTCAGAACTATGCTTAGC ATTATATGATAA
CCATTCGATAATTTTATCAGAAACTTCATCTTTAGTTCCATATACTATAGTTGTCTT AGCATTATCCGAT
TTTGATGCTAATGCGTCATGTTTGTTAAAAAATCGAAGTTTAGGAATAACATTATCA TTCACCCAAACA
CTTGATTTCGTTGTATCAAAATTAGATACTTCCGCATAAAATAGTCTACCGTACGTA TCTACCATTCCA
ATACTAATTAGGTCGGCATCTTTTGTTAAATTTGTAAATTCTGTATCAAAATATATC TTATTATCCATAA
TGTACCAACTTTCTTTAATTTGTCTATATATTTCTCAATATAATACTTGATAAGAAA TTATTGAATTCTT
TTATTAATCGATCTAGCGCCTTATCATTAAGTAATGAATTTATATTTATAAATATGG ATTGATTATCAA
TAAATTTATTGATATCTTTTATATCTATAACAATTAAGAACTTACCATTATCATCTT TATATAAAGAACT
ATTGATTGATTCTAATTTTTTATTTATATATAACATTTTACCATCAACAATAAATTT AGGGTTAGTATAC
ACTAATTGAAACATACCATTAGAACATTTCGATTCAATAGGTAAATATTTATACATC TTATATTCATCT
ATAGATATAATATCAATAATGCATGTAAACAAATATCTTTTAATGATTTTTCACCCC TATAATTTATAA
TTTTGATACTATAAAATAAATATCATATTTATAAATAATTATTATTCTAAAAAAATA AAAAATTCGATT
AATGATATATGACATATCATTAATCGAATATAATCTATTTAAGTATAGATACTGTTA CGTTAGATGTCC
CACTAGAACCTATTTGCGATTTATCAATTAATAAATCAATTTTATTCCCAATAATTG CGCTTCCCGTATC
ACATGCTTTAGCGATAAATGAATTACCATTAGGATATGTAATTCTTAAAATACTGTT CATTGGAATTAC
TGATGTATCTACAGCTACAATACGATGACCTTCTGGAGAATAAATAGTGTTACTCAC TTTAGTTCCATT
AGCAGTAATTCCTGTGCTTGGAGTATAATCATCCCCAACCGCATATACTGTCATACG AAAAGAACCAA
TTTTTCTGTATGAAGAATTTTCTTTAGTTGAAACATTCCGTACAGTTTTTTTATTTT TTACTTTATGACCT
TTGTTTAATTTTAATTTCTTGATAAGTTTAATATTATCATTCTTAATATTTTTAATA ATTGTATCTTTATC
TTTAATTTTCTTTGTAAGTTCTTTTATATCAGTAGACATTTTATTACTTTTATTAAC AATATTTTCATTTT
GTTCTTCTAGATTATTATTGATTTTATTCTGTTTTAATATTAATTTTTCCTGACTTT GGATCATATGGTTT
AGATTAGATTGATGAATCGTTTGAAATGCTGTTAACGATAGTAGTAGAATTACGATA ATTGATACGCA
TGTAGTTTTAATATTCATTCGATTCAATTTCTTTTTCTTATGCATAGATTCCTCCAT TTCTATTATAACAT
TAATACTATTTGCTATAGTAAAATTATATATCAAAAAACCGTAGTATATTATTATTG TTTTAATATACT
ACGGTTTCTTATTTTATTTTATATTATTTTTTAAACAATATTACTAAGAATTTTTGG CGTTTTTTCCACAA
AATAAATTTCATCTGAATTGATCTCAATGATATTGGCAATTAGTTTTCTAATAAATC CAACAATATTAC
TGATATGGATAATTTTATTTTCGTTAAGAATTGAGAAGTTATCTAGTAATCCATTAA CTTTTAGATTGA
TATATGAATATGATTCTTTATCAATATAAAATTCAATAAGGTCGGAATCGATAATCC TAACATTAACTA
TATTATACAAATTTGCTTTGTTTTTACTATTAATGTCACTAATAAGTTTATCATAAT CATCTTTATCCGG
AGTATGAAAATAATATGGATTTAAAAGATTAATAAAATTGATCTGATATTCTTTTCC TAAAATATTAAA
AACTAATCCATTTTTTTCTGAAAATTTAGTTGTAAGAACTTTATCTATAATCACTTT CTGTTCCATTTAA
ACCACACTCCTATACCATATTATTAGTATTAATAACTTATTGTATTAAGTTATTATA AAATACCCAATA CGTTAAATAATAAACGTATTGGGAGTATTAATACTAATAATTATTGAATTCTATCTTTAA TTACAACTA
TTGTTTTATGGAAATTACTAACAAATTTAATATTTGTGTCATAATATTTATTTCTAA TATTATTAGGGAT
GTGACCAATAATATCACTATAAATAGTATCAATAGTCTTATCGATATTTTCAATATC CGTATATACATA
ATGAGATAAGTTATTTACAATAATTTTTCCAATATCAATATATTCATTTTCAAACAT ATTAGTATATTCT
TCAGGACGTAGTAAATTCCTAAATAGATTTTCAATATTATTAATAATTACATCAATA TTTTCATCATTA
ATAATATCATCGATATCATTATTAATAATAATATCAACAATTTCATCTACATAATAA TTAACATTGTCT
TTTTGATTTTCAGTAATACCGATTAATCCATCAACTTGCTCTACTTTACCTGGATTA TCATCATAGATAT
TACTATCCATTGATGTTGAAACGTTATCCATTTCATTAACGCTTGAATCTTCTTTAT TCCTACCACTAAA
TAACTTATTAAATAATTTCTTAAACATACAAATCTCTCCTTTTATACTATATTTTAC TATTATTATAATA
TATAAATAAAAAAATGATTAAATTAGTATATCTCCAATCAATTTATATTTTGATTAG AGATATACTAAT
TATTTTTAACTTATATAATCATCGATATTTATTTCTTTAAGTTTAATCGACATATCA TGAAATGCTTTAT
ATTGATAGGTAATTTTTTGAAGTTATCTCCAAATTTTCCCCCAATCCAAACCGTACG TGAGACTTTCAT
CTCATACGGCTTTCCATCTACTAGGAATCTAAACCTAATCTGTTATGTATCTTTCTT TTTAGTAGACTAA
GGACTTTCCCTAATTTATATTTCTATAAATATTATCGGTATCTTATCCTCGCTTTCA ATCCAAATAAAAT
TTCAGTTATAGTCCAGATTAGACTTTCCGAGAAATAAGTATTATATTAATACTTTTG GATCTTCCCATG
TTTCTATAGACTTAGGTTTATTATATAACTTAGGACTTTTCTAGACCATATATCTTA CTTCTTAACATGA
TAAGCTAATAAGGTTATTATCAATGATTAATAACTATTAGAAGATATATTTATACAT TACTGTATAGGA
TTAAGTCATTATAGAAAATTAGTTAAATCTATCCATATTATACTACCCAAACCAAGA TATCTTATCCTT
TTTAATTAAAAGGACAATCTTCTTGACTTCATCCAGCTTCACACATAGTAATTACTT GCTATGCATGTG
GAATATTATTTTCAGGAAAATCTTAGAATCTTTGTTATCTAAGTCCTTGATCAGTCT ATAAATTAAATT
ATATAAAAATATAATTCCTACAATCCCTCATATTAAAATAATGATTTCTGTAGAACA TGTCACACCATT
GATAATCCAGTTAATGCATTCCCAATACCATTCGCAATTAGCCCAACATTCTTAATT CCCATTTGATAG
TATAGTTCGCCTGCACATTTATTACAGATATGTTCAGACTTACAGTATAATGGACTA CGCATTTCAACA
TTCTTATTAATAAATTTACCTTTATTTTCTTCGGTAATTTGCGTTAATTTATCACCG TCTTTTACATAACG
AGTAATAAATAAATTAATATTATTATTTGTAAGTGTAATATTTAAATATTTTTTAGA TTTACAATCACTT
CCATGATCGCCAAGAATTATTGACTGAAATGCAGTGGCAAGTTTTTTCGCTTCATAT CCACCATCTTGA
GTACCAATAGCACGACTTGCACTAGCACTTGTAATAATTTCTGCATATTGATATAGT TCGTCAGGAGGA
ATACCATCGTCTAGTGAAGCCATACTAACTCGAACATCATTTGGGTCCGCATAACTT TTAGTTACACCT
CTAGCTACCGCTGTTTGTTTAAAGTTATTATTAAAACTTCCACGGCTTCCACTATCA TAAATATCCATAT
CGGAAGCATCTTTAAGAATATCATGGGATAATGTTAATAATTCTTTTTCTATTTTAG ATACAGTAACAA
TATCCCCAGAATCAATTGCCTTTTTATGCTTAACAATCAGTTCTTCTTTACGAGATT TTACTTGAGGAGG
AGTCATCATTAAAGTTGTACTAAGTGATGTTGCAATGAATTTAGTTATACCAAAGCC CAGCCATTGCAT
CTTATCAATATAATTACTAAAATCAGCTACAGTAATTTTATCTTCTAATAAGAGAGT ACTTAATTGTTT
ATCTAACTTACTAATAGCCCCACCATCCATTGGATGATTAATATATCCAATATATCT TCCTAATTTTGC
ATCAATAATTAATAGGTTAAAGATATATCGACCTACTGTAGTAGTAATTTTATCTTT ATTAAAATGAAT
ATTTGATTCTAATTCAAAATAATCACTTGGGTCAAACTTTGCATCTTCATTTTTGGT ATATGCAAATAAT
TCTTGTAATTTTTCCATAGTGATATCATTCTCTGAAAGATTAAGAATCTCAATCTTT CTAGCATCACTAA TCTTTTTACCTTTATATGCTTTTTGCAACTATATTCACATCCTTTATAAATTATATCCTT TAATATAAATA
AATGTTCTATTAGATAATAAAATTGTTAGGATCATAGAAAAAAAAAAATATAACCTA GATATCTAGGT
TATATTTCTTAATATAATCTGACCATAAAGAATTAATACTTTCCTTATCTTGAACGC TTATTATGTCTTT
TAATTCAATTTTATTATTTTCTTCAAAGTATATATACGATAATATACTGGAGATTGC ATCATAACCTTGT
TCATCCGTATTAATATAAACGTTATCATCATTACCATAATCCATAAATGTATTATAT GATCTTTTTGATT
TTATTTGTACTGGTTGATGATTAATTACTACGTCTGTTCCATTCCTATCTAAATATG CAGAACATTCCAT
CCAAAATTTAATTTTCTTTTTATTAAATATATTCTGAACTTTTCCTAGAATTCCCAT TACTGCAATTTCT
GCATAGTGACCTTCATTAAGCATTGGTGGCAGTTTATCAATACATTTTCCGTTGAAT CCTTCTTTTCTTG
CTTGGTTCTTATAATAGTTCAATTCATTTAAATTAATATACATCGTAATATTCCCCC ACTAATCGTATTA
TTTATAGTATTATTATTTTTTCACAATTCTTACATTTGGTTCGATAAATTTAATAAA ACAAAATTTCATT
GATAGCTTTATAATAGTATATGTAGTTGCAATCATAAATACAATATTAATGAATATA TTATTGTCATAG
TTCCACAATACTACGTTTGAAGCAATAATTAATAGAATGGTCAGTATTACCGTTATC ATAATTGAGATA
AAGATCTTGTTTACTATACGATTATTCATATCATTTCCCTACCTTACTTTTACTTTT TATAAACATGTCT
ACTTTATTACGAGAATCCAAGTATTCAGAGAACTGATCGATGAAAAGATTTATTGAT ATGTTATATGTT
AAGTATGAGAATGAAATCGATACTAATAAGTCTAGGTAAATATTATTATTTCTAAAA CATACTTCATTA
ATAAAAAGAAACCATAATGATGACGTAATAATAATATTAAATATTACTTTGGTGATA AGATTTCTAAA
TAATTTATCACTAGAATAGATACTTAGTATACTTTCCTCTCTCTCAAAATTAAATAT AGCCATTACAGT
TCTTAACATATTTTTTCTACTTTTAATTTCGATATTCTTAATTAAAAAGTTGCATAA GAATAACACTGCT
TTATTTATGTACATTATATAATCAACCCTTCTTTTTTTTATTTAATCATTATTATAA TATATCATTAAAAC
TTGTATTATTACATTTTTTATAAATTAGAGGGATATGACAAGTTATATGTCATATCC CTCTAATAAATA
TAATTTATGCTACGTAAATAATATATTCCATTTCAATATTTGTAGATAATCCACTTA ATGAGATAGAAT
CAAAAGTCAATCTTGATCCACAACTAATGTTTTCATAAGAGTTTTTAGTTTCATTGT ATCTACCTAACC
ATAAACATAATTCATTGATCATTCCACCACGACATTCACTAGGGTCGATAGTTAATG ATAGACTATATG
AAACTTCTCCAGTAAATGTATTAATATTCCAACCTTTAGAATTACCAAAAGGTTTTG AATTTGTAGCAC
CATTAAATCGTTTACCATAATATTTTACAGTACCATCCGGATCAGCTTGTGGTAAAT AATATTTCATTTT
TTGTTCATCAGTAAGCTCTTTTACAATAGAGGGATTATCTTGAGTTTCAGTATCATT ATCCTTATCAGG
GTCTACTGTAATAAAAGGAAATTTTTGAGCTAATCCATTATCATTAAATTTTGGAGC AACTGGAGTGA
ATGGACTAGCATTAATATCCGCCCCTCCTTCTCCTACTGAGAATAGACAGATTGATC TTGCAGGATCAT
AGACTTCGTTGTATGTTGATGGATGTTTTTCTTTTAATAATGCTTCCATTACAAATA CACGAGTTCTTTG
TAAAATTAAATTATCTTGAATATTGATTACTTGTTTTGTATCTGCATTACGGAAAAT AACTTTTCCTCGA
ATTCCTTTATCTGAATCTGCAGTACCAATATTATCTTCAAAAATTTCTTGAATGTTA TTATCTTTAGACA
TAATGTGGATTACACTTCCTATTCATTTATTTTATAGATATCGATCTTAATCATTTG ATTTAATAAATAA
TTTATCACTAAACGTTATATTATCATCAAGACGTTTTGTTAAGTTTAAACTATGAGA ATCAATTATAGA
AATATAATCCCTAAATAGTATTCCACCTATTTTAGTGACATCCATGGTATCAAACAA TCTTATACTGTT
ATCCATTTTACTATCAAACTTATAAATAGAACTACTATAAACTGTATCGATAGTATA GGATTTAAATAC
TTTTATGAGGATATAAATATATGATTTTACATAATCAGATAGACCAATCGTATTATT TTGAGTTAAGAA
ATCATATTCCCCTAGATTTAAATGATTATCAATACTTTCAACAAGTTCAAATATTCT TTCACGATATAT ATCATCTTTACTTAATGAATCAATATCGTATATATTAATATCTACTTCTGTATAGAAATA TAAGTTTGG
ATCATTATCTTTTAAGTAATCTGTAAACGTATTATATTTTGAGAAAATATCCATATT TAAATCATTTGTA
AATTTTTCATTCCATAATTTATTAAACAAACTATATAGTTTATAATCATTTGTATTA ATAATTGTTTCTT
CTAAGTCTTCCCTTAGTTTTTCATTATATCGGTATATTTTTGCGAAGTCATTCATAG TATATCTTCTTTTA
TTATTGACTATTTCATCATATGAACCAAAAACATCTATAAATACCGATAAATTCTTA TAGTTTATTAGC
TGTTTTCGATAAATATATTCATTGACTGAAATAGCTTCATCAATAGCTGAAGGAATC ATATCAATAACT
TTTCTAAAGTTCTCAATAGTTTTATTTCGATTATATATATCGAAAACGGTACTTAAC CTGTTAATACCA
AGCTTATTTATAAAGTCTCGCATTTCAGACATTATTACCACGTTGTCCATACCAAAC TGGAATATCTTA
TCAGTACTAATATATTTAATATCTACCTGATAATTAACAAATCTTGATAGTAATTGT TTCAATAGACTA
TATTCCGATATTATAGACATTGATATTTTTCTATTTTTATCAAGAAGAATATTCATT AAGTATTCTAATC
CATCATAAATATTACCATTCTTAATGTGATTTTCTAATTTCTTAGAACCGTTAATAC TTTGGATGTATTC
TGAAGTGAACTGCATTTGGTTTTGGTAAACTATTGAAGAATTATACATTGCTACAAT ACTATCAAAATC
TTGGTCTATATCTAAGTCAAATCCTTTCAACTTAAATCGATTTAGATAACCCATAAT ATTTTCCCATTCT
CGTACTCTGAATTTTCGTTTATTCCAGAAAAGATATTTTCTTAATGAAATAATAATA TCATTTACATTTT
TATCAATATCATATCCGTAGGTATGTTCTAAGAATGGAATTTTTCTAATTTTATCAG ACCAATTCATTCT
TTTTAATACCAGTGTTATTAATGCAACAATAGCATCAAATATATGAATTTCACTATC AGAGATATTGCG
GTTATTAAATTTAAAGTCAATATTCTCAAGATTAACTACTTTTGAAGCTTCTTGATA GGTAATATTATT
ATCACTAGCATATTTATTGATTATTGCTCTATTTTTAATTTCTAGGTCATTTAATAA TCCATAAAAGTAT
GATAATTGTTTCGAATTATTAATCAGATCAAGAACAATATCGACTGAAATATACTTT GTATTTATAATA
TTGAATGATTGTTCTAGTATATTTTTCTTTTCAGCTCGCCAATAGGGATCACCTTCA GTAATTGCGTCAT
AATCTACCCTAGGATGAAGCGAAAAATTTAATTCTTCATCAATAGGAACTTTATAGA ATTCTAGTGAG
TCATCACCGCCTAGATTATTTTTCTTAGCAAGCATATACCTATTTATCTGTACATTA TCAAAAGAGAAA
AGATTCTTTATGACATTGAATACATCATTATCTCCCTTGTTACTAATCATTTCATTT ATGAATCGATAAA
TTCTTCGTTGATAATTTACTGGAACAGAATCAAAATAATCTAATCCCCATGATATAA ATCCATTTTTTA
ATTTTTTTCTATCATAAGTATCAATATTAAAGTATCCTTCCATAGTCTTATTAAT ATAACGCATTATAGT
CATAAATATTAGATATTCTCGATATACTTCACGATTATATGTTTGATTACTAAATGC TTCAGTAAACGT
AACATTTAGGAAATAATTAATCGATTCATAGTAAGCTTCATTAAATAAACTTTTATG CCATTTATCTAA
TGTATTACTAGTTTCTTTAAGTATATAGAAATCTTTTGCTCTTCTTGCTGAAGCATA ATCAATATTATAT
CGATTAAATAAATCTTTATAATAAGGGTTTGATTCATTATATCCTTTAATGATATTT GATTTTTCTGATT
CTGAAAGTTCCGAATCACTATCATATATAGCACTTAAATATCTACTAGAATTTAATA GTGATGAAGGA
GTTTCATTTGCTTCTGCCAATTGAGTATCCTTAATTACTAGTCCACGAGCATAATTT ATAACATCTTTTA
TTTCATTAATATCCTAGTCTTTAAATGCATTATAAAAATAATATGGTGTATATTTTC TTAACATCTCTTC
TTTAAATTCATTGACCAATTAAAAACGCCACCATTCTATTATTATTTTTATATTATA AAGAGTTGTTCAT
AAGTTATAATATCTTTTTAGTTTTGATATAGAAACAATATACTATATATTAAAATAA AGTTAGGGTGAT
TTATATATGAATATTAAAAAAATAAATAAGAATAAAACAGTAAGTAATATTGTATCT ATCAGTAAAGA
TGGAAATATAATTCTTAAGGATAAGAATTATACAAGTGATAATTTTTTAGACTCATT CTATATAAAGTC
ACTGGATAGTAAATCTATGAATAAATTTATAAAAAATATAGAATCATTAATTCGAAC ATCATTAGAGT ATTCTAGATATATTGGGTATTTATCTACAGTTCAAAATATCAATACAGATGCAATTATGG CAAATATTA
ATTCTGATGATGCCAGTCTAGAGTTTCATCATTATCCATTTACTCTTTATGATATTG TAGAAATTGTTAT
AAATAAAAATATTGCATTACAAGAAAATTTTACATCAATATCTATAGCTAGGGAAGT TTTAAAATTAC
ATTATGATAATATGATAGGATTATCTAGAGTCAGTAGAACGGTACATCAATTAGCTC ATGCCGGCGAA
ATTTTTATTCCATTAGATAGTATATTTGGAAGGGTTAATGATGTTCGTTAATGAT TTTTATGAATATATT
TATCAAGAACACATTATTACGTATAATAAGATTATTGAAATTTATAATAATAAGAAT TATGATAATGA
TATAACAAAATAATTTTTAGTTATATATTATAATTAAAATAATAACTATTATAGGTG GCGATTATATGA
AAAAAGGAATAGACGATTATATTAATAAATATATAAGTGATGATCCAGAGACTCAAA AAGAAATAGA
TCTCATTGTAAGTAAAATAAATGATTTTAATAATAATTGTATTGAATTGATGAATGA TGAAAATATGAT
CTGTGAAGAAAATATTATTAATGGTACCATTAATGAAGTTAAAGACATTCTATTAAC GTTATCAAATA
CATTTACATCTGTTTATATGGCGAACAGAGTTATTGAAAATATTGAATTATTTATAA ATGGTGAAAATG
ACGAAGAGCTTCATGAATATATTTATATAATGCAAGATTCAATTGAAGATTTTGATG ATATTCCTTTAT
ATGACAAAACGTTATTGTCTGAAGCGATTAATACCATTCAGCGAGCAGAATTTCTAA ATATGATACTC
AAAGAAATACATATCTCAATATATTTAGAAAAAACACTGAAATTATTAAACGATATT ATGGATTATAA
TAGTGATAATTTGCCTTATGATATGTCTATAGAAATTAATGCATTACTGATGAGTTC TGAGTATACATT
ATCAGTTATATTAAGTCAATTTAATCATATTATAACTAAGTCATATACTAAATATCT AAAGATCGTTGA
CATTATCTAATTTTAAACCTAATACCATAATTTTATGGTATTAGGTTAATTTTTTTT TTTATTTTTTAAGG
TTTAAACTACCTAGCACATTTGTTTCTTTATTTCTAATTCTTTCATCAACAGTATTT AATAATTTTAAATT
ACCATAAATTACTACTGCATAGGTTTTATTTTCTTCCGGATTTTTTGTTTTAACAAT TAATTTATCAAAA
TCAACAGAATATTCATCTTCTGTAAGCATTCTGTTATTTGCAAATATTTTTACTTCA ATACATTTATCCA
TATTTCCATTATTTTTTTCAATTTCTTTAGCAACACGAATTAGTCCTGAAGACATTA TTGATTTAATATC
CAATTCATCATATGCTACATTAAAGTCAGGAATAAATTCTGAGAAATATAAGATTTG CTTTTCATTAAG
AGTTGGAGGTATTAAATCTTTTTGAGTTATAATATTAAACTTAAATGTATCACTATT ATCTATTTCTGGA
ATATCTTTTATAATATTTTCGTTTCGCATTTCTAAAATAAATGATCCCGGCATCCAT AATTCTGCAGTCA
TTGCATATCGCACTTCAGAATAAGAATTGATTAGATTATTCATTATTTTTTGAGAAT TTGCTAATTCTGG
ATATCTTAACATGATATTTGCAGGATACTCGCACATATAGGTAGGATTATTTGTAGA CATATTTATTTT
TTCTATAATTGGGTTTAGTGAATGAGATAATAAATATTCACGTAATTTATCTTTATC TTCTTCATTATCA
AAATCTAAACCTAATACATTACATATATTCAATATAAATGATAATGGTATTTCATAA GGTATTCTAATA
TCATTAAGGTAATTTACTCCGTTATTCTCAAAATTCTGATTTAAGAAATTTAAGTTA TTCCAAGCAGAA
AGTTCACTAGGGAGTTTCATGTATATATCAAAACGTAATTTTATCCGATTAGGAATA TAAAAAATACG
AATATCATTTTCATGATCTTCAAATACCATTTTGTATTCTTTGTGTTTATTACGATT TTTTATATAATATT
GATGAGTAGACCAAAAAGGTAATATATCAATAAATGTATCACCTAACTCAAATTTAG GGGAGATTCCA
ATGTATGGTTTAGGCATATCAGTAAATAACCCTTTACCATTACTAAAATTAGTCGAA TTTAATGATTCA
CCGATATATACCTTTTTAAAATATTTAGGTGGAAATTTGCTTATAAAATAGTTTGAT ATGAATGATGAT
ACGCCACTAATAACATTATGTATAGATGGACTAGCAGTACATAATGCTACACTATTA TTATATTCAGAT
CTTGCAGGATCTAACATAAGAGAATCACGCCTTTCTATATAATGTTGTTCACAAAAC AAAAAACCCCT
ATTACTATAGTTATATAGTAATAGGGTAAAAGATCAGAGATTGTGGGATCTCTAAAA GTGTGAAGTAC AGAAAGCATATACAATAGGTTAAAAAATAAAAGGTTAAAAAAATCCTATCGTATAATATA TTATTTAG
AAAATTACGCTTAAAAAAATAATATTATCTCTAGGTACTGATGCTCGAATTGTATAC ATGTTTGAAATG
ATGAATTTATCAAAGTCGAAATCTTCTCCAACAATTTCTTCAAACTCTTCATTTCCT CTAATAAATTTAT
TAATGATAATAGTAGTTTTATTAATAATTTCGTTAGTCAAGATAACCTGTACTTTTT CTACATATTTATT
CATGTTTTTATCATCATTTTGATTTTTAACTTCAGGAAAATTTTCATTTTCCGGTTT ATTTAGTTTTAATA
CAAATTCAGGATTATCCTTATTAATAAAGATTCTTGAATTATTATCTTTAAAATCAA CTTTTTCTGATTC
ATCAATAATTTTTCTTAATTCATTAACTAAATTTTCTTTACCGATAAAACTAATAAT GTTATTTCGGATA
GCAATTTCTTTTCTGAGTTTAATCAGTTTTTCATCATCAATCATCTCATTTAGTCTT TTCTCATTTTCATT
ATAAATCATCTTGTATTTTCTTCCCTTCTAATTCCTTTTCAGGATTATATGTTAATT CACTATTAATTTCA
TTATTTTTAATTTTCATTGCAAGATCTAATATGTCATCATCTAGTGTTTTTTTAAGT TCTTTACTTATGCG
TATATTTTTTGAATTTGGGTTTTCTTTAAATCTTATTATTAGATTTGTTTCTGGATG AGTATTATAACGTT
TTTCAGATATTAACCGATATACTTGATTATCATCTTTCCATAGTATTTTATTTAATA AGTCCATTAATGT
TTTTTGATAATTATCGATATCTGGTTTTTTAATTCTTTTTTCCTGATTTGTCAACAT TAGATATATTTTAT
AAAGGCTATTTCCAAACTTTGTTGGAATATTACTAAATATGGATTCTAATTCTATTG GACCTTCAAAAG
CGTTTTCATTAAAAGGTATTTTATTCTTATGAACTGAATTATATTCGTTTATAGATT TAATTAATATTTT
TCGAAATTCATTTTTATACCCACCTAATGGATCGTATGTGCTACCAATGATATTAAA TCTATGTCGTTG
ATACGGTAATATTTCCCTATCAATATTAATATGTATTTCATTTTTATCAAATTTAAT GATATCTATATTT
GCATTTAAGATATACATCTTAAAATTTCTCGATTTTGGTTTTTTAATTTTTATATCC AAAGGTTTTTCTTC
ACCATTAGGAATAGGTCTTTTTTTCATTACTGCTTCTCACCTCCAAAAGTATTAGTA TATAAATAATTAT
TATTCAATAATTATAATTTTTTAAAGTAAAAATATACTCATATCAATCATTTTAATA TATCACGATATA
TGATAATTAATTAATTGATATGAGTATATAAGTTATATAAAATACTGATGCCATTAT TAATATTAATGC
AGTTACTATATAATATATTAACTGCATTATTTTGCTTTTCAGATCTATTTATTCTAA ACGTCATATTCAT
ATGACGTTCTATTTCTTTAAATAATTTATCCATAAAGTTTTCAATATCAGAAGTAGT TTTCTTAATGGGT
TTAATTTCTTTAATTATTTCATTAGTATATTTATTCGTTTCATCTGCTTGTTCTTTA ATTGCATTTAAAAC
AGCATCAGTTTTCTTCTTATGTGCTTCAAATTCTTCTTTTGTAATATATTTTTCTTT ATCAATATATTTAT
CGTTATCTTTTCTTTTAAATATCCTTTTTAGTAGTGCAGTGAACTTTTCCATCATCC TTAAACCCACCTT
ATTTTTATTTTAATAAAAGGTCGGGTACGATATTAATAGCTGAAACAATTATACC ACTCAGAGCAGGT
AACAATGCTAACCATATTTTATTTCTGCTTTCACTATTATCTAATTTATGACTATGT GATAATTGTGTTG
TTTCAAGATTCCCTATTCGTTCATCTGAAGATTTTGTAAATGAATCTATTTTTGTCC TAGTTTCATTTTTA
ACTTCCTCGATATTTGAATTAAATCTTTCACCAAGATCATCAATTTTATTAAAAATT TGACTTGAGAAA
TCATCAAATTTTTCTTTAATATTATCTACATTTTGACTTATTTTAGCAATCTCTATA TTTGTATCATTTAG
TTTTGTTGAATTTTCATCAGTTTTCTTCTTAATATCTGAAGTAGTTTGATTATAGTT GTCGATAAAAAGT
TTAAATTCATTTCTGGAAACTAGTTCTTTTTCTGAGTTATTTGCCAAAACCTCACCC CCCCAGTTATAGT
AGCCATACCGTTAAATACCGATATGATTAATAGACGGTTAAAGTTTGACTTAATGAG AGTATTTGTATC
GTTTACTGCAGAAGCATAAATTATCCATGCTATTGTTGCAAAGAAACATGATATCGC TATTATAATATA
TCTAGAGGGTTTCTTATAAGATATAAACGCCGATATAATGAGTAATGAACCAGTAAC AACAAAGATAT
ATGACCATATAATTATGGGAAATACCCTATTTAACATAATATATGTTTCAGAAGTAA GTAATACACTA GATTCGGCAATATTAAAACTGATTCCCGTACTTAATGATAATAATCCTAATAGGATTAAT AGAGATTGT
TCCATCAAAAGAATATAATTAAATTCATTCATAAATTTTTTAATTATATTTTTCATT ATAATAAACAATC
CTTTCAGAAAATATCAATAGCACTTACCCGATTTAATAATTCATTCCACTGAGCTTC AGTCGGAAATCC
ATTATCACCTTTTGCACCTTTAAGACTAGCTAACCATTCAGCTTCAGTTCCACTAAA TCCAGATGCTTTT
GCTAGGTCGTAAGCAGACTTACCGTTATCACCAGTGCTTCCTTTATCGCCTTTATCA CCTTTTGCGCCTT
TAATACTAGCTAACCATTGAGTTAATGTACCGTTAAATCCATCAGCAACTGCTAAGT AGTAAGCAGAC
TTACCGTTATCACCATTATCACCTTTTGCGCCTTTAAGACTAGCTAACCATTCAGCT TCAGTTCCACTAA
ATCCAGCTAATTTTGCTAGTTCGTAAGCAGACTTACCGTTATCTCCAGTGCTTCCTT TATCGCCTTTTGC
ACCTTTAATACTAACTAACCATTCGGCTTCAGTTCCACTAAAGCCGGCTAATTTTGC TAGTTCGTAAGC
AGAATTACCGTTATCACCAGTGCTTCCTTTATCGCCTTTGTCGCCTTTTGCACCTTT AAGACTAGCTAAC
CATTCGGCTTCAGTTCCACTAAATCCATCTAATTTTGCTAGATCGTAAGCAGACTTA CCCTCTTCACCA
TCAACTCCGGGATCACCCTTTGGTCCACGGTCACTATCGGAAACGGTATCATCTACG ATATCTTCATTA
GGTTTATGATAGTTAACTTGAGATATTTCATCAATATTACTAATTACATTAGTAACT CTTCCCGCTTCAG
AATACGTTAATACAAGTTCATCACGATCATATTTTAATGTACCACTACGTTTAATAT CTTTTACTAGTA
CTCGATGATCTGAGTATATTGATGTGATTATTATTTCATTTTTGTTATGTCTATCGA TGTATTCTTCTATT
CTATATCCTATAGCCATTTTATTATATCATCCCTTTCGTATAAAGAAACCTTTATAT AATTTTTTGTTTT
ATATATTGGAGTTCTAAATATAAAAATTATTATGATTTGTATATATTAATAACATCT ATAATTCTAAGC
TGTGCTTCTTGATATAATTTATTCTTCCAATCTTCACCTAAGTCAATAATTTTATTT TTTGGTAATGTTTC
TAGTAATTCAATCTTATTTTCACGTATATCGGTAGTAATTACATCATTATCGTCATA TACGGTTAATGAT
TTATAATTATATTTATAAAATGATAATTCTATAAATCTACCTATATCGTTTATATTA TTTTTTCCTATAA
CTACTAATTTAGGTATCATATAATCATTATAATCAACTTCAATAGCATTATCGTTAT CAATATATTCAA
TAGTTGTATGAATTTTATCATCTTCAGTAATTACTTCTGGAAGATTATATGGTTTAA TACTGAAGTCAA
AACCATATTTTTCAGAATAGTTATACGTATCTGTAATATTAACAGAATAGTTTCGTA TTCCTTCATTTTG
AATTGAATTAATATCGTCTATATTATTAAATAAATAAATATTATCAATATTTGGTAG TTCTAAATAATG
ATAATTATTGAATTCTCTTTCTAGTACTGTTTCACTAAAGAACATTGAATCAAAAAG ATAATCATCATC
ATTGTTAGAAGTAATAATAAACGTATTAATACCTTTATTAAGTTTAATTTTATTAGC ATATTCGTAAAC
ATTTGTTTGTTCATTATAAATGCTTAATCGATCATGAGATATACCTTGACTATTATA TTTATACGTATAT
GACAATCCGTTAATATTTACTTTTGCATTACGATTATATTTATCACTAGGATTATAT CCAGTAATATATA
CATATTTCTCAATATCATTTTCTAGGTTAATCTTAAATTCGATATTACCTTTATTTA TCTTTACTAATTTA
TTAGATAATAAGTTATTATAAGTATTATCAACAATCTCTGAAGTATTATCATCATTT ACTGTTTTTAATG
AAGATGATAATTCATATCCTGTAATATTTCCATTAATTTTTATAGGATCGATGAAAT GATTATATATTG
GAACATGGTTAATAATTGCTTTTCTAAGAACTAAAATATTAAAATCTACATTTTTTG TATTTCTAGGTT
GACCTGACTTTAATAATATTTCTTCAATATAATCATTATGGTCAGCATTAATAATAT TATTGTTGATTTG
ATTCTGAGTATACATACTATACTGTTTAGGAGTTATATCTTGCCATACATTCTTGTT ATTACCATTAGTT
GTTAAACTTCTTTCAATATTATTAATAAAGATTGAAGATGTTTTAGATGTCAGATTA TTACTTCCCATAT
ATACCGTCATATTGTAATTATTCATTTCAGGAATAAATATCTTCATTCTTAAATACC CATCTTCTAATCG
AACATAACCCTTTCCAAAATATTTTAAATAGTCAGAAGTCATTCGTGATCCAGAAGT TTTAGTATCTTC ATATTCAAATATTGTTCCATCATAACATTCATATACATAAGTACCGTCAGCTAGTATAGA CGGATATAT
GACTCCATCATTATTGATATAACCATGAGTAATGATATCCTGATCAAAAATAATATC TTTTGGATAGTG
TGGATGACAATAACACTCTCCATTACAATTACACCCATTATCACAGTCATCATCATC GTCATCACCATT
ATTAGGTGGAGTAAATTTATTATTAATGTAATTTACCATTGTTATACTGGTAGGATC AACAATACTTTG
AACTTTTCCATTCTTATCAGTAAAATTTATTTTAAAATCTTTATGTTCTAATAAGCC ATCATGATTAATA
TCTTTAATTAATGTCTTAACATTAGAATCGATTGATGTAATATCAATTAATCCTGAG TTATGATCATCA
ATCATTTCTTCAATACGATAAACTTTCATATTTTGTTTCACCTACTATCCGTTTAAT ATTATATTGTTATC
TTAAAAATTTTAGGACTTTTTGACCTATTCCATATTTAATATCTTTAAATTTATTAT CTAATGACCTAAA
TGATAAAACTTGGACTGCTCTATCCCTAGTCATCAACAAGTTTGTTTTAATACGTTT CATTAGGTTTAAT
TCATCATAACGCATTCCTGCCATACACTCAATATATGATGTTAATCCAATATTATAT CTTAATTGCTTA
ATACGCTTAGAAGCCATTAGGTTAGGATATAAGTCACGTACTTGCATAGATACGGTT ACTTCACGAGG
AAAGTTTTCAGCAGTCCATGTTTGTTCTTCGCCACGAACCATATTTATTGATGATAT TACGCCACATTC
ACATTCAAATCTTCCTGGACAAGACATTCTAACCAAGAAAGGTTGTTTATAACTATA ATATGCGTCTTG
TAACGGTAAACCTAATACCAGTAAAGATACAAATGGTACATATACATAATTGAATAT CGCTCTAGGAT
CTCCATAAGGAGTATAGAATCTAAATTCTAAATTATACGATCTATCGAAAGTAGAGT TTGACCATAAG
TCTGGATAGTATAACTGAGAACCATCTAGATTTTCAGTAAACGCACCAACTAAGCTA CCCAATACCGG
AATTGTTTCAATAACGTCTGTTATCATATCCTTGATTCCATCAGTAATAGCACCCAA TAATCCTCCGCC
GCCAATTCAGGCAAGAGTTTTATTTTCTCTAATTTCAGCCTGTTTACTATTAGATTC ACTAGCTAAAGA
AGACTGAGAATAATCATTAGATGAACTTTCTGATACGCTGGTTGATTTATTTGCATA GAAAGCAATGC
CGTAGTTATCACCATTATTATATTTACTAAAATCGAAAACACCTTCTAATCCCATAG AATGATATATAT
AGCTTAGTATTGTTTGTACATATCGATAATACTCTTCGTAATTTTGTTTAAACGATA TAAATCTTCCATC
ACTAAACTTATTTGCATTAATCATTGGAAAGACATTATCTTCAATTTTCTCTCCAAT ACCGAAAAGATT
AAAAGTGTTTCCTGACATACTACCAAATAATTTCTTATTTAGTCTAGGTTTTCCGGG AGTAATAAATAT
TACTGGTAGATCATTTTCGAATGTATTTCGGTACACTCTAGAGTTTGCATCATCTAA TGGACCATATTT
AAGTGGCATACCTAATACCCTTATATTATCTTTACCATATGAAGCATCAAACGTATC TATTTTAGTATT
TCCAAAAGCATTAATAGTTTCTCCCATTGCATTGACATATAGACCTTCATTATTAAC TTGTGAAGGGTC
AATATCATCTTCTTGCATTAGTGTGTCTCCCTCAACTCCACTGTCTGGTTTTACAAT ATAAAAATCATCA
TCTGAATCCGTATTATTATTAGAATTTTTATTACTTACTAAATCAGGCATATTTTCA CCACTTTCAAAAT
AAATTTTCCTTGAGACCAAATTTAATACATTTATGGTCTCAAGGAAATAAAATTTAA TATCCCGCTAAT
ATAGGAGTTATACTATTAGGATCAAGTTTAAAGCTTGGTTGATCTAATTTATTATCT CTATCATTTTTAT
GATCATTTCTAGTTTGTTTTAAGATGTTATTCGTTTCATTAGTTAAGTTATTATTAG TTGCTTCTAGTCTA
CTAATATTTCTAATTTCACGAATTAAATCACTCAATTTGCTGATAGAATCTTTATCA TTCTTATCAATTA
ATTTATACATCTTATCGAGAATATGATTTACTTTTTTAAGTTCATCATATTTTTCTT TATCATATTGGTA
AGGTTTATTAGGTTTAGCGGAACTTCCATTAGATCCATTTTTACCATTAGAACCGTT AGCACCATTAGA
TCCGTTTTTACCTCCGGAACCATTCTTTCCACCGCCGTTAGGTTTAGCGGAACTTCC ATTAGATCCGTTT
TTACCATTAAAACCGTTAGAACCATTACCATTAGAAGAACCACTAGAACCAGGACTA TTATCTCCAGA
ATATCAACCCTTAGAGCCACCACTTTTAGAAGGTTCAGCGGTTGCTGAAGTTGAATT ACTACCATCTTT ACCATTAGAGAAGTCTTCATTATCTCCTTTTAGACCGTATTCTTTAGCATATTTACTGTT AATACGATCA
CCGATAGCTTTCTTTTCTTCTTCAGTTAGTTTAAAGTTAGCTCTTGATTTTTGTTCT TCAGTTTCTTCATT
AACTTCTCCAGTACCAGACAGTTCTGCACTACCATCAGCAGTACCTCCAGTGTTTCC ACTAACTCTACC
AAATCCTACTAATCTACCAAACCAATCTGCAGGCATATTTAATGCATCACTACGAAT GTTTACACCTTT
ACTAGATTCAGCATTGATCATTTTCCCTTCACTGATATAAATACCTACGTGGGAAAT AGAACCATCTGG
GTTTGCTGAGAAGAATATCAAATCACCAATAGATAGTTCATCTTTTTTAATTCTTTT AGTAGCTTTATAT
TGTTCTCTAGAAGTACGTGGAAGTTTCTTACCGACAGAATTGTATGCATTCATAACT AGACTAGAACA
GTCAAAGGTCTTAGTTTTACCTAAACCAGAACTTGGTCCCATTGAGTATGGAGTACC GATATACTTCTT
AGCATATTCTACGTCTTTATATCCTATAGATTGTCCGTCAGTTTTATCAGAACTTCC ATTATTGGACATT
ACAGAACCTAAATTACTTCCAATATCTTTACTGGTATTTTTATTTTCTTTACTAGAC GATACTTTTTGGT
TTGTAAGATCTTTTAGTTTTGCACCCTCTTCTTTAGCACGTCTTCTTAATCCCGCTT CTTGATTGGTTCCT
GCATATTGACCCATATATTGACTTAATCTTTGTTTTTGGACTAAATCAATAATTTGA TTGTCTGATAGTT
TACTAATATTTTTTCTGGCTAATGCACGTTTAAATAGACTAGTTGCACCTCCAGCAC CATGCTGTACTG
AAGCACTTAAAATTAATTCTTGAATACCTCTAGATCGACCACTTAAATCAGTTCCCA GTGCTTTATTTA
TTTTAGCTAGTCCTGGATTATAGAAGTCTTTTTGGAAGTATTCTTGTTGTGCTTCAC CAAATGCTTTATT
TTGTCCTAATTTTTTCCAAGAAGCATCAAAGCTAGATGAACCTGGAGAACCACTAAG CTTTTTAGCAA
GGTCTGGATGAGCTGATCCTAACCATTTAACAAAATTAGCCAGTGATCCTTTAGTAG ATGATAATTGGT
AAATACCGTAAGATTTACCGCCGGCATCTCCAACCCCACTAGAGATATATCCCGCAC CACTAAAGTCT
TCTTTACCAGTTTCATAAAATCTGGCTACTGAACCAAAGTCTTTTGAAAGATTCTTT CCAGCTCCGGAA
CCGCCAGAGTTTCCACCAGTCGATGCAGCATTTGCATTAACGCTACCTAATCCTTTT ACAATATCTTTT
AATTTATCAGTAATTGATGAGAAGAAATTGCTTATTTTACCCCATACTGATTTAGAT GGTTTATTTGGA
TCAAATCCATTTTCCGCCATATTATATAATGCTGCAACCGGAGTAAGACTGAATAAA GATTTAGCAAA
TGATTTAGGATTCTTTTTCATATCTTGACCTACTCTAGATGACATTAATTTACTGTA TTCAGAACCCATA
TTCATAACCATTCCTAATGGAGTAGCATCTAAAAAGTCTTTAAACTTACTTTGTTCT TTACCATCTTTAC
CTTTATCATCTTTCTTTTTCTTTCTAGCATCATTGAATTTTTCAGCAATACCCATTG GAGTTAATCCGTA
ATAGTGCATCTTTAATCTTATTTTTACGTTCTTCGGATTTTTTCTCTTTATCATTCT TTTTCTTTTCTTTTT
CAGCTTTATCACCTTTAATTAAATCCCCAATAGAAGGTAATTTAGGAGTGCTTGCAG ATTTACCTGATT
TAGCACTCGACATTCCTTTTACAATTGATCCTACTAATATAGAACCTAATATTGCTG CACCGCCAACAG
CTAATGCCGGTCCGGCAATTGGAATTCCAGATACTAATGATAGTAATGCCCTTCCAC CATTTCCTGCAA
TCCTAAGAGCTGATGAGATTCCAGATACTAATTTTTCTCTGGTTGCATTAAATATTG CAGTTCCTCTTTC
AGTAACAGTTCTAAATGCTTCAGTTTCACCTAGACTTTTCATTCGAAACATCATTCG AGCAATTATTCC
TTTTTTACTTTCTGCGGATTCTAGTGCAATATCTTTAGTTGCTGAAGCCATTCTC ATTTTAGCTATTAGA
TTTTCAGTTTTTTCACGAATGGAATTGATTGTACCCATTGGATCTTTTACTGATGAA ACAATTGATCCTC
CAACTTTTTTAGCAGTATCCATAGCAAGACCGCCTGCATTTTTGACCATTACACCAA ATTTTGTATCTTT
AACCATTCCCCATACAGATCCGGCTGCATTAATGGCTCCAGATATAGTATCTTGGTT AATAATATTATC
GGGTTCACCGCTAATGATATCACCTTTAGTTTTATTATTAAACATATTCATACGATC TTTGGTTTTCTTG
ATTTTATCTTGCATAGAATGATACTTGGATACAATTGAACTACCTAGTTTACTTGAA GGATTTTTAAAT GCCGAGCTTGCATCTTTAATTTTGGTTCTAGAGCCATAATCCTCACCGACTGAAATATCT AAGATATTT
ACAGGGTCGCTTGCGTCAGGAGTAACATCTTGACCATTCGCATTTTTTACAAAATCA CTCCTAAGGTCT
GATACGCTTGATGCAATAATTGACAGATACCCTAGTTTCTTAGATATYTCTASKRAG AATAWWTMTCY
WCTYMRYATMMTTWTMAWTAWWTCYASTAAGAATGCARMATTAGAATCTATGATASM GTKRAKCW
RKWATCGTCATMAYGAGTWATATTWMMKRTASTTTCATTATCAAATAATCCAAATAA TGCATTTTTT
ACTGATCCTAGAGGAGTCTCTGCTTGTAAATATCTTTGACCTTTTACTTGTGTCTTA AGAACATTTCTTG
AAAAAGTTGCACTATTACCATCTATAATCTGTGATAATTTTTCATAGATGTCTCCAT CAAACATGTCTT
TGTTATTATCTAATGCAGTACTGTTTTTAATATTATTTTTAGATAATTTGATAATAG TATCTTTAATATT
ATCATTATCGATTCCTGCTTCACTCATCATAGATTCTAATGTTGCATTCTTACTAGA TTTATTTAAAAGT
ATGCTGAGTGGAGATTTATTCTCCGTAGAGATTGCTCTATCCATTCCAGAATTAAAG TTATCTTTAGCT
TTACTAGGATCTAACCATTTTCCACTCTTATAATCATATACTAATTTTTGACCTGAA GAAGCTTCTAGC
ATTTTTGCTAAATAACCTGGAATTACCGTATTAATAGTATTATGAGTTTGAGCAT CAAAGTTAACAGGT
CTGTCTGCTGAAACTCTAGCCATAGAGCTTACTTTTCCTAGATTAGCAGGACCAAAT TGTCGATTGAGT
GAAGTCATTAGTGGATTTTCACCAAAGATTTTCTTAAATTGACCACTAATGATACTT TCGTCACCTTCA
ACAAGATTACCTAGTGCTGAATGTATTTTTCCGCCAACTTTACCATTGGGATTAGTT CGATTAAGCGTA
CCTTTAACCATTCTGTCAATTAATCTTTCTTTATTTTGGAATGGTCCAATTTCACCA GTAGATAATCTTT
CAATAGTGTCATATATTGATGCAGGTATATTTGATACATTCTTATCAAAATAATTTT TTACTCTATCTCT
TGCATATCTATTTGCTCGTTCATTAATATTTTTAGAGATAGAATTTTTTGCATTTTT AAGTAAGTCTTTA
GCGCTTGCATTTCCAGAATTTAGACTACTAAGTTTAAACATTGATGATGTTATTTTA CCTATTCCAAAT
ATACCAGAAAGCATATCATCCATTAGACCCACATTATTGATACTTGCTTTAGCGCTT GCTTGAGATATT
CTATTCATTTTTTCTAATAATGTAGTAGATTTAGAAGATTGCTCGATTAATTGTGAA TAGAATTTGATA
TTTGTTTGATTCATTTTATTTAAGGTATTATTTAACGTAGAAAATCCTCTTGTATTT ACCCCAACTACTG
AACTTGCTGATACAATAGTAGATTCAACAATTTTATCAATATTTTGTTCTTCATTTA CATCTTCATTATT
GATATGATCATTATTATCTTGAGGAGATTCGGTATCAATAATAACTTCAGAGTTAAC GCTTGAAGTATT
ACTTGATTTTCGATTCATTTTATTTAATGATCTACTTAGTATATCTAACGTGTTTTT ACCATAAGCTTCA
ATACCCAAATTATCTTGGTTCATTGAATTATTTGAAGTTCTATTATTCTTACTTTCC AGTTTATCGTCTA
AATCTTTAGATATACTTCGGTATATATTATTAGCAGACATATTGGATGCAGGAATTC GATTATTTCCTT
TTCCCCAATTTTTATTACCTTTATTCATATTGTCAATATATTTACTTCCCTCTTTAA AAGTGCTATCAATA
CTTTTATCTGCCATTCTAGTGTCTCACCAACTTTCATATGTAGAGATTAAATCGCAT TATTAATCTTCTT
ATATATTAATGTTTAAGAATAGTAAAAATCTGATAACTTTAGAAAAAAAAAAAATAA CCATATAGAGA
TAATATCTCTATATGGTAAATATAATTTAAAGATCAATATTAAATTGTGATTTTTCA GTTATAAGAGTA
TTTAATTCTTCCGCACTATATTTACTATAACGTTTATTTATAGTACTGCTAATATAT TTTAAAATATAAA
CTAGATTTAATAATACGCTAAATCTTCTTAATTCTTTTTCATCTTTAGATAATTCTT TTAGTTTTTTATGA
TATTTTCTTTCAGGATATTGCCTGCGAATATTAAGGAAAAGTATTTCTGAAATTACA TCATTAAATTTA
TCTATTTGAAGCTTAGTTTTATATTCGCTAGGTAGTTCTTCTAGAATAATCTTTTTA AAATGATCCTTGT
TTAGATTATAATCTACAATAAGATGAGTAATGACTGAACCAATATATAAATATATAT CCATAATTTCTA
AGATAGCTAATTTTTCATTATCCATAGATTGATTGTTTACTTCATATAAATATTCTT GTACTTCTTCCAT TATCTGAGGGTAAAATCTTTCTAGCATTTTACATTCTGTTTCTTCTGGAAATTTATACTT AGATATCATA
TGTTTTTGATTTTCAATAAGATTTTCTATAGAGAATGAGAAACTATTGTTTTCTTCC GTAATAATTGATT
TAACTTTATAAGCCAAATTTACAACACCCACAATCTGTTTATTTATAAGTATTATTA TCTAAAAGGGTC
TTGGTATTAATCTAAATTCCTTAATATCTTCTTCAGTATTAAGATTAAATTCAATTT CCCACTTATTTTT
ATTTAATATTTTTCGAATATTATAGTCAAAAAAGAATTCGGCAGTATCTATAAAATT TCCTAAAATACT
TGTTCTAAAGTTATACGTAAAAGATTTTCCAATAATAATCTTTTGATTTATACTGGT CGGTATTTTCCAA
ATTCCATTGATATCAATTCTGAAAAGATTATCTGGATCATAGTAAATATTAGAAAAA TAATCTAATATT
GTTTTAATATCACCTATATTTCTATTATAAGGAATAATGCTTTTCTTAGTTTTCTTA TGGATAATTTTTA
ATATACCGTCATAATTTTTTGTTTCCATAAGCGACATGCCTTTCAATTAATTTTATT AATAATTTATTTT
TGAAAACTGATTTTTTAGATATAAATTTATTCTAATATTAGAGTTTTGTATTGAATG AGTTAGATCTAT
GATATTCTCATTACTATTACCAGAATTATTTAGTACATTTATAATTCTTAGTAAGTT TTGTTGACTTTCA
GGAGTTACCTTCATACTCATATCATTAATTATATTATAATCTAAACTTTCTTTTGAC ATATTAATATCAA
TAGAATCAATAATATTAATATTTTCTAAAGATATATCTTTCATTCTTTTATTATCCT CAATATCCGATAT
AATATAACTAAGATAGAATATTGTCCGTAGTTGATTTATTCGGTAAGTATTTTTATA ATGAATGTTTGG
ATACGTTATCATGAATGGTGGTTCAATCTTATCTTTATATTTAACATTATTATTGAA TATTTCATCAATC
TTATAAACAATATCCTGATACATTCCCCTATACATTATGTCTTTATTGTAACAAACA CTGGAATAGTAT
ACTAAATATACATTTATAATTAAAAACGAAAAAATATTTATCATTAGAAACATTTTT ATTTCATGAATA
TTATAATAATTTATAAATGTACTAAAATTAAAAGATACTAGTAGTATACAAGTATTA ATAGCTACTAG
GTATAAAGGATTCTTATAAATAATCTTACCAATAGTAATAAATTTATATTTCTTTAA CAATTTAGATCA
CTTCCATTTCTTTATATGACGTGAATATATTATTGTATAGAAAAAATATAAATGTAC AATAAATATTAT
AGTGCAGGTAGTTATATCTATAATAAAATAAATATAACTACCTACACTGATTCCCCG ATTTAACTAATA
CAATAATAAAAAATTGTTATTGTTGTCTATGTTGTTTGTATTTCTCTTCAAACTCAG AAGTGTATGATTC
ATTTAGTTTGGAGATATCATAATCTTTACCGTCATCTCCAGTGAACGTACCATCCCC ATTATCTGTTCCA
CGAATCTTATCATAATTCATTACGCTTGCAAACATACGAGTTCCTGGCATACACAAT GTTTCAGTTTCA
CGGACTTTACCAATATGAGCATTTGTTTTCTTACGTGAAAATCCAGTAGAACCTACA CGAACTCTTAGT
CCATTTTTAAGAGTCTCATCTAAGATATCCCCAAAGGCGGTAATCATATCAAATACT TTTCGTTTAGAA
AGATCATCTTCACTAAAAGATCCATCAGCAATCAGTTTATCATAAAGAAGATTTACT TGATCGTCCTTA
ATCAACATATCTAATTTTTCACCACTATCTGTCTTTTGATCAATAAGTTTATTAAGA GTTAGATATTCAC
GAGATTCTTTTGGTTTCTCTTCTTTTTTCTTTTTAGATTCTTTTTTAGGTTTATCCT CTTTTTTATCTTTTG
TTGAATCTTTCTTGACTGATTTAGTAGTTTTAGATTTTTCTTTAGGTTCAACTTTTT CTTTATTAACTACT
TCTTCTGAAGAAATCTTAGTAGGTTCACTTTCTTCACTAGTTTTTACCACTGGTTTA ACAACACGTTTCT
TGGGTGTTTCTTCTTTAGCTTTACTTTTTACCACTGGAACTACTTTTTTATTAAGTT CAACTTTTTCTTCA
CTAACTGCTTCTTCTGAAGAAGGTTTAACTGTACTCTTTCTTACTGCTCTTTTTACC ATAGGACGAACGA
CTTTCTTCTTTTCTTCTGCCATTTAATTTACCACCTTTAATTTATTTTTTGAAATAT TATTAAATTAGTTA
TTGAATAAAAATAATCTTTTAATTCTTAACTTTATTTAATATATACCCTATTTTATA TTAATGTAACTAC
CTTATTGCCAACGATATTTAACAATATTTCACGTTTATAATATATACTTATAATATA GGTTTAAATTTTA
ATTTTTTAAAGAAAAATTTTCATAACATATTAATATTAAAAATTATATTAATTTG ATTTTCTTATGGGAC TCCGATGGGACTCGCAAAATCTGGACTGAGCCTAGACTCCTTATTAAGATGCTTATTAAT GGACTTTAC
TATTTTAAATCGAATTCCAACGTTTGTTAAAAGGTGGACAAATAGAGGGTAAAGAGC TTGCGGTATAG
TAGACGATGGTCTCACTGTAGATGTAAGTAAGTTTGTAAAGATTCTTTATTATTTTA CGTTTTATTCTTT
TTTTACTTCCCACACTTGAAGAGTGTTTAAAAGGGGGGTTGGGGGGTTTATTGTTAG TTTAATTTTTTC
ATAAATAATTTTAAAATAAAAATTATTTTTATTAAAAAATAATTTAGAGTGGGTGCT GGAATTTCAGCG
CTCCGCACTTCATTCCGATAATAAACAAACCGAGAACCTGAAGTTGAGTATTGTATC CAATTATCCTTA
ATATCAAAGAATGTTTATAATAAGTAATATACAGTAATTAAATAATAAATATTGTAT ATAGGAAATAT
AGTATGAATATTATTCAATATAATAATTAATGATTTGATAAATACTTTAATATAAAA AGTATTTATCAG
TATAATATCTAATCAATATAAATATTCAATAATTAATAAAATTTTAAGTTAGATATT AAATATTATATT
AATATTAGAATAGTATAATAAATATTAAATATTAGAAATATCTAATAATTATTACAT ATAAGGTATAT
AGTATTTCAATTATATTAGTATTAATAAGTTTTATCAATATAATTTAAATAACAATT CTATATACTGAA
TGAATAAAAATAATTATTCAGAGAGGAGAGTATACTTTTGTTATATATCAGTGACCT AAAGAAGTATA
GATTATATAAAGGTAATAAGCTTAATGGTATTAATAAGTTAAGTGAAAATAAAGATC CAAATAAAGGT
CAATTAATATTACATTTAGGAAATAATGATACAGATATTATCAGTTTCTTTAATTCA AGAATATTTAAG
AATAATCTATTCAAAAGTTATTCTACAGCTAGAAGATATAGAACTAATAATAAACGA AAAATGTATAT
TAAAGATCTTAAAGAACATTTTGCAAAGATAAAGAAAGAAACAAAAGTTACATTATT TACTAAAGTAA
ATTATAAACAGTTTAAGGGTAATAACTTAGTATATGATATTACAGATCAATATAATA TTGAAATTGAA
TCAATTAATAATAAAAAGAATGGTTTAATGGTTTCTAATAACTTTATAAAGTTATTA GAAAAATCTCTG
TTGGAAGAATATGATGATACAGTATTATTAATTAATATGAATACATTGAACGTAGAT ATGGATGATAT
ATTCAATATTACTAAGTCTACTCATCCACTAACAGTTATTGATTTTATTATTAAAAA GAAATTGGATAT
TAGTAACTTAATTGACAAGAATATAACAATTGTTGTATTTAATCCTAATAACAGATT ATTTTATAGTTA
TCCATTAACTACAGAATTATATCCTAAAAGACAGATCATCAATCAAAGATCTAAATC ACTAATTAATTT
GGAAGTTAATGAAATTGAAAGCAATGATGAGATGAGTAATATTCCAGACATTAATGA TATTGATGATG
CTAAAAGACAACTAGGTAATAATATGAGGTTAGGTCGATTAAGGTCTAGAAGTAAGA TACCTGTTAGT
ATAGACAATTCTGAAGTAAGTAATAATTCTTCACAAGAAGACTCAATAACAACTAAA AAATTAGATGA
TATTGATAAAGCTAATGAAATAAATGATAAGGTTGAAGAAATTATTACCCTTACTAG TGATAATACTT
TATTATCTTCAGAAGCTAAAAAACAATTATATACAATAGCTCAAGATGAAATTAAAA ATAATAAAGAT
TTAGTTAAGATGGATAGTGCTAAAGTTGTCTCTATTCTTAATCGTAATGAAGAATTC AATAGAATAGTT
TCAATGTCTTATAGATCATTTAATATTGGTGGATCGAACGCAAAAGAGCTTGCAAGA ACAGCAGCACT
ACAAAAAAGACAGAATGAAATCCTTAATGATAAAAATATTTCGAATGTATTAGCTCA TGCAAATGATA
AAATGATTGATAAAGGAATTATTAAATCAAATAATATTAATGATGAAACATTATCAG AACTTTCTGTA
AACTCTTTTGATAAGAGTTACATTGAGAAACAATTTAATGCCGATATTATTAATGTG TTAAAATCATTT
AACGATAATGAGGATATTAGCGTATTCATCTCAGACATATCTTCTGAAGACTCTTCA GACTTTCAGACA
AAGAAAACTACATTAAACGTTAAGCTTAAAGATACTAAAGGCATTAATCATAAACTA TCATTAGATAT
TCCTAAGATATATAACGGTAGATATATGATGGTTAACGGTAGTAAAAAAATACTAAC AAAACAGTTAC
TGTTAAAACCTGTAGTAAAAACTGCACCGGACACAGTACAAATAACTACTAACTACA ATAAAATGTTT
GTTAAGAGATTTGGTAGAAAAGATACTCCAATGTTAGCTTCTATCAAAGAAATCTTT AATAAATTTAA AATTGAAGATCATCTTCTTTCTGGTAAAAACATTAAATATTCTTTAGGTAATTCATTATT AGTTAACTC
AAAATATCTAACTTCAGTAGAATACAATAATATTTCTAATTATTTACTAAGCTTTAG TTCTGGTAAAGA
TTATTACAATTTTAACCAAAAGTTATTATTAGAATTCATTGATAATGATGATAAACT TAATTCACTAGA
ATATGATTCTACGTTATATTTCCCAGTAGGATATACTTCAGATAAAAGTAAACTTAT CTTAGCAAATTT
TAAAGATTATCACGTTTATTATAAAGGTGCAACTAATAATTATGAATTTGTAGAAGA AAGTTTAAGTA
GAATGATATTACTAAATATTTTGATGAATGTTGATGATGAGGTTGCTAAGTTTATTG ATAAGGGAATTA
AAGCAAATGATAAACTAACATATACACGAGTAAATATCATTAATAAAACAATTCCTC TAATAATATTA
TTGTCATATGAGAATGGATTAATCAATACATTGAATCGATATAATATTGACTTTGAA GTATTAGATTCC
AATCCTAAACTAAAGATTACTGATAATAAAGTTAAACTTAAATTTAAGGATAAATAT TTGGTATATGA
TAATACACTAATAAGAAATTCATTATTATTGTCAGGTCTTCATATAATGGATATTAA TGAATATAACTT
AGATGAAATGGAAACCAAAGAACCATATTTAGATTTATTCCAAGAATTGTTTAATAG TCGGAATGTAG
CTAAAGGTATTCATAATGCATTATCTCTCGCTATTGATCCTATCACCAAAGAAGTTT TAGAAGATCTGG
GATTACCAACTAATATATTTGATGTCTTATTGTATTCAAATACATTATTAGAAGATA TGTCTTATAATA
CTCCTAATGATATGAATGTCTATCGAATTCGTGGGGCAGAGCAAATCTCTGGTATGA TTTATAAGATA
ATTGCTGAATCATACAAGAACTATAAGGATTCTCTAAATTCAAGAAATAGTGCTACT AGAATTACTGT
ACCAAAGGACATTCTTATAAAGACTCTTATGGAGAGTCATACGGTAGAGGAAAATTC TGAATTAAACC
CAACATTAGAAGTTGAAGTTAGTGGTAAAGTATCTTATAAAGGACCAAATGGTCTTA ACTTAAGTCAA
GGTTATACTCCTGCAGTTCGTTCATATGACCGTTCTATGAAAGGAATATTGTCGATG ATATCACCAGAC
AGTAGTAAGATTGGTGAAGTTCGTCAATTAAGTTATAATCCTGCAATAGTTAGTACT CGTGGATATTTA
GATGTAGATGCTTTAAACGGTAATGAATCTACAAGCCTATATTCTCCTTCTGAACTT TTAAATAACTTT
ACAAGCTTACATGCTGATCCACCACGTATATCTATGCAAGTAACTCAACAAAAACAT TTACTAACAAC
AAGAGTCAATAGTAAACCGCTTATCGGTACTGGTGTAGAAAAATCATTAGCATATCA AATATCTGATA
CTTTTGCTACTAAAGCTAAATATGATGGTAAAGTAGATAAGATAGATACTGTTAATA ATTTAATGATG
GTTTCTTACGATAACGGTAAAAAAGATATCATTGATATTGGAGTTGTAATGAATAAA AACTCCGGTGG
AGGATTCTTTTTAGCACAATCTAAAGATATTATGTTTAAAGAAGGTCAAAAGTTCAA GAATGGAGAAA
TTCTTGCAAAGAATCCTAACTTCTTTATTGGTGATAAGCAAGGTGAAATATCATATG CTATTGGTAAAC
TTTCTAAAGTAGCTTTAGCTCCATTAGACGGAACTTATGAAGATAGTTCTATGATAT CATCATCTATGT
CAGAGGATATGACTTCTAAAATTACAATGAAAAAAGATTTAGTGTTAGGTACTTCGG CAAACTTATCT
TATATTGTAAAAGAAGGTCAAAACGTTAAGACTGGAGATTCATTAGCTGTATTTGAA AATGAATTTGA
TGATGATTCTATAAATCAGCTATTAAATACTATTGGTGATAAATTTGAAGAAGAAAT CCAAGAAATAT
CTAATAAAGTTGTAAAATCAAAGTATACTGGGGTAGTCCAGAAGATTAATATTTATT ATAATCGAGAG
ATTGATGAATTTTCTTCTTCATTACAAAAGTTAATTAAAGCTTATATTTCTAAATAT GAAAAGAAAAAT
AAGATAATCTCAGATTATATGAAAGATAGCGATATTGATATATCATATGATATGAAT ATTCCTAGTATT
ACTAAAATGGATTCAGATAAGATTAAGGGTAATGATGTAGATGGATTATTAATTGAA TTCTATATTGA
ATATGAGGATAATTTAAGTACTGGTGATAAAGTAACATATTATACGGCACTTAAAAC GGTTATATCTG
ACGTATTCCCAGAAGGTGAAGAACCTTTTGCAGAATCAGACCCAGAAGAACATATTG AAGCAGTATTG
TCTCCATTATCTGTTATTTCTCGTATGACTCAAGACGTTTATCTAACATTATATACT AACAAAGCATTAA TCAATCTGAAAAAACAAATTGGTGAAATGTTAAAATAACTCACTCTTGAGAGAAACATAT TAATATTA
TAGATGTGAAGGTTGCTTTGTGCAGCTTTCGCATCTATAATTTCTATCAAGAAAGTT GGTGAAACTAGT
GGGTAAGTTAGTATCAAATAATAATAACGGGAATAATGTAAGTCCTATAGAAAAAGA TATTGTAAATA
ACTATATAGGTAGTTATATTGAAGGTACTAGTGCATATAGTAAACTATTAGAAAATG CTCCCAATTTTG
TTACCTATTACTCTAAAAATACTAGATCATCTAATGAAGATCCGGGTCTTGGAGGAA CTGTTGAATAC
GTAGGTTCAGAATCTTCACTATTATATAACAAAATAAAGAATTTTCCAGTATTTTCC GTTAATGAAATA
AATCCTACTTTTAATTTTGAAGAAGGCGTAGGACTGGATACTGAATTAGAAAGTCAA GCAATAGTACT
ACCTAAAACTATTATACCTTTACCTGATGATTATTTGACATTTTCATATCATGAAAA AGGATATGAGTA
TTTTAAGACATATCGAATTAATAATGTTTCTACTTCTTCAATAGGTAGTAACACCTA CTATTCAATAAC
TTTTATTAATGATCCTATAGATATAAGGATTCTTGAAGAAAGACAAGTAGATAAAAC TTATAGATTTGT
TTATGAAAATGTAGGTACTACTGATAAAGTAATTATAGAAGAAGATGACATATTATT AATTGATAAAA
TTGAAAAGATATGTGGAGATATTAATGAAAGATATATTAATAATTTCTACAATTCAC AGTTAGGTATTT
TATTATACGAAAATCTAGATGAAAGTTTATTATATAGTCCTAATCTTCATTATTTTA TAAATAAGAATC
AGGTATTTATAAATAATCGAACTTTCATGAGAAACGTATATATAGAAGATATAACAA AAGTGAAGCTG
AAAGATTATAACAAATCTTTATTTAGCATTATTGATAATGGTTATAATAACATTAAT ATGTCTTATCAA
TATATAACTAGGGTTTTGGAAAATAATATTCTAAAGAAAACTAGGGGTCTTTATGTT GAAGATTTAGA
AATTATTGGATCTAGTTGTAATATTAAAATTCCGAGAACTACGATTCATAATTATTT TTCAGTAGATAT
TAATGATTTGATAAATAACTATGATGGCGTAGACTCGTTAAATGGTATAGATGCGAT AACATCAATTA
TAACAATTTATTTAGAACAACCAGAACAATTAAGTATTAATACGTTATTTAATTTAG TTTCTAAATTAA
ATTATGATGACTATTCAATCAGTAATTATTTCTTTATACCATGCGTATTATCCATTA TAAATATAATTAC
TAATAAAAATTACTATACATTCTGAAGAAGTATAGAACTGAGAGGAACGTGAATATA AATGTTTAAGA
AAATAGAAGAAAAAATCCATCAAAGAAATATGGAAGTTGAAGCTAGTAAAATTGTAA GTGAAGAATT
AGAAGTTGTTGAACCAGAAGAAGAAAAAATTATTGCAGTACCTAATACTTCTGAAAA CAATGAAGTTT
TGGGTAATCCAGAACAAGATCCTGAAATTGGTCAATTTATCGATAGCACTGATGAAT ACGATGATGAA
GAAGATGCATTGATTGATGCTTTAGAAGATAAAAATGACGATGAAGGTTTAGACGGT ATTGTTGATAA
AGATAATGAAGAAAAACCTGTAGAAACTTCTGAAGTTACATTTAGTGAATCTAAAGA TGATAAAAAA
GAAGATAAGAAAGATGAGGACGAAAAAGAAGATTCTGAAGATGAAGACAACGATGAA TCTGAGGAA
GCTGAAGAAGAAGATGGTGATGATGAGTCTGAACTTGAAGAAGGAATCAGTTCCATG TTCTCTGGAAT
TTTTGACATCAATGAAGAAATTGAAGATGATACTAATAATATTTTAAATACACTAAT CAGCGAAGAAG
AAGATATCTTTATTAAAGATGAAGAAGACGAAAAAGATGATGAACCTATTGAAATTG ATTTTATTGGT
GATGATGAAAAAGATCAAGAAGATAAAGAAATCGAAGAATCTGATACTGATTATCTT AAAAAAGAAT
ATCTAGGTGAAACAATACTTAATAAAATCTTCGACAAATAATACTGTTAACATAATA TTATTAAGGGT
ATATAAAATATAAATTATATAAAGGATGTGTATTTCAAAATGCCAAAAGTTGTTATA AAAGATAATAA
ATTTGTATTTGGTTTAGGTAAAGGACCATTTAATAATCCAGTTGAGATTAGTGATGA ACTTTTACGTAA
ATTAAAAATCTCTGGATATACGGTAATTGAAGTAAATGATCGTCATATCGTATATGA AACTCCAAATA
ATGAAGAAAAAGCTGAAGAAGTTAAAGAAGATCCTAAAGAAGAACTACACCAAGAAG AAGAGTCTG
ATGAATCCGTAGAAGCTACTGCAACTGAAGAAGAAAATAAAGACGAAGAACATCAAG AAGAATCTAA TGAAGAAAAAACCGAATCATCTAAAGAATCTGATAACGAAAAAGTTGAAGATGATAGTGA TGAAGAA
GATTTCAAATCAATGAAGGTTGATGAACTTAAAGAAATTCTAGAAGAACGTGGAATT GAATTCAAAGC
TAATGATACTAAAAAAGTTCTCCTTTCAAAATTAGGTGTAAGTGAATAATATTTTTA TATTATATTGAT
AGGTCTACTTGTTGAAATTATAGCAAGTAGACCTATTTTTTTCGATTATTATAAGTT AGATAAGAGGTG
TTTATGTGTGCCAAAAGTAATTATATTAAATAATAAATATATACCAGATATTGGTAG TGGTCCAATACT
AGAACCAATTGAAATCAGTAATGAAAAATACCATTATCTAATAGATAATGGTTTTAA TATATATCAGA
TAGACGATAATGAAGATATTATGATTGATCCATCCATAACTACCATATTGAAAGGTA AAGTTAAGTCA
GTATATGGAATGTTTCATGCAGATCAGAAAAAACTTGATTCACTATTAATGTTTAAT AGAACAAGCAT
ATCTTCATTAAAAAATGTTAATACTAAGAGTATTACAGAAAATAATAATATAATATA TTGGAAATCAA
TAGATACCGATATTGCATATGTAAATTCTGACGGTTATATTGCTGCAAAAGAAAATG GTTACACAATA
GTTACTGGTTTTGATTCAAATAATACGCTTAAAGCAATAATGTTCATAACGGTAATA CCTAAACTTCCA
ATATTACCCAATGATATTAATGTTAATTTAGAAAGCTATATGGAACTTAATAGATAT GCAGAATTTCAA
TACTTAGTTGAATTACTTCCTAGCGAAGTAGATAATAATAAAGTAAGTATTACATCA AATAATATACA
AATTGCAACTATTGATGAAAAGAATAAAAGAATTATTGCTGAAGAACCTGGATATGC TGTTATTAATG
TTAAGAGTGCAGAAAACCCTGAAGTATCTCATAGTACGTTGCTAAAAGTTTTTCCTA ATGATGATAGG
AATAATCCTTCTAATATAAATGTAAATATTCCGGACGAGATTACAATTAAGGTTGGA GAGGAAATTCC
CTTTGAAGTAAAAATTACTCCTGAGTCGGCTAATAATCTAGGATATATGTCTTTCTC ATCAAAAGTTGG
AATTGTATCTTTATTAGATAATAACCATATTCTTGGTAATAGTATTGGCGTAGCAAC CATAACTATTGT
ATCGAATAAAATATCATCATTATATAAAGAAATACGAGTTAATGTTGAAGCACCAGA CCCTAATGATA
TTATTGTAAATTTAACTGAAGTATCTATTGAGAAAGGTCAGACTAGAGGGTTTAATG TAACAGTTCTTC
CAATATCAGCTAATGACAGAACTTACAGTAATAGTTCTTTAAATGAAAATATTGCGA CTGTAACTCAG
AATAATATTATTACCGGAGTTAATATTGGGGACACAAAAGTAAGAATAACATCTAAT AAAAAGCCTGA
ATTATTTAGGGATATTATCGTGCATGTTACTCCACCAAGCCCTAAAGATATTATGAC TGATCTTCCAGA
CGAGATTACAATTACTGATACCGAAACTAGAAATTTTACAGTTCAAATTCTTCCTGA AGATACATTTAA
CAACAAATATGATATGGAAGTAACAATTCCGGATATTATTGATCTTGATAAAGAAAA TTTATCATTTA
AAGGTAAAAAGATAGGTGTAACTAATTTAAGAATTTTTTCACAGTATAACCATGATA TTTTTAAAAAT
GTTAAAATTAATGTAGTACCAAGTCCATTACCTGATCCGACATCTTTTAAAGTTATT CGTAGAGATACT
GGGGAAGAATTAAAAAATGGAGATACTGTACCTAGTAATAAAGATATACTTTTTGAT GTTATAGTTTT
ACCAGAAAATGCCAATGATAAAAGTTATATAGTATCATCTTCAGACGTAACGATTGC AAAAGTTAACT
TAAATTCTATAATAGGAGTTTCTCCTGGTCAAGTTAATATTAGAATAACATTAAACA AAGTTTCAACAA
TATTTAAAGTATTTCAACTTAATATTGAAGAACCTGTTCCTACATTAATTGATATTG ATGTACCAAGCA
ATATTACTGTACAAACTATGCAAACACGTAATTTCACTGCAACTATATATCCTGAAA ATACTCCATACC
AAAATTTCTTAACATCTGTTGAAAATCCTGATATAGTAACTATTTTAGATAATACAA ATCCAAAAATAC
GTACGATTAAAGGAATAAAACAAGGTGTAACTAAGGTTAAAGTGTATTCCGAATTTG ATCCAACAATA
TTTAAAGAAATTAACGTTACAGTAGTTAATCCTAATCCTAGTTCAATAGAAGTTTCT CCAAGAAGTATT
TCAATGTTATTAAATGAAACTAAAGAATTGGATATTAATGTATTGCCAGAATATGCT AATGATAGAAC
ATACACTATTAAACAAACAGGCTTAGGTATGGTTTCTATTAATGGAAATAAGATTAC TGGTGTGTTAA AAGGAAATGTAAGATTAGATATTATATCTAACAAAGTAAGTTCTCTTGGAACTACGGTAT ATGTTACT
GTTGATAATCCTGACCCTGAAGATATGATTGTCGATATACCTGACGAGATCGATATC AATGTAGATGA
AAGAAGAAATTTTGGTATAACATTTGTTCCAGAAATAGTTAGTGATGATTCTATTAT TATAACATCATC
TAATTCTAGTATTGCTATAGGTAGTGCTGTACAAAAATTTATTAATGGAGTTTCTGT TGGTACTGCAAC
ATTAACTATTAGATCTAATAAAGTAGCTACTTTATTTAAAGAAGTTATCGTAAATGT TCATGAAGATAG
ACCTGACCCAACAAGTATCAATGTTGGAACTAATCCGCTTACTTTAGAATTAGGTAC TACAACTCCAAT
AAATATTGCATATGAACCAGAAATTAATAGTGGTGGTAAAATAATTGATGATTATTC CACATCAAACA
CTATTATTAGAATGGATCAATTTAAAAATTCAATACAAGCTATTCGACTAGGATCTA CTAGTATTAAAT
ATACTTCTGAAAGATTTCCAAATATTACAAATACGTCTAAATATTACAGTTATTCCT CCTAGACCAAAA
AGTATTAGTGATAACTTTTCATATAATAATTCTTTAAATGTTAATGAAGCAACAAAT AAATCGTTAATT
GTTAGCTTTTTACCAAGCACGGCGGTAAACATTGGATACAATGTAGTTATTGATGAT CCAACTGTTTTA
TTATTTAATACAAACTCTAAGAAATTTGAAGCATTAAAAGAAGGAGAGACTATCGTT AAGGTGGTATC
TACTGATAATTCTTCTCTATTTGTAGAACATAAATTTAAAGTTAATAAAAATATTAT TATCGATGACGG
TGGTAACGGTAAAGATGATGATGGTAATGAAGTTATAGTTCCAAAATCAATAACGTC AGATATAGTCA
CTGAAATGATAGTCGATAAGAACTATCGGGTAAACGTAACAGTTTTACCAGATAATG CTATTGATAAA
GGTTTTGAAGTTATAACTAGCGATAATAATGCGTTTAATATAGTTCAAAACAGTGGA TCATATTTTACT
ATTAAATCATTGGTTTCTGGAATGTATAATATTACGTTGCAATCTACATTAAATCCT AATATAAGCGTA
TCTTATGATATCGTGTCAGGCACTGAAGATGAATTACATCCAATCTTACCAGAAACA ATAAATATTAT
AAATGCTACTGATGAAATGACTGTAGATGAAGGTACATCTATGAATTTAGATATACA AGTTCTACCAG
AAAATTCAACTAATAAAAATGTAACTGGTTACAGTAGTAATGAAGAATTAGCAACTA TACCTAATAAT
AAAACTATAAGTTTTATTAAAGAAGGTTCAGTAGACATTACAATTACATCAAATAAA GTACCTACATT
AAGTAAAACAATTCACTTTATTATTAAAAAACCCGACCCTAAGAGAATTGAAATTAA TGCACCCAACG
CAGTAACTTTAAATATCGGTGAGTCTAAAGAATATCTGATAAGTGTAATTCCTGAAA ATAGTATTGAT
AAAGAATATATTTCAGAAACACTAGATTCTAGTATTGTTACTACTAATGGAAAAAAT ATTATTAAAGC
GGTTAAAGAAGGAAACACTACAATTGTGTTTAGGTCTAAAACTTTTCCAGATATATT TACACGACTTA
ATGTTATTGTTCTTCCTCCTGAACCGAATGAAATAATTGTATCTCCATCCAATGAAA CAATTAATATGA
TTAAGCTTGATGAATTAGTATTTGATGTAACGATTAATCCTTCAAACGCAATCGATT TAACATATAAGA
TTGAGTCAAGTGATACTAATATTGTAAAAATTAAAAATCAAGATACAGTGGTTGCAG TAAATCCCGGA
GAAGCAAACGTGACTATATCGTCTAGACAGAATGCTAATCTAAAAGTTATTAAAAAG ATTATTGTAAC
TGCGCCTGACCCAGAATCTATAGATGTTATTGGTTTTGGACCAGACGAAACAATGAT TACAAATTCAA
CAACTAAGTCCGTTAATTTTATAGTCAATCCGGCTAATGCTAAAGTATCTAACTTTA CAGTAGTATCTT
CTAGTGATTCGGTACAAATTAATATTCCGGATCAAACAAAATATGGATTTACTGTAA AACCTGTTAAA
GAGGGTAATGCAATTATCACTATCCAATTATCATCATTCCCAGATATTATTTACAAT ATTAATGTAAGG
GTGAATAACCCTGATCCTGAAAGCATAACTGCAGGGATAACTAATCCTCCAAATATG CCTTCTGGAAA
TATTCCAGGAAAAGGAATTGCTATAGGAGAGAAGGTTGTATTAAATGCTAAGATACT ACCTGAATATG
CTAATGATATAACTTACTCAATTAGTAGTAGCGATAATGATGTCTTTGAGGTTCGAG ATGATGGAATTT
ATGCATTAAAAGCCGGAACATCTAAAGTTAGGGTATTCTCTAATAAAGTTCCAACAA TATTTAAAGAA TTTGATTTAGAATGTCTAGGTAATAATGTTAGTGATATTGAACTGGATATTCAGTCACCA TTCAATATG
GTCGTTGGTAATACGAAACAAATAAGTATAAATATTCTTCCTACTGATGCTATTGAT AAGAGGTATCA
GCTTAAAACAGATGACGCTAATATTGTATCGGTATTAGATAATAATACAATACGAGC TATATCTCTCTG
GGGTAAATGGTGAAGGATTTACGAATATACGAATAATATCTTTACGTAATAATTCTG TGGTTAAAGTA
ATACGAGTTAATGTAGAAAACTTAACGCCTCAAAGTATTGATCTTGTTCCATCTGGA CCCATAGAAAT
ATATTCATTAACATCAACTACATTTAATGCATATGTAAGACCAGACACTGTAATTGA TAGGGATACGG
TAGTTAGTAGTTCAGACATTTCAATAGCTACGGTTCAACAATCATATATAACTGAAG GTGGCATAAAA
ATTACTAGAGTTACAGTAAATGCACTTAAATCTGGAAATGTTAATATTCGTGTATCA TCTAATAATTAT
AGAAATATTTTTAAGATGATTAATATAAATATTATTGACCCAGATCCGGAATCAATT ACTGTAACTCCA
TTAACAATAAATATGGCTCAAGATACATCTACTAATTTTAATGTAAATATTCTTCCA GAGAATGCTAAT
GATAGAACATTTAATACTGAGATTGCAGATCCTACAATTGTTTCTGTTAATGGAAAT ACAATTACTGGT
CTTAAAACAGGAACGACTACAGTTAAAGTATCTTCAAATAAAATACCATCATTAAAT AAGACAATCAC
AGTCAATGTGAGTCTTCCTAATGTAAATAAAATTGAGATTACTACTGCATTAGTTGC GGGAACAGTTA
ATACTGTATATGAGGGCGAGTCTTATCCATTTCTTATTAAGTTATTGCCAGAAGTTG CTGCAGATAAAT
CATTTACGATAAAATATTCTGCTAATGCTGATATGTCTGGTACTGCTGATTACTCAT TTAATTTTGGATA
TCGTAATGATTCATTAAATCCATCACTATATATATCAGCTACAAGTTCATCTAGATA TGTTCCACCTTTT
GTTAGATATATTCAAGTGGTTTCAGCTAATGGAATTACCTCGGATATATATGGTCTA AGTGTTGTACTT
AAACCTATATATAAAATGGATAGTACATTTACATTTTATAATGATCAGTAAGCTTCT GCTAAAACTACT
ATATCTTTTGATAGTACTAATCCTAATTCTGAAAATTATGTAATTAATGCCTATGCC GGAACAACAGCT
AGAGACCCTAATATTAATACTGTTAATTTATATCCTCTTGAAGCAAAAGATACAAAT TTAACAGTTACT
ATAAGTGATCCTACAAAAGCATCATATAATAGTACAACTAAGACTTTTACAGCTCTT CAATATGATACT
GAAACTACTGCAAAGATTGCATCCACAACTAGCCCTGATGTATTTGTAATTGTTAAG ATTAAATGTATG
AGATCTAGAATAACGTCTGTACAAGTTACAGGTCAGAATGGATTAAGATATAGTACT GGCGATGTCTT
TGGAATAGTAGTAACAACTGGTCCAGAAGGTGCTATTGATACAAATGATTATACATT ATCTTCAAGTA
ATGATACTATTATATCAATAAATAATGAAACTAGAACTGGAGTTGCTTTAAAGGCAG GTTCATCAACT
ATTACCGCATTATTTAATAAAGCCGGCGTATCAAATAGTGCTAGATTTACTATATCT GACGTACTTCCC
ACTTCAGTAGGTATTACTGACCCTCCAGGAGGTTCTGAGCTAATTATTGGAAGATCC TATCCGATAACT
CCAAGTGTATTGCCGACTAATACAACTAATAAAGCGGTAACCTATTCTGGAAATAAT TCAAGTTATTT
AACATTGTCTAAAATAAATAATATTGATTATATTAATGTGTTGGGTAAAATTGCAAC AAATACACCTAT
AACTATTCGATCAGTTGCTAGTACGGGAATTTACAGTACAGTTCAATATAAGACTGC GTATGAATACC
CAACAAGCATTGATATATCCAAAATTAATGACTCATATAATTTAACTGAAACAATTG ACTTATCTACTT
TGATAAATATAATTCCATCAAATACCGATAATGATAATAATTATACAATAACAACTC AAGATACCGAT
AAAATAAATATTGATGGTAAGAAATTAACATTTATTAAAGATGGTAGTGCAACTATT ACAGTAACTCA
TAATAGAAATAATATTTCCGTTAATAAATTGATTAATATTGTATATAATGATTCAAT TAAACCGAATAT
TGTATTTACTACTTCAAATATTATCATAAATAATAATGAATTTGATATTAAAAATAA TATTACTAAAGA
TTTAACACTAGATGAATACCTCATTACTGGTGATCTTAATGGTTGGAGATATAATGG CAATAAGAAGT
TTTCAGATAGTGGAGATTTTCAAATTAAATTTAATTATCCTATTAATATGCTTGAAT TTGAAAGTATTA ATGATCAATTTTCAAGTGAATTTATGTATAATTTAAATAATCCGGATTCTAAAGTTGATC CACCCCAAT
ATGTTGACCTTGATAGGGGTAGTGATTTGATTAATGATCGATTATTTAGTATATTAG ATACGTATACCA
TTTCTTCATATTATAATAAACGAAGAAGTACTAGTGGTAATGAAAGTCAATCATATA TTGTAAGCGCTT
CACCAGTAATAAATAATATATCTCCTGCAGGAGAATATTTTTATAAAGTCTATGTAA AGAATGATCCT
AATAATTATATTATTATTAGAATTAATATCGGTATTCATGGATCAAAACAATCCAGT AATTTGATATAT
AATGGATATCCTACTCTCATTAGTCCAGTATCAATATCTACTGATGATAATATAAAC TATGAACTTAAA
GTACAGCTGTATTTAAGATCTAAGTGGTTGAGTGGGGACAAATCACCTTTATTATTT AATAATGAGTTA
ATTACTCATCGATTAATGCTTGATTCTTCATATAATAATAAAATAAATATTAATGGT ATTGAATATAAT
AACATTAGTGATTTTATTGAAATTGATAATAGAATTATTAATCGAATAAGTAGACTA GGTGTAAATCG
TGTAAATACTATTACCAATACTGTCGCATCTATTGATAGTGTGGTCGCAGCATATCC GGACAGGGTAA
GTTATTTTATTAAAAGAAATCCTACTAAAAATGAAGAATTTAGTATGGATATAAGAT TAGTAAGTATT
GAGGATTCGAATATCAAAATTCCAGTAACTTATACATTCACTACAATTAATAAATAA TTCTTTCAAAGA
AGCATATGATAAGATTCTTGAAAAGAAGATTAAAAAAAAAAAAAAAATAAATCTCCC ATAACCTATT
AATTTAGGTTATGGGAGATTTTATGATTATTTATTAAACAGATCATCAATATTATTA GTATCGATATCT
TCTTGAGTTTCTTCCTCATCATCTTCATCTAACGGTACAAAATTGATAACTGGTTTA TATCCTAATGCCT
TTGCAATATCTGATAGACTGGAATAAGATGTCGCACCTTTTTTCCGTAGTCTGTAAA AGATATTAGAAG
CTCTTCCTTCATTATTAGGATTATCAAGATCAAACTTTTCAAAGAATTCTTCAAATG TTTTACCTTTTTC
ACCCTGCTCATTAATGAATTCTGCAGTAATTAATGCTAATTCTGTTTGATTTTCAAT AGAATCCACATC
AATATGCAATGGACCAGTTAATTTCTTTCGTTTAGATTTCTCAGAAGGATCTTTAGA AGCCTTGATCAT
ACTATCTTTCTTATCTAATTTATCCATATTTACATTATTTAGTTTTGAAAATAGATC ATCGGACACGAGA
ATTTCACCTCATTTATTATTCATATTAGAAATCCATATCATCATTAGAAATTTCTTC AGAAGCACCAAT
CTCAGTTGATTTTGCAATTAATGATTTAAGATCTTTTGATCCACCACTAGCTTGGAT AATTTCTGTATCC
ACATCTTCTGTTTGTTTATCTGCAACTTTTTTCTAGGATGATTTAAAGTTACTACCA CTATTATTACTGT
TATTAAATGTAGAACTTACATTTTTAGGTTCAGTGGTTGTATCATTTTGTGATAGAT TGTTATCATAAG
GATGTTGAGTTGCGTTTGGATTCTTTCTAGTTACTCGATTACTATTGAATCCACCAC TTGTGTTTCCTGA
ACGATTGAATGGAGTTGTTGATGTAGGTCTATTAAATCCACCAGTGTTTGGACGTTG ACTAAATGAAC
CACTATTATTAGATTGACCTTGAGAATAATTTCCTCCGCCCAAAATATTAATAACGT GATCTAATTTAT
TTTCTACAGTATATAATTTCGCTTGAATTTTCTGGAACTCTTGTAGAATATAAAGAT CAATATTATTAAT
ACAATCAATCATATTGAATAATTGTAGTGTAGTTAGTTCTACTGAATATTCATCGCC ATTTACGCATAA
AATAAATCCTGGATAAGTAGTATCATCATTACGATGAATGATTGAAGGATAGATTAA TAATTTTTTACC
TTGACCACCAAACTCTGGAGAGAACCATTGTGGTAATTCTGGAAGATCCCATACACG ATTACCTGAAT
TATTACCTTCAATAATTTCATTAGCAACTTGGTTCATATATGATTTTAATGTTTCAT GATGAGCCTGACT
AACTACAACATTCTCACGAACGCTTTGATTAGTTTCAGGATTAAATCGACTATAATC AAAACGTAAAA
ACACCGTTGCGCTGTTTTGAATACTAGTTAACGTTTGAACATCGGAATATCGATCTG AAGTGTATTCTC
TTGCATATTCAGCATCCCTACGTTTATCATTAGTTGATGTTTTATTACCTAGTAATA AAGAACTTTCTAG
TTTAAAATTGAAAGCACTAAATAGCGTTAGACCATGAGATTCTACTGGATTAAAATT TGACAAAATAT
GATTCCTCCTAATAATTTTATATATTACAATAATATAATATATGATTATAATTTATT TTAAATGATTATT CATTTGTATCTTGATTTAATGATAATGCAGTAAGTCTGGAAAGCTTACTAACAAACTGAC TTCGTATAA
TTGATGAGTACAATGCTTCTTCAGGAACATTAAACATTTCACCAATCTTACTGATAC TGTCACCTGAAG
TATAATCTAAGAATTGATATACACTAAAAATATTGATAGGTTCAGGAATGATATATT CTGGAATTACT
GGAATTTTATTTTTAAATAAGAAAGCTTTATCTAAGAAATGAATCCAATCTATTGGA TTATCTACCCAA
AAAAGTATTTTATTTTTTCCTGAATTAGAAAGCTCTAATAACAATGATTCAATATTA TTGTATATTGTTG
CATCTTCATCTTTCATAATTCTAATATTTTTGTTAGCATCATAAGTATAAATCTTTT CAACATTATTCGC
TAGTTGATTATTATATACTTTCATACTATCTTCTTGGGATATAGCTGTAGCAATATC GTAATTTGTAAAT
TCATAATAGTAATTAGATATTACACCTTCTGCTTCTTCTACACCCAAACACATATTC ATGATGTTAGAT
GACGTACTAGACCCATCTAACATACATGATAAGTAAATATTTACAATCTTAGTTCTT TCCATATTTTAC
CCATCCTTATTTAATTCTTTTTGTTTTTTCATTTCTTTATTATAGAATATATCATGA GTTAATAAAAATTT
GAAATTAAGTTCAGAATTAATACTATTGATAATATCTTTAATACTTTTATTAATAAC TGCAGGGTTTGT
TAAATCTTCAAGAATTTTCTTTTCCCTAATATCATTATTAATAGTTAAAGACATATC AAGTAGATCGTTT
TTAATTTTATGATATTTTTCAAATTTAAGTTTACGATGTCTATAGAAAAAACCATCA CTATTATTTTCAC
TATACATCTTTAAGAATGATGCATATTTATTAAATAAGTCTTCCCTTTGAATTTTAA TTTCACCTTTTTG
GAGTTCTAAAATTTCAATAGACCTTTTAATATGGTTATTAATTTTTCTAAGTTGAGT TAATTCAATATCA
ATAATCTCTGTAACAAGATCAAAATTTACAATTCCGATAATATTACCGTCAATATTA ATATTAAATCTA
AGAATATTAAAGTCTTCTGAAATTTTAGCACCAATTAATGAAAAGATATCTTCATCA TACTGTCCAGTA
TTAACATTCTTTGTTAAAGAATATATAAAATCTTTCTTAATACGATTCACAATCGTA TTAAAGATATTTT
TACTAGCGATTAATTCTTCAATGAATTTTGAAGGATTTGTTTCTGAGAGGGAATAAC GATCGTTAGATG
CATACAAAATTTTCACCACTTTCCGCTATATAATTTCCAATTTAGATTCAATAATTT CTTTACATCTTTT
ACGATAAATTTTCTTTCTTTTAGTTAATTGACGTTTACATTCATCAAAACCTGTATC AATGACATCAAA
GTATAGACATTCTTTATTTTTTACCTTACGTAAACGACCCATAATTTGTATCAACCC TTCTTCAGAACCA
GAAGGTACAGTATTTACTAATACTCGTAAAGATTGTTCATCTAAACCTTTACCGAAA GATTTATCCGTA
GTAACAATAATATCTTTTTCAAACGCAGTAGATTTTTCATCTTTAGGAACGTCTGAA TAAAATCTACTT
ACCGATATATCCCACTTATTATTTTCAATTTCTACTAAGAAATCTTGGTAGAAAGCA TTAACCATAATC
TTATTTTTAAATAAGATTGCAGTCTTTCTTTTATTCTTACCTTTATCAAAGATAATA TCGAAGATAATCT
GATAAATATAGTTATAATATTCATCATGCTTTTTATCAATAATATACTGAGAATAGC TTGGTACATTAA
ATCCATAACCTTTAGATTTCTTTCTAATTTCAACTAAATCTTCATTACTAGGTTTAG TATCTATTTTACA
AATGATTGTTCTAATGTATCTATCACTATCACTAACTACAGTAGAGAATTTTGGAAC GTTCATATACAT
ATTCTGATAAACTTTATTTTCAATAGGATTAGATCTACTAGGAGTCGCAGTTAAATA TAATGATGGACA
GTCATAAGTAGAATCAATATTAAATACAGAAATATATTCAACGTGAGCTTCATCATA AACTTTAATTG
ATATTCCAATTCGATTAAATAACTTTACAACCCTATCAGGATCAGACTGAATTAATT GGTTAACAGTCT
TGTGAATAGATAAAAAGAATTTATACTTAGATATATCACGTTTAGTCATCTTTTCTA ATTTTTCAATAG
ATTCTATTCCTGAAATAATATAAATATTATCTAATGATACGTCTGTATATTCACTAA TTCTATCCTTCCA
CTGTTCTAATAATGATTTCATATCAATAAAGATAATTGGTACTGCTTTGATTTTATT AATATAATTAATA
GCACAAAAAGTTTTCCCTTCACCAGTCTTTAACGATAAAAACTTTTGATAATAATTA TTATCATCATTA
AGAAAATTCATTGCATCTTCTTGAATTTTATTTTTAGGTTTATATTTCATTTTAAAA TTATTTTTCCTAAG AATATTTTTATTTCTTTTATCATTAATATGAATATTAACATTTTGTCTTCTTCTTAAGTT ACTAGATAAA
GAATCAATATCAATACCAGAAGGAAATATTGCTTTATCATCATCTATCTTGTATGCT TTAAAATCATAC
TTAAACCATTTAGCATTCCATACAGAAAGACTATTTTCTACAGCACTAGCCATTTTT TCGCTATAGTTA
TTAATAACTATCCTTGTTGGATAAATATCAAGATCCATTCATATATCACACCTTTAT TAGTTTAAAATC
AATAGAATGTATTATATAACTAAATAATACATTCTATTGATATATTTTAATTTAATA TTCTTTAAAGAA
TAAGTGAGGAAAAGATTCAAAGAAATTAATATGGTTAAGTTCTTCAGGACTTTCAGC ATCTGTAGCAT
TAATAATGTAACCAAAAATAGGGACTTTTGAAGTGATATAATATTTACCTTCTTTAA ATGGACCAACTG
TCTTTTGACATTTATCCATTAAATATAATTCACCATCTAACTGGTATCCTACTGAAA GTTTATCACCTAG
TTCATACATTGATAAAAAATCGGTATTATTAATAAATTCTGTAAATTCTTTTGGATT ATTGGTATATCGT
CTGATTCTAAATTTATTTTCATCTGGAATATTATCTAAACTAATAATAAATCTATTT TTTTCTACTTCTTC
GGAATCAATTAAATTATCTTTGTCCATATTCATATATCTATATATCTCCCTTATAAA TAAAATTATCTAA
ATACCCTATCGAATTCAGATTCAACATCTTTACCAAAAAGATCATTATAACTATCTG TCTTAAATTGTT
TTTCAATATTTTGATATAATAGTGACATTGCAGGACTTTTCTTACCGATAAGTATTG CATCACTTACATT
ATATATATTATATTTTGGTAATTCTTCAGCATTAGCAAATTCGGTTCTATCATTATT TTCTAGACTTACC
ATTTCCCTTACAATAGTTTCTACATGTACAGAATCAATCATTGTTCCTGAATCCACT AATAAGTTTACA
ATTTCTTGTACAATGATAGAATAATCATTATTTGATACATTTCTAATAAAATGATTT TTTTCTAAGATAT
CTTTAATCTTTAGAAGTGGGTCTGCAATACCATCATTTTCCACAATAATATTAAACA TATATTCATTAT
CAGGCATATATTTTAATGAGAATACATAATTATTTGTGGAATTATCATAATACTGTT CAATATCATCCG
CAATCTCATTAGGAATAATTAAGCTTAATGGAGTGTCAATTCTAATCTGAGTGTCTT TCCTACCTTTAA
CATAGATTGTTCTTGTTTGATATTTATTCTTTTCAGAGTCTTCATTTTCCATAAGAT CATCTTTATGAAT
ATAGATTGTTTCATTATCAGAAATAGGACTAACCTTATCTTCAAATAATTGAAACTT AGATAAGAAATC
TTTAGACCAGTTAGCATCCTTAATAATAACTTCTAATAAATGCTTTGTTGATAAGAT TTTTTGTGTTAAT
GGATTAGTAAGTTCTAAAGTTGCAGCAGTTCCTACTTTAATGTGTTTATTAATCTTT TCTAATCTTCCAT
AACATCTAGGACATATACCTTTTGAATGTGCGCATGTTATTGGACTAAATATCTTAA TATCTTTACCAA
TAAGATGTGTATCATTCTTAGTTATTACGGTAGTTTTATTAGTATCTTCATCATACA TCCAACGATGATT
ATATAGTGATAACATGTCTTTATCTCTAATATGAATATTAATATAATGAGAAGTGTT ACAACTATCTAC
ATTATTTTCATCTTTGTGAAGTTCTTTATCTTGTGGATCAATATCTAATGTGTATAT TACTGAATCTTCA
GTTAATATAGATATCTTTCGGTTAGTATATCCAGACTGTTTTACTTGATCCTTTGCA GTGATAATTGCTT
TTCTACCACCTACTGCATCAATAAAGAATTCTGTTACATTTTTAATTCCCCTTACAA AAGAACTATTAA
TTGGAGTAGTAATAACTTTACCATATAGATCGGGCTTATAACCAATTAATCCAAAAT TTTGATTAAATT
GTTTTATATTAATTCCTGCACCCGACATGATTAAATCTCTAGTAATATTATCTTTAT CTTCTTTAATAAT
TTGAATCATTTTATCTTTGTTTTCTGCAATTTTTTGATTATTTGTTCCAATATCATC TTTTAATTCTGGAT
CAAGTTCGAATTCTAAAGTTTTCTTAAATTCTTCATTTCTATCCATAATATCGATTA TATCAAATAAACT
ATAAGTCACTCCGCTCTGATATAATACGTTTTGAGTACTAAATATTGATAGTTCATC TACTGACCACGC
AATATCTTTTTTAATCAATTTTATCTTTTCATCACTAATATCATAATTATAAATTTT GTTAATAATCTTAT
CATAAAATACATTATGAAGATTAACATTATAATTACCCTTTTCATTACAATCTTTTA AGATAAATGTAA
ACTCTTCGGTAAATTCTTCTTCCAAACTCTTAAAAGGTTTTGCCAAAATAAACGTTG TTAATAAATTTG ACCTAGATATTTTTGATGTTCCAAATTGTAAAATTTCTCTACGAGAATCCACATCTTCTA CAATTTTCTT
TCCTAATTCATCAATCTTCGAATAATACTTAGTATCATCATGAAGAATTGAATTAAA TAAAGATAGATC
TAATACTGTACTCAATATCCTCCACACAATCCTTTCTGTAATATATTTAACCACAAA TATATAATATAT
AATTGTAAGATAATTTAATAATCACAAACCTATATTATGATTCTAACAGAATATTTC ATTGTTGTAAAT
TAAAATTAACTTTTTATCTTATGAAACTTAATGTGGATCATAGAAAATTTAAACTAT CAATAAAAATAT
ATATTATATATTTGCGAATAAAATCCCCTATCATATAATTATAACACAAATTTATAT GATAGGGGAAAT
AAATTATTTATCTTCGACTTTTTTAGATTCTGATTTAGCTTTACGTTTTTCTCCGAA TTCACGAAGTTTTT
GTTTTCCTTTGCTTGCATACTTAAGTTGAATTGCTCGGCGAGTTTCTCGGCGCAACT TAGAATATTTAAC
GTATTTACGGTAAAGTGGATCATTTGCTTCTTTAGCGGAAATTAATACTGCTTGAGT ATATAAACGTTT
CTTAGCGGTACGTTTATCTAAACGAACAATATTGGCTTCTTCTAGATAGCTTAAAGA TTCTTCCAAAGT
TTGCATTGAACTTTCTTCATTATTATAATTAAAAAATGTATCTTTCATATTGATTAA GCATCCCTTTCTC
TAAATAAAATGGTTTAATAATTATATGTTTATCAATTCAATGCAGAAAAAATAATAA TTTATTTTTATT
CGTTAATAATGTTTTATATTATATAAAATATAGAAAGGAAAGATAATTTATGTATAG TTTTTAGTAGTA
ATATTCTCTTTAATTATATAAAAAATAAAATTGGTGGTGTATTGTTTATATGAAGAT TGAAGAAAAAG
AACGTGAAATGAAACATATTGGTTACATGAAGATATTACTTAATGTTGCTAAAGAAG AATTTCCAGAT
ATGGAAGAAGATGTATTAAAAGAAAAGATTAAAAATATTGTAAAGGATAACATGAAA AATCCAAAAG
CAATGATTGATGATCGTGAAACAACATTATTAGGATTAGACAAATTTATCGTAACTG AGAAACCTATC
ATTACTGGTTTTGGATCAATGTATTTAACTCATGATAAGTTTGATAATCTATTAGCA AAATTGGTTGAA
TATATTATCAAAACTCGTAAAGTTTATAAAAATAAAATGTTCGAACACGTTAATGAT GATGATCAAAC
ACTGAGAAATATGTATGATATGTATCAACGTACCATGAAGATCCTAGCGAACTCATT TTACGGATCAT
TGATCCAAAGTAGCTTTATTTTGTATAATCCGATATCTGGTCCGTCAGTTACTTATT CTGGTGTTGATAT
TATCACTACTGCACTAAATAATTTTGAGAAATTCTTAGCAAATAATATCTATTTTAG AAATGTAGATGA
TATTATTGTATATATGAATAATATTAAATCTGAAAATTATAGTATGGATAAAGTTAA ATTTAAACAATC
CCGTAGTAAAGATCAGATTATTGATTATTTATTTGATAAGACAGATAATTATATGGA TGAAGATAGAA
TATTATTGATGACAATGATGAATAATTATACGGATGAAGATTTACTTAAGCTTTATT ATAAAAATAACT
TCATTGATTTATTAAAAGAATCTGATATTGCAGATAATTATTTTAAAGAAATTCTAA GTTGCTATGAAT
TTACTGATCCAAACGATCCTCCTGCTAAAGTTATCTCCACTAATGAAATTTGTACTA TTAAAGGAAAAG
ATAACGGTAAAATTAAAGTTAAATTATCTAATGGTGAAATTTCTCTAGAAGATCCTA GTAATATTTTAG
ATTATAGGGAAAAATTAGATAATTTATGGAATATTATTAGAAATATTGTATTCTACA ATTATCAAGATT
TCTATCGTATGGAAAATTCTGAAGAAAGATTAAGAAAAACAGTGCTCGTGGTTAATG TATAGCCACAC
TTATATAGTAATATATAGGTTAAAAATTCTATTAATTGCTGGAAAATCCTAAAGCTT ATTTAACTACAA
CGGAATCAGTAATGATAAACGTGAATGTTGTCGAAAGACTGAAAAAATAAATAAGAT TAATACATGG
TGAAATAAAAGTACTATAATATATAGTATCCTAAATATTAATTATAATGGATGATCA GCAGCAGTATT
TCTTTAAGATTATAAATGAAAGAAAAAAGAAATGTTGTTCAACGACTATCAAAAGAT TATTATATAAA
TAATAATTTAGTAGAGTAGAGCCAAGCTTTTGGGTTAGTATTTAAGAGATATTATCT TAATGTAAAACT
ATTAAATCGAAAAATAGAATTATCCTTTAGTAAGGATAAAGATATAGTCTGTTCTTT AAGGAAATCTT
AAAGAAGTTCATAAGAGAACTGCATAAGAATTAGCGCACTTATGTGAACACGAAAGT GATACCGACT CAAACTTCTTGTATCTCAATCACTTTGTCGATTTATTCTCAGAAATTTATCCAGATATTA CGATGAAAG
AAAATGATAAATCTATTGTATCTGCCATTAATACTATTATGTATATTGTTACTGAAT GTATTAATGAAA
CGTATTACAAGTATGGAATGGAACTCGGTATTCCAGAAGATAAACGTGGACTAATTA ATATGAAGAAT
GAATTTCTATATAAACGTTTAATGCTAACAGACGCTCAAAAGAATTATGCTGGCGTA ATTTTAATGCA
AGAAGGAAATATTCTTCAGACTCCTAAGATTGATATTAAAGGATTAGCAATTAAGAA GACAAATACGA
ATAAACATGTACGTGAAGAATTTTCAGGAATTCTTAAAGATGTCATTCTTGAATCAG ATAAGATTGAT
GGTTCTGAATTTATTACTAGATATAAGAATCTAGAAAAAGAAATTCGAAGATCTTTA ATGAATAGTGA
AATCACATTTACTCTCCCTAGAACTGCAAATATTAAAGAAAACTACGTAGCACCATA TACGCAAGCAC
CATACAAAGGTGTATTAGTATGGAACACATTATATCCTGATAAAGAAATTAACTTAC CAAACAAAGTT
AATCTTATCAAGCTAAATATTGAAACTTTTGATGATATTGAAAGTAAAACTAATGAT CAAGATCTAATT
GAACGATTTAAGAAAGTTTATGAAGATGAGGAATTGACAAAAAAAGGAATTACTTAT ATTGCTATTGA
AGCAGAACAAAAACATATTCCTGAAGAAATCATTCCATTTATTGACATACCTGAAAT GGTTAAGACTC
ATGTATCATCAGGATCCAAACTAATGACGTCATTAGGATTCAATCCATTAGTAATTA ATGGATCATTAT
TCCCAACAAATATTATTAACTTTTAATGAAAGTAGGAAATCTATTGGAAAATTTAAA TATTGATATGA
ATGATCCAACCAAGAAAAAACATATTGTGGTAGATTGTGATGAAGTATTATGCAATA TTTCACCAAAA
TGGACATACTTAATACATCAAGAAAAAGACTATTTTGGTAAATATATGAATCTTATT GATAATTTTGAT
ATTGATCTGCATTATAATATGGTTTTATCTAGAAATAAGTTTTATCTAAATCAGTGG TTAATTAAAGAT
GAATCATATACGAATTATAGTGAAGACGAAATGGATGAAGTATTAAGACGTATGATG ATGCTTTATGA
AACTGAAGATTACTATGATAACTTAAAACCAAATCCTATTGTAGAGTCATTAGCATT ATCGATTCGTCA
ACCTATTTTAGATAGAATATCTATTGTAACAAGAACAAACGCTAAAAATCTTAAGTC TAAAGAAAGAT
TTCTTAAGAATTGTTTTCAAGGTGTTATGAATAAAGTTGATATATACTTTGTAGAAA ATGATGAAAATA
AGTCTGATATTATTAAAGACTTAGGTGACGGTATTGCAGCTATATATGAAGATGAAG TTAAAAATATT
GTAGACATTTTAGATAACTGTAATAATCTTGATAAAAGCTTAATATATGTACCTAGT TATGGATATAAT
AACGCTAACCTTGATTTATATACTAAAGCAGAAGAAAAAGGAACTCAATTAAGATAT TATTCATATTA
AAGGATGTGGACTTATTATGTATAATGGTAATTATGATATAAGTCTATATGAATATT TAAAAAGTAAA
CTTAAAGTATGCTATATCACAAGCAAAAAGGATGAAACTGTTATACGTTGTCCTTTT TGCGGTGATTCT
GCAAAAAATCAGTATTCTGCACACTTATATATAAATAATAAACCACCTTATAAATAT TATTGTCAAAA
ATGTAATTCAAATGGAATATTTAATGATAAGATACTTAATAATCTAAATATTTTTGA TGCAAAACTAAA
TCAACAACTTAAAGTATCATACGAAAAATTCATTAAAGATGCAGGAATAAAATATGG AAAATCATTTT
CATCACTATTTAATATGGATGAAACGGACATTCTTCCAAATAACTTTGGAATGTTAG AATTAAGAAAA
ATAAAATACTATGAAGATAGATTGGGAATAAAACTCAATGATGAATTATTAATTAAG TATAGAATTAT
TCTTAATCTTAGTGATTATATGGAAAATAATAAAATTCCAATAAAACAAGACAAATG GTATATTGAAA
AATTAAAAATGATTAATGATAATTACATTATATTCTTATCTAATGACAAGAATGTTA TTAACTGCAGAA
ATATAACAAATGTTACTGAAAAAAAGAAACGTCATATTAAAATGAGACTATTTGAAG ATTTTACTGAT
GAAAGTAGAAGTTTTTACTCAATAAAGAATAATATATCTCTTGATAAATCTTTATAC AATATTCATTTA
ACAGAGGGTATATCTGATATTATATCCGTGCATCATAATATATTTAAAGATCAGGAA AATAATAATGA
TATTTTTATATCTAGTAATGGTAAGGGTTATAATTCGGTATTACAATATTTATTATC AATTGGGATTAC AAACGCAAATATTAATATATATGGTGATTCAGATGTTAATCGTAATTATTATAATAGATT AAAGTATA
ATTTACTAGCTAAATATAATGGGGTTAATCTCTATTTTAATATTGCTAAGGATCCTT ATGGTAATGGAT
TTAAAGACTTTGGCGTAAGATCTGAAAATGTAGAATTAAGTAAAAGCATTAAGATTT CTTTCTAACTTA
ATGGATCATAGAAATTTTCTAAAAAAAAAAAAGACCCTAATAGATATTATATCTATT AGGGTTATATT
TATTTAATTATTCTTTTTTTAATTGATAAGGATACACATTAATATATTTACTATCTA ATAAATCATACAC
ATTAATTAACCGACCATACATATTAATCTTTGAAATTACCACATCGTGAATTTTTCC TAAAGAATCAAT
AATATAAAAATCTTTTCCTACAATAATATTTCTATTATAAATTTCTTTCATGAATTC ATCTAATGAATTT
TGGTCTAATTCAGTATTATACATATTAATCATTTATATTTCCTTCTTTCTTTTTTTT TTTAATATATTTTCC
ATTTCATGATAAGGTATATTCATTATAATTGATACATCATTAGTACTATAATTATCA TCTAGATATTTAT
CTATTAATCTTTTTCTTTCAGAGATGCATTTATTTTTAGCAGTATAATGATCATACT GTCGGTTAGCACT
TTTAAGTTCTTTAAAGAATAAACTATTATTGTTAATATATTTTTTAATATTAGATTT ATCTACTGATAAT
TCATTAGCTAATGAATAAACACTGCTGATATTCTTCTTATTGATAATATCAAGAATA TATGATAAACGA
GAAATTCTTTTAACTATCAAATTGCAATCTTTAACTTCCATATTAAAAATAATATCT ACATATTTTTTCC
ATGATGGAGGATTATCGATAGATGTAGTTTTATTATTTAATAGTGAATTAAGATATA TGACAATATCTT
TATTTAATTTGGTATTATTTATGATATCATCATATTTTCCTTCATCATAATTACGTT CTATATATTTTGTA
AGGTATTTTATTTTTTCATCATCAAGACTAAAATATGTCATATATTTCTTAAAGAAA GTATTTAACTTTA
ATTTAGTATATCTTCTTCGAATATTAAAACCATAAACAAACACATTAGTTACTGTGG TATCTATATCTT
CCATAACAGTATTAACTTTAATATTATTATTAACAGTATTAACTTTAATATTATTAT TCTTAATAAAATT
ATTCATGTTCTTTATTTCATCGATAGTATTAATGATAATATTTCTAGACAATAATTC TTCTTTTTTAAAA
TTATTAATAACTTCTGTATTATTTAAAGATAAAATGAAGGCATTTTTCATCTTTTTA ATATTATTTCTAA
TAACTTTATTAATTATATTTATATCAACACTATAAGTTTTTGATTTTATGTTATTAA ATATATCTAGGTT
AGTAATAATATCTTTTTTAGTAGATAATTTTAGATAAGTGTTGATTATAAATTCATC TATATCTTTAGGA
TATATAATATACAATGCATCAACCATAACCTTATTATCATAGATAAGTTTAATTTTA ATTGATAATTCT
TTTTCTAGAATATTAATACAATTTTCACTAATTGATGTCTTAGTATTAATTTTTTTA CCATAATGGTAGT
CATTTCGTATATCACATATTATTGAATGTTCTAGATTAGTAATTATATAAATTTTAT TATATAATTCTTT
ATTATTCTTTATAATATTATTAACACTATAAATATAACCAACGCCAATATCATAAAA TATATCCATATT
TGTAACAAAAGAAAATTTCTTTTTTAACTGATTATATGACTTGATAATATTCTTTTC AATACTATCAGTA
CTTCCATCATTAAATATCAATTTATTATCCTTTAGATATTCTTTAAATGAATCTAAT ATAGTATTATAGT
TATCTAGATTCTTATTGAGTACTAAAGATATAATATCAATGTCATTCATTTTTCGAT AGTTCTTAATACT
TTTGACAATACTTTTCTTTGTTGGAATTTTTATATTGTTCTTTATATTTAATTCATT TATTGTATTAAATG
GTATATTACAGTATAATAATATATCATCTAAACTTAAATTTTCAATAAAAATTAATT GAATAAATTCAT
TATAGTTGATGTAATTATTTTTAACTTTATTTTCTTCAGTAATTCGTATTCCTTTTA ACATGGAATAAAG
CTTTGACTGATCATAACTAAATCCTGATAGTTCAGAGATTTCTTCTAAGGTTACTTT ATTAGGATTAAG
TTTATTAATATTATTTAGGATAATATTATCAACAATCTTAGCTTCTGAGATATTTTT GTTCTTCTTATTAT
TTTTAGTTTTATTATCATAACTAATTTTCATTTTTTTATCAAATAGACCGGATTCAT CAATATATAGATT
TACTACACCTACTGGAACTTTATATTTCATACATATTGACTTTAAATCAAAATTATC ATTAAGATATGT
ACTATCTATTTCATGTTTTAATTCCTCGCTAATTCTTAACATCTAGTTATTCCACCT TTTAAATATTATTA AAGAAAAGGATAATGAAAATAAATTTCATTATCCATATAATTACAATGCAATAATCAAGT TTGTTTTA
GCTCTAGTAATTCCAGTGTATAATTGTTGATGATATATGCTCTTATTATATATTTCA TCAAACAGTAAT
ACATTATCATATTCCGATCCCTGTGATTTATATACGGTTGTTGCATAACCAAACTTA AACTTATTAATG
ATAACATGTGATTCTTCAAAAATATTTCTTCGAAGAATTAATGACTTATACATTTCA TTTTCATAAATTT
GATCATCATTAGTTATTCCATCCGTAAAATATAATGCATCTACATGCAATCTATTAT AGATTCCAGTAT
CTGATGAAAATGTAGGTTTAAAGTCTAATTCAAAAGTATCCAACCTTTTCTTATATT CATAGATATTTT
CCACATAACCGATAATACCATTTGTTAAATACTGTTGTGATCCATTATCTTCATACA TTTCTAACCAGTT
ATTCTTAAGACATATTAATTTTTCACCAACATATGGAAATGGTGAATTCAAATTAAG TATATTTTTTCT
AATAAGAGAGTTTATCCTATCAACAGTTATATTTTTTGAAGCTAGAATTTGATCTGC GCCAGTATACAT
ATCATAGTCTACATCTTTTTTATTAATAATCATTACATTTTCATCGATAGGACCAAT TCTTAATCTATTT
TTCTTACGAACTTCATTAGCTAACCATATAATTGGATTATCCAGTGCTTGCCTTAAT GGTTCATCTAGG
AAGATATCTGGTCTTTTCATATATTTATTAATTCCACCTTTAACTGGTGGAAGCTGC ATCGGGTCTCCA
ATCATAATGATTGGGACGTTAAATGTAATTAGTTCTTCAATCATTGAATCTGTAACC ATACTACCTTCG
TCTACAATAATTAATTTAATATTTTTTGAAATACTTTCTTTTTTAATAAAGTTAAAC TTATTCTTTTTTTC
ATCATAAACTACATTATACATTAACCTATGAATTGTTGAAGTGTTATTATTCCCTTT CCTATTAAGAAC
ATTAGTAGCGGTTCCAGTATATGCAGAATATACTACCTGTTCATCGTTTAAATTGAT TGCCGAAGTTAT
AAATTTTATAATTGTACTTTTACCTGTTCCGGCTAATCCTGCTATTGTAAAAACTTT TTTAATATCTTTA
TTCCACCATTCAACTGCTCGCATAACAACCTCTTCTTGTTTGTTTGTTAGCGTAATA ATACTCATTATAT
ACACCGCTTTCTATCCATTTTATTTACTATAATTTTTTATTAACATTATAAATTACT TTTTCATTAATATA
ATATATAATTAAAAATTTATACAACTTTCTAACATAACATTATAATAGTAAATAATG GCGGTGATAAA
ATGTCAATGAGAGATATGAATGGAAATCGTATTATGGACTCATTTAGCTTCGATAAA GAGTATGAAGG
AATAGTATTAGATAATAACGATTTTGACGATAAACTATTTATTAAAGTATATATCTC TGAATTGTTTAT
TAATGATATTCCTGAGAAGGTTATCGATATTAATGAAAATATTGATCATACTAAAAT AATTAATAATA
ATAAAATAAATTTTAAAAAATCTGTAGTACATAATAATTATTTGAAGTGCTATCCAA TCATATATAATA
ATATGAATCTTGATATAATGAAACCAAAAATAGGTTCAAAAGTTATTGTCAAATTTA TTAATGGTAAT
CCAAAATTGCCATATTATGAGAATAAAGGATATTATACAGATATTATTATACCAATT CCTCCCGAAATT
ATAGATCCTCCTACTGATCCATCCACTAGTGATGATTATACTTCTTTTGGATACTAT AGAATGATTAAA
CTTACTAATCCGGCTATGATTGGTCGAGATATACTAAAAATCCAAAAGAAATTAAAG ACTCTTGGGTA
TACATTCACTATTGATACACTAGACGGTATATATGATTTAAGAATGTTGAATTATAT AAAAGATTTTCA
ATCTAAAAATAAACTAAGTGTAGATGGACAGATTGGTCCAATTACGTTTAGAACAAT TATGCGTAAAA
ATATATAATTTTTAAATTCGAACATATATTTATAGTAAGATAGTTTACTATAAATAT ATTTAATTGGGG
TGGAAATTTTTATGGAACAAGTAACTTCTGGACTATTAATTTTGACAGTATTATCCG TAGTAATTCAGT
ATTTAGTTGAAAGAATTAAAGATATTTTTCCAACAAAAGTTATGGATAAACTAGCAA ACTATGTTAAT
CCTGCTTTCTGGTCTTTAATTGTATCTCTTCCTATTGCTTTTGGTATAAATATTGAT TTATTTGCAATTAT
CGGTTATAATATGCATCCAACATGGCTTGCAACATTATTTACTGGTTTTGCATTGAG TGGTAGAGCAAC
TGGTATTAATGAACTTATTAAATCATTAAGTGCTGTTAAAACTAATAATTTTACTCA AGCAGATTCGGT
AAAAAATACTGATGAAGAAGAAATTAAAGTTGTCGCTAAATCTAAAAAATAATATAT ATCCCTATAGT GTATAATTGCACTATAGGGAATTTTATTTACTAAAATTATAAAATACATAATAAAATAAC ATTAAAAT
ATATTTACATTAATATACAGAAATGGATGATTAAATATGAAATATCCGATACGTGAG GATCATAGAAA
AAGAGTCAAGACAAATTACATTATTATTACTCATGCTAATAATCTTATAAAAAGGGG AACACATATAA
ATAATGCATTGAGGCAGAGAACTTTTAAATACACTTGGGGAATATGGCAAGAATATT TAATGACTCAC
GTTAATAAAAGATATTTACCAATGCATTATTTTATTGAATTAATTGATAAAGATTAT GCAGTATTGAAG
GGTCTTTCTGACCATAAACCTTCTTACTTTATTAATGATTTAGTAGACGAAGGTGTA ATAAAATATGTT
TACCGAGATTCGATATTAATAGTCATTGGAGATAATTTTAGTATAAATAATCCTGAT ACTAGAATGATT
GATCATTTAGCAACTAAAGTTATTCTTCCATTAATGAAAACGTATAATTTAAGTTGG AATAAAATACA
ATTTTTTGATGAGTGTTTAACTGACTCATTTATTAATAATATTGATAATGATGAA ATAAAATATAATTA
CGAATATGAACCAATGTCTATGTTTGATATGAGTATTCTAAGAAATGCAGTACTTAG ATATAAATCAT
AAATATAAAATAATAATTATAAGTATTGTGTGGTGATAATTGGAAATGGATAATAAT CAAAGACATAA
GAATAGAAATTTTTTTAATATAATGATAATTATAAATATTGTAATTATTGTTATAAT AATTGTATCTTCA
GTATATCTATATATACATATAAATTCAGGAAACAGTTATTCAAAAGAAACATATGCT AAAGTGAATAA
TGTGTATATGACATATGATAATGAAGATAAGGATATACAAGTAAGAATTGGTAAAAA GAAACTAATA
ATATTTAATAATGGTAAAATTAAAGAGATTATATTTAATAATTTTGAAGTATCAGTA TATGATGAATAT
ACTTTAATATACATTTCTGGAGATAATGATGAAGTTAGTATTTCTGTAGACAATGAT AAAGATTCCATT
TCTGATATAGTCATAAATAATCAAAGTTTAATAGAATAATTATATAGATATATAGAA GTGTGGAAAGA
AGGTTACAATATATGCTCATATTAAAAATGAGAACTGACAAAAAAGTAGACTATAAA AAATTATGGTT
TATAAAACTTCATAGAAAATTAAATATTGAAATTCATTATAATATAGAGGAAAATGG ATTCTACTATA
TTGATAATAATAAAACATTAAAACTTAAAAAAGATTTTTCAAGAACAATTAGTATGA TTCTTGATATTA
AGAAAAGATTCAATTCGTTTAATACTGAAATGGATATAATTGATAATAATATTAATA TGTATCTTAATG
ACGTTATAAATAACTTTGAAAAAGAAGAAATGCTAAGAATTATACTAGGAACTTCGG AATATAATGTG
AAGAATCTATATAATGATCTTACTGAATTAGGAATTAATATTGATCCAGACTTATTA TATGTAAATTTA
TATAAAAATACAAAACATTCCGAATATAATGATGAAATAAAGAATACATTTAAAAGA ATTTGATAACC
TGAATACTAATAATTAAAATAGTATTCAGGTTATCAATTTTTATCGAGCAAAAAATA TTTTTTTCCTTCT
TGAATGTTTTAAGGCACCAATGCGCATTTTTTCAACTAGTTCTTCTTTCTTATTTTT TCCATCAGCTAGA
TCTTCAATAAATAATTCTATACTGCCATACGTTGTTTGAATATTTTGAAAGCGATGT CTAATTTGATAT
AATGATTCTTGAGTATCATATAGACATAATTGCATAAAATGTTCTTGAAGATTTACT GGTATGCTGTCA
AAATGTTCACTATGAACTGCGTTTGCATATACTAGAATTCCGTTTAATGTATATTGG GGAGCAATTTCA
ATTTGGTTTGGATGAATAAACCGGAATGTTGAAGGATTTATTTGACCTTGAATGTTA CTCATCATCTGA
TTTTCAAATAAACTTCCAGAACCAGAACCAGCTCTAGGAGTTCCTCCGATAATTGCA CTATTACTACTA
TACATATCTAATCCAATTACACGATTAATATTTAATACGGAAGTCTCTGTATCTAAA TAATAACGATTC
TCATATCCCGGAACAAGATCTTTATTAAATACTCGGATTTCTTCAATTCTTGGGAAA TACTTACTAAAC
GTAATCAAACTTTCTGATCTTATTCCACTAAGAATTTCTTCATGAGAAAGTTCTAAT TGTGTAAATTTAT
ATCCTAATTTTCGTTCTAAGAATCGAATAACCTCTGTAGGATTAATCATTTAGTTAT CACTATCCTTCCA
ATAATAAAAATACAATACCACTTCCTAAATTTAATTAAGAAGTGGTATATTTTAAAA CATATCTTGTAT
ATATTTGCTTAAATCACGTTTAATTTCTTCTTCGAGATAAATCCGGATAGTTTCGTT TGATTGTTTAATA CTTAATGTTTGATCTTCAGTAAGAGTTACTGAACCATTCTCTAGATTCATAGATATACCT AATGATTCT
GCTAATGAATATACATTTTCAGATTTTTTAGTAACAAACTCTAATAATTCAGAAACT TGATAAGGAACT
ACTTTACCTGAAAGATTATATGAGTTTGAGCTTGCTGCTTCTAACAATCCTTGATAA TCTTCTGAGAAG
TCTTCATTAATCCGGTGAGTCATATATGAGTTTGGATGGGATGGAATAACAACCCAA TCATAGCAGCA
AATCATTAAAGGTGAATGAACTCGTTGATACTTCCCATCAGGCTTAATAATATTACC AATACCACGCAT
GGAGAATGCTGCCTTTGATCCTTGATTAATCAAACCTTTCATGTCTCTACCTACAGA TGTATCTGCAGT
TTCAACTCGTCCAATTAATCGATTCCCATCAAACTTAGCTTCAGTTACAATATGCGA AATATTGCGTTG
ATCAATATATAATTGTCTACGATTATCAGTATTTAATGGATGACCTGCTTCTCCAAA GAATGTTCTATT
TTTAATTTTTTCCTGAACAATTGGGTTTTGTATTGCTTCATCAATTGCACGTCTATC ATAAATACGGTTT
TTTTGTTCTGGTGCATCAGCTTCTTGCAACTCAGTCTCGAATAATACATTATTAAGT GTTTTATCTATAA
TTTTCGGTTTAGATTCAGTGACCGATTCCATTATAATATAACCTTTTTCTTCAGTCA TAATAGTAATACA
CGTCCTTTCTTAGTATATAAATAAAATTTATAATAAAATGTTTGATTAGATAATTAT TTTTTTAAACAAC
TTATTATAAAATATTCTTTTTATCATTTTTGATAAAATATGTTTTAAATTTAAAGAA TATTAAATTATAA
AATAAAATGATAAGGTGGGAAATATAAAATGCCAAAAACTTTTTTAGATGTAATCCT TGAAGATGCAG
ACGCATTTGAAGCTAGTAAATCTGTTGAAGTGGTTGATAAAAATACTACTGAACCTG AAGTAGTCGCT
AAAGATGAAAAAGCTGATGTAGAAGAACAAAAAGAAGTATGTGACGAAAAAGAAAAA GCTATTGAA
AAAGAAAAAGAAGAATATACTAATGATGCAGAAGTTGAAATTACTAGTGACGTTTCA TTAATGAATA
ATGTTGCTGATAAATTAGATAGTGGTATGTCTATTGAAGAATCATTCAATTCTCTAA TCGAGGTTAATC
TAGTTAAGAATGAATTTAAAAACATGGGCTTGACTTCTGAAGAAATTAATCTTCTTG CTGAAGATGCTT
CTAAAGAAAGAAAAGGAATTATACGTGGATTGGCTAAAAAAATCGGTATCGATGATA GCGGTAATGT
TGATGCTCGTAAATATGTTAATGCTCGTAAAAAATTAGGCGTAAAACAAATTACTGC CGCAGTAACTT
CTACGGTTGCTGCAAGTGCTGCTGCTGGAGCTAGTAGCTATTATATTGAAACATCAA AAAGTAAAAGC
GAAACTGTTAAAGGTGGAATCTTTTCAGGTTTAACTGTAGGATTGGTCGTAGGTTAT TGGGTTTCCCTT
TTCTCATTTGTAGTTACTATTTTGCAAAGTGCTAAAGTTAAAGGTCAAATGAAAAGT GATCCATCTATC
TTAAGAAATGCTCTTGCTGAAAATAAAAAAGATTTAGCTGAAGTTGTATCTTCTATG TCTAAAGTTAAA
GAAGATGCTAAAGCAACCAAGCAATTAGAACGTATTCAAAAAGCTTTACTTCGTGAA AAATCCAAATT
ATTGAAATTGCAAGAAAAATTAAATACAAAATAAGTTATATATGATCTCAATTCTGA TTAATTTCAGA
ATTGAGATTTATTTAAACATTATTATATAAGAAAATATATATTGGTGGTGATTTCAA TTGCATCTAGAT
GAGGAAAGTATTAGATACGCTATAAAATTTACAGAATCTTTAGAAAAAAATGATTTT GAATATGGTCA
AACAATTCGTGAAGAAATTCAAAATGAAAATAATTCATCTCAAATAAAAAATATTAT GAATATGCTCA
ATATTAAAAATCCAAATACTATTACTGTTGAAGAATATTTAAAGATACGTAGAAAAA TTAAATTTTCG
GGTCTTATTGGATTCTTAGCAGGTCTCGGAGGAAGCGTAATGTTTACTTCAGATATT ATTATAAATAAT
GATCGGCTTAGAGACGATCCTCAAAATAGAGGAGTCGCTAATAGAAATAATCGTAGT AAGCTAAGTAT
GCTTAAGTCAACCTTATTTGCTTTAGTTTCGGCTTTTGGTTCATTTGCTTTATCAGT ATTATATAGTAAG
AGCGTTAAGAAAACTTCAGTAGCTAATCCATCAATAGTTAGAAGTTTATTAGCTATT AATGCAAATGA
CTTAAGAATGGTAGAAAAAGCAAATAATAGTGTAGTTACTAAGTCTGACTTAAAATA TATACGTAGAA
TAGAACGAATATTAATTAGGGAAAAAAGGGATCTATTAAAATTGCAAGCATACGTTA TAAAGAAAAA TAAATGAAAGAAGTGAAAATTTTTATGGAATATAATGATGTATTTTTAGAATATTTAAAT TCTGAAGA
AGATAATATTGAAAATATGGAAGAATTCCTATCAAGCTACATTGGAATTAAACCAAG ATATCTTGAAA
TTAGACCTACTGTATTTAGTGAAACAAGAATTACTAATGATGGTATTAGTGATGAAG AAGATAATAGC
GAAGAATCTGATCGTAAAAGATCTACTGATGAAGTAAAAAAGATTAGTAGAGAAGTA ATGGAAAAAG
ATAAGAAAAAGAATCTTAATCCACAAAATAAAGCAAAAATTGCAACTATTAAACGTG AAATGGAAAA
ATCGATTAAAATGGATCCAAATAGTCTTGGTAATGATACTAAACTTAAAAGACTTAT GCGTGTAGGAA
TTACAATGTTAGTTTCTTTCGGGATTATTTTTGCTCCTGCAGTTGGTGTCTTAATAA AGATTATTGCTCT
TATCGGAGTAGCTGCTACTGCAAAACACGTTAATCGTAAAAAATTGGAAAATACTAT TATATTACTAA
TGGATAAAATTAAATATATTGAAGATGAAATGGAAAAAGCATCAGACAATCCTAAAA AGAAATATGA
ATTAACAAGAGTAAAACGAGAACTCCAAAGAACACTTATGAAGTATCAGTCTAGACT TCGGAATTTCC
ATTAATATATGATTTGTATAAGCGATGTTGCAAAGGAGGTACTATTATATTGAAAGA TGATTTCTTTAA
TTATTTATTTGAAGCAGATGATCCAGAAGAAATAAGTAATATTGATCCTAATGAAGA TAATACTGAAA
ATAATAACGAGGATACTCCTTCTAATGAAGAAAGTTTACCAAACGAAAATAGTGATG AAAATGATTTA
GAAAAGGATCCAGAAATAGAAGAACCTGATAATGAAGAAGAAATAGAACCTAATGAA AATGAAGAC
CCGAATAATAATTTACGTATAAAGGAAATATTATTTGAGAATTTCTCTGGACTTAAA AATGCAATTAA
ACGATTATTTACTGACATTGAATCGGTAATACATATCGTAAAATCATATGATTCTAA TAATGATAATCA
TAATTTAGAAAATACTGTGGATGGAATATCTGAAAAAGGATATGACATTTTAAATAA AATTCAAACAT
TACAAAATGGTGTAATTCTTAATATATCAAACGATAAATTAAAAATCATATATAATG AATTAGAAAAT
CAAGTAAGTGATATTATTAAGGAATATTCAAATAAAGTTGATGTAAAGTTGAAAAAC AAGTATTAATA
ATATAAACAATTTAATATAAAAATTTTAATTTATTTCTATGTAAGTTTCGTTTATTA CTTTTTTAAAGTA
AGAATGATGAACAATTATATATAAATAATTTATAATATTATTTTTATAATCTATAAT TTTATATAAGAA
AAGGAGAGAAATTAAATTATGCGTAATTTTAAACGTATTACAAAGACTAATACAGAT TCTTTTAGTAC
TCATCTAAGCGAAACTCAAGACTATTTCGCTAATACTAAAGGAACAAATATTACTGG ACAAGATATCG
CTGCAATTATAGTGAATGAACAATATTTTGATGAGTATGCAACTCGTCTATTAGAAG GTTTCGATGCTG
ACCTTAGTGAAGAACTAGGTGTTCTTTTAGAAAACACTCGTAGCAACATTATGGAAT CCTTGGGTGGA
ATTACTCCATTTGCTTCACTTTCAATGCCTGTTTTGGTTAAACTTTGGGCTCGTTTG TCTATGGTAAATG
CTATTCCTACTACTCCTGTTACTACTCCTGCATTTGTAGTACCAACTATCAAACCAT ATACTATTGGTCC
AGATGGTGAAAAATACTACCTACCAGAAGCTATTAATACTATTCCTGAACACTTTGT AAGTCTTCGTCA
ACTTAAAGAAGATATCACTATTACTGGTGGTCGTCTTTCTGACTATGATCTATTTAC AGGTGTATCAAC
TGCTGACCGTGCTAAAGGTGATCAAGTAGACCGTAAATTCCAAATTGTTGCAGGAAC ATGGTCTGATT
CTTATAATGTCGCTGATGCTGCTCTTGGCGAATATGAACTTAAAGGTCAAGCTCTTA AAATGGATATTC
ATGGTAATATCTTTGGTAAAGTAACATATACTACTGATGGTAATGGTGCTACTAATG AAGATACTATTA
TGGGACATGTTGATGTTGAAAAAGGTCGTTTAGATTTAACTTCTCTTTCTGGTAAAT TGACTGAGTTCA
AAATTCAAGGTTTCGTTTCTTCTGAAATGCATACTGGTACAACTCAAGTTGGTTTTG ATGTTGATGATC
GTACAATCAACATTGGTACTGCTCCACATATCGAAGGTATCCTACCTATCGAATCCG TACAAGATAGT
AAAGCTATGTATGATATTGATGCAGCAGCTGTTATTGTTGATACAATGTCTGCTACT TCTGCACAAAAA
GTTGATACTGACTTGATTGAATTCTTGTTACGTTCTTATGAAGGTACTAATGCTGCT TATCATAAAACTT TCGATGTACATCCAAATGGTGGATACAACATGCATCCGCATGAATGGCGCCGTGGTATTC GTGACGTT
ATTGACTGGATGTCTCAAGCAATGAAAAATGATTACAAAACTTATGATGCTTACTTT GTAATTGTTGGT
AATCCAATTGACACTCAATTGATTCCTGACATTGAATGGGAATTCCAAGGAGCTACT GATGAAGTTGC
GGGAATTAACGTTTCTTATAGCGTTGGTGCTTCTTCTACAGTTAACCGTTATAAAGT TGTTTCTTCTGAC
TTAGTACCTGCTGGAGATCTATTAATCTTTGCAGTTCCTACTCGTGAAGACTTCAAA ACTTACGAATAC
TACCCATACACTTTCAATATCGTTAATAATTACAACAATGCTGTTAACCAAAGCGTT CCTAACATTATG
CTTTCTCGCCGTTATACAGTTGAAGAATTTGTTCCAATTATCGGTAAAGTTACAATT AAAAACAACGAT
GCAACTCAATACGCTCGTTAATAAATATTATGAACCTTTCAGAGACCTTTTGGTTTC TGAAAGGTTATT
ATTTATAAAAATTTAAATTGGCGGTGCAACCATGCATATTGATTATGGTATTGAAAA GAATATATCAA
AGTACTTACATGAAGAATTACTAACTGAAGATATCTATAATCATCCTTTATTAAAAA AGATTGATGAT
GAATTTCAGAAAATATTAGATGAAGATAATATTAATGATACTAAACTACCAGTAACA TCATATAAAAA
AATTCAAAATATAATTAAATATGTCTCAACTATATTTAATATAAATTTAATTATAAC GATTGATAACGA
TAATATCCTTACTTATGGAATGATGACATTTATTCCGGTTAAAAATCTAACAAAGAT ATCTAATAATAT
AAAGAAGATTGTACTTCAACCAAAAACTGGTTTTGAATATATTAAAACTGAAGTTAT TGAAATTAAAA
TACAGAAAAAATTAATATCTTTCATTAAGGATCCAAACTTACTTATAAGAAATAATA AAGTTCCAAAA
AATTATACTCCTAGTGGAAGAATATTGACCAGTATACTTCTTCATGAAGTAGGTCAT CATATATTCATT
GGATTTGAAATTAAGAAATCTATTAAAAATGATAAACTTTTTTCAATTAACGGTGGT AATGGTAAAGA
AATAACTATACCTAGTAATGTTAATAATAATAAATATGTATTAACAAGCACTATATT ATCTATATTAAC
GTTAAGTATTTCTATGCATAGTTATATGAGAAGTGAATACAATGCGGATAACCTACC AATACAATATG
GTTATGGTAAAGAAGTATTTTATTTTTCAGAATTAATGGAAATATTAGAAAAACAAA AAAGAAATTCA
ATTCTATTAAAGATTAAAGGATTTCTAATGTTTGGTAAAGATAATTATTATAATCGT AAAATAAAGAAT
CAAGTAATTATTATGATGAAAAAAGAATTAAATAATGATAATAATAGTCCTAAAGAT AAGGAAATTAT
TATAGATAATTTAAAAACTATAGAAAATCTTGAATAGATAATGTGGTATAACTTATT AATTAATAAGTT
ATACCATTAATACGCAAGTAACTATTAATTATAATAAAATAAAGAAATTGTGGTGAT AAAAGTATGCT
TAAGATTAATATTAAAGATAATCCTGAACTTAAAAAGAATATTACTTCAAAAAATAA AAAACTCTTTT
ATGATTTCAATACAAATAATCAATCTTTCCTAGAATTAGCTATTGAATTAAAAAGAT TGGGAATCAGA
AATAATAAGTTACATTTAGTTTTATATGATAAGAGTCTTTCCGGAGTAGATCCGTAT GACCCGAACTTA
ACTGATAACGTAAAGGCAAGAATTGTTAAAGAGAGCATTATTAATTTTTGGTACTTT ATTAGGGAAGT
AGTTCGTATTCCAGTTCCAGGATCTTCAGTCCATTTTGCTATTCATAGAGGGAACCT TGCAATGTGTTT
CTGTTTATTAAATAATTTAAATACCGTATTAATGTTACCTCGACAACATTATAAGAC ATATAGTGCTGT
AGGTTTTTATTTATGGATTGAATTATTAGTAGGTAGAAACTATCAAATGATCTTTTC ACATAAATCATT
AACGGATAGTATTGCCAATCTAAAAAGATTGACGGCTCTATTTGAACTATTACCGAC ATATATGACTG
AACCTATCTTAAATAGTAAGAATGATAAGAATGCTGAAACTATTTTAACAATTGACT CAATAAATAAT
ACCATTAGGACAATTGGTCCAAGCACAGATATTGCTTCAGCAGATAAGTCAGGTTAA CTTAATTTTTCG
GCTTGACTATAAAACTTTTTTAATTGCTGGAACATCCTTAAGTCTATTAAACTACAA CGTAACTGGTAA
CGGTAAGCGTGAATGTTTGAAAATTAATAGAATTGGACAATCAGCAGCCAAGCTTCC AATGATTATTG
GATGAAGGTTCAACGACTATCGAAAGGGTAAATTTATATTTTAAATTTAGAACTGAG TAGAGTAGAGC CAAGACAAAAATTTGCAAGTTTACTTGGTTAGTAATTAAGTGACATTAACTTAATGTAAT TCTATTAAA
TCGAAACGGAAAGTATAGAATAAAAATAAATATATATTATAATAATGATGAGATAAT TTATATCTTCT
TTAATTAAGATTATTAAAGAGGTGATTATTATGGTAAGAAAAAACACAGAATTTGAT CTAGTTAATAG
AATATCACAAAAATTCAGTAATAATGAATTTACCTATATTGAAGGGTTTAATAGAAT GATAGATAAAT
GTAGATTTAAATGTAATAATTGTGGAAATGATAATTATTATACTTCGCCATCCATAT TATTGGATAAAA
ATAAATCTATATACTGTAATCTATGTAATCCTGCAACTTTACGAAAAAATTCATTTA TGGATAATGTTA
ATAAAAATTACACTGTTTTAGAAAAACCTAAAAATAATAAACAAAATATATCTGTAA AGTGTAATTTA
TGTGATTTCATATTTAAAACAAGGTCACAATATTTAACAGCTATGGACAAACCTAGT AAAACTCGAAA
TTTGTGTCCTAAATGTAATGCATCAAATTCTGAAAAAATATTTGCAAAATTTCTTGA TTCTCAAAATAT
TAATTATGAAATGCAGAAAAAGTTTAAAGAATGTATCGGTATTAATAATAGAGTCAC TCCATTTGATT
TTTATATAGATTCAATGAATCTAATTGTTGAAATTGATGGAAAACAACACGATTCAT TAAAATATGCAT
TCCATAGAGATATTAAAGAATATGAAAGAACTGTTGCTAATGACAATATTAAAAATA ATTTTTGTAGT
GAAAATAATATTGGATTAATACGTTTAAGATATAATTGCAAAAGTAAAGAAATTGAA TTCATGGAATC
AATTATTGATGCAAAATATATTCCAAACGTAAAATTATCCATAAATGCAAATCTTAT TAAATATTAGAT
ATAAATCTCATCAATTTATAATTCTGACTCTTCAAATAAAATTTGGAGAGTTTATTA TTTTTAGGTTTTT
CTATAAAGATATAGTCTATGGGGAGAGAAATCTCTTAAACTTGTTATATTCTAAGCG AGGAATGACCG
TTGTATGCGCCGTAATGAGTTTATAAAAACTCTAATCAATTTTGAGAATAACGGAAT GATAGATAGCA
AATAATCTTGAAACGTTATATCTAATACTCCTACATGCATATATTTATTAAACGGAC TATATGTGTGAA
GTTAGGTGAAGTCAGTTGAACCACTCCCCTATAACGGGAAACTTAAGTATTATATAC TAAGAGTGTAT
AGACTGGGATGCGTTATAATATGGTAAGGATATTCTTTAAAAGAATTAGACGAATCA ATGAATTAAAA
CCGTTAAAAATTAATCTAACAGGTTAATGAATACTAATAGGGATGAGTAAGTGAGCG GTTATGAAAAT
CCTATTTAAGTTATGCTCTTAAATTATTATTAGTGCGGTAGAGTTGGTACCTAAGTT ATAACTATGCTA
TCAAAATTGAAAAGGTGGAAACTAGGAAGATCGTAAAGATGTTTAATGTCTGATCTA ATAAATAGGA
AATGATTTATGAATCTTAGTGGCAGCAGCCTGTAGTAGTGATGAAGCTCTTGTAATG AGAGTGGAGTG
AAGGGGCATAGTCAGAGATTATATTAACCAAATAATCTTTGATGGAACGCTGTATAC GATGAAAGTCG
TACGTACAGTGTGAAGTGGGGGAAAATCCGGAGATAATTTCAAAGGATTACCTATCA CTATCCGTTAA
TATGGTTAGATGAATATGCGTTTTTAAAATATAATGATACGGTATTTAAAGCAATGC GCCCTGCTTTTA
CAGAAGCAAGTAAAGCTGCAAGCATGAATGATACTCCGTATTCAATACTTATTACAA CAACGCCTAGT
AATTTAGATTCCGATGAAGGAAATTCATGTTATAATCTTATACAAAATGCAGCTAGG TTTGATGAAAA
GATGTATGATTGGTACTATCAGTTTGGTCCAGAATACCTTCAATCATACTTGGATAA AAACTCTGGTAA
TGATTTTATATATATTGAATTTAGTTATAAAGAATTAGGTAAAGATGATGAATGGTT AGAGAGTCAGA
TTCGGGCAATGTTAGGTGATAGACTTAAGGTTAAGATTGAATTATTATTAGAATGGG TTTCTAGTAGTG
AAGATTCAATCTTTAGTGAAGATATTATTGAATCTCTTGAAGGTAATATTATAAAAA GGGAAAATTAT
GCAGGATCCATATATTTATGTGATGGAACATATAAACTAGATGTTATTAAAAATCCT ATAAACTTATTA
ACTAAAACATACGTTATATCAATAGATATTGCCGGAGGATTAGGTAAAGATAATACC GTTGTAACCGT
TATTGATCCAGTAGACCTTAATACGGTAATGGTATTTCAAAATAATAAAATTACTGT TCCGGAATTAGA
AGATCTTGTTACTGATCTAGTGTTAAATTATATTCCAAACGCAGTAGTTATTCCAGA ACGAAACTATGG TGGGGAACAACTGATTGATTATATTATTAAACATAATTTAATATCTAAAAATCTTTTTTA TGTAACAAA
ACAAATAACTACTGAAAAGACAATCTTACAAGAAAATAATGTTTTTAGAAAAAGAAG TAATAAAGTT
AGAAAAGAAAAAAGGGTATATGGTATATATACAACAACTAAGACTCGTGATATAATG ATTAATACTAT
CCTTCCAATGATTGTTTATGAAAGACCCGAATTGGTAAATAATGCTTCCTTATTTAA TGATATTAAAAC
GCTAGAAAGAAAAAGAAATGGTAAGATTGAACATAAGTCAAATCGCCATGATGATAA TTTATTTTCAT
ATCTGGTAGGATTATATGCACTATTATATGAACACTCGATCAGTAGGTTTGTGGATA TTATTGATAAAC
CCGAGTTAAATAAGGAAGATGAATTAGTTGATACCGTAATAATACGGGTCAACATCG TTTAACTAGTT
CTCAAAAAGCATCAAGAACTATTAATAATTTAAGAAAAGTTAGTAAAAAACCAACAA GCAAATCAAT
TATTAATGCATCAATGAATATAAATAACGAAGATTCTAGTATTAATAATTCTATGAG TAAAAAACCAC
GAAGAGGACTAAATTTAGTCCGAAAATATAATAAAAAATAAATTAATTTTTTATATA CTATCCTAAAA
AATATTATATAATAATTAAATATAATTGATTGGAAGTGGAAATTTTATTATGGTTAT GTTAAATGCAAC
TGTAAATGAAGAATATAAACGTGAAAACGTAAATGAAATTATTACAAATATTAGTGA GGATATTATGA
TTGATAATATCTTATCTCAAATAAATGATACTGATATTCAGGATCTTTCTGAAGTAA GAAAATCATTCT
TTGAATACTTTGAAGAACGTTATAACTTTGTTAAGAAAAATTATAACGATGATGATG AAGCAATGCAA
AATTGCCGAGAAGTCTTTGATGATATTTTAAATCAAATTATTAAAGCAATCTCTGAA AAATACAGTTTT
GATCTTTTCTTTTCAGATATCCTATTATTCGATACAAAAGTAGAAATTACTAAAAGT CTATATTATTTCT
TTGTCATCAATATTCGGGAAAATATTGAAAATATGATTTATTATTTTATCATGAAAA ATAGAAAAACAT
TAGTAAAAATGTTTAACACTATTAGTAAAGAAGAAAGAAAGAATTTAAGCTATATTA ATCTTAGTTCT
GCAATCAATAATGATTATACGACAATGATATATCATTTAAGCATGATTATTGATAAT ATTGAAATTCCT
ACTAATGAAGATATTATTGAATTAATGGTTGAAGATAATTCATATGAACTTTATAAC TACGTAACTGTT
AATACATTAGTTCTTACAAATTTCTGCGAAGTAAATTATAATGAAAACTTTTACTCA ATCTTTCTAGAT
ATTATTAAGAATTCTCCAATTATTGTAAGAAATGTTAGAAACTCACTTATTGACTCA TTAAAATAATAT
TAATTACCCTATCCTTAAATAATTTAAGGATAGGGTTTTATTTAAACAATTTTTTAT AAGAAATATTTA
AAGAAGGGAGACGTTAATGGTTGACTAAAAAGATGAGCAGTTTAGACCGAATTAAAG ATTCACTTATT
TTTAAAGGTGAAATATTAGATATATACTTACCAAAATCTAATTTTGATAAAAATCTA TCAACGTATAAT
GGTGAATATATAAATACTATGGGTATCTTTTCATTCATTGAAAAGAAAGCTGGACCT GAAGATAAAAC
AACTAAAGGAACTTTACGTAAACTAGAATTACCTAATATGATTGACTTTCAATACGA TTCAAGTTATTC
TTTTAAGGGAAAATTATCGGATGAATTACCCTCTGACACATACGAAGTTTTTCGACT TACTACAGGAA
ATCAATTTATTGCAAATGTATTTACAGAACAAAATGCTTCTAATGTTAAAAAATTTA TATCGGCTCTTC
ATGGTGGTAATATTCCGAGTTCAGTATCTTATGATAATATTATTAAACTATACTTAG ATACTTTATCAA
TTAATAAAGTTAGTTTACGTAGTCCATCAGTAATTTATGAATTGATTATCTCCGAAT TATGTAGGTATA
GTAAAGATATTAATGAACCTTTTAGAAAGATTATTGCTTCAAAAAATAATATTAGTC CCTATATGTATA
CAAATATTAATCTTAAGAAATTACCATCAATCAATTCTACTTTTGCGGCACTTAGTT TTGAAAATCCAA
ATCAAGCAATTATTGACAGTATTAATAAGAATATCAATGGTGAAAAAGAGAATGAAT CTCCTATTGAA
AGGACTATTAAATACTAATATTTTAAAACAATAAAATATAATCTTAATAAGATGATT TATTTTTATGTT
TATTAAGTTTTTTATAAAAAAGATTATAATGAAAGGAATGAATTATAAATATGGCTA ATGATGCAAGT
TTGACACAACTACATCCATCAGTTTCATCCGTTATCAATGCAAATCAGTCTAATTTT CTTACATCTAAT GGTGTAGTTACTCTATTTGCTGCAGACACCTTTGCTAAAGGTAAAGATGGTGCAATTGAT TTTGTTAGT
ACTAAAGATGAATTTATTTTTAAATACGGTACTCCAGATTATTCCAAATACGGTCAA TCAGCTTATAAT
ATTGTAGAGTGGTTAGAAAATGGAGGTCAAGCATTTGTCCTACGTCTTCTTCCTGAT GATGCTACCTTC
TCTCATGCAATTCTGAATGTACAAAGTAAAGTTGTATCTCAAGGTAAAAATGTTTTA ACTACTGCAGG
AGAATTGGTTAAATTAGATGATGTTCATCTACGTCCTACTACTGCTTTTATTAAGAA AAATAATCGTGA
TAAGAATATGTTGATGTCTGAATTGACAAAAACTCGTTCTGATGAGAATACTGTTGA TGGTTATACAA
ATAACTTTGTATTGCTAGTATATCCAGAAGGTCGTGGAGAAGCTTACAATAATTTAG GTTTCCGTATGA
CTCTTAATGGTTCTTTCGATTCAGCAGTAAATAGTTCTCGTGTTTATAACTTCGAAG TAATTCAATATG
ATTCTGAATCTAATATGACTGTAGTTGAAGGACCATTTTATGTATCTTTCGATCGTA CTGCAATCTCAG
CTTCTGGGGAATCTATGTTTATTGAAGATGTTATTAATCGCTATTCTAAACACGTTA ATTGTGAATTTA
ATGAAGAAAACTTTAACCGTTTGACTAAATCTATTAATCCTAATGTTAACCCAGGAC ATATTGATATTC
TTACTGGTAAATCTAAAGTTCTTCCTTCTGGTAAAGCTGAAACAGTTTATTCCGAAA TTACTCGTGATA
ACGAAGATATTCATATTTCATTACAAAAATATAATGCTCGTGGAGAACTAGTAACTC AGAATGGTAAT
GCTGTGCTTAATATTCCAGACCCTACGGATACTGTTGAAGCAGCATTGATTAGTTTA GATAATGGATTA
CGTGAAAATATTTACAATCTAGACTCTAATAAACTTGCTTACATGAAAGAACAATTC CCTAAACTAAA
AACTGATAGTTCTAGCGAATTTAAATTGGCTATGAATCAAATTATCAATGTTCCAGG AGATGATTCTCA
ACCTAAAACAGGTGAAGTGGTTACGCTTATTAATAATAACTTTGATTCATCTAATCC TAGCAGTCTTTA
TAGTAAATACCTTATTGCTAAAGAAGCTTATATTAGTGAAGATAGTGATGAAAATCT TTCTGCAGTATT
ATCATACGTAGATCGTTTGTCTGAAGTATTGAAGTCTCAATTTATTGATTATTCTAC TAAAATGAATGC
TTCTTATACATTAACTCTTCATAATTCACCAAATCCTCAACTTCCGGCACAATATGC GCTTGAACTTAA
CTCTTTGACTGATCTTCTTAATAAGAAAGATCAAATCAATATCTTTACAGTTGAGCA TCAAGGTAAACT
ATTTGATATTCAAGAAACAATCACTAAATATCGTTTAGGTACTGTTAGTGGAAGTTA TTTGGAAGGATT
GTCATTAATCCTAAACAATGTTGAGAATGAAATTAAATATGTATATGAAAGCTTACT TCCAGTAGCAT
ACAATGGTTATCAAAATGTACCTGTAGAGATTTCTGATAAATTTGATTCATCAAAAC CAGAAAGCATT
ACAAGTCGTTATAACCGTATCTTAGATCTTCAAAGTGATATGCAATCAGGAATTATT GACAATACAGC
AACTAATCGTGATGAAATCACTTCAGTAGCTAATGATATTACTATTGATCTATTGGA TGTTATTAATGA
AGTTACATTCACTTCTAGCACTACAAATATTGAAAGTGCATGTACAACTTCAGTATC TCATATTCTAGA
TAATATCGTTTCTTTCCATTCTGCAGTTCTTACAATGATTACACCTCAAGGTACTTA TGACTTTGATGCA
ATCATTTCTAATGCTAGAACTCAAATTGAAACTGAAATTTCTAAAGTTTCTACATCT AACTCTAAATTC
TTTAATACAAATCTAATTGACTTTTCTAATCCAATTAAACTTCTTTTGGGTTCTGAT GGTTCATTTACTT
ATGACCCAGATAATTTATCTGAAAGACGTGCTTCTATTAAACAATGGTTAATTAAAG CATATAGTGGA
TCAGTTGATTCTGATCTATTGAATAAAGATAAATATCCAATTGATATCATTTTGGAT GCAAAATATGAT
AGTGATGTAAAAGCCGCTATCGGTAGTTTGGCAGCCAATATTCGCCGAGATTTCCAA TTCTTTGCGGAT
GATGCGGGTGGTTCATTTAGTTCTTCTCCAGTAGATTCTCTATCATGGAGACAGACT TCTGCATTCAAT
ATTAGTTCTCTTAACGTTTCAATATTCTCTCAAGATTTAACTTACTATGATGAATAT ACTGGTAAAGAT
ATTCGCTTCACCGCTCCTTATCAACTAGCAAGTAAGATTCCTTACAACGCAGTACAA TACGGATTGCAA
TATCCTTTAGCTGGACCACGTAGAGGTCTAATTAGTGGTCATAAAGCTATTTCTTGG GTTCCTAATGAA GCTGAAAAAGAAAAACTATATATTGCTAAAATCAATTATATTGAACAAGATACTAGACGT ACTAAATT
TGGTTCACAATCCACTACAGAAACTGGTTATGGTGCATTATCTAATATTAATAATGT ATTTACTATTCT
TAAAATGGAACGTGATGCTAAAGAACTTGTATCTAGTTACCAATTTGAATTCAATGA TGAAGAAACTA
AAGATTCTCTTTATACTGAATTGAATTCTTACCTATCTAAATATACAAGTGACCGTA GCTGTGAGTCTG
TTGTAGCTACTGTTAGTGCTTCTGACTATGATAAACAACAACGTATCATTAAAGTAA ATATTTCTGTTA
AGTTTAACGGAATTATTGAACGTGTTCAATTAAGCTTCGATGTAGCTAATTAATACT ACAATATTTCTA
ACTAGAGGTAAATAATTTATACTTATTTTATTTATCTCTAGTATTTATTATAAACAA TTATTACTTATAA
GAGAGGATGACAAACATAATGCTAAAACCGGGTTCTAGTGCTAGAGTCTTTGATAAT GACTTAGCTAA
AGGTAAAAGCTTTTTTACCGGATCAATGAATACACAAGAACTTCAGTTTGATCCATT TGTTACAGGATA
TGCATTTATCCTTTGGACTAAAGTTCCTACTTGGGTTGAAAAATCATTCCCAGGATT CCGTAGCCAAAC
TCAAAAGAATTTTAAAGAATTCTCAGGAATTTCAGATATGGAACTACAAACTGCTGA ATATACGCATA
CTTTTAATAACAATGCTTATCGTTTTAATAGTGGTATTACTAAAAACAATACTGAGT TTACTCTAAGAC
ATCAAGAATTCTCAGGTAATCCAATTACAAATATGTATAACTTATGGGTTTCTGGTA TCAGTGATCCAC
AAACTGGTATTGCTACTTATCCTAAAGAATATAATATGGAGTATGCTGCTAAGAATC ATACAGGGGAA
CTTCTATATATTGTTACTCGTCCTGACGTAAATAACGTAGAACGTAATAATATTGAA AAAGCATTCTTC
TATACAGCAGTTATGCCTACTCGTATTGCATTAAATCATTTTAACTATACTTTAGGT ACTCATGATGGT
GCTGAAGTTGAAATGCCATTTGCAGGAAACTTGCATATTGGTCCATTAGTTGATGAT TATGCTAAAGA
AATGTTACGTAAAACATACTCCTTTAACGCTCAAGGTATGTTTAACCCTCAAGATGG TTCAATTGCTGG
TGAAAATATTGCTGTATTTAATGATAATGCAGGAGTTACTGGTTCTGGTCTAGGAGA TATCTAATTAAA
TTAAATACCTATCACTATATTAATTTATGGTGATAGGTATTTTATATTTTAATTTTT TAGAGAAATTATA
GATATCTAACAATAATATATAAATGTATTTGGTTGTGAATCTTTATTATTTAAAATA ATTTTTTAAATAT
TAGAATAACAATATAATATAATTTTACTTCTACGTGTCGGTATGCAAGCTGGTTAAA GCAGACGGACT
GTAACTCCGTTTCGAAAGATTCGAAGGTTCAAATCCTTCCCGGCACATCTTTATGGA AAGTTGTCTGAG
TGGTTTAAGGTCTCGGTCTTGAAAACCGATGAACGTTTATAGCGTTCCGTGGGTTCG AATCCCACACTT
TCCTCTTTTATATTATGGACTTTTAAAGTTTAGTGGCTTTAAGAGTCAGCCAATTGT TTGTTTTTCTTTCT
TTATTCCATATTTACTTTAGGGATATATCTTAAGGGGTTTTTGATATATCCCACTCC TTTTGACGTGTAG
CTCAATGGTAGAGCATCTGACTGTTAATCAGACGGTTGCAAGTTCGAGTCTTGCCAC GTCAGCTTATTT
TATTAATACCTTATAATTAATTAATACCTTATAATTAATTAATATAAGGTATTAATA ATCCTAATACGG
TTCTTTAGCTCAGTTGGTTAGAGCAGACGGCTCATAACCGTCCGGTCGATGGTTCGA GTCCATCAAGA
ACCATTTCTCTAAAAAAGATTATATAGAGAACAGTAATATTAAATTCAGTAATCTTA TTCTAAGTTAAT
ATGTATATATTAATAAGATGATAATTAAAGAAATTAATTATTGCTGAATAATATTAA ATTTCTTAATAA
ATAGATCAATTAACTTAAAAAATATCATAACGATCCTTTTTAAAACCACACCTTCAA AAACCATGTAT
ATGATTGATCTATTTAATGAAGTCAAAAGTATTCTTGTATCCTCCTAATATATGAAT ATTTAACCATTTT
TTTTTTTTTTTTTGCAAGTTTATATTGGTTCTTGCAAACTCTTTTTTCACGTATT ATCTCTTAAATGAGGT
AATACGTGTTTTTATTATAAAAATAAATATATATTATAATGATGATTAAAATAATAT ATAGATTGGATT
GATGAGACGATGGCATACAATATTGATAACGTAAGGGAAACTAAGGCAAAGGTATTA AGAACGGCAA
TTAATTCTCTGATTGCTAGATATTATGAATCTAATGATCCAAATACTGCACTAGAGT ATTTGGAGACAG CTGCTAAAATGGAGGAATTTGTTGAGAATGACAATTATAATTATTTATTAGATTATAATA TGAAGAGT
ACCCATCTAGTTAGACGAGTGACTAGTATTGATACAAATCTCAATAAATCAGAAACA AATGTTGGAAA
ACAAAAGATTAGATGTATGTATGAAAGAGAAAAGTCTGCATATATTTATAATATCAA AAACAAGAAA
GTTGAAAGTGTTTATAGAAATAATAAGAATATTTCTAAGATCAATAAACCAAACTTT AATGAAGATGA
TATTGCATTAATGCGTAAGATTCTTGATTCCGAAGAGGGTAGTGCTATACATAGAAA TCTTATTGGTTC
TTATGTATACAATCATCGAATTGGTAAATGTGGAGTGATTGTCGGAATTACTAAAGC GCATATGTATTA
TACACTTAGTGATAAGCATAATAATACTAAAACTAATGATACCAAGTTTGTTGTGAG ATATCTAGACA
ATACTATGAACAACAAACAAACATCTATTGGTATCTGGCGTGCTACTAAATGTTCAT TTAGTAAAGAA
ATTTCGGACTTTGCAACATATTATACTAGTTCAGAAAGTACGGAAGAGTATGATAAA GAATATGTTAT
TAATTCAATGAATCGTCTATATGAAATTGAGAAGAATTATACTCATAAATTCTTTGA TACAGGACTAA
AGATTTAAAGAATATTAACGCTAATCATCCAATAATAAGGATGATTAGCGTTATTTT TTTTTTTTTTTAA
TTTTTTCTAGATACGTTTATTGCCTTCATAACTATCTTATAGGAATCATATGCTA TCTTTTCAGGAATTA
CGTTTGAATATTTATTATGGACATCCACTAATTTCTTACGTAGTTCTTCATCGCTAG TATTAATAATTAG
CTTCTGAAACATTCCAAAGATACTCATATGTTCTCGTAATCCACTATTACTAGAATT ATATATTACCTT
ATTAAATTCGATCTTTTTTACTTTATTAGATCGGCAATATTCATTATCAATATTTTC TAATAGTTTATTA
AGGTCACTAATAGTCTTTATACCTTTTATTTTACTAATATCTTTATGATATTCAGAT ATAGATGCGTATA
TATTATTTTTAGAAAATATACTTATCTCATCTTTATTAAAATGTTTGTTTAAACCAT CTTGATTTATAAT
ATTAATTCCATTCCGAATATTTTCTTTATTTCGACTAATAATTTCAGTAATAGTACT TTGTCTATCTTTAT
GTTTCTCAATAAGATTTTTTACTTTACGTAATATTGATTCATTAATTTGTGATTCTA ATAAATCTTTAAT
ATAATTATTATCCATATCTATATATCACCTTTGTCTTTACGATTATATTTATAGAAT TCTATCAATTCAA
GAGAAAGATCACCAAAAATAGCTTGCATTGAAATTCCACCATTGATATTTACATTTT CCATATCCTTAA
AGTTTATTAGTGGGTTAAGGTAATCATAATTATTATTATTATCTGCAATAAATACTC GAATTCTATTATT
TTTTTTAATAACCTTAATTAATTTACTATCAAAGTTATAATCATAGGTATCTATA GTTTTAATATATAAC
GTAGGATCATCTTTAAATATATTACGTTTAGTTCCATAGAATTGATCTATTTCTTTA AATCCGTTCGAAG
CAATATTTCCTACAGCTACAGAAAAGCTATTATATGGTGGTAGATTACTATTTGTAC TATCACTTTTAA
TAAAGAATCCATAACCAGAATTATCATTCTTATTGTAGTCGAGAGCAAATAATATCG CTCCGCCCTTAG
ATGGTGAAGTATGTTTTAGTTTAAATGTGATAATATATTCGTCTGGTAAAGTTAAAT TTGTACTATACA
TATTTTTCCAAATATTATTCTTTGTTTCGTTATCCCTTGAACTTTTAATAATCACTG GATTAGATTTAATT
TTAACATTATTTTGAATTGTTTCTATAATTCTACCATTATTATATGATGGATTATTT GTGATAATTTCAC
TACCGTTTATTTCTTGTATGGTTGGATGAAAATATATTCCTTCAAAAGAATCTTTAG GGAAAATTTTAA
CACCTTTATCATCTATTGTCTTATAATTATATAATAGGTTTATATTATACCATCCAG AGGAAGGAACTG
TGAAACTAGTATATGAATCATTATTTGAATAGCTCTTAATATTAATAGATTTTGTTT TGATATATGCAG
TAGTATCCTTTTTTGCATTAATTATAACATTAACCGTAATTTTTTCAATACTTATTG ATTTACTTTTAATA
ATACCCAACTTAAGGTAACTATTCTTTTTATTAGTATTAAAAATATCTGATCTTGGA TGTAATGTAGTT
ACGCTTTCAGTAGTACTGTCTGTATAAGTAATAATCATTTCATAACCCATACTATCA ATATCATCATTA
TTAAAACTACTTGAGTACTCTAAATTTGTAAAGAATAATCTATTATCTTTAATACGA TTAATATCTCGA
TAGTTATTTACTGAGTCAGCAGTAAAATTTACCGATATAATATTATTCTTTCCTTTT TTTATTGTACTAT CAAGAACATGCACATACCTACCTTGATCTTCATCATAAGAAACAAATGTTCCATTATACG AATTTACA
AACTTATCAAGATTATCATCTCTAAAATCGCTTAATAATTCCATTTCATTAGGATTA AAATCTTTATTA
ATATTTACAATATTTTTTGCAGTATCAAGGTTATTTATCATTAATCGTACATTTCCA CTAAAGTTGTTGG
TCAATCCATATTTTTTACTTTTATCTAAGTATATTTTACCTGTAAATGATTTAGTAT AACCTTTTTTAAA
ATAGTATGATGGTATACTAGTTAGACCTTTATCATCTAACGTAAAAGGATCTACATA TCGACCATCATT
ATCTGTAACTTTACCCATTTCAACATCTATTGATGCTAGATTATAGTTTGCATTTAA TATTTCATCTTTA
TTATCTGAAAAATCAGGAACTGTATGCCATGGAATTGTTTCATTGATATCAGTACCT AATAAATCTTTT
GATTTTTCATTTAATGGATGTAACATATGTTTTTTTACATATCTTGGACTTTGTACG GTTGATTTCATAT
TTTTTTCCTGATTAATAATTTTATTGATTGTATTTAGAATAGTATCAGGGAATAC TTTAATTGTTTTCTT
ATTAAATTTTTCAACAGTATCCATATCATTAACAAACATTAATAAGTACCATAAGTC AGTTGTTTCATA
TAATTCCTCAGATACATATTCCGGTCTATAAAATTGGTTTTCCGATATATCATAATC AATTAAGTTTGA
TTTAAAAATATTTTCATACTTTTTTAACAATGGAAAACCTAATACTATCTTTCCTTC TAATAAATAAAA
GTTAGATATATTACTAAGCAATATTTTATTAACGTTTATTGAATTTATTCCACCAAC TAAGTCAACAAA
TCTTGAACTATCTAAACTATTTCTAGAATTATCTACTACTACCAAAATATATTCACC ACTTTTCAAATTT
CATTATATAATTATATGTTACTATATTCTTTTTTATCAAAAAAAAAAAAAAATGCCA TAGTATATTATG
TAATATACTATGGCATAATAAATGTTACATCATTGGATCATTATTATCTTCAGAACT ATTTTTAATATTA
GATATATTTAACTTATCTTTAGTTAAATCTTGATTTGTTTCGTTAAATAATGTATCA AACTTAGTCCAAT
CAAGAGTAGACATATATATTTCTGAAGCTAATTTTTTCCTAAACAATCTTTTCTTAT TATCGGTATCCTC
ATTTTGTTCTGACTCTGTGAAATAATTACCTACAATAAAATCTATTGTCTGTGAAAT ATTATTAATTTGT
TCATTAACATTAGCAATATTCATAAATACTGGTGTAGGGAAATTAATAGTGATTTCT TCAATTTTTACT
TCATCTTGGTTTTCGTTATAATCTTTTTCATCATTTGTTTTGTTCTTATCTTTACGA TCTCGTTCACCATA
CTCATAACGATATAGCTCTTGAATTATCTTAGTAAAGAATTTACTAAACGTTTCTTG ATATCCAATAAC
TCTTCGAACAAAATTACTATTCTGCATTGATAGATTTCTTGCAAAATCAACTTCATT AGTAGCATCAAT
ATAATTAATTGGAACACCTGTTCCATTAACTGCCGATTTCTGTAAGAATTCTAAGAA ATCATCATTAAT
ATCAGCTTGTATACCTGGAATAACATCAATATCGAAAGGCTTATCTCCATTAACTGT TGGAATAAATGC
TTCTTCTGTAGCACCTAAAGTTTTAAGCATAGTAGATACACTATTTCCGGGACCAAT ACTATCCATTGA
AAATTCAGTAGTCTTTAAATCTCGGATAAGTTCTTCAATAGTTCCCTCAATATCAGA ATCCATATCAGA
CTCTACGTAATATACTCTTCTATCTCTACCTTGATTAATTTTTACCATTAAATTTGT AATTAATGTAGAA
AGATACATTTTAGGAAAAAATAGACTATTATTTAATCTAGATACACCATACTCGCTA GTGCTATCTAAA
GGTAGATGATACACCTGATTTGGTTCTAAGAATGTTATAGATATATCTTTATTGATA ATATAGTCTTCT
CTGACCAATCTATATATTACATCTTTAAAATCTTGGTTATCTTCTAAAAAGTCTTTA GATATTTTATCAC
TAATTCCTTTTACAAATATATCAGTAATTATCTTGTATTTTTCATTACTAGTCACTC CTGAACCACTCTG
ATTTGATCTAGAGTTATAATACATTGTAATATCTCCATTAACACTAGAAGATCCTTG TGGGGCATTACC
GTTAAGAGTTCCTGCAATAGTACCTAATATTGAACTACCTTTAAATGAATTATTGCT ACCATTCTTTTC
AATATACACGTATCCTAAACATACTCCATCAATAGATATTTTAATGATATCTTCCGG ACTAAATATTTT
TAAGTAAGATCCGGTAATATTTAGATTTTGAATGTCTTTAGATTTTTTACTTGCTTT TCGAGATTCAGAT
ACAAGATTTAGAGGGTCTTTATAATATTTTACATTTTTAGATATAGACTCATATACC TCATTAGCAGTA CTTTCTACTAAAATCTTTTCAATATCTTTAGGATTACTTTTAGAAAATCTTTTTCCATTT TTAATATTAG
ATGATTTAAATTCAATATTTTCATCATTCATAACACTTTCAATAAGATTTTCAATAT TTCTATGATCCAC
GTTAAAAGATTCATTTAGATCATCTTCTTCAGAATCAATAAAGAGATTATTGGTATC TAATTCATTAAA
TTCATCTTCAGAAAGAATACTTTTAAATTGGCTTTCTAGATCGGTAACCATGATAAA CAGATCACCCTC
AATTAATGTATTCCGAATAGAATTTCGAATAACTGTATTTAGATTATATTTATCAAT CAACTTAGACAT
ATTACCATTGAATTCTTTTTTATCCGTCTCCCCTAAGGTAGTATTTTCATTATTATA ATAGTATGATATT
GATTGTTTTGTTACATCGTCTGGAGACATAATAGAATCTACATACGTATCAATAGCT GTACCCAATTCC
GGAAAATACTGAGATATTAGTCTAAAATCATCATATCTTTGCCATCTTAGTTTTTCT TCAGCAAACTCT
CCTGATGAGAAACTACTTTCAACTTTTTCCTTAAAATAATTGTTGTATATATCAGAA CTTTTTTTATTTT
TCGTATTTTTCATTCCAGTATTCTTAACTTTATCTCTCTGTATGTCGGAGATAATAT CAATTATACTTCTT
CCTGAACTGTTATTATTACCGTTTCTTCGTTTAATCTTATTTAACATATCATGAAGA TTACTTAATTTAT
CTTTTGGTATATCTTTCTGGTTCATAATACCGTATAGATTTTTAATAATGTTTGCAT TATCTGCCATTAA
ACTTATCCACCTTTCTAAATTGATGAAAAAAAAAAAATATCATAGGAAAAAATTTCC CTATGATATTC
ACTAATATTTATTTCATATCTACGAATATATATGATTGTTCCATAATATAAGTATCA TTACAAACTTCA
ATTACAAGCATTTTTAATGATGAATCCTTGTTATGATTAAAGCATAATATATTTATA GATGGATGTTTA
CTATATACTACTGGAATATAATCACTAAATTTTTCTTCTTTATATTTTTCATATGCT TCATTAATATCTTT
TGGATAGTTCAATGATCCGAGATTATCCTTAATATTTGTAAAATAAGGTATTTCAGT AAATTGGTCTAT
ATCGACAATTAATGGTTCAGGATTCTTTTTACGAATATACTTAAAGCCTTTGATAAA TTTAGTTGATAC
GGTAACACTAATATAATCATCTAATTCAGGTTTAATCATATCATCATGGATAATAAT ATTATTATTATC
ATTTTTATCAATAACTATTGAGAATGTATATTTATTGTCAAATTCAAGTAATTTT ATTACATCATCATCA
CTAAGCGTTATCTTTGGAATATTTAATGAATTTTCACTAAAAGAATCTAATACAGGA ACAATATGATCA
TTATACGCATTAATATCTTTTTCTTCTAAATACCATTTAATAAAAAAGTCTGATTGT CTAATAAACTTTA
TATAGTTATCGTTATAGTCTATTTCTATAGAGACAATTTTATCTGATTTATTTTTAC GCATTTCAAAAAA
TTCTATCATATGAATAGAAAATGTATTCTTTTGCATAAAATCATTTACTGTTTTCAT TATACCTTTTTTA
TCTAGTTTTCTTTCAATAAAAGTAGCATTGATATACTTTGGTAGTTGTTTTAGTAGT GCGTCATCGTTTA
GTGAGGGAAATGCAAAACCATTATTAAAAATCAACCTATCCCCAACATTAAGTACAT TCCTAAATTGA
TCTACCATTTCTTCAATAGAAACTACAATTTTTTGAGCTTCATTAGGATCATCTACA ATAACTTTATTAT
TTTCTTCAATATACAACTATAATTCACCTACTTCTTGCATACTTTCAGAATCTATTG ATTCTCTAATCAT
ACCCAAAGCATCTTTAATATTTGGTAGATTATAATATTTAATGCAAAATTGTAAAGG GTTATTACTATT
ATAATCATCAATAAATGATTCTGTAATATTCTTATTACCTTGTTTAAAAGTAATATT TCCGATAAGACT
TTCAGGACTAATATTTAACGCCATAATAATATGAGGGTATAGTGCAGTTAAGTCAAT ATCGGTTACATT
ATCGAAAATCATATTTGATTTTTTACCCATAATATCAATACCGATTGGATGAACTTT TGATGAGTCTGC
TACAAACGCACCTTTAATTTTTCCATCAATCTTAGGATATAATGAACTATGATTATT ACTAATTACAAA
CCCACCATTATTATAAAAGATTTCTGTAAGGTTTCTTAAGCATATTGTTTTCTTAAG TGCTTTTGTTATT
CGAGTATGTGTTAACGAACTAATTTGATAAATTAGATCTAAGAATTTAGTTGCTTTT TCGATCATCATT
AAGAGAACTGTATCCTGAATGTTATATAGAATGAATTTATAGTAGTTTTTAATATAT ACGTTAGTGATG
TCTCCGTCACCCTCTTCAAACTCATCCTTTTGCATCCCTACTTCTTTTTCACCTATG TCGTTCAATTTGTA AGAGTCTAAGACTCCCATAGATAGCGATAGGTAAGTATTTGATATTATCTCCAACTTTTC CCCCGCTTC
ACACCGTACGTGAGACTTTCACCTCATACGGCGTTCCATCACTCAGTTTATATTGTC ACCGATATATTA
ATGACAATAACTAGTCGTTAACTAAGTTTCTTAATTTAGTTAGTTGTGTTTTATTTA CCCCGGTAGGAA
AATCAGTACTATAGTGAATTAGATTATGTGAATAAACAGACAGTAATACAAGATTAT CAAAACTATTT
GACCCACCTTTTGATCTCGGCTTTTTATGATGTATAACTAAGTTATCTATTCCTATT TTATATAATGGTA
TATTAGTGATAGGATCCTTCTTCTGTTTTTTAACCAGACCGGGAATATACATTTTAT ACCTTATATTGGG
AAAATTAGAACTATTTGTAAGCATATTAATAAATTTTAATATTAACTCATCGTTGTT CTTAGTTTTCATA
ATAGGCGTCCAATACTGTTTATTTATGAGATAATCTTTAGTATTTTTACTGGATTGT TTCCGCCACATCC
ATGTATTAAATATAATGTCTTTATACTTATAAATTTCAGTATCAGGTTTCTTATACA TTTGACTTTGTCG
ACTCCAACTATATAAAATTCCGTTAACTAAGTTAATATAAGCTTGCATATTAGTAAC TAAATTAAAATT
ATATATAGTTCCCAATATAATAGACATTACCTTTTGATAATGACCTTTTCTCAGTTC AGACCTTAATAA
TTTTTTCTGATTATACCAAAACTTACTAAGATTTTTAAATGAGATCATCACATGT CCACTTGCAAATCG
CATATACTTAAAACCTACAAAGTTAATTACAAAGTCCTGACCTTCTTTGATAATGAT TTCACTAGTTTT
ATTCCAGTTTAAAGAAACTTGATGTTTTGTACACCAAGAATCTAAAACAGGTTTAAA TCTTTCTACATC
CCAAGGATTCGGACTAATTATTATAAAATCATCAGCATAACGAATCATTCTTATCTG CATTCGATTACC
AACGGTTTTCAAATATTGATCTTTACCTTTTCGCCTATAATATGACATATTATAAAA CTTATTATAAGG
ATGTGTTTTGTGAAATTCAGATCCATTAGAAATAGCCTCATTATACATGTTTAAGTC ATTGACTAAGAT
TTCTAGATCATGTAATAAAACGTTAGCTAGTATAGGACCAAGTATAGAACCTTGAGC TAAACCAATCC
CTTGATACTTTGTGTCTTTAGTATCTATAGACATAAGAAACTTTATAGATCTTAGTA GTTGCGTATCTCT
AATTTTGTGATTATACCTTAATTTATCAAGTACTATATCTAAATTAATAGTATCAAA ATACTTAGATAA
ATCACAATCTAGTACTGATCCATTCTTTATTTCTTTAGTGTTATTTACTAAAGCTGA CATGGCATGTTGA
GTTGAGAGATTACGTCTAAAACCATAAGAATCAGGATAAAATTGATATTCCAAAATA GGTTCTAAAAT
ATTAAGAATACATTGTTGTGCTATTCGATCTAATATATTAGTTATTCCAAGAGTTCT AAACGAACCATC
CTCTTTTGGAATGTCAACAAGTCTTGAATATAGTTTTATATCACCTTTTATTCGTTT CAATAATAGGCTT
TTAATATCTTTGTAATCTTGTTTTAGTAAATCATCTAAAGTTTGACCATCTGGTCCC GGAGTATTTCTTC
CATCATTAGACATTATCCGTTTAATAGCATATTGAATATTACTATCTTTAATAATAT ATCTAGATAAAT
GCGTAAAAGATGGTTTACCATTTAAAACATCATTATACAATTTTATTTGGATTTTAT TGAAATCAAAAT
ATATAGAATGTAAACTTTTTGTGTCTATATTAACACACCTTCTTACAAAATCAAGCT CTGAATATAAAT
CAGGCAATTATATATCATTGTTTTGAGTGACTTTGGGCTTTCCCATTAATGATACAT TACATATCATATT
ATCGGTTTCTACCCAAACTTTCAGTCTGTATTCATTTAACTTCACCGTGACTAGCAG CTAAACCGTTAA
ATTAATAATATAAAATTATCTACAGACCTTCCCACGTTCCCTACATCATAGAATATA GTATACTTAGGT
TCTTCCTCTAGGCTCTGTGTGATTATAGAAATAATCTGGTTCCCATTATATACCATC CATCTACGCAAC
AAACAATACGTATTTGGAACACAAGTTTACTAGCATTTCTACTAGCACATACCTGTA CATTCAGAAGTT
CGTCAGTCTTAAAAGACATACTAACCATATATACCTCCACCCGACCCATTTGAGAGG ATTGTTTACCCT
TTCGTCAACTTAATGTTACGCTCTAAGTTAGCCGTCTTCACCCAGCTTCACACATAA ATATCACTACTT
ATGCATGTGGGAGTATTAGTGTACATCTGATATAACTTTAGGGAGTTATATAGTGTA TTTGATGTAGAG
TTATTCAATATTATTATAATACTGAACTTTAGACACGCCTATGTGTATCATAGACTT TCTCTAAAAACA TGTCGCACGCTTATTGATATTGGCATATAACGCCATTTGATCTAAATATGTTGTATATCC AGCTACTTC
ATATATGGAAGACTTATCTGCAGGATTATTGTGTTTTTCATCCATTTTATGATATAC ATATTTATATTTA
AAATCATCAGGACACATTAATTCTTCAGGAATCGCATTATTCTTTAGAATTCGATTA TATATTGTGATA
AAGTCAAAATCAGCATTCCACGCACTAGCAAAGTCAGGTCGATGAACTTCATTGATA TAATGAAAGAA
ATCACTAATTAAATCAATTTCTTTATCATATTCATAAATATTAAACGTTAAGTCTAA ATTATATTCTTTA
TATTTGTTTTTTAGTTCATCCAATAATTTAGTTTTATCCAACATTGCGTCTTTATAA CCATCATGATCAT
ATTTTAATGCAAAAGTTTCAACAGTAAGATTCCATTCATTTACAAGTGTAATAATAT TAATCGGAGCTT
CTGCTTTCTTTTGATCTGGAAATCCAATAATATTTTGAGTATCTACTTCGATATCGT AAAAAGATTTCTT
TAGTCCAAAAAGATTATTATCAGGAGCATGTTTTTCTAAATAACGATGAATATAATT ATCTTCAATATT
CTTATCAGAACCATGAATTCGATAATCTAAATGCATTTTTTTAAGATTTCTTCTATC ACGAAAATCTTC
AGACTTCATAATATTATCATAGAATATTTTTACGCTAGGATCTTTTAACTCTGTAGC AATACTTTTAAAT
ATATCTCTGTTATAACATCTTACTTGCCTTACTTTTTCTTTATCAATATAGTTTCTT ACAACATTATCTTG
AAATTCCGGTTTAGTAATATAATAATCCATCATTGGTTTTTCAATAATATGATGTTT TTTTGTACCGTCC
TCTTCTTTAGTGACCATAATAAGTTTATCAAAATTATCTACTGCACCAGAATTTCTT GCATCTTTCTGGT
TTAAATATGTTGTCTTAATTAGTTGACCCAAAATATACACCACCATCTAAATTTATA TAATTCCTTGTTA
TTTTTATTTTATAAAATTATATTCTAGTAAGATTAATGATATCAATAACTTTGTTAT ATCCATCGAATTT
AAATAAATCTTTTCTACTTATAATAATATCTTTATCTAGATTTTTAGCATATTTAAG AAAGAATCTCATA
TCCATATCATGATAAGTACTAATCATTTCCCATTTTTTAGAATAATTTTTAGGATTA TTCTTCATATGCC
TATCAATAAATTTAGTGGATAATTTTTTTTCTTTTAAACATGTTTAAATTAAAATTA TTACTTTTTCTAC
CGTTTATTATTGATAACAGTTTTTCTTCACTAATATTATTATTTTCCGCCATTACTT CTTTTTTGTCTAAC
GGTACATTTTTGAAATCTAATTTATCTTTATTATAAGCCAATAATTTACTATTTTTA CTAATAAGATCAA
TATATTCATCATCCATGAAAACTGATGCGTTTGTTATAAAGTTTACAGTATCGTTAA ATACATATATTT
TTTCTTTATTAGATGTATCACTACTACTATTATATTTACATATAGTATTTATTAGAT ACTTAATAGATTT
AATACTATTAAGAGTATCATATTCCGCAATACGGAACATATATTTAAATACATAGGA AATATAACCAA
TACTAAGATAATCAATATTTAACATTAACGTATCTATGAAACTGCATAAGACTTTAT TAATATTCATAT
TATTTTTCATATGACTTGACTTGATCATTAGATTAAGATGAATAATAGGTTCCACAT CTTCGCTTTTATA
TGATTTATAATATTCAAAAATTTGCGGTATAATATAATCGCATAAAAATTCTTCATC TATATTCGAATT
AGATAAAATAAAATTTATATTATCGTATGAATATTCCATATAGTCACGAAATAATAT TCTAATTATAGA
ACTATTAAATTCCATAACTGACCGCACTGAAAGATAAGAATTTTTACTATTTACTAT CTTATCAATATT
CTTTATAAATATATGATTAGGTATTTTCATTTCATAATAATCTATATTATCAAAATT TTTTATAATAAAG
TCAATCATCTTATCAGATATTCGGTGTCCGTAAAATGATACTAAATCTTTGATAAAT TCTTCGCTGTATT
CATACATATATTTATCTAATTCTTCGTTCGGTATACTTATATAATTATCTGTAAATC TTAATAGTTTATC
ACCCAAATTCCCATTACTAGGATCAATTTCTATTGTAAGTTTCTTCAATATACTTAC CAACCTTTCTATA
ATTATACTAGCTTTAGATCAATTACGCTTTTTTCAAATTCATTTAAATGTTTAGACC AATTGAATGATAC
TTCTTTATACCTATTAATTTCATCAATAGTCATTAAGTTTATTGTATTAAAATCCAG CGATATCAATGAA
AATACTTTATTCTTTAATGAACCGATAACATTTGTATTTATAAGTATATTATAAATT TCATAATATTTTT
TAGATATATCTTTATTCATTTGTAATGAATTTTCACTAATAAAATTTCCACTATCTG ATATCACATAATC AATAAATACTGTATCATTTATTATATTAAATATACTAACCGGATCAGATATGTCACGCAT TATATTAGT
CAATATAGATTCAATATGTGAATTATCATTATTACCTTTATTATACTGATATAATAA AGGTAATATTTC
TAAAACAAATATAGTTCTCTTAGACTTCCATAATGGAGGCTTATTTAAGTATAATGA TACTTGGAATTT
ATCATCGATATCATAATAATTCTTTTTTAGTAAATCTATAAATGATATAATGAATTC ATCATTATCAAT
AATCTTTAGTGATTTAATTATATTATCATATAAGTTTAATTTTTTAATTATCTTCAT GCTTAATTCAATA
TTTTTAATTCTAAGTATGTTCATTATAATATTGTCTGAATTTGATTTAAATATACAT AGACTTAGAATTT
TTATATAATGGAATATATACATATAATATCACGCTTCCTAATCATTCTTGCTTTTCA TTATCGATTACTA
AACTATGATTTTCTAAAGAACTTAGCCATGGATCATAGATATTATTGAATCTTTCTT TATCGCTAATAT
CTTTAGTAAATATATTTAAGAATGATTTTTGATATTTCTTATCATTATCAAACCATG AAGATATAAACT
CTTTTCCACTTTCTTTACTTAATTCAGTTAATGTAGTATATACTTGGATTGCAAAGA AAGAACTTAATCC
TACTGCATCAACATCTAAATCATTATGTGAATCGTTATCAATAATAATATAGCGATT ATCATCAACAGG
AGTATACTTATTCAGTGCAATCTTTTGAAACTCAATTTTAATATTACCATTAAAACT ATATTCACCATC
AATATAATTGTTAATAATATAAAAACTATTTGTAATAAGTTCCTCAATACATTTATC AGCTTCAGCAAT
AATTAATTCATTACTATATTTTTGTAAATCTTCATAGTTTTGAATTCCTAAGGATTT AAGTCTTACAGCA
ATAAATCCTTCAGTAATTCCAGATAAAGAGATTAAAAATTTTGCAGGATTCAATGAA TATACTAATTT
ATTAGTATTATTCTCAGTAATAATTTCAATACTATATGGAATTTCCATATATCGTTC AGAATTTTCAGTA
TATGTGTTACTGTCTTCATCAGTAACCACCCATTTTTTTCTAGTTCTTCTATTAATT CTAGAAATTTTATT
TTTCATTTCACCTACATTATTGCTGTTATTTAAGCTGATATTTACTAAGATAGTTTT TACATTATCGTGA
GAATTAATAATTCTAAAGTCATAATTATTTTTTCGAAGATCACTTGTAACTTTCGGT AATTCATTATTTT
TAACATCTAATTTTACGCTAAACATTTTTATCATCCATTCTATTTTTATTTTAACAA TAATTCGACTACT
AATATTAATATTAGTAGTCGATATAATTTATTTTTCTGCATTAAAAATAATAGTTTT ATTTTCCATAAAT
ACAGTATCTTCAATATCAATGCTTGGATTCTTCGTTAAAATTAAATCCACGTCAGAA GTATGGAATTCA
TCATTATGGCTAATCACAAATATTTGTTCCATATTTAAATAATCTGTTTGTAGATCC AATACTTCCATAA
ACTTACGTCTATTATTTGTATCTAATGTAGCATCAACTTCGTCTAAATATATAATGT TATACCCTGAAG
ATACGGTTTCAATCATTGACAATGATAATGATAAACTAGTGATTGCAGTTTCACCTT GAGAACTTAACT
TAATATCTGAAAGATCAGTTCCGTTATCTTTAAAGACCCTTATAAAGAAATCTTTTT CAGTGATATCAA
AACGTATACTAAATGATTCACCGTAAGCAACTTTTAATAAGTTATTTGTATCAGACG CAATCTTTTTAA
GATAATTATCAATAAATATTAATGGAATACCTTTCTTAGGATCTAATGATTCTTTAA TAGTTTTAAAGT
CATCATATACTTTTTCAATACTAGATAGTTTATCGGTAATATTTGTTGCAATATTAA GTCTTTTTTCATT
ATCTTCTAATTTATTCTTAACTTCAGATAATGCGTTATTATTAATATTGATAGACGT TTCAGTATTATTT
AATAGATCATTATTATTTTCTAATGTTTTTAGTCTGGATGTAATATCATTATAAACT GAATCGTATACTT
CTTTTTTATTAAGAATACTTTCATAGTTTGATCTCAGATCTTTAAGAATATTCAG TATATCCAATCGTTT
AGATACTGTTTTAATATTCTTATCATATTGATCTATTGATTCATTATTATCTTTAAT ACTTGAAGATAAT
TTTTCTTCTTCCAAAGTACTAGATTTCAATAGTTCTTCATACTCATTATATGATTCA CGCATGATATTGT
AATTTTCAATAGACCCTTTAATATTATCAATAAGATTGGATACTTTGTCTCGGTTGT TGATATTATTAAT
TAGATCAATATATAAATTAGGTAGTTTTACAAGACTATTTTCAATATGATCACGGTT TGGTAAAAATAA
GTCATCCTCATTTAAATTAATAATGCTTGCAATATTACGAATATTATTAAATTTAGG TAGAACTTCTTG ACGATATTTATCAAAATATTTAATAATATTTGACAAATTACTGATATTATTATTAGTTTC TATTCGATCT
TTTTCTAAATTACTTAAGGTATTTTCTAATTCATCCAACTTAGGATATTCATTCTCT TTATATTCTAAAG
CAATTTGAATAAAAGGACAACTATCAATATTACATGCTTCAGGTCTTCTATCTAGTG TTGTTAGTAAAT
TAGATCTACTATTAATATCACTAATATTTTTATTGACTTCCAGAATTTGAGATTCGA TATCATTCATTTT
GGAATCATTAGATTTAAACATACTTAGATAATATTCGTAGTTGTCAAAAGTAATATT ATCGTCTTCAAA
GTAAGTACTTTCATCCATACTCATAAGATTTCTTAGAGAGTCCAGAAGATTACCAGT TTGATGAATACT
ATTATACATATTATTGTCATTCATAATAGATTCAACATTTTCCATACTAGTTTCATT CAATAAAGAATTT
ATATTCTTATTAACTTCAGTCAGATATTCTTCATTTTTTTCTAATTCGTCATAATAC TTTTCAGGATTAA
ATTCTTTAAACGAATATATTTTATTACGGTAAAGACTAATATTTTCCCTAATTTTCT TTAATCGGTCTTC
AGAATCAGTATTTTTTTCCTTTAATGAATTTCTCGATGTTTCTTCTTTGATTAATTT TTCTGTAAATTGTT
GATGTTTATTATAAATATCATCACTTGTATATTTTTCTAATGCTGGAAATTGAGAAT ATATATTCTGTAA
TCCTTGGTAAGATTCATCAAGACTCGTATTAATTGTATTAATAGTATTATTAAATTG GTCAATCGATTT
ATTAATATCTATTTCATCAATAGGTAGATTTAGTTCATTTAATTTTTCTTTAATAAA AGAACTATCCATA
TCAATATTATATTTAGTAATTGTTCTTTGTTCGTTTAAACGTTCTTTTTCAGATTCT AATGATTTAATATT
ATTGGTTAATTCTTCTTTATTTTCTTTTATAGTATTAATATCATCATACTTAGAAAG ATCAGAATTTAAT
GTCTTAAGATTTTTATCTAAAAAAGATAATTTATCTTTAATAACATTAAATCTTTCT AAATAATCATCC
ATAGAAGGTATAAACTTATATAAATAATCCTTACGTTCGGCAGTTTTATAATCAATA AAGTTATTCATA
TTATTACCTAATCTAGCAACTGTCATATAATCTTTAGTAATTCCAAGCTCAGTACTT ACAATTTCTTCAA
AACCACGAATTCCACCATTTTCATTTAATTCCGTACCATTCTTAGAAATAAATGACT TATTATGAGAAG
AATTATCACCATAATAATGTTTAATAATATACTTATCATTATAATTAATATAATGAA TTTCTTTATATCC
TTTAGTATCTGGAATAATAATGTTATTTCTAGAGTCATTTGTACCACGGTAAGGATT CAATGCGGAAAG
AATAACTGTTTTACCAGAACCATTAGAACCAATTAACATAATTATTTTATTTTTAGA ATGGGAGAAATC
AATTTCAATTGACTCTTTTCCCATTCCAGCATATATTCCGATAAAGTTTACTAATTT TAAATATGTTATT
TTCAAGATATCACATCTTTCTAATTATTTAATCTTTTCTAGACAAACTAAAACTAAA TTTAATCTTATTA
CTAGCGGCATTATAAATAAAGTTTGTAATTACATCGTTAGGAGATTCATTATTCTTT TTACATGACTTA
ACAAAATCTTCATAAATATCATATCTACAATTTAGTAATAGCGTTTCAGGAATGAAA TCAATGATTTCC
ATATTCTGAATATTCATTTCTTCAGTAATACCATTATTATCAATATAATTTAGTATA AATAATTCAATAA
GATTATAATCAGAGTTATTTAAGATTCCTGAATAAATTAGATCTTTTTCACGATTAG TATAATTATCAA
TATACTTCTTAGGAATAATAACCCTAATATTTTTTCTAGGTTTATCAAAAATAACTA AATTGATCTTTGT
ATTATCATGACCAAAAAGATTATTAGATTTTTCATAATCTACAACTTCTGTAAATTG CTGATATGACTT
ACAATGATAACAGTTAATTGTTTTGATATGATCAACCGCTTTATTGATCGATACTTT TCTTTGAATCATT
ACTTTATTACCACAATTGTTACATATTAGAGTACATGGTTTTGTATTATATAATGAA TTTGCGTTATTTT
TTGTCATGAGAAATCACCCATTCATCCATAACACTAATATAATCTTTATTCTTAATA TCTAGAAATTCA
TTATATAATTTATCAAAATCTGGATAAAATTCTTCTTTTTTACTTTTAACACGATTA ATAACATCATTAT
AATTTGGTGAAAATAATAGATCTCGAATATCCCTAAGACTATGATACGGCAAATTTT CTTTCTTTACGC
TATTATACATTACTTGTGCCATGTTCATACTTCTTTCATGATTATAATCAATTTTTC GAATAATTCCAAA
TTTTCTAGTCTTCAAATCAAAGCAAACCATATTTCGAATATGATTATTGTACTTAGT ACTATATAACAT ATCTTCTTTAACTTGTTCTGAAATAAAATCATTAGTTGTTAGTTTAATAGGTGCTTCTAA ATCTTTTCTA
TCCACTACAATTTTATTTTTTTCAGATTGATAATAATTATATACGCCATAAGAATCA TTTTTACCATAAT
TCGAGATAGTTCTAATATTAAAAACCGCTCTTAATAATAAATTATCAGTACTGCTAA ATTCATATGATA
ACTGTAAATTGAAATCTCTTGCATTTTTTTCCACATCTGAAGCAAACTTTAAAAATT TTAGAGCTTCAC
CACTAATATATGATGTAGTAGTTTTATCTCTAGCTTCATTATATCTATTTAAGTTTG CATTAATTGTGGA
TCTAATTATCTTTGATAATGTACCATTTACATCATTTACATTAAAATTTTTCATGAA AATCTCTCCATTC
TATTTTTTATAAATATTCATAATTGAGAATAATTCTTTTATTTCTTAAATCACTAAT ACGATCAATATTG
ATTCCTAATCGGTTACAGTGTTCTAAGCTTGAAAGAATTCTAATATCTTTATTGATT GATTCGATATCTT
TTATTGTAGTATTTTCTTTTCTGGAAGCATATAATAAAATTGATTCAGGGTCATTTG AAAAGATATTTT
GATTGATCCATCTATTATATCGATTATTAATAATATTGGACGTTGTATTCACAGTAG TAATAGATTCTTT
GGAATCAATATTTCTTACAATACCTACTCTTTTTTGTGGAGAATTATAAGTAAAAAC AATATCGTTACT
AATACTTTCTGGAGAAACTATTCTGCTATTATTAACAGTAAATTTACTATTAGTTCT ACGTGTTAATAA
TTTATAACTATTCCGTTTATTTACGTTATAATCTAAATCATCACTAATCTGAAATGA TACATATGAAATT
AATCCACCAATATTATTAAACGCAGGAATTAATAAGAGATCACTATATTCAGATGAA ATCTTTCTTAC
GTTATTATCAATACGTCTTTTAATTGTTTCTAATGCTGAAATCATTTCCCCTTTAGC GTATAATTTATAA
TACTGCTTAATAAGAATGTTAATAAATTTGATTGTTTCTTTAATTTCAGTTGTAGGA ATTAATAAATTAT
GATAATTATTATTCCTATAAGTTTTTCTTTCTTTAATACTAGTTGACATTAAAAATC ATCCTTTCAAAAT
TATTATTATAATGACTATGTAATATTGACATAAATTAATTCTCATGTCATTACATAG TCATTATAATAA
TATATAAATATAGTTAAAGTTGAAAGGTAATTTTTTATTCTTCTATTTCTACATAAC TGAATTCTGAATT
ATCAGAGAATATTACGCCTACTTCATTATCGTCTTCATCATAAAGAGATTCAATTAT TCGGTTATTAGC
TAAATATGAATCAATTACTTCATTATTCATTTCATTAGAAGAGTATACTGTTTGATC TTCATCTAAGAA
TATTGGTTCTGAAGTATTAATATCTACGCACATTACATATCCAATACTTTCTAAATA GTCCACAAAGTT
CTCGGAATCATCTTCAACAATTACCACAGATTCAGTCTTTTTCCCTTTTTCGTTAAC CGATTTTTTAGCA
TCATTATTCTTAATAGCATTTAGTCTTTCTTCAATGAGTTTATCATAATCTTGTTCT TCAACTTCATTTTC
ATTATCTTCGTTATTATCATTTTCTAAGTTTTCATCTACAACTTTTTGAAGGTCTTT TCGGTTTGTATTTA
ATAATTCATTTACAATTCCTTTAATAATTAAACTTTGATCCCCATTAATATCGCTGT CTTTATTATTAAT
ATTGTATTCTTTAATCTTAATATCTGCCATTTTAACTTTAAGATCCGACATTGCTTT AATTAATTGCATC
TTCATTGTCTTAAGACTAATCAGGTTAGATGTCTGGTCCGTAACAAACCTTGGGTCT GTCTTCATTCTA
GAATTTTGTGCCTTACTTCCCCTATCAAAATAACCTTCAGAATAAGTATATAATTCA TCAATAGATGAT
AATTCTTTTTTAAGCATATTATATTCATCAATAAGTTCTGGATCTATTGAAAATTTA GGTTTATTTTGTT
CTTCCATATATTTAATTTCACCTACCTATTTTGTAAGAGTATATAGTGATAATACTG CTTCATTACCAAC
TTTACTTATCGATTCACCTTGTTGGGATAATATATTTGTTTTTGCATTAATCAATTG ATCTGCTTCTTTAT
TTGCTTCAGCACTGAATACCCCACGAATTGAAAGCGTATCCCCATCATAATCAGCAC CTAGAGCAGCA
GTTAATGAGTTATTAATAACTAATGAATCAGTAAAATAATTTTCTGCTACTGGATAG TCTGGAAAAAT
GATTGGATAGTTTTCCAGATATCTATCTTCAATTTTTCGATATTCAGTATCATTAGT GCTTAGCACAACA
ATCTTTGAAGGGAAGATGCTTTGATAATTATCTACTGGATATCGAGTACAATACACA TGTTTATCAGAA
GTAATATCAATAGCTGCAATATACAATAAATCTGTTATTGTAAAGTTTCTATCAAGA TCAGTATGAAAT ACTTCTACTGGATATTCATTACCTTTGTCGTCTTTAACCGTAATTGCTTTAAATCTAGCA GGTATATTCT
TAATAAAGTTACTTACTAACTTATTAATATCTTTATCGGTAAATTGATTTTTTACAT TATCAATAAAGAC
ATCTTCACCTTTTTTATTCTTTACATTTGAAAATTCTTCAATATGGATATCAATAAA GTCATTAATATAT
TTTACAAAGAATGGAAAGAATAATGCACATACCTGACTTAATGGAATGCCTACGGTC CCAAATTTTAT
TTCTGTATCGTCCCATCTATTTGTGTTTGATCTAGGAGCAGAGATTACTGATCTAGT TGCATAATCAAT
GGATTTTCCTAATAGACCCCTATGCACTAAGCCGTTCTTACCAGAAATATAGTCGAT AAATGTTTTATA
TACGTCATATATAATTGTCTGCATTTGAGATTCGGTATTTGTTCGGACAAAGCTAAA CGATGATTCACC
ATCTAGACTAGAACCAAAACGAATTAGTTTAGCGTATAGATCATTAATCTCATCTAC GTCTGCTATTCT
TCCGGCTTTTGATGTGTTTGGATTGAAGTCTCTTAAGAATGGGGGAATAACGATAAA TTTATTTATAAA
TAATGTATCTTTATCAAATTTTTCAATAATATTTAGTTTACTATCACGTTGTAAACT TTCTGTTTTTTTGA
ATGATAATTTTTCAAAATTATTGTATAAGAAACTTACACCGGTTTCTCCGTTTACAT CATCCTCAACTA
GTTGACCATCTTTAATGGTAAAATATTTTAAACCACTAATACATTCTTCAATTCTTT TATCTAAAGATAT
GATTAATTTATATACTACTGGGTGAAATATTCTGGTATTTAAATCAATATATGCAAA CTGATTTGATCT
CGATTTAGACCCGATTTCTCCAAATATTTCATAACTAAACAATCCATCTTCAGTAGG ATAATTCGATTG
ATTAAAAAATATTGGGTTTGTTATTTTTGGTAAGTTATTTTGTTTTACTACATTATC GATATCTAACAAA
TTTATTTTCAAAGATAAACAACCACCTTTCTTTTTTAGGTATCACATTTTAAGATAT AATAAATATTTGT
TTAATAATAGTATAAGTATTTAATTAAATGCAAGGATCTTAGAAAAAAAAAAATAAG AGAATAATATG
TCATTATATTATTCTCTTATATACTGATTTGTCTAGTGAATCAATATTCTTTAATGA TATTATTATTTATA
AGATAACTTACAATAATATCGATATCAATGGCAAAATTTTCTTTATCATAAATATCT TTATTTAAAGAT
GTATATTCAATACATTTACTGATGATATCATCTTTACTGTATAATGATTTATCCTTA TTCATTACAATCC
AGATGATATCTACATTATTTGAAGTATTTTCAAAATTTCCATTATTATTCAAATCAA TTAACATTTTAAG
AATAATAACAATGTATTTAATAAATTCATTTACAATGTGACCATTAGTAATAATATC ATTATTATAATA
ATGTTGTTCGTATATTTCATAACTTTCATTAGATTCAATTTCATTAATAACAATCTT TCTAGGGTTTAGT
ACTTCTAGTGAAAATACATCCAATAAAAATTCTAGTCTTTTATTTAATACATGCCGA TTAATTCTTGAA
TTCTGTTGTTGATGATTCTGAAGATCAATATTATAATATTGTTTTATCAAGTTATAA ATAATATCTACAG
AGGTAGTATGAATTTTATTTCTTGAAAATTTTTCATTTTTTCGATATTTATATAGGT AACTTAAAACTTT
TGCATAACTGTCATCAACAACAGTCTTATTTTTACATACAATATCTTTTAATTCAGA TGAGCTAATTGTT
AACGATAACATATAATATACCCCTTTTCTTTATAGTTTTATTTTAATCAATACAAAA CACTTAGACATA
TCTAAATGGATATCATGAATATTATACTCAGATAAGGATTTTACAATATGATCTACA ATAATGTGCATT
TCATTATCACTTAAGTATTTTTTATTATTTTTTCTAGATAATAGATTAATCTTTAAT GTAAATAAATTTTT
ATAGAAATATTTTGAAGATTTAAATAATTCTGTATTAATTGATTCTTCTAAATATTG CACATAACTATT
ATTTAATAATTTTTTAGTATTAACTGTCATATATATTTGATCTTTATTAAAATTAAT TTTATTTTTAAAAT
CTTTAAGTTTCATAATCATAGAATAATAAATCCATCCATTCGTATTTTTATTTAATG AATAAAATACTC
AACTAACATAAGAGTTAGTTGAGTATATATCCTAGTTATTTAGTAAATATGCAGCTT GTAAAGTATCTT
TATCAAGACCATAATCCCTATTAAAGTCTCCATTATTAACACTAATTATTAAATTAG AAGGTTTTATCT
TTTCAAATTCTTTAACTTGTTCTTTTGAAAATAATGCAATAATATTTAATACGTCAC CATCATAGTCTCC
ACCTAATCCGGCAAGAACATTATTACATAGGCTTAGTGTTTTATCCGAAATATCCTT TTTAACTTTGGC AATATTCATTAATAAGATACTTGAAGTGGATATTGAAGGATTTCGATTTAGTATAATATA TAAACCACC
TTCAGTTTTATTAATCAATTCTTCCATATAACGATACATTTTTTTATTAAATGTATT TTTAGTATCTATAT
GGAATTTTTCAGCTTCCACTAAAGAAATATTCTCTGAAGTTGAAATAAGATTAATTA ATGGACCCTTAT
ATAATTCGTGAAAAGTAATATAATTCATATATACTTCATCCATTTTACATAATGGGT CTGGAGATATAA
CGTTTCTTGCAGAGTAGTTAATTCGAGTACCTAAAATCTGTTTACGAATTGTTCCTC TTTTACCTTTAAT
ATTATTTTTAATAATACTATCTACAATTTTTAACACGTCAATCTGTACTCGATACTG TAATTTTAACTTC
TGAATTTTAATATCTTCATAGATTTCTTCATCACTATTGACAATATCTTTTAACATA TTTGTATGATTGA
TTAAGAAATTGTAGTCATTATTTATTTCAGAAAGCCGAAATAGATTTTCTGAAGCAA TTAACTGAGCCG
GTCTCAATTTAGGACTAAATATTGGTAAGCAGTCAATAAACAATAATCCTTCAAAAT ACCAACGGATA
ATACGTTTATATTCTAATGAATTTTTCTGTTTTGTATCAACATACTTTTGGAGTAAT TCAATAAATCTTT
CTTTAAATTCATCCAAACCGATATTCCGATCCTCAAATTCTTCATGCTCACTACCTT CTTCATCTTCTAA
ATCAACAATATTTCCATTTGCATCAATACGCTTATTATACATAATCATATCAATAAA TTTAGTACCATC
AAATAATTTGATTAATCGATCAAACATAATAGGATTAACTACATAGTTATTCTTAAA ATCTACATAACC
GAAGTTATCAATATTATCCCTTTCAACTTCAGGACCATAGATTTCTTCAGAAAATAT TCCATCAATAGA
ATATTTCTTTTCTTTTTTTGTTACTGGTTCATGGTTAGTAATAATTTTATCTTGTTC AATTAATTCCCTAA
AATCGATAATCCGTACTCTAGTCAAAAGTAATCAAGCATCCTTTCTAACACCTTTTA GGCTTTTATCAT
ATTCACGATTAATCATTACATCCACATATGAATAATTCTTAGCTTCCGCTTCAGATA TCTCTTCTTCTGA
GAATCCTGAGTTGTAGATTGTTCTTTCTTCAACAATATTATCAATAATATCCTTTTT CTTTTTATTAAAT
TTTGTAATAATCTTCTGATAGAAGGAGGTTTTACTGATAAATGCAGAGATCACTGTA AAAACAATTATT
GTAATCATAATACATTCAAAAATAATAGTAAACATTTCCATCACCATTCTTTATTTA TTTTTTTATTAAT
CATCATAATCAGTTAAGAAACCTTCAATATCAGGTTTCTTTTCAAAGAAGAATGTTC CTGAATTATTTG
GATCATATTTCTTACAGAAAGGTACTACGGTAAAAGAACTTCCAGGGTCTCCTGAAC TAGTACTTACT
AAATCGATCTTTCCAACAAAGCTTGGATAAATACCCCTAGCGCTTACTGATAATCCA TTAGCTGTTGCA
GATTGTGGACCCTTTACAGAACCTTTTAGATAACGAGTAAATAGATCCATAGAATTA ACATTATTTGA
GAATCTTACTAATTCGCTGTTAGGAATATTATTTACTAAGTAATCTTCTTTAATATT GCTAAATAGTGTT
TTTAATTTACTTACATTATTATTTTTTGGTCCAACTAAGCGATATCCGCCTTTGGAT AATTTTTGAGTTA
GATCATAAAATAGATATTCATTAACCCTTAAACGTTTATTGGATAAAGAGTGATTAT CTACTTTTAAAA
TATTGTAATAGTTTGTAATCATATTTCTAACAATCGCATAAATATCTTCTTTATCTT CTGAACGTAATCT
TAAATTGGATCGAGTTGTATTATCTAGTAAACGTTCAAAGGAGGATAAGATAGATAT AGCTTTATCAA
AAGTCATTGAATTATTATTTGTAAATACCGAACCTAGTTTTCTCTTCCAATAATCAG AATCAAAAGATT
TTTCATAATCAATTCGATTATATTTAAATAGATCTACTAAGGTTGCAATTAATGTTG CATTAGATTTTTG
ATCGCTTTCAATCCATTCTCGATTAACTTTTAATGCAATACTTTTTGTCAACTGGAA GAAGTAATATTCT
GGACTAGTAATATCATGATCTTCAGTTTTAACGATTTCTACATAATTATGAATATTA AAGTATCTTAGA
GTTTCAACTACACCTTTTCCTGCAAAATAGTAGTTCATTACATTTACAGTTTTCTTA AATAATAGTGTCA
TTAACGCTCTAGTTTTTAATGGTTCACCATTATTAAAACGTTCATCAATATCAGATA GTACAACCTTTTT
ACCCTTAATCTTGATTGGCATAAACATTGTTTTCAATACAATAATTCCATCATTAGT ACGATAATACTC
GGAGTCATTCATTTGGAATACTGGGAAAAATTCATTTCCGTTAATTAAGAAGTATTG TTGATCTAATAA TTCAGGGAATAATAGTTTAATTTCTTTTTGGATTGTTTCTTTTCCATCAGAAAGTTCCAT TGTAACTTTA
ATTCTAATAAATCTAGATTCCTCGATATTAACGGTTGGATGGTTAATCTTTCTAGCT TTACCTTTTTTAT
TTTCTTTCTTTTCTTCAGTAACTTGTTTTCTTTCCTTATAGATTTTCCGATCTGTAT CAATTTCACATTTA
ACAAAACGAATACCTTCTACAAATTCAAGTCCTTTAAAAACATCTTCAACTAATTTT GGTAAGTTTTCT
TTAGATCTAAAGAAGATCACTTCCTCATTAAATGGAGCTTTTTCTTCCATTTTATTT TGAAGATCATTAA
AGAGTTTTCTTGACAAGTTTGGCACAAACAAACAACTCCAATCAAAATTTATTTTAT AAATTTTTATAT
CGTATAAAAACAATTAACTATTATTAGATAAAAATTTGTTTTTATATAAAAATAAAA ATTTAAGGATGT
GTATATACTATGTTGAGAAACGGTGAAGAATTTTTTAATGAATGGTCTGAAAGATCA GGAATACCTAA
ATATGAATTAAAACGTCAATGGAATATTATGGTAGAAATGGTTATGGATAGCATCAT GGAAGAAGATT
TTACCAAAACAGTATTACCAAGCATAGGCGCTTTTGAAACTATTGTTAAACCTCCAT ATATTGCTAGAG
ATCCTAGAAATGAAAAAGTTGTTATTGCACAAGTTAGGAAGCGAATTAATTTTAGAA TATATCGCAGA
TTTAAAAAAATAGTAACAGGATTGTTATAATTTTCGTAATACAGATATTTATTTCTG TATTACGAAAAT
CTTTTTAATTGTTATTTCTTTTAATAATCTGTTTTTCAATATAAATTCTATCTTC TTGAGATAGTCCATTA
TATATTTCTTCTAAAGATTCAATATCTTCATTATCATTAATTAATACATCAATATAC CTATCTAAGATTT
CTTTAGGTACATTAGTTTTTAAATTATTGATATTATATGATAAATTGATCTTAGAAT TAGTAAATTTATT
ATCAACAATCTTTACACTTAACTGATTTCCATCATTACTAATATTGATGCTTGAATT AGTACTTTCACTT
GTAATATTAAGTTCAATACTTTTTAATATTTTGTTAATTATATTTAAATCCAAGTTA AAACATCCTTTCT
ATTCTTATATATTGTACATTTATATAATATATAAGAATAATATTAGTTGATGAATCG AGATTTAGCTTC
TTCGATAGTCATAATTTCTTTTTGCATTTCCTTAGCTTTAACAATTTTTGAAGAAGT GGATTCTTTATCT
TTACAAACTACAATATCAGTTTTTGAAGATACGCTACCTGTAACTTTATGACCGAGT AATTCTAATTTC
TGTTTAAATTCATTATCCCGAATTCCTGTAAAAACAATAACTTTAGATTCTTCAGAA GCATTATTAGAT
AATTCTTGTTTAATAGATTTTAGTTTAAATTCATTAATCAAGAATATCAATTCTTCT TCATTATTCGAGA
TACCGTTTAGTAATTTTTCTGCCTTAATATCTGAAAATCCTTCAATATTAATAATAT CTTCTTTCTTAGG
TAAAGATCCATTTACAAAGAATTCGTTAATTACTTCTTCCAAGATATATTCCTTACA GAATAGTTTAGA
GTTTTCAATACCTAATCCTTCAATACCTAATGAACCAAGAATTTGATAATCATATAG ATCACGTTTGTT
ATTAATTGCATTCTTGATATTATCTAGTGATTTTCTACCTAACCCTTCAATAAAGTT ATCATCAATACTA
TCATAATCTATACTATATAAGTCTGTGATTGAAGTCCATAATTTATTTTCATATAAT TTACTAATAGTAG
ATTTGTCAATACCTTTAATGGCTAGTTTATCAAGATAGTTAGATATCTTTCCAATAA CGTTTCCAGAAC
ATTCTGGATTATTACAGTATGCAAAGGTTTGATTATCATTAATAACTACACTTTCTT GCTGACATACGG
GACAATATTTGGTAAATTTGTCAGGAATAATATCTTTGTTATGATCACTATCTACTT TATCAATATATGT
TAGTGTATCATTCCTATATTGTACTAAAATTTCTGAACCAATACCTAAACCTAATTC TTCCGCTCTTGCA
AAATTATGGAGACTTTGTTTTGTATGCGTACTTCCATTTGAAAATGTAACTGGTTCA AAATGTACTAAT
TTAGTAATTCGTGAAAAAYYASSWAWKWSWTASCTAAARTCAGTAMTMCACAYTWTT YKWYTGYWS
WTARRSTASYYTAWSWRCARWMRAAWARTGTKRWGTACYKWTWKKAGYYATYMMTWR GGTGATT
TTTCACGAWWWTCGTCATCTAAAATTTCAACGACAATACCATCAATCATAAATCCAT AGTTATATCGA
TTATTAATAACTTCATTATAGAAATCATTAAATTCTTCAATGACTTTTTCTACTGAA TTACTTTCACTAG
TAATACTGAATTCTTAACCGATTAAACTATTTGATCCTAAGATATTAAAACTATTAT CTCGTTTAGATA ATGTAATTTCGAATGGATAATTATCTTCATCGAGGAATTTAATATCTAGAGGGACAAGAG TTAAGAAT
TTAGAGAATTTATGAGCATCGTCCCTACCTAATATTCCAGAGGTTGCGGATCGTGGA TTAACATAATTA
TTCTTTGTATAATCATTTAACTTTTCTAAATTATCATACGTAATAATAACTTCATTT CTAATTGCGAAAG
GTAGTTTGATATCATATTCTTGTAAAGGATCTTTAGCGATGCTCTTAAATACATTAG TGAGATCTAACC
CGATACCGTCTTTTCCACGAGTATACGCCTTATCAAACTTTCCATCTTTAAAAGTAG TAACTACTGAAT
TCCCATCAAACTTTAATGTAAATAGGAATGTCGGGAACTTAGAAAAAGGTTTAAGCT TATTAATCATT
CCTTGAATTACTTTTGGAAAATCATTAATATCTTTACATTTAAATAATGTTCCTGTC AGATTTTTATATT
CATGCTTCATATTAAGAATACCTTTATCCGTTTTCGGTAATGATCCTACAATTTCTT CACCAGTTAATTG
TAAGTATTGTTGATATAATTGGTCATATTCAAGATCAGACATAATTACTGTATCTGT ATTATAATACAT
GCTTGATGCATTTTCTAAATATTCTTTTACTAAATTATATTTATCATGTTCTTTACT GTCTAAAATTCTTT
TTGATTCTGTATAATCCACATTTTTCAATATCCACACTTCTTTCTATATTATTATTT AATATTAATCTTTT
TTCCATTAATGGTAATATAGTTATATTCACTGTTATAAGATACATTTATAATGTCCA TATCAGCATCAT
ATACTTCATCTATTTCTTTTTCATCAACATATATTTTTCCATTGTCTAATTTTATTT CATATAATCCATCA
CTTATAACTATAACATTATCTATCTTTTTATTATAAGTTTTAGATTTCTTACCATCA ATATATATTTCAC
CATCTTTTAATAACACATTTAAACCATTATTATATATATTGGCATTTCTATTTTGAG GAAGAGTTTTATG
TTGATGAAAAATATTATTATATACTTTTTTAATTTTATTTATCACATCATCACAACC TTATTTAATCTTA
AGATATATCCTATCACACTATAAAAATGTGATAGGATACTTTTTATTTATTTTTATA CTTATTAATATCA
AACTAGTCTTTATTATTGGTATATTCATTAAGCATGGATTCAATATCTTCATCACTT AATTTTTCGATAT
TATCAAAATCATTTTTATAATCTGGATCAGTATTAATTTCAACACCTATAGATTTAA AATATGAATTGA
TAATTTTATTATTATTACTAATAGTGTCTGATTTCTTAGGTAATTTAATGTCAAAAG GATTTCCGAGAA
GTTGAGCTTTTACTAAATTACTTCTATCTTCAGTATTATTTGAATAAGCATCAGTTA ATCTTTCAATAGG
TTCTAAAGATCCTACTAATCCTGAATTGGTATATTCCATTTCCAATTACCTTCACAT AGATTCGCAATTT
CTATGCAGTTCTCTTATGAACTTCTCTAAGTTTCCTTAGAAGTTGAGACTATATCTT TATCTTATTTAAA
ATTTCTTTTTGTTTTAAGATACTTCCCATTTCGCCTGTCATTTGCTTACAGACTACA TCAATAGTCGTTG
AACTTTCTTCCAATAATTGTTGGAAGCTTAGCTGCTGATTATCCATTATAATTGATA CTTAGGAATATT
ATATTTATACCAGAATATAATATCTTTTTATCTCACCATATATCATTCCAATTATTT TTTCTATCTTTCGA
TAACATTCACGCTTATCATTACTGATTGCGTTTTAGTTAATTGGACTTTAGGAGTTT CCAGCAATTAAA
GAAATTTTCATCATATATCACTATATAATGCGGCAAAATTTACCGACTCTAATTGGA GTATTATTAGTA
ACATTATCAGAATTTTTCATATCTTTAGTTTTTGTTGGAAGATTCTGGAAGTTAGTA TTACCTTCACTAC
GAATAGATGTTTTTTCAATAGGCTCATGTTTAAGTCTAAGCATATATAGTTGACCCA TTTCAATAGGCT
TACTAATTCCACTTAGTTTATAACGATCGATATTGAATTTATCACGAATATCTTTAA GTTTAAAAATAT
CCATATCATTCCAGAATGGTGTAAATTGAATATAAATTCCATTCTTTATAGTATCTT CTAGATAATGAT
CCTTATCGCTATCACTTAATTGATCATATATACTGATTAATGATTTATACATATTTT CATCAATAGACTT
AATATATTCAGATAATAAATTAAACTTTTCTTCACGACTATCCATATGTTCCATTCG ATATCGAATAAC
TTGAGACATCATATTGAATGTATGTTCAAATGATTGTGAAGGATTTAATCGGTTATT AACGCCAAAAG
GATTAAGAATAATATCCGCTCTATTTTCTAGGCAAGAATCTTTATCAAACTCCTCAC CATCAATAGTTT
CAATTACAGGCATTTCTTCGTCCGGAAGAATTAATCCAATAATTCCTTTATTACCAT ATCGACCAGTTA GTTTTGAACCTTTCACAAGAGGAATTCTTTCTAAGATTGTAAATACCGCTACAATACGGT CAAACACTC
TTCCCTCAGACTGAAATTTATTTGCAGGATCATTAAATGCTGCAATCTTATTATAAA ATGCAGATAAAT
CACTACTGATATTATTTCTTTTACTAGATACAATAGGTTTTAAATATTCTACAACTT CAGAGTAATATTT
TGAGATAGAAATATATTCATTGTACATCTGATGATTATATTTTTGAGATCGTAACTT ATCAAGACTTTC
GTTATTATAAATATCAATGTCAATAACAATACCTTCAGCATGTTTTACTGTGTCAGT AGCAAAGATCTT
TCTTAAATTGACATCTTTCATACTGAATCCCATATCATTATAATTAATTCGACGAAT TCCCATTAACTTA
CCATCTTTAATTTCTTCACCAATACTAGGAAAAGTTCTATATGATTCATCATCGCCA TATAGATTTAAT
AGTACATCATTGGTATTTAGATTGATCTTAACTTTCTTTATTAAATAGGAAGCCATC TTTTGAGCAGTA
CTCTCAGAAACAACAATAGAGTCTTCATTTGTGAATCCTTTGTATGGAATATATACC GCATTGAGATTT
TTACCATACTGAAAGTTCATATCTTCGTCATAATTTTGATCTCGATAAATTACTTTG TTTTCAAATTCTT
CATTTTCATTGATATTATCAATTACTTCATTATTGAATTTTAGTCCAAAGTGTTCTG TTAAATGTTTTGC
TTCTTTTCGTTCTACAATATGATAGAGTTCTTCTTCTTCATTAAATAATATTGCCGT GTAATTAAATTTA
TTCTTGTAAAATTTTTTAAGAAGTTTCCATCTACCATCAAGCTTTTTATATCCAGTA GAATATTTACCTA
CTTGATTTTCAAAACCAGTAAAAACTAATGGTGGATCAGCTTGTTCCAATTGAATAT TTTGACTTAAAT
GAGAAGTAAACATTTGTGACCTATTAGAGTTAGTCTTATCTAAGTTTGGAATGAGTA ATGTTTCGGCTA
AGAAATCAAATTTACCTTTATATTTTTCATCATTAATCTCTGTTAAATCCAAAGTAT AACCACACTTTCT
TTTTTTTTTTAATATACTAATCTATCCATTATATAAGAGTTATTATATTATACGC TTATTGGATAGATTA
GTACTTGTAATTATTAAGATTTATTTATCATTTTCTTTTTCGATTTCAATTAAATTC ATGTCAGAGTCAT
AGTATCTTCCATCTGAACCAACCCAAATATCTTCATCTTTATTAACGCAGTCAATAA GAGTAACAATAT
TATCATTCTTGGTAGATTTTGGAATTGTTTTAAACACTTGATTTTCACCATAAGCGT CAAAAGCATTTCT
AAATTCTTCATTAGTATTATATAGTGTAACAAAATCTTTACGTTTAAATTTAACGTC TGGAAGAGTAGG
AATAGAGTATCCTCCTTGCGGTGAACCATCTAATAGTTTATTATCTTTAAGATAAGC AAACAGTGAAAT
ACCGTTAGAGAATCCATTAAGTTGATCAAAAACAGAATTAAATGAGTATCCTGAAGC CGAAATACGG
GACTTAACAATTAGTCCATCAACTTCTAAACCTTTATATCCAGTTTCCTCTTCCTTA ACATTTTTACCCG
GATTCAATTTAACAAATGTATTAGATAAATATCCAAAGGCAGAACCACCTGGAATAG CTTCATCAATC
TTTAGATGATTCAGCGAAGCTTTAGTCTTAACTACTGGATTAATTTCAATCTTAGTA GTAATATGATTA
ATCGCAAATAACATGATATTTGCTTTTTCTAATGCACTTGAGCCAATTAATCGTTTA ATCATCTGATTAT
TGTATTTTGCTTGTGCTGTTGCAGACATCTGTCCACTCATCTTTTCTTCTTCACTGA TGTCTTTAGTATAC
ATAGCAGCAATAGAATCTAAGATAATAATTGTCGGATCGAACTCATAAATTGGTTTA CCTGTAATTGG
ATCTAATTTACCTGTATCATGTTTAAGTTTATCGCCCCTGCTAAGTTTCTCTTTTTC AATAATTTTTACTA
AACCATAAAGAGTTTCTGTCGATATTCCTGAATTAAGAAGATTATACTTTTCAAGAA TCTTTTCATCAT
CCCACCCAGTAATATTTTTAATACGAGCTAATGATCCGGCATGCTCATAATCTAGAT GATAAATTTCAG
AATTTTCATAACGATCAACAATATTACATGCAATTTGTTGAATTAATGTTGATTTAC CAGACCCGGATT
TACCTACAATGGTAAATAATTTACCGGCATCTAATCCCATCATTAATTCTCCCTTAC TATCATAACTTG
CTAACTTTGCATCAATCTGACTGAAACCCGTTCTATAAGTTTCAGTAAAATTTTTGG ATTCACCTAATC
CATCTTTCAATAACTCTTTTTTAACTTCATCTGTAATTAATCCCATACATTTACTTC CTCCTTAGATATC
ATACATTATAAATCATTGTTATTACAATAAAATAATTTTTTATTTATAATAACATCA TACTACAACATT CCCTTCAGTATTTTTATTTTAACATATTTTTGACGTAAAGTGGAGATAATTTTTTACATC ATAATTTATT
ATAAAATGCTATAATGAAGATTATACTTCTTCATTATAGCATCATTAATTCTAATAC TTAGATAATATT
AATTTAACAACATCGTCAGTATTTATCATTTCAAATTTTGACATATTATCAATATAA TCACGTAGTTTAT
CAGTATCAATCAAATTACAATAATCATTTCTTTTTACAATGTCTGTAACTATTTGTC TAAATCTAGTGTC
TGATATGATTACATTTACATCTTTTATAAATGTATCAATGAAAATTTTTATTGTATT TTTTGCAATATTA
GCTTTATCAACATCAAATATTTTATCGATAATTTTATCAATCTTGAATGCATAAAAA AGTAACATTTCA
TAGTTCATATCAGGTAATTTATTTTTTGCATACATAATAAATACTTCGATAGGGTCT CGCTCAATTTCTT
CAGTTTTTAATAATAATTCATAAATATAGTCTCGGATAGATATTCGAGATAAAGCTT CTTGCATTTGAT
TAATAAAGACTGAAGTGTTATCTAATGATATTTTTTCTAATATTGTGATTAGTTCAC TTGCCTGTTCATC
AACTAATCTTTTATAAATAGTATTATCACGCATATTATCTTCCTGAATTATCTTAAA TTCATTTACAAAA
GTCAAAAATATTCCTCCTTTCTTCAATAGTAAATAATCACAAATATATAATATATAT TTATTATTGAAT
TTTAAGATCGTTTATATTTGAGATGTTTTCTTCTTTAACATCAGCAAAATCTAAATT AAATGTATCGGA
ATCATCTAGTAAATCATTATCAATTCCTGCACCAGTAAGAAATTGGGATACGGTATT TAACGTACGCTT
ATCATTAATGCTTCCCGGTAAATCTTGTAATGAAGTATATCCATACATTGCAATATT TTTATACATTGT
AGATTTTGCGTCTTGTGAGTCCGCTCTAGGGCTTAAGAATTCTTTTAATGCATATTT AGCGTCAATAGC
ACTTAATGCAATAGTTTCTAAGTCACTGATCCGTGCAATCTTATCTTCGTTTGTTAC TTGGTTGGTTCTT
AAACTACGTTTACTAATATCTAATGAGTAGGTATTCTTTTTCGATAAGGTTTGTTAT ACTGATAGGTAA
AGATATACTATAAACGTATTCTTTTTCCCCCAGTCCAAACCGTACGTGAGACTTTCA TCTCATACGGCT
TTCCATCAAATTTATTTCATTACTTAGAATAAATACTTAATAAATAACTATTCTAAT TAATGAAAATTA
GATTTGACTAAGAACTTTCTCTCCACTATTTATTATCATAGCTTCATCGATACTTCA TTCTCTCTTACTC
CCTATAAATAGGGTATCAAACGTTCCCTTTAAATTAGGTATATAAATGTACTTAGGA TCCACCTGTTAT
TTATAACAATACTTACATATAAGTATAATATGACAACCTATTAGTCATATTAGCTAA TAAAGACTACA
ATTTTATTTCGCCTATTATAAATCATTAAAGTGATTCGTATTCCTATCCATATACAT CTACCCTAACCGC
TATAAGTATTATTAGCGACTTCATCCAGCTTCACACATATTAATTACTCAATATGCA TGTGGAATATCA
TTAATAGCAATTCATGACTATTATTTAGGTTAGTCACAGCTTATTCATTTAAAGAGT TAATTATATACG
CATATATAATCATGCAATCCTCAATATTTTTACATATCTTTCTGCATAACGTTTCGC ACGTAGTCTCCTT
ACGGGAAGATAACCTAATGGTACTGGATATCTAGTTCTTAATGGATTATCTTTATTT CCATCATGACGA
TAATAGATATATTCTTCTAATGGTACATTCATAAAGTCTAGTGTTTCTTTAATATCT ATCAGTTTTGGTT
CATTTTTATTCGGTAATACTTCTAAATAGAAATTATCATCACCATTAGTAAATTTTT TCATATACGATAA
AAATTGTTCGTCACTCATTTTATCGTAAATATCTTTATACTTTTTAGCATTAGAACC AGTTTTATCTAAT
TTATTGAATACGTCAATAATATACTTTTGAATTTTATTTCTTTTTTGTTTATTATTA GATACTTCTTCATT
TAATTCTACCGATTCATTGAGATTATCTTTTGTATCCATATAATATACTGATAATAT TTTAAATAAATTA
ATCGAATTATCTTCAGAAATATCATACTTCTTAATGTTTTTATCTTTAAAAGGAAAC TTGTCAATACTG
AATTCAATAATCTTTAGACCATCTAGATCACGGTTATCGTACTTATCAGTATATAAC TTAGAAAGATAA
TTTGAACTAATTTCCCTAATTTGAGAAGTATTTGATAATCTAATAGATTCAGGATAA CCAAACTCAGGA
TAATAATTAAATAATACATAACTATCATTTTCTTTGTAATAAGGAAGACTAATATAA TCTATTAATTCT
TTATTTTTTTCATTATATAGACCCATTATCATAAGTTTTGTAAAAGGTTGAATGTTT CTTAGTATTAAGT AAATAATAGTATTAATAACATTACTATTCAACTTGTGATAATCAGTAAGAGTATCACTAT ACTTGATGA
TATTGAATAGACTCATTTTTATACTACTATTATAACTTCGATTATTATCATTAAGTA TAGATTCAATATA
CTTAATGATATCTTCTTTATTATTAATATCATTTCTAAATATAATATCCATTATATA ATCATTAAAATCA
ATTTTTGTAATATCAATAACCGAATCCTCATCAATAGATATTACTCTTTTATATA ATGATGATAATGGG
TATCTTACAATACCAGAACGGGTATATTTAGTAATTGATAATAATGAGGGATGAGAT ATTAACTGATC
TAATTTTATAGATGGATATAATTTACTTTCTGAATCCCTGAGTTTAAATAATTCAAT ACCATAAGTTCTC
ATAATGGTCATAAATACGCTTACTAATTGAATTTCTCTTATAGTTGTTTTATTTCCT TCTGCACTTCTAA
TTATTAGATCATTATCCAAGTATTGATTATAATCTTTAATCTTATCAGAGAAAGTAT TAAACTGATCTA
TAATATTAATATTATTTTTATCATAATATATAGGAAACTCAATTACCTCTGTAAACA TATCAATATTCTT
TAACTTCTTTTCAAAATTGGATGTAAACTCAGATACTTCCATTTTTTCATCGTTATA ATCAATTCCAAAT
ATTCTAGAATTATCATGACTATCTATTAACGCAATTTTACTTAGTCTATCTTTAGCA GAACCTATTACCC
TATCAATAATTAATGTAACTTCTAATTTACATTTATCCTCTGAAGGACTATTATCAA AAGGTATATATT
CATTATTATCTAGCATTAATGCATTATCTGTAAATTTTCTTTCATTCCCTAGGTACT CATTATATTTTTTA
TTCATATAATTATCCAACTATAATTCACTTCCTTTATATTATTCACTGGTATATCTA TATGTTTATATTA
CTAGTTATTAAAATCTTTTATCAAAAAAAAAAAAAATATTAATTATTAAATACATAG TATATAACAATT
TATTTGTTATATACTATGTATCTTTTTTTCCTTACATTATATTGATTAGAAATTTAA ACCTAACCAGTAT
CTAGCAAACATAGATTTATATGAAACTAAATCTACAATAAATATTGATACGAAAATA ACCAATGATAA
AGCAATTACCCAAGATAAGAATACAATTACTTTCTTAGATAAATTAAGATTAAGTAA TCTTTCTTCAAA
TCTTTTTAGTGTAAAATTTTTCATGTTATCTTCTAAGAATAATAAGATTGTAATGCA TTTTAATAGTTCA
TTAAAGATTCCCACAATTTTGTTACTACCATTATTTTTATTTACTATTACTGTTTGT TTTTCCACTTTCTC
CACACTCCTAATATTATTATTTTCATTTTATAAATTAAAAAGTTAACCTATCATCAG GATAATAAAAAT
ATCCAATGATAGGTTAACTCGTTTTTCTCTATATTTAAATAATATTTAAACTATTAA AAATTATAATCA
ATCTCAGACTTTTGAAATTCAGCTTTCATTCGTTTTAGTTCTTCTTTATCAATATTT TTTTCTGACCTAAT
AGTAGTACCTGTTGGCACTTTTATATTAGTAATCATTTTGCCTTGAACTGTTAGGAT AATATTTAAAGT
AATCAATATAAGAGCCAAGAGCAATAATGAACCAATAATAAAAGATGAAATATATCT ATCTACTTTCT
TTACATCTTCTTTATGTTTACTCTGGTTGGATTTATATTTCGTACTAAGATTATCCA TTCTTATTTTCACT
TCCATTCATTTTATATTAGTAATATAATTTATCTATATTACATAATGATAATATATA AACAAAATATGG
GTTATTACGCTTTTATAAAAATTTATAGTTAATGTATAATAATATTATATATTTTGG ATCATAGAAAAA
TATATATGCTTTATAAGTATATATTATAAATTTGTAGTAAAATAATTAATTATGGAG GATTAATATGAA
AGAATCTTTAAAGTTTAATGTCAAGGAAGTAAGAATTCTTAGCAAAATCGCATCTAA TGAATATGCTA
ATGAGGAAAGTCGGTATGAAAGCTTTTTATCTAAATTGGAAACATTTAATAACTTTC GTTCAGGATTTT
TATATCTGTATCTAAAGAATCTTTCAGAAAGTGGATTAACTAAACAAGAATCTTTAA ATAAGGCTATT
GATAAATATGTCAAATAATTCAATAAGATTTAGAATAATGGCAGATATTTATTGTAA TAATAAATTTAT
CAATGTTGAAGAATTAGAGTTCACTGGAACGAACGAAAGTAACGCAAGGAAACAATT AACTGGTTAC
CTTAATAGACTAACAAGAGAAAATAATAATGGTAGATATACAGCTAAGAATATTAAT ATAATACCCAT
TAAATCCCAATTTCAAAACAATATTGAAAATCAAGAACAACTAAATCTTTTTAGTAA TGATATTAATG
ATGATTTATAATCTAAGTAAATCATCATTAATTATCTTTAATAAATTATGAAAGTAG TGATATTTTTTTG GCTAAATTAAAGAAAAGCAAAAGACGAGTATCCTTTGAAACAATTGTTAAAAGGGTTATT GAAAAAC
ATTTTCTTGAAAAGTATGATAAAGCAGAACTAGATTTAGATAACGAGGAAACGTATC AAATCGGGTTA
GGTTCTATTGATATTGATAAATACAATATCAATCCTGATGATTTCGAAACCTCTGGA ATTTATTATTAC
AGTAAAGGGAAAATATCTTTAGATAAAGATTCATCTCCTTTACGAACAATGAATGTT AATGTAGGAAC
TGTTAAGCCTTTATATGACGTAATATATGAAATTGAAATTATTTCAAGGGTAGAACC AGAAATTAATA
ATTTAACAGTATTAGGATATTTTATTAAAGAATAGATATGGATGGTGAAATAACATT GACAAGAACTT
ATTCTGGTGAAGATATTGATGTTTTAGAGGGTCTAGAGGCTATTCAGGTTAGACCGG ATATGTATGTA
GGAAGTTCAGATGAAACAGTCAATCATCTTGTTAAAGAAGCAATTGATAATGGTGTA GATGAATTTCT
TAATAATTTTGGAACAAAGGTTATTGTTGACTTAGATACTGAAGAAAATATTATTAC AGTTATTGATGA
TGGTCGAGGATTACCTACTGACATTCATCCTAAAAAGAAAATTCCAACAATGCAAGT ATTGTTATCAG
AAGTACATTCTGGTGCAAAATTCCGTAAAGATTCTTTTAAAGTTTCTAGTGGTAAGA ATGGCGTTGGTA
TTAAAGCTGTTAATGCATTGTCTGAATATCTCCGAGTAATTTCTATTAGGGAAGGAT ACCAATATTCAA
TGGAATTCTCTAATGGTAAAGTTACTAAAGAATTTAAGAAAGAAAAGCAAAAAGAAT ACAAAGATAT
CAAGCATGGAACAATTATTGCATTTAAGCCTAATGGAGAATTTATCGATAATTATGA CAAATTTGATC
CAGAATTCATTAAAGATAATTTAGAAAAGCGTGCATACAGTAATGCTAATCTTAAAT TAATCTATAAA
GAAAAAGGTAAAGAAGTAGCTACGTATCATCATGAGAATGGTATTCGAGACTATATC ACAATTCTTAA
TAATAATCCTTTTACTAGTAATCATTATTATAAAGAAGAATTAGAAAACGGCGACTT ATACGAAGTAA
CTTTTGGATATAGTAACTCTTCAGACGAAAATATCTATAGTTTTGTTAATGGATTGA AAACTGCTCGTG
GTACGCATGAAACCGGATTCAAAATGGCACTTACAAACTTAATGACTAATTATATTA AGAATAATAAA
ATGTTGCCAAAAAATATGCAAGCTAAGGCTATTACGGGTGAAGATATTCGTTCTGGA TTAGTATGCGT
TATTAATCTTAAGTTGCAAAAAACATCATACAGGTCACAAACTAAAGATGAATTATC AAACCCTGAAG
TTTCTGGTATTATTAAGCGGATTACAAATTCAGCAGTAAAAGATATTATGGATACAA ACCCTAGTGAA
TTTAAAAAGGTATGTAGTCGTATTATTGATTTTGCTAAAGGAAGAATTAATGCTTCT AAATATCGTGAA
AAGATTGTTAAAGATACGAATAATCTTACATTAAGTTCTAAATTTTCAGATTGCCTT TCTAAGGATCCT
TCTGAAAGAGAAATCTTTCTATGTGAAGGAGACTCTGCAAGCTCTGGAATTAAAGAA TTCAGAATCTC
TCAAACTCAGGCAGTATTCCCATTAAAAGGTAAACCTAAGAACTCTTATGGTCTTTC TAGTAAAAGTTT
ATTAGGTAATGATGAATTTAATAATATCATTAAGATTATTTTTGGTACTAATGATAT TAAAAATATTGA
TTATGATAAAGTCCGATATCATAAAATCATCTTTACTGCAGACTCAGATACTGATGG ATTACACATTAA
TTCATTATTAGGGTTATTCTTTTATACGCATTTTAAAGAATTATTTGATAGAGGATA TATTTATATCGCA
ATGCCACCTAAATATAGTACTTATGATAATGTTTCTAAGAAATTTATTTACTTTAAG AATGATAAAGAA
TTAAATACTTTTAAATTCAATAACATTAAGAAACGTATTAAGCTTAGTGATGATAGT GAATTTAAATTA
AAAGACTTTATTAATAATATGAGCGAATATCAAAATCAGTACAATATTGTTAAACAG AATAATAATAA
TATTTCCGATAGCGTTATTGATACATTCTTATTACATGGTCATGAAAGTAATTCCTT TATTGAAAAGAT
CCTTCTAGATAGGAATAACTACAGATTCAGTAAGAATAAAAACGGAAATATTATTGG AATGCACGATA
ATGCTTGGCATGATATTAATATTGACTTATTAAATAATGATATTAGTCGTATTAAGA AAGTTATGAGCA
TTAGCGACTTGTTTGAATTTACAGATACCAAAACAAATGAAATTTATAGTAATGTAA CATTAAAATTTC
TTATGGATTATATCAATAGTAAATTTACGTATAAACTTAACTATTTTAAGGGTCTTG GTGAAGCAAATC CTGAAGAATTGTTTGATACTACCATTGATCCTGAAAAACGTGATTTAATTCAGGTTAGGA TTGATCCTG
AAAATGAAGAATCAACCCAAGAAATTACAGATATATTCTTTAAAAATAATTCAACTC AAAGAAAAGA
ATATGTAAATAGTTGGTTTAATATTAAATAAAATTTTATACAATTCGGGTATTACTT AGAGTTAATCCC
GAATTGTATAATTAAATTAAAATAAAGGTGGTTCATACTTTTGGCTATTATTCAAAA ACAACTTGTAAA
TATTCATGAAGAAAATATGGAAGAATACTTTGTTGAAATACTTACTAGTCGTTCAAT TCCAGATATTAA
TGATTCATTAAAACCCAGTCAACGAAGAATTATTTATTCTATGAATAAAGATCGAAG ATTTAGTAATTT
ACCATTTACTAAATCTGCAATGATCGTAGGTTCTGCATTAATGATTCATGCCCATGG TGACGCATCATT
ATACAATACTGCAGTAAATTTAACTCGTAAATTTTCTAACATGCAACCATTAGTTGA AGGTCACGGATC
TTTTGGTAACGTATATGATCCTAGACCTGCTCAAATGAGATATACTCAAATGCGACT AAATAAGTTTAG
TGAAGAAGTTTTACTAGATAATATTAATGATAACTGCGTTGATTTCGTACCATCTTA TGATGAATCTGA
ATTAGAACCTGTCGTTCTCCCATCAAAAATTCCAATGATTCTTATCAATGGTTCTTT TGGTATTGGTGG
AGCATATCGTTCATTTATTCCCCCTCATAATCCAAAAAATGTTATTAATTATACAAT TGATTATATCAA
AAATCCAAATAAATCTGAAGAATCATTAATTAAAGATAATGAATTATATCCGAGTTT CCCTCTAGGTG
GTATTTTAGATAATAAAGATATTATTAAAAAATATACGACTGGTGAAGGAAAATTGG TTCTACGTGCA
AAGATTATTAAGGATGAAAATAAATCTACTCTTACCATTGTACAATTACCATACATG AAAACTCAAGA
TATCATTATTGAAAATATACAAGAAGCAGTTAAAAAAGAATACATTAAAGATATTAA AGGTATTGATA
ATGGTTCTGAGCGTGGTAAGATTAAACTTATTATTAAATGTTTTAAGGGAACAGACC TAAACGTAGTA
GAAAGTCAATTATATAAGCATACCGGATTGCAAAGTACGTTACCATTAAGCTTTGTA TTAGTAGATCA
AGGTGACTTTAAAAAATATAATGGAATTAAACATATTATTTCTGATTGGGTTGAATT TAGAAGAACAA
CTATTCGAAGAATTAAAACGAACCTTATTAGTAAACTTGAAAGAAGGATTCATATAT TAGAAGGATTA
CTAAAAGTATTAGATCCAAAAGTATTAACAAAACTTATTAAATTAATTCGTGAAGGA AATAGTCGTGA
TGGAATTAAACTAAGTATTCAAGATAAGTTTGATTTATCTGTAGAACAAGCTGAATA TATTGTTGAAAT
GAAGATCTATCGACTAAGTAATATTGGTATTAATGATACAAAAAATGAATTAGCTGA TAAAATGAGGG
AATTTGACGATCAATCCGAATTTATGAAAGATCCTAGTCGTATCGATAAATATATTA TTGATGAACTAC
AATCAATCAGTAAATCTAAAAATCTTCGTAATGACTTTGAAATAACTACTTATGATG ATAATATGAAT
GAATTGGATATAGAATCCCTGATTCCAGACGAAAATTATACGATTGTTGCTACAAAG GGAAACTATAT
CAAGAAATTCATTTCAGAAATGAAAGTACAAAAACGTGGCGGTAAAGGAATTAATAT CGGCAAACTT
AAAGATAATGATATTCCTTTAGGAATTATCTCTGCTAATAGTAAAGACAATATTTTA TTTATTACAGAT
AAAGGTAAGATTTATAACTATAAATGTTATAAATTACCAAACGCTTCTAGTATTAAG ACGCTAGGTAA
TAATATTTCTAATCTTATTAAAAAGGAAAAGTTAGTATCGATTTTTAGCTTTACTGA TGATCAATTAAA
TAATGATAAAAATTGCTTATTAGTAAGTACTATTGGTAATAATATTAAGTTAGTATC AATGACCGAACT
AAAAAGTATGAATGAATCTGGATTAATTTTATCTAAACTTAAAGATAATGATGAAGT AACAAGTGTTA
AATTAGTAGACATTACTGAATCTAGTAATGTAATTGGTATCACTTCTGAAGGTATGG TTATTCGTACAG
ACATCTCAAATATTCCAGTTATTAAAAGAACTACACAAGGTAGTAACCTATTTAATA ATAAATATATT
ACAGAAAGTAATAAACTTGTATCGGTATCTCTAGAAACAAAAAATACTACTGGTCTG TATATTATTAC
TAAATCAGGATTATCTAAACGTGTAAAGATTGATGAATTCAGTAAATATCCTAGAAG GGTAAAAGGTG
TAATGGGGATTAATCTAAAAGATACTGATGATAAAGTTGTATCTATGGAAACTTATG AAAATGTAGAT GACCATAATCTTATCATTATCTCAAATCAGAAAGCAATTTCCATACCTCTTAGTGATATT TCTGAGTAT
AAGAGACCTGCAAAAGGACTAACACTTCAGAAGCTTGAAGATGACAACTATATTATT GATTCATGCTT
AATTTAGTATTAGAGGGTAAGCCATTGTTTATTGATGGCTTATCTTTTTTTTTTTTC ATTTATATATAAA
AATTAACCTTTTATATAACAATATTATATACTATTGAAAGGTTGTGGAAAATAAATG GCAAAAGAACT
TATTTTAGATGTTTCTCATCATCAAGATCCCAATAACTTTAACTGGGCTAAACTTAA AGATGAAATCGA
TCTAATACTAATTCGTGTACAATATGGATCAAATACTATTGACCGTCAATACAAGAA ATTTGTTGAGCT
TGCTGAAAAACATAAAATTCCTTTTGGTCACTATGCTTATGGTGTATTTGTTAGTTC TAAAGATGCAGT
AGTTGAAGCTAATAACTTTTTAAAACGTGGTGATAGTGAAGCTACTGTATGGATTTT AGATGTAGAAT
CCGACACTATTGAGTCATGTAAAAATTCTCCTCTAGGTGAAGCTTCTCAAGCATTTA TCGATACTCTTA
GCAAAGCCGGAAAGAAAACTGGTTTTTACTATGAACATCTTATATTGGAAAATATGG TTTAGATAATG
TTAAAGCTGATTTCCGCTGGATGCCACGCTATGGAAAAAATGATGGTACTTTATCAG GAAGTGCTAAA
CCTGATATTTCTTGTGATTTATGGCAATATACTAGTACTGGTAAGCTAAAATCATAT TCCGGTAGTGCT
TTAGACTTAAGTATTCTTAATGGTAAGAAGGATATTAAATACTTTACAGGTAAAGCA TCATCAAATAA
ACCATCCACTGTTAAACCATCTAAGCCTTCTAAACCTAGTGATTCAAAAGATACTGT AAAAACTACTA
GTTATTATGTTACTGCAACTAAACTTAATATTCGTCAAAAACCTGATGCTGATAGTA AATCTTTAGGAA
CATTGGATCATAATGATCGTGTTCAAGTTATTTCAATTAGTAAAGGTTGGGCAAAAT TAAAATCCGGT
AGTAAAGAAGTATATGTTTCTGAAAAATATATTTCTAAAAAAGCAAAATCAAATAAA CCGAAACCAGT
AACCACTAAGACTTATACAGTCGTAAAAGGGGATACTCTTTCTGGTATTGGCAAAAA ACTTGGAAAAG
ATTGGAAAGCATTAGCTTCTAAAAATAATATTAAAGGTCCAGCTTACGTAATTAAAC CAGGACAAAAA
ATTAAATATTAAATATTTTATTCACCATACAAACAGATCATTATATTTAGTGATCAC ATATGTTTGTAT
GGTGATCTTTTTAAGAAAGAGGGTTTGAAAAGTTGACTAAACAATCAATATTATTAA ATAGTTTTGAA
GAAAAAATTGAACAGGCATTTAAAAATAGTAGTAATGTAAATAAATTAGTAAAAATT GTAAGTCAAT
ATATTGATAAAAATAGTGATATATTAAATCATAATACACCTACATATCGACTAGTGT TTGCTCGTGAAG
GATATGATGCTGAAGTTATATATGATATAGTTAATATATATCCTGAAGAAATTAAAG AAGTTATTTCAC
AACTAACATTTATTCGAAAAGAATGGAAAGTAACCAATGAACCCTTTTCGGTATTAA TGACTTTAATT
ATTCGATATTTTCATTTAAAAAATAATCGTAGAGCATTGCAATCTGCAATAATGTAT CTTTCATTATCA
TTTTATTCATCGTTACATTTTAGATCATTTAGATATGAACCGAACGATAATATTATG CAGTATACAATT
AACCGTGTAAGTAATAAATTCTACTTTAAACAGTACGGTACAGTATTTAAAGCACTT AATGCTACTGCT
GACAAAGCAGATATGAATCTTAAAAACTCTTTAAAAAAGAATGATGACGAATTAATT ATTGCATATAT
GACATCCCTAAGAAGTCGTCTTGCAAACCAATTAACTACTTTTGCCCAAGAGTTTTA TAAAGACCATGC
AGCTAATAATTATTTAAATAAGGTATCGGATGTTTATGATGACGAAAACCATATTGA AAATACAAATG
TTTCTGGAATTGTGATGTCACAAACTAGTAAAGTATCTCTTAACTTTTATCAATCTA GACTTAATGAAA
AATATATTATGATATCTGCATCTACTTCTAAAGTTACGGCTAATGCAGTAAGAAATA CATTAGAAGAT
GTTAAGGAACATGAACGAGAAAAAGTGGAAACGATTATTCGTAATACAATATCAATA TATTTAAATGA
TCGAAAAAATTCGGTAAACTCAATCGGATCACAGAAATTTATCAATTATTGTATTGG AATATATACAA
AAAGTAATACAAAAGAAAAATTGGTATTAGAAATAAAATCAATATTAAACTATTTCT TAAAAGAATAC
TGTGATAAATATAACAGTACTGATAGGGAAGCTACTAAGAATAATTATCGTAAAGCT GTATTTCTTTA CTTTATATTCTTAATCAGTGCAAATAACTAAAAAAAAAAAATATTAAAGAATATATCCAT ATAACCAA
TAATAGGTTATATGGATATATTTTTATTGCTTATTTAAATTTCTTCAGTATCCCTTT TTATTAATTCATTT
ACTTTTTCTGATATAAATATAGTGGATATTCCCATTGAAATCATTGTAATCAGCATA AGTGTTAATAAC
GCTAAAATTAAAATTTGCATAATAATCATTATAACCATCCTTTTAAATTTTATTTTT CAATTACAGTACT
TGTAATATTACCATCAGTATCGACTCCAGTCATTACAGTGTATGTATTAACTACAGC ACCATCTGCAAA
TACGCCATCAGTTCCTTTAGATTTTACAAATACAATGTATGTATGTTCCCCATGAGG ACCCATTTGTTC
ATTGTCTTCTGTAATATCATAATATAAATTACTAGTATTAATATTTCCATATTTTTT AGATACAATTGAA
GCTAGATCTTCATTAGATAATGTTGTTGACATATATACTTGTTGATAATTATTTAGA TCAACTTTTTTAC
TATTTTTTACTTGTTCTTTCATTTCGCTTAATTTACTTTGTTTATAATCTACTTTAT CAATAGATAATGTT
TTTGATTTAGTGTTATATTTAACCGTTTTATCTTTAATATTGAAAATAAGATTTCCA TTTTTATCATCTTT
AGATTGATATTTGTCAAATTTATCATTCAATACTACATTATCATCTACATGACCGAT TTCAACGCTAGT
ATAACTACCTAATACTAAATGATCTTTAGTTAATTTTACATATCCTTGAGTATCTTC ATTATAATATTCC
CCAGTAACTGTATTGATATCTGGAGTCTTTTCTTTTTTAATTGTTACTTTCTTTTCT TTTTTCTTATTTTCT
TTAGAAGGAGTTTTAGTTTCAATTTTCTTAACGTCATTATCTTTCTTTACAAAAGTA TAATTGGTTGACA
CAATCCCAACAAATATTCCAAGGGCAATAGCTACAGTAATAATTCCAGTTAGTATTA ATTTCTTTTTCA
TGTTGATCCATCCTTTTCTTTTTTTTTTTATTTAAATGTCTAATACCGAATAGCTAA TCGATATTAGACA
TAATTGAAAATTTATTATTTTTATTAATTTTTTTATTAATTAAATTTTGAATTTTAA TAACTTCTTTTTTA
AATTCTAAGTTTCTATCATCTATACCTTGGATAACTTTATCAAATTGATTATATCCA ATAATATTTACAT
ATCCTTCTAGACCAGAACCTTTTATATCCTTATAACTGGATATAATAAATGATTTTG CATTACTTTTTAC
ATATAAATTTGAATTATATGAATTATTAGTTTTTCTAATTTTAATATATGATGATAC CATTTTCTTAACT
TGTTTTTCATTCACAAATAATACTTTATATTTATCATTGATATATACTTCTTCAGGA ATAATTCTTCTTTC
TAACATGTATGGAACACTTTTATTAAATGTAATTTCTGATGTATCATTATTATAAAT AATATTATCATCT
TTACGAATATTAATATATTTATCAATATCTTTTACAGTATGAACTGCAGATAACTTA TCGAAATTAATA
TCAAATTTTTCCATATAAATATAAATATCTAGTTCACCGCTAATATATTTACCGTTA TCATATGTGATTA
TAGATACGGTAGTTTTCGTAGTTCCATTAAATTCAGATGTTTCGATATTATGCGTAT TAAGAATTATAT
ACTTAAGATTATTATTATATAATTTTTTGATCTGTAAAAATAAGTCATTTACACTAT ACATTAGCATAA
TAGTTAATACCAACTTCCATTATTAATTTTTAATACTAGGATAATATCTATTAATTT AGATATTATCCTA
GTGATATTTTATTAATCTTCAAATACAACGAATCCGTAGATATTAATTGGATCTTCT ACTTCAGTAATT
ACACTAAATGTATTTCCATTAGCACCACCATTATCTTCTACTACATAACCACTGTGA CCCATCACTTCA
GTAATATTATTATCCTGTAGTTCTTTCATCTTACCATCATCAAAAAAGTCAGGATCA ATTTCATCCACC
CCTAATGTATAACTTTCTGAAATGACTACATCTACACCATACACTTTTTTAATTTTT TCCGTTAATTTAC
TTACGTCTAATGACATAATAAACACTTCCTTATTATTTATTTTATTTCATGATTATA ATATATATTTGTA
AATGTCTTTATTACGGATTAATCGATATTCTTTTCCTTCAATAGTATTTATATTTAA TGACATAGGATTA
ATATGTGGATGTAATACTACACGTTTATAACTGAATACCTGATTCATAAGTTCAATA ATATTGTCAGCA
TCAAAATTATCGTTTATATATTCAATACTGTATATAATATTTTTATGCATTGAAACA TTTAAACCAACA
TCAATATTATTCTTATCTAAATATTCTTTGATTAGATTAAGTCTATTTACGATATCA TATTGGTCTGGAA
AACAGTTCATTAAATGGCTTGCCCTTCCTTGAATATTTTCTTCAATTATCATAATTT CTTTTATTTGTTCT ATTATATTATCCAACTAATTCACTACCTTCTTTTAATATATTTGATAATTCTTTATAATA TTTTCCTTCCA
ATGTAGTAATAATATTATCATCATTGTCTAGAAATATTAATGAGAATATCTGGCAAC TATTTCTTGCAA
TAAATAATTTATTAACTTTTTCACCTTTTTCTAAGAATGTATTAAGTTTAATATCAT AATACTTATAATA
AAGACTTCGCATAATCCAACCAATATCACGTTCTTCTTGAATATATAATGTATCATC ATAATCTGGAAT
AATATCTAATTCATATATTTTTTCTGAATCATCATAATTGTATGAACTAAACTTATG TTCACTATTAATT
AAGGTATGTGGTCTATCAAAATAACATTTATCCTCTAGTATTGTACGATTAATATCA TTACGTAAATAT
CCTAAGAATATCTTTTTATAATGAGTATTATTAGTAATCCAATCCGAAATAATACTA AAATCATTATTA
TTTAATAACTGGTTTGATTCAATATTATCCATTATTAAACAAATATCTATAGTTTTT GTTTCTTGATTGA
ATATTCCAATTTCCCATACAAAACTAAACCAGATCTTTTTACCCATATATCCAGTCA ATATTCCTGCAA
GAGGATTCTCTAGAGATATTTTTACTAAAGGTGCAGCCAATCCATTAGGAGTGAAAC AACATTTTGTTT
TAACGCCAATATTCATTATTTCATCAACATCTTTAGAAAAGTAAATAAATTTATTAC TATGATTATTGG
ATATATTCATTTTAGATTCAGATACATTATATTTTGTACCTGCACGAGCCAATAATA CATTATTGATAT
ATTTATTCATTTCCTTATAATTTAGGTCAGATTTTCGAATTACTTCATAATTCATAA AAGGTAATAATTT
AATAAACTTATCATTATTATATTTAGATAATGAACTTTGAAGAAAATTATATGCTTC ATCAATATAATT
ACTATTTACTTTTTTATTTGTAATATATTTATTAGTAACTTTATTAGGAAATTCACT AACAAATCGATGA
ATGGATATATTATTGACTACGCATTTATTTAAAATATTCATTAACTGTTCATATGAA AATAAATTAAAC
ATACGATATAAACCATTTTTCTTTTTATATTTAACAAATTGTATGTCAAATAATTCA GGTTCTAATTTAT
TATCAAGATTATTATTGTACCAGTCCTTAATAAGCTTTATCATCTTATACATTCTTT TTTTACCAAACTT
ATCATGCAAAAACAGTATTTCATGTTCTAATTTAAAATCAGTAATTGAAGCACCAAT ACCAATATTTAA
TTGATGTAATTTTTCAATTATTTTAATTTCATTATAGATTTCACTGTCAATTTGAGA AAGTGAAAGTACA
TCTTTATATAAGGATGCAATATATTCTTCATATAGTACATTATTATTCTTCAATTTT TTCATCACCACGC
TTTATAGATTCAAATATATTAATATACTTATCATATAATTTTCTAAATTTTCCAGTT TCATCAATATGCA
AATAGTATGACATCTTACCAAGTAATTCATAATCATCATAATAACAAGATCCGGTTT TCATATATGAAT
ATAAGTTATTACGCATATCATCATACTTTTCTGAACTTAATGTTAATTGATTTTTAT GATTTATCGTAAT
CCCAGTAATATTACGCATATTCCCTTTAAGATAGACAGTTTTACTATCATTAATTTT AAATTTATCATTA
TATATCTTGAATGCCTGATTACATATCTTAATGATAAATTTTTTATTAAATAGTTTA TTATTGTCAATAT
TTGTTGAAAAAGTAATATCATCCGAATATGAAGAACAAATTATTCCATATTTATGGA ATATGGTTTGTA
TATGATTAATAATATCTACCATAATAATATTCGATATTACGCCAGAAACTGGATTAC CTAGAAACATTT
TATCATTTTCATCAACAAAACCTTTCTTTATAGTATCCATATATTTATCAGTAACGC CATGGAATAATA
GTAATATGAATCTACTATTAATTAATTTCCAATCAATACTAGGAAAATAATTAGATA TATCTACTTTAA
TAATATATTTATTATTAAGGTGCATTAATGCATTATCTTTTATAGATACATTTTTTC GATAAGCCATAAT
ATTTGGATATTTCAAGTTTGATATTTTTCTATCTAATCTTTTATCGAGGATCTTAGA AATTTCTTTTAAT
GTATTTTTAATTTTTATATTTGGATCAATAACTTCACGTTCTTTACCATTTTTTTCT ATCTTGATTTTCTT
AAATAATTCAATATTATTGTCCTCTAAGTCTTTAATGATACAATATAACTGAATTAT TTCTAGAGACAT
TCTTCTTTTTAATAATAATTTTATATCACTGGCATATTTACTTTTAAGTTTATAAAT TAGATATTTACTAT
TACTAATTTTAGAGTTGGGATATAATAATATATATCCTTTACTTACTGATACAAGAG GTGTAGATGAAA
AAGATCTATACATACTAAAGAATTCACTATATTCCCTCAGCTCAATAGAATTCTCTA ATAAATATTTTT TACTATAGTTAAAATCTATACTGTTGGATGTCTTATAATAATTCATAATCTTAATTAATA AGTCATAAC
TATCCTTAAATAGTATATTATTTAGCTGAACTAACTTTTTTTCTGAATTATCAAATC TTGATATTATTTT
AATATCTTTATCATATGGATAAAAGATCCCTTTATTAGTTAAAATTCTTAATGGATT CTTACTAATTATT
AATAAATCATTCAATATTTATCTTCACCTTTCTTTTTATTGTTTTCAAAAAAATTTA AAATGACCGAACA
TTCTTTATACTAATAATGTATAAAGAATGTTCGGCTAGTATATTTTAGATAGATGTA TACTTTTACTACT
CAAATATAATAATACAAATTATGTTAGTACGAATATACAGTATACCGCACGCGCTGA GTGCGGTATAC
TAACACGCAACCGAAATCTATGAGGTGCGTGTTAGTATAATTAATATTACAGAGAAT AGTGTTAAGTG
TTTGAATGCATATTAACGATACGTTAATGCTTATCAAATATTAAATGATATATTGAG AAAAACTAATAT
TATATTGATAGCTTAATATACATCTATTAAAACCAAAATTATATTATATTATTTACA TAAAATAATAAT
TTTTTATTATATATAAAATCAAAAAACAGGAATTTATTGACCGGGGTCCGAATAATG TCGATTTATCGC
ATGAATGGACCCGAAGCAATAAATTGCATGTATAATGGAAATAATTTTTTGACTAGT GACGATTACAT
CACATATTAATCATTTTATATATAATATATTAACTTATAAATTGTAAAATCCAAGAA ATTTATGAAACC
GCAGCTCACGTCCCGAGTAATTTATAACTCAGAAATGTGAGCTGCTGGTTTTACTAA ATGATAATGAT
AGAGACTTTTTTGATTAGTGAAGATTACATCACATATTAATCATTTTACAATTTATA ATTACGTAAATT
AAATAATATTTTGATTTACTGATTATTAATCAGTCTAAAATATTCCTTCAATATAAT GATATATACTTA
AAATTTAAGTAAACTTTAAAAGCATATATTTGAGAAGGATACTTATAATTAATAGTA AATTGTAGAAT
CTAAACAAAAGAATTCAGCACTTCATTCGTACCTGACGTAACTAGTAAGGCAGGTAC GGAAAGGATGT
GGAATTACTTTAATAATGATAGAAACTTTTTTGATTAGTGACGATTACATCACATAT TAATCATTCTAC
AATATACAATAAATATTAAAATTTAAGTAAGATTTAAAATCAGTGAAAAGATTTGTG AGATGTCGGAT
CGGATCGAGAAATACTTGTATGAAGCGATCAGATACTCTGATATCAAACAATCAATA AAATACGACAT
ATATTGATTAGTGACGATTACATCACATATTAATCATTTTATATCTACTTAAATTTA TAAATTAATAAT
AATTTTTGCATCTTCTTTAATATTAACACTTTCCGGTCTAGAAGTTTTTAGAGAAGT TCTATCATTAAAT
CGAGTATCTTTAATAAATTCTAATCCATCAATATTAATTCTTTTCATAAACTGTTTA GAATTTTCATTAA
ATGATGATGAAATATATTTAATGTCATTATCAATAATAAATTTCTTTAGATCTTCAA AAATATACTTAA
TACTTGAGGTAATTTTTTTATTAAATGGAATTACAATGTCTTCAATATACAATAATT TACTATGGGTAT
CCGTATTAAAGCTTCTATTGTTAAATTGAACGCTCTCATTTTCCGGATCATAACCAT AAATATTAGATA
TTAAATATCCATAAATATCATTGTTATCATTACGAATAATATATGATGGAGACTTCA TTTTCCTAGCAA
TTTTCTTTAATTCAGAAATATCGCTATCTTGTTTCCAAACATTCTTTTCAACGTATA ACATTCTATTGAA
CCAACCCGGTGATGCCTTTTCAATAATAACTTCACTATATGGAGAATATTTTTTAAT AATATCTTTATTA
TCAGAACCAATATATTTAATATTATTTTTACGATCTAATACCGTAAATACATATCTT GAGTCGTCAAAT
GATGAATATCTATTGAAGTTATTTTCATAACAAATTAGCCCTTCACTAGAAGATCTT AATCTCTGAGTA
TATGAAACTTTATAATTACTATTAATATCATTACGTAAATATCCTAAATATATTTTA TTGTAGTCTGAAT
TAATATCAAGCCAGTTAATAATATATTCATATTCATTCATGTCTAAACTTTTTGACG ATTCAATATTATC
TAGAATTAAATTGGTTTCATATGATTTAGTATCTTCATTATATTCAACAATCTCCCA TACAAAACTAAA
CCACGTTTTAGTATCAAAAACGCCCTCAAGAATCCCTGCGATTGGACTTTCAATAGC GGGTTTTAATAA
TGATTTTGCAGCACCGTCTGGTCTGAAACAACATAATGTACGGAAACCAATTGAATT AATGTCTACTTT
TTCTTTAGTAAATTTAATCATATCATTATATTTACTATCGTCAAATAGCATTTCACC ATTAGAAGTTTCC CCATAGGATAATCCTTTTTTTGCGTTATCAATAATATTAACATACTTTCTTAGATCACTA ATATTTTTAG
ATTCCCTAACACCTTGATAATTAATATAGTTTAATAGCTTAAGAAAGTCTTTACTTT TATAAATTCTTTT
AATATATGCTAATATCGTATCAATATATGTTTCATCATCATCCAGTCTTTCTATTGC AGTCTTTGGAAAA
TTCTCGATAAAGTTATGAAGATCTATTTTATTTTCAGAATTACCCTTATTATATGCA TATGAGACAAAA
TTAAGAAGTTTAGTTGCATTATCATATGAGATTCGAATTAATAATGAATTTAATTTA CTTCCATAATTA
CTATTTTTTTCTTTAAGATTTGATATAGTAAAGTTACTAGTATACTTATCCTTAAAC ATTTTTGGATTAA
TACCTAAATGTGACTCAGATATAAGATCTGTAATTTGGTAAACATCCTTTAATTGTT TAACAGGTTCTA
CTAGATTGATATTACTTCTTAAATCATTATTTAATTTATTTGTTATTTCTAAATCCA TATTAAATTCATA
CTTATTAATGCGATCACTGAGAATACTATCTTCGCATGATAACATTAGCTTCATAAT ATTGATTGCTTTT
TTCTGACTGTTATATAATGCGGATAGATATATTAATGCACTAGTAAGTCTTTCACTA TTGATTAATAAA
AATTCTGGAGGAATAACTCTAAATCTTCCAATGTCATGTAAAGAAGTAATATTATTT ATTACCTGTAAT
AGATCAGAATTATCCATTGTATAGTTAAATTTAGAACAATAGTCTAGAAAATTAGAG AATATTTCATTT
AATTCGTTTAGATAATTTTTCATCATCTATATTATTGTAGTTGTCATATAAATACAT ATTATGATTCACT
TCCTTATTTATTAATCAACTTTAGGTTCATTAATTAATTTTAATTTAATTAACGTAT TTTGATATTCATTT
ACGAGATTTTCCATTTTATTAGTATTATCGATATAACGATAATAACTAATTCTACCT TTAAGTTCATTAA
ATGTCATTGAAATATTATTAATATTATTTTTATTCTTAGATAATTTAAAGAAAATAG TCTTTAGTAGTCT
ATACATTTTCCTATCTAATGTACATTGATCATTGTGATTAATTCGAATCCCTGTAAT TCTTCTTTTGTTA
TTCGACATTTTAATAGTTTTTTCATCTTTAATAGATAAATTACTATAATTATATACT TCAAATGCCTTAT
TAAGAATGAACTTCAAATATTTTCTATTAAAGAATTCACTTTTCTCGTTTGATGAAA AAGTAATATCAT
CTGCATAAATAGAGAATGTAATACCACTATCAATTAATACATTTTTAAGATATTTTG CCACATTACTCA
TTAACAAGTTTGATAATGATCCAGAAGCAGGATTCCCCTGATATAATCCACCAGTCT CTGGATTAATA
AAGATTTCTTTGAATAACGTATCCATTACTGAATCTTTATTATTCTTCTTCTTAAAA TTTTCTTTACCTA
ACACTAATAATTTAAAGTACTTACTAATATCTTCATATCTACAATTATCAAAGAATG AAGCAATATCCA
TTTTAATAATATATTTATTATTTTTATGAACTAATGCGTTATCTAGTATACCTTTTT TCTTTTGATAAGCA
AATAAATGTTTTTCAACACCTTTATTAGATAATTGAGTTTCTAACATTCCATTAAAG ATATTATTAAATT
TTCTACTAATATCTTTAATATCATTATGTGGAGCATAGATATCTCTAATTTTTGTAC CTTGATTAATCTT
GAAATGTTGATATAATTTTTCATTATTATTCTGAATTAATATTCTGGTTAATAGTAA CTCTAGTAATAAT
GGTTTATTATTTGGTTGATCTGGCGATATACTTATATCTAATAAATATTTAATCATT TTAATCATTTCTT
TATCATCTGTGATTTTATAAATATTATATTTATTGTATATATCATTTGTATTTGTAA TAATATAGAGATA
ACCATCATTCATTTCAATATATCTATGAGATATATTGAGATTTCTATAGGATAATTT TATACTGATATTA
TTAATAAACTCTGTAATTAAAGTTTTATCATAAGTAACAACTGGTAAATCGGGATAT CCTTCATTAATA
CAAATTTCATCATTTGAGAGCAGATCATAAGTCTTAATAATTTTTTCTATATTTTCT AGATGAATGTCAT
TAAATTCCTCGTTATTTTCAAATTTATTATTTTCTTCTAGATATGATATATCTTTTA TTGATTGAATCAAT
TTATTACGGATATTATATTTAACTAATTTAGCTAATACCTTTTTATCAGAAATAATA TTCTTTTTCATTC
GAATATCTATTTCTGATACAATCTCTCCATTTATATCGATTAATACATTATCGATTA ATATTAGTGATAG
CAAATACTGTCACACCTTTCCTTTAATTATTAAATTATTACTACATAAATTTACTAT TTAATATTCATTA
TATGATCCCACCTATTTATTTTATTTTACATTTTAATAATATATAAATAAAATTTAA ATAAATATTCCCG ATATCTCTATAATAGGAGATATCGGGAATATATTTTATTTAGTTACAGTTACGTTAATTT TTCTTTTCAT
GGAAGTAAAAGATTCAGGAACAACGGTAATAATTGTTTCACCTTCACTTACGCCAAT AAGTTTAGATG
GATTATTCTCATCCACTTTAACGAGTTCTTCACCTTTTTCTAGAATTATCAGAACCT TATCACTAACGAG
ATTATCAGGAGTCATAGTTCCGATAATATCTTTACTTTCGCCTTCTTTTATAGTAAG ATCTTCATCTACG
CTAAAACTTTCTGGTTTGGTAATTCTATCGTTAATTACAGATATTACGTCTATAGTA TCAATAGGTGTA
TACCACGAAGAAACTTGTCCTGCAATACCTCTTGATTCATCTACTACTTCATCATAA ATGATACAACCG
CTTACATCATCATACGTAAGTCGATGTCCAAAAGCTCTTGATGGAAAAATTTGAGAT TGGGATGTTGTT
ACAATTGTGGAGATTAATAGTGGATCAGATAAATCATTATGACGATCGATAAATCCT TTTACAGTTTCA
ATAGCTATCATTTTTATTATTCATTCCTCTCTATTTTAACGAATATTTTTTCTGCGA TTAAATTCAGCTTC
CTCTTTCTTTTCATTAAGGATTGTTAGATGAGTATCTATTCTATCTTGCTTTGCTTC CTTATCACTTTTAA
AAGTATTATTGTTAATAATACTTTCACTAAATACGTTTGGATGAGATATATTGCTTT TTTCATTAAATCC
ATCATTGAAGAAAATACTTTCATCAATATTTTTATTATCCATATTTATAAACATCCT TTCCTACATGATT
ATAAACCTTCAAAGAACTTCCACATATTCTCATCAACTTCTCCAGTAATAACCATAT TAGATACCATTT
GTATTTTTCTTACATTATTATAAGTATCCTTATCATATATTCCTGAAACACTAGTTG TTGTAATTGCAAA
TTTACGTTTATTATCATTTATCTTTGTTTGAATAAATAATACGTCTGGTCCTTCCAT AAGAGGATTACTA
TATTTAAGAACTCTTGTAAATTCAACAATAAGCGTATCAATAATATTTTTCCATGTT ATGGGTCCAACA
ATTCCATCTTCAGTAAGATTATTTGAATGTTGAAATGATTTAACAATAGTTTCAGTA GAACTATCATAA
GAACCAGTAACCTCAATATCATATCTTAGTTTTGAAAGTTTATTTTGAAGCGTAATA ATATCGTCACCT
ATCATCATTGGTGATTTATAACTAAGCATTCGATGATAGTTTGAATAGTCTTTAATA TCATTTAATGCA
ATTATCAATTCATTAATTTTATCAAAGTCTTCTTTCTTCATTCTACCATCAACTTCT AGATTAAATGTTTT
TTGGAATATTCTTACCGAGTTATATGTGTATAAATCATAGATACCATTACGAATAGT GATTGGGATATT
AATCATAGATAAATATATTTGTAATAATTTAACGTCATTACCGATAACTGGTTTTTC TGGATCATAGTA
GAATTCCCTTTTACCAAAACTATAAGAAACAGTTCCTGCAGGATTGTCTACATACAT CGGTAGAATAA
TAGAAAGAATTTGGGAACGAAGAACATTCATATCAACTAATGATCCTAGATTACTAT ATTTTGCATAA
TATTCATTTAATGAATGAATGTTTCTAATATTTCGATATCGACCACTAATATTAGCA CATAGATTCTCT
AGAGATACATATTGGCTTTGAGTTAGGTCTTTAATCTCCGTATTTCCTTCAAGACAT ATAAAGATTTTA
CTAGAAGATACTGGATCAGTATTATCAATGAGTTCAATATCTTTTCCAGCAATATTT TCATTAAGATAC
ATTTTCCGCATTAGTAAGTCAATATTACAAGGTAATGCTCTTTCGGGTCTACCTGAA ATAATATCCCCT
TTTTTAGTAATATAATAATGGAATGCAAACATCTTTAATCCTAACCCTTTATGAATT GATTCTAATGTA
TCATAATCCATACTAATATTATGACAATCTAAAATAACTATATTTGATGGATTATTC TTGTATATAAGA
TCTTTTACCGGGTCAGGAGTTGTATCTACATAGTTCTCATCAGTATTAGCATCCAGT AAAGATAACATG
TATGATATATGACTTCCCCACATATTATTCCATTGTTTTCCATCTACTGAAAAAGTT CCCGCTAAATCAT
TTTGATCATAAGAACCGCTTCTTGTAAATTTATTTAAGTATCTTAAACAACGGTTTA ATAATGAATACG
TAGTAGATATTTCAATAGTGTCATTTATGATATTTAAATAACGGATACACGACTCTG CAAGAATGCTTG
CATAATAGGTATTATCTCTAGCACTGTTTGGTTCATATACACTATTAAATTTTGTGA TTATCCCTTTATT
TTCAGAGTTCCATATAGTATTAATAGATTTTATAAATTTCATAATGATATTATTTAC ATTATTATTTACG
TAACCTTTTTCAAGAAGTCTAATTAATGAATTAATGATATTATATTGAAACTCTCCC CAATCTCCTCTTT GATCTAAACCTTCCCACCTAAAACTATTAGATGAAATATCAAAGATAGGTTTAAAGAAAC CTTCTACA
CCTTTTTCATTATAATATTCTTTTTGAGATCGATCTAAAATATCAATAAGTTTAGTT AATTCATTAATCA
TTCCAAGGTCATATAATACTTCTGGTTTTTGATAACCTAGATATATGTCATCGTTCC AACTATCAAGCTT
ATTATTAATAGTTGTTATTGAGTTAGGTAGCATTATATTTTTCATATTATTAGAATA ATTATCAACGCTT
TCGATATAATCGATATTTATAATACTAGGAATATCTTTTTCCTTTTCAATATAAAAC TTATTAAATGTAC
GATCTAATGAATAATTTAATAATGATCCGATATATTGAAGCTCAATGAAAGAAGAAG TAACCTTACTT
TTAAATATTGCTTTGGTTAATGGAAATTTAACAGATTTTCCATCAGTATTAAAATTA ACTTTAATACTA
TTAAATAAATCAACTGATTTAGGAAGATTTAATTTCCATTCTACATTATTACTATCA TAGATATATAAA
TCAATTCCATCACTAGCACGATAGCGAATTGTAGGGTTTGTTTTTGTATTTCGACTA AAAGGAATAACC
ATGTTTGACCAACCATCATAAGAACCATTATCATTACTTTCTTCATTAATCGTAAAG GTAGCTTTAATA
CTATTCCGAGTTTCATCATCAGTAGATTTCACTTCAATAATTTCAGAAATACTATTC GGAGAACTCTCT
GCAATATATAATGATTCTTCAGGAAGATTAAAATTATCCCAGATTACTTCACGGTAA TCTTTTAACATT
TCAGGAGTCAATCAATATTTATTAAATTCATTATCTTTTACATTCGTCTTATAGAAT CCAATATTATGAT
CTTTATCTTCAATAATAAATTTTAATACTTTATCATTATCGGTTTTAATTCTAGATT CTATATATGAAAT
ATCTTTAAGCGTAAATAATTTATTTACGCCAAAATGAATATCTTGATTAATTGAGAT TGAATTTAGTAT
AACATTTCCATTAGTATCATCACGATAAATTAATACAGAATCTGAACTATCTTTATT AATAAAAGAGCC
ACTATCAGATAATGGATCCAAATTATTTATTTCAGAAGTGATCCATCTAGGTTTAAT TGGCATATCTAA
TATAAATTTAATAGTATCTTTTGTAATATCCCTTGCCCTCATCCATTTACTATTCGG TAAAATATCATAA
AGATTACTATAACATTCATAAGAAAGCAATAAACTTTCAATACTGCATATATTTTTA TTAGGATCCAGA
GTATGCCAATAATTTGTAGGATCATATTTCTGATTAGATTTAATAAAGTTATCATTA TCTAATTGAGTA
TATACTAGTAATAGCGTGCTGTTAACATCTTTATCTTCTAATACAATCCTTACAGTA TTATCTTTACGGA
TATAATACTCTTCAATATCATAGCTTATACCTATAATATTAGAAGCCGGATTATTTT CATCACTTAATTT
AGAACCAAAATCTCTAACACTAAATAATTTTTTAAAATTGCTATCCGTACTAAAAAT TGCAATACCATT
AACAAATTCTGCCGATTCATTCAATATTAATTTTTCAGAATTAAAGGGTTCCGATGC ATTATATGTAAA
ATGAGGAACCCATAAATTATCTTGAGAAAAACTAGTTGGAACATCATTTGGATATAA GGTATCAATGG
TTGCATTCATCGTAGATTCTATTAATTCTAAGGATATACTTACGCCAGAATTATACT GATATATAAGTG
AATTAATATATTGAAACTGCGAAGTAGATGTTCCTGAATTAATATTAATATAATCAA ATAAGTAATCTT
CTTTTATATAATTTAATCTAGACATTGAATTAAGATTTATAGATAATGGACTAGTGT TTTTTGTATTTGC
ACTTACAAATTTATTATATTCAGATATCCATTTTCTAATATCTTTTAAATGAACATC TAATTTCTTTTCA
GAAAGATATTTTGTCAAATTTATCACCGCCATTCATATTATAACATTTTGTTTAATA TCAATTTAACTTT
TTACCCAACCTTTAGTATTATTATATTTATATTTAACTGTAGTAATTTTAGTTTCAT TAATAACTTTCTTA
AGACCTAATCTTAATACAAGTGAATCCCTATTAATAATATTCCGTGCAGAAACATAT CTAACTTGTTTT
GTAATGAATGGAATTGTTCGTTGAACTGTAGAGAATGGACTACTTGAGTTGTCTCTA CTCTTTGGTAAT
CTTTGAAGATTATCAGAGTTAAGCGTAGATATTCGATTAAGACCAGTAGGATCGATC TTCCATTTTTTA
CTTTTACCACCAAGATTAACTTTTTGTCGCCACGTTGCAGATCCTCCACCATACTTA ACGCTCGGGTTA
GGTGAAAATCCATTAGACGATGTAGTAAATGTAGTTTTAGACGCAAATCCTGAAGGA CTTTCATATAA
TGGCATTAGTAAATTAGATGGACTTCTAATGTATCCAATAGTATTTGCAGGACTGCT TGTTGTTCCAGT TAATGGCAATCCTTCAAACATATCCCATGATAAATATCTATTCGATATTCTAGTTCCAGT AGTTTTATTT
ACTTTATTATAGAATCCTCGATAAAATACACCAGTACCTTCAGTAACACTATATTTT TCAAGAGTTAGA
GGATCAATTGCCGAACCTTGATAGAACCAATCAGAAAATCTAGATCTTAATCCAACA CAAGCATCTAC
ATATTGGCTTTCTGAAGTATAATTCGAACTAGAGTAGTTAAATAATCTTCGATCCCA ACGACAATCATA
TGCAGTTTTTTCATATGATACACTTTTTTGTAATTGCATTGTTCCTGAAAAACTTCC CATTTTAATTAAT
TTCTGATTTACTTCATCCATAAGTGTTTTAATATTATTCCATATCTGTAATAATTCA GTATTCTTACTATT
CGCATCATTACTAAATGCTTCAGTCAATGAATTATTACTAAGGTTATTGAATATATC AATCTGACTTTG
TATTAAGTCATTATATTGTCCTAAGTCTAGTCCGTCTAATTGTAATGATATATCACC TAATTGGTTTACA
TTATTCTTACTTATTTTACCTAGATATACTGTTTTGAGTCGGGCAGACTCCATATCA GAAAAAATATCT
AAACTTGTATCAAATATTTCTTCTTGTTTATTATATATTTCATTATATATATTATAT AAATTATTAATCTT
TCCAGGTATTACATTCTTTCTTAATTTTATACCTTCCATATCATTCTCTAGGAAATC AATAATATTTTCT
CTAAGAACTTTAGTAATTGGTATTGGTAAGTTAATACCTTCCTCTGTAACGTATATG TCATGTTCTACT
AGATCAACTAATAACTCTCCAGTCTTCAGAGTATTAAAATATTTTTGAAGATAGTCT TGATACGACATT
GGTATATAAATATATCTTGACATTAAAATTACACCACCATTATTATATAATATGTTT AAATGTTATTGA
TTTAACCTTTTTATTACTTATCTTCCCTTTAGTCTTATTTACTAATGAAGTTACCCA TGAATCATATGTTG
ATTGAAATGCACTAGAATCTACATTTTTCTCAACAGTAGTATATCTTGATCTCATAT TAGTTAAATCAG
TTCCAGTTTTAGTCTTATAACCTTTTATAAAGTTGTATAGATATGTTAATTCAGATA ATCTTCTTTGTAT
TGAAAATATTCCAGGAAGCTTTTCTACTACTTTTGGAATAATTGTTGCGATAATATC TACAAAACTCCA
TATATCTACGGTATTTTGTCTGATTTGATTTTCCAATGTATTTAATATTGCAATGAT CTGAGCTAATAAT
TCTTTAAGACCGTTCATTCGATTATATAAATCATTTGTTTCAGATAATTTTGTCTGA TAGAGTGCTTCCA
AATTAGATATCTCTGTTTCTAATAGAGTAATAATGCTCTTAAGAGTAGAGACTAGGT ACTTCTGTGAAA
ATAACTCACCTTCAATATCCTTTGTAGCTGATTGATCATTAACAATTAAATGACCAG TACGAGTATTTA
CTAAAAGTTCTGAATCTTTCGATTCCAGTTTAGTTTTTTCAGTTAATGGCTGAACGT ACAATCTATATGT
CATAACTTATTATCACTTCCATATCATTTTTAAATTTAAGTTAGCAGTTGATATATT AATTATACCAACT
GCTAACTATATTAGAAACTTGTAATAATATTTACAAGCTTAGTATAGAATCCTTCAT GTTTATCTTTGA
ATGCATTATATTTAGTTGTTAATATCTTTTTATTAGCTTCGATTTCAACGCTTCGTA GATTGTAATAGTT
TCTACCAAGATTATCAATTACTGTAGTATATAGATCGGCATAATCTAATAAATCATT TCTTAATTTAGT
AATATTAGTACTTAGATTCATTAGCTTATTATAGTTTGTTAAGAAAGACCCATCTAC ATTATTTGTAAT
ACTTGTTATCTTATTACGAATATCAGTAATATCGGAAGTAGTTTTATCAACTTCAGC TTTTAATGCATC
AACCTGAGTTTTTAAATTATTTATTCCACCAACAACTGCATCTACAAAAGGTTTTAA TAGATCATTATT
ACTGTCAATTTCAGATAAATTATCTCTTAACCAAGATAATTGATTTTTATATAGATT TGTTACTTTAAAT
ATATCATATATAACTGTTGAGTTTAATGATAATAAGTTATTTAATTCTTTTGTAATT TCAATAATTTCAT
AACTACCAGTATCAGAATTTTTCGTATTAGATACAACGGATATATTTCCAGTATGTT CATCAATAATCA
GTTCTCCAGGAAATCTAAATAGATCATTTTCTCGACTAAACGGAATTAATACATTTC GATCAAGATCTA
CTGGAAGATTATAATTCTCAGTAACATTATTATCATGATCAATAATTCCGCTAGAGT AATTATTTACAT
CAATATAATAATAAGAACTATTATACATATTATTTGACTGTTTTCTAGCGGTAATGA TTAGTCGATATA
TACCATTTACACTACTGATATTCTTTAATAATGGGTCACCTATATTGATGATTGAAT TATTAAGTGAAG CAGTATATACAACTCCCGGTTCTTTATTAATAATATCCAATACAAAAGTTGAATCAATAT TAATAATTT
TTCCATGACTAATATTCTTAGCAATTGGTTTTGAAGGAGGTATGGTATCAATAGTGA TAGTTTTAGATG
AAGATGAACTTTTACCATTTAACTTACTAGTAGCTTTTACATTTAATGTAAATTTTC TAATAGATTTAAC
GTAATTATAGTTCTTAATAGGATCACCTAGAGTATACTGGTAAACCATTTATTGTAA TTTCATAGGTAC
ACATTGGGATTCTTACAATATTAGGAATGATCAAACTATTTGTAAGGTTTCCTGAAT TATCTGGAATAT
TAATTACTGGTAAATCTGGTACTGTAACATTTAACATGTCTGACGTAATTTCTAAAT TATTTTCAAGAA
TCATATCATTATCCATTATTTTTCTAGCAGTGATGATGCAGGGTTCAGTAATTATAA ATGGACCAGTAT
ACTCTTTCCAAGAATTGTTAATAGAAGTCTTATACAGTTTACTTTTAATGTGTTCTC TTTCAGACTCAAT
AAATACATATTCAATAGAAATATTATATGACTCGGAATAATATTTTTTATCATTATA ATCTATTCTTGG
TGGAGTATAAATATAATTCTTAACAATATTAAATTTAAATGTAGTATAACTTAACGT ATAATTATGTCT
ATCTGTAAATACTGCTAAGAATTCATGAGTCCCTCCCGAAGTGAATGTTGAACCAGA AGTATAATTGT
TTCCATCAATATAACAATTAAGCGTATAATTTGAATTATTATTCATTACAGTGATTG TTATATCATCAG
CACACTGAGATATATCTGCAGAACTCACATCAAAAGGAGTTAATGGTTTAGATGATG ATATTGATATT
GACGGATTAACTGGAACTGTAGTTTGATCCATTCCAGTAGTATTAATAGTCTGAGTT GCCATTAATTTA
TGTGAAGAATCAGAAACATTAGTGATATTACTTCCAGAAACTCAGCTAATCGTAACA TCATCATGTAA
ATGGTTTCTAGTTGATGTAGCATATCTGTATAATTTAATAGTAGAATCAAAAAATAT CGGCATATTATA
GTTAGGCATAATAAATTTTTTCTTACCATTATAATCCATAACATACATACTATTATC TTTATCAATTTTA
CTATCAGGCTTAAGAACAATATCATTAAATAATGGATTAGTATCACTAGATACTGAA TCATGATATAT
AACAGTACTAATAATATCTCCAACTTGTTCTGGTATAATAACTACGTTTACGGAAAT CTGTACTACATC
TGAATCTACACCATTGCTAACATTAATATCTAGATTATAATCTCCTTCATCTTTAAA TGATAATTTTAGT
TTTGGATCATTCGTATTAGTGTCTAATGGTGTAGCGGTATATGTTTTTGAAGGATCA TCAGTATCTGTA
ACACTATAGGTATACGATGAATCTTTTTCAATATGAATTATAATATCAATTGATCCA TCCCCATTAGTA
ATACTATCTACTATAGGTAAGATTAATGTTGCATTATCATCAGCAATAACTGAGAAA ATTAAATCTTCA
GGGGGATTAATCGTATTTATAAAATTAACAATCATTAATTCGTCTGAATTGAATAGT TTATTTATATCG
ATTTTTCGATAAATATTAATCTCAGTATCAGTCTCATATAGCCCTAGATATGTGA GCATTGTATCTGAA
ACGTAATCGTTAACCTCTATAACGTCACCATCATCATTAGTTACCGTTATATTAGTA GATTCCTGTAAG
TCATTTACTAATTCATTCACATATACTTTAAACGTATACTGATCGGTACCTTTAGTT AGTTTAATATATA
CGTCATTATCTTCTGCAATTGTTATTGAAGTTGGTAATGATATACTAAACATGTTAT AATTATTTGAGTC
TATTGTAATGTCATTATCAGTACCATTAATATTTAGTTTACCATTATAAATTCCAGT ACCTTCAACGTGA
TATACTCCAGTAATATTAGAATCGCCAATATTAAATGTATCAATAGATAATTGTATA TTTTCACTTCTA
ACTACTAGTACTTTCTGATTATCTGCAACTAATATACCCTTTGAGTTGTATATCTTA AATGATATCTCAT
CCGTATCTGAAGATATTCCTGTACTAGATGTTATTTTCATCATTTTATCATTTTTCG TATTACTAAATTT
AGTAACAGTTGATGTAGTTTCAACACCATTAATATACATAATAATATTATCTAATTC ACCCTTATACTT
AGCAATAATCTCAGTTGGATTATTTCCATTAAAGAAGAAAGGATAAAAGTCTACTGC AGTATAATCAA
TATTTATTGCAACCTTATCATTAAATGTATCTACACTGTCTGGATCATCTGAGTCTT TTGGTATAGATGG
TTCATATGTGTCACTATATTTTACAATAGGATCTATAAAGTTGGTATATAATCCTGC AATTGAATCATT
CTTGACAATAGGTATATTTTCATTTCTGATTGATGTGTATGTTGATGGAATATCTAC TCTATAAACATC AATATTAGTACCATACGCAGAAGTATGTCTAATCGAGTCTGAATTGTAAAGATATTTATT AATATTCGA
TTTATCGATATATCCACTGAAAACATATATATCTGAAAATTCATCCATATTGAGAGT ATATTCCGTTAC
CGTATCACTAATAAAATCTTCATCTTCTGATATTGATTGAAATGATTCAATTAAGCT TTCTTGAAGATC
ATTAATAAAATCTTCGTTAGATAGATCATCGTCATCGCCAATAGTTGAAGCACTTAA CATAGTGATATT
ATTCTTACCAATAGAACCTTTTACAACTGAACCATTACCTCCTCCAATAATCTGCGA TATATTATTATTT
ACATTAAATGATAAATTACTTACATCTTTTGGTAATCTAATTGCTTTATATAGGAAA TTATCATTTATTC
CTTGAGTTAGTATAAATAGTTGATATAATATACTAGAATCATCAGAATAATCAGAAG TTCCTCCAAAA
TCATTTTCAATAATAACCCTAAATTTCAGTTGAGTTAATCCATTATATGCATTTGTA CTATTATTAAAAT
CTTCGTCTCCAGTAATAAATCTTACTCTACTACCGTTACCGCCTGTGGGTGCTGTAC TTTGTAATGTAA
AGACTTTATTGGTAGTACTCCAATTACTCCATTGATCCGATCTTTCATCTTTAACCG AATATTCTAGATA
TACTTTGTTAGCCCCAAATGATGGAATTGAACTTATAAAATCTTTATAATACTTTCC ATAATTACTAAA
GTATGTTATATCTGCAGGTCTAGAATATAATGGATTAATACCGTTATCAATAAAGAA AGGATTTACATT
ATCTATCTTAATTGGATTTGGTTTAATCCCTTTCATATCATAATTCATTTTAAAATA AAATTTACGTGGA
TCAACTAATGATTTATTAGTTAAATCGTTAAACGCTTCTATTGTTAATTCAAATACT TTATTATGATAAT
TATTATATACTGCGTTTGGATTATCGCTTGCCAATGACAAAGTATATCCTGACGTAT TCTCTTTATAAA
ACTTCTTAAGATCTGGATTATTAAGTGCTTTTATATTATATCGATAAATTACTGGTC GACCAGTTGAAT
CATTTACCCCTGAAAAACTAAAGGTATAATTAAGCTTATTTGCTTCACTAGTGTTTG CAGGAATCACTG
TAGGATTATTTGGATCATTACTCATAAATGTTAAAAATGATCGATCTTCATTTAACA TACTAGCAGTAG
TAACTATCCCCAGTGCGCTCTTACTAATATTTATTACGTTTGGCATATTAGAAAGAT TATTAAACACTT
CAGTATTATCCGGATCAATATTATCACTATATGATAGTACTGTATTAATTTTAGTTT CATCTGAAAAAT
AAAATGGATCAATATCAAGATAATATAAATCTCCAACTTTAGTATCATAGTTATCTT TAGATAATCTAA
ATTCGTGTAAACTACTCTGCGTTGTTACTTGGAAAATAATATCAACAAAAGCAGAAT CTTCCGTACCAT
TAATATTTTTATTTTCTAATTTTCCAAAAATAGAGAAACCGTTCTGATCTCCAACTA TAGACTCATTTCC
TTCCGTACCGGACTCAACTTCTATATTTGTGTATGTTAATGCTTCTCCATATGGATT CTCTACAAAGAAT
GTTCTAGCAATTCCATAATCTGCAGGAGTCCAACTTTGTATGAATTGTATTAATTGT TCTCTAGTATGT
GCTATTACTGTCAAGAAATTTCACCACCTATATTTATAACTTCTTATAATTAATAGT TTAAAAATCCAT
ACTAAGAAATATTTAATTCCTTAGTATGGACGATATTTTTATATTATCGGATCAATA ATATCCGCTTCA
GGATCATAGATTTTTTGAGGATTCATATCCAAAATAATATTCTGACTAATATATTTG TTATTTATTTCTT
CAGAATCTAATGAAATATCCCAACTTAATAGATCATTATTATTACAATTAATAATAG TTTTTCCACGTT
GACGCATATAGTCCATTAGAATTAATTTCCGGATACTACCTCTAGAATTATCATTTG TTATTCCAGTCA
ATATATCAAAATTACTAGTTTGTCTTACGTTATAGTATGAATGATAGTAATTATCGT TTAAATTCATTTT
ATCATACTTATACCAATCTAATATTAATTTAAGTTGAGTATGATCATCGTAGCTAAA TCTAATCATTAC
ATTTATTAATGGATCAGCATAATCAATAATTTGAATACTTTTACCATTAAGTATTTT TACTTTACTAGAA
TCTATTCTTAAATTATTAACGTAAACTGTAAATGTGCCTTTAATAAATATTACTGAA TCGTCATCTAAA
CTGAATACATCTGTTGTTCCTTCAGCCGGCTTACTAAAAGTTCTTATATAGTTGGAG TTTTCATTAAGA
AGATTTATTTCGATAGTAGATGTTTTAGGTACAATGCTTTTAAAAACAATTAATGAC GGAATAGATTCA
AAGTCAGGATCAATAATGGTATAATCAATTCCAGGATATAATGTTAATCCATCGATA TTAATATCGAT ATCTTCAGGATTACTATTAATGTTTGTAAAAATATTTGAATCATCATCTAACGTAGCAAA TGGTAAACA
ATCAATATCATATTCATTTAAGTCTAATTGATTGTAGTATAACGAGCCACTATTTGT ACCACTAGTCAA
AAGATGTATTTCGGTACCTTCATCCATATAAGATGAACCATATACGATAAGTCTTAC TGTATTATATTC
AGGTTCAATCTTAATATAATAATTGTATGGGTTAATTCTTCTAAAGAAATTCCAAGT TTTCTTCTTAATA
AAGACTCTTAATTGTGAAGGAGTAATTCCCGTTGGTAATGCAACATCCGTTAATAGT ATACCAGTAGTT
CCTAACATATTAGTTTGATCTTCAAACGTATTATCAATTATATGAGTCTTAATTGTT TTCTCGGATTCAA
CAATCTTACGTTTATTACCAGAGACAATTACTTCATATTTATCCTGAAGACTAGAAT TCCCATCTAAAA
CATCATTAGCATCATTCACATCAATATATTCTTTAATAAATCTTGAAGGCATGTATG CATATATTTTTCC
ATCTAAACTATCTTGTTGCTTAATCGATTTACGGAAAATATGTTTACCATTAATAAA TATATCAGATAT
TAATGAATTTTGTTTCTTTTCATATGAACCATATTCCGAAGTAAAATCAATATAACC ATACTGAGATTC
ATCATTAATAAAATTATTTATAAACGGATCTTTTGTAACTTTTATTTTAGAGTTATC CAACTTAGTTTCA
AATGAATTATGTCCCATTGTCTCTATAAATAATGTTTTATTACCTTGTTCTAATTCA TTAACTAATGATT
TTTCAATCATCCGAATATCATTGTCTGTATTCTTATATAAGATATCAGTAACATTTC TTGGATCAATATC
CATTTGGAATGTTTTAGTCTCTATAAGTTGTTCTGAATTAGTATTAAATATACTAAA GGTTATATCTTTA
TTGGGGGTGAAATTAAGTTCATCAATCTGTAATCGATAGTACTTTTCTTCTAATTCT GGAAGATCGTCT
GGTTTATAATATACACGTTGATAATTATCATTACCAATGATATTAATTAAGTAGCTT GAAACATCATCA
TTACTCTCAGAAGAAGAGAATATCATATTTTTAATCTTTACAGTAAGCTTATAATAA TCTTCGATTCTTT
TAAAATTATTAATGATGATAGTCTTTCCATCAATAGTTATTGTCATTATATATTCGG ATGATAATAAAT
ATCTTAGTCTAAAATAGATTGATCCGTTCAGATAGTATGCATTCTTATATAGAATTT TATATATAATGT
CTTCTGGAGTGGCTTGAATATTTTTATTAGAATATCTAACATCTAAATCTTCATTAA GAACAGTATATC
TAATCATATCATTTCCTAAAGGTAGCATTAATTCTGATAATACTGTTTCTTTATCAT CAAAAGGAATAT
ACATATTGGCACTTTGGTTTGCTTCAGGAAATATCCTACTAATAGAGTTCGATCTAT AGTTTAGAGAAA
CATTATAGTTACTTTTATCTACAATATCTAAACTATGCATTAAATTAACATGAACAT TTAAGAAAAATT
TACTATTTGTACTATTATTAAAACTGCGTTTTTCTATCCATGTATAATCAATACTTA AATCAGGAAGAT
ATTCTAATTTATAGAATGTGGTATCTCTACTAGAATTATTAACAATAACAAATAGAT TGGTTGCTACAA
TATTTTCTGGATAGTTATCTAACTGAATATTTTCAATAATATTTCGCTTAGTATTAA TTAATACTAATTG
ATTCATACTATCCATAAGAATAATATAATTTTTAACCAGTACTACTTTATCAATATT ATTTCTAACGTTT
GCTAACCATGTTTTATTCGTCAAGTTATTATTAGCATACTTAAAACTATATATATTT CCACTATATGATG
ATACGTATAATGTAGATTTATCACTATCATATATCATAAAATTATTTGTCGATAATA TTTTATCATTATA
ATCTGTCTGACTTAATGATACTTTTTCTACAATAGAGTTATCTACAGACTTAATAAT ATTAATATTAAA
ACTATCTTTTAATTCTAGTCCTATAAATATTGTAAAGTCGATATTATTCGATTCAGG AATGATTTCAAA
ACCAGAAATAAAATATGAAGCGGTATACAACACTTTTGTTGTATTCGTTATAGTATT TACTAGTATAAT
ATGTTGATACGTGGAGTAGTATATAAAATCATTAACAATCCTTAATTGATTTACTAA TTCATACTCATA
TGGAGAAGTATTAGTTATTTTATTTATAGTTCCTGAGATATTATACATTCCAGTAGT TGTATTTCTACTA
AAAGATACATAACTGATACCATTCTTATGAAACATATATATCTTATTATCGATAACT GTAAAATCGATT
ACTTCCTCATTAATATCAAATGAACCTACTTTTTCTCCAGTACCAAAGTCTTTTATA ATATCAATTCGAT
TCTTAATAGAACCGGTAGGATATTTATATAATCTGAATAGTTCTTCTAAATATATAC ACATTGCAGGCA TATATCCTGAATTAGCATATGATATAGAATGAAATAAGTCTAACCTATTACGTTTTTGAT ATTTATCTA
ATATATTCCCATTCAATGTTATAGTCAATACTTTCACCATCTTTCTTTTACAATTAT AAGGAATCGAGA
ATAAAATATCCCGATTCCCAATTTATTTAAATAAGACTTGAAAAACTTGTAAATGTT TTTAGAGAGAAT
TTACCTAATGTATTTTCGATAATTGCTTCTCGATTAAGGTTAGCGCTTATAGATGAT GACATTACCATA
TGCATAAATGCAGGAAGGTAATCAATAGCTAATACAGTAGAGTCTCCATACATTCTT ACATAATTCTCT
AAATAAGAGCGTACTTGTAATTTCTCTAAACCTTTTATTTTCTTGAGGTTATCAAAA AGTGTAAAGATG
TCTTTATATAGTTCCTTCTCGCTTAGATTAAATCCTTCTTCCATTTCTTTAATTAAA GATAATGAAGAAC
CATTAAAGCAAGCTTTATAGGCAATATCGTCTATTGTATTATTATAATTCTTTTTAG CCATTGCTAATAG
ATAAAACTTTGATAGAATAAAGGATACAAAGTCTGATTTAAAATCATTTAGGTTTAA TGAAAACATTT
TATCAAATATCTTTGAACCTAGTCTAGAATATGCAATAGATGAATTTTTCATTAATT CAGTATTACTTG
TAAATCGATTCCAATTTCCATTTAATTCATAAGTAATCATTGCTTGTTGCATTAGTC CGAATAATGTTTT
TGGTTGGATTTCTCCACCTGCATTAGTGTATCGTGAAACATCAACTAATACGTCACG TTGATTGTTATA
TCTTCTTTCAAATACAATCAAGTATGATGGAAATTTATTTGATTTATTTGATATAGG AATGATTTTTCCA
GAGTTATATAACCCAACAACTTTATTTTTAGTAGGATAATTAATTCGTCTATTAATA ATATTTATATTTT
GATCTAATACATCTTTAGATAAAACATCTTTACTAGTGTTTATTTTATTAAGTTTTA TTTTAAGATCATG
CTGAAAATTAGATGTATTGAAAATGGCGGAATCACTTAATTGTACCATTATTTCACT TTCCCTTCAATT
AATTTATATGATATTAATTTGTTCAATATATTAACATTTTTTACATTTATATATTAT AAATTCGTATAAT
GGAAATATAATAAAATTTTCAGTTTATCGGTTAAAATATTATTATATTATAAAATAA ATGTGATAAGG
ATGGATTATATTATGAGTGATAAAAAAATGCTTAAAGTAGGATTTCTTAGCCCAAAT GATGATAGGAT
TCGTTTTAAAGAAGTAGATTTTTCGAATAGTGAATCTTATGATAAAGAAATTGTGAG TGTTATTAGTCC
TACCGGAAATATTGATGCAGGAATCATGAATCTTAATGAAGATTTAGAAATTCATAA CTTCTTAATTTT
ATTTGATAATGAAATGTCAACAAATAAAGGAGAATATAATTTTACACATTCAATTAG TCCTCTTTTTGG
TGAAGTTGCTTTTGTAAAATTCGGTTATACTGGGGATAATATGGAACCAGTAAGCAT GTTAGATGATG
AAGCTGAGGTTCTCAGTGATATTATTTATCAAGAAAAAACTTCTGATCGAGCAATTG AATTTAAAGAA
AAAATTCTTGAAGAAGTAAGAATTTACGGTAAAGATGGATTTTTACGTAAATATAAT GAAAGTATTGA
AGAGGCGCAAAAAATGTATGAAGATAATTTTTCAGAAGAAGAAGAAAAATAATTAAG AATGGATGGT
GGATTATAATTGTCTAATATAAACGTAGTTAGTATTGCAGATTTACATTTTGGCTAA GAAAGATGATAG
TCGACTAATGAATGAATTAACAACAATATTTATTCCACAGATTAAGAATATTCATGA ATCTGATAAAA
TTGATTTGATTGTTATTGCTGGAGATCTATTTGACCGTATTCTTAAGTTTGATGAAG TTGGTGGAAAAT
TAGTATTGAATTTTATGCAAGAACTTATTGAATGGACAAATAAAAATAATATTTATT TTCGAATTATTC
AGGGAACTAAAACTCATGACTATAATCAATTAGCTGTGTTTAGAAAAGCAGAAGTTG ATAATTATAAT
TTTAAAATTTATGAAACGGTATATAATGAAAAATTGACTATCAATGAAAAAGAATTT AATATTTTATAT
TTACCTGAAGAATATCCTGAAGATATGAATGATTATTATAAAGAATTCTTTGATGTT CAAGAAAATAC
GTATGATATGATTTTCGGTCATGGAATGATCGATTTTGTAGCTTTCACTGGTTATGA AGATGATACTGA
AAAAATTGTAAAGAAAGCACCAGTATTTGTTGCGGATGACTTAATTAAAATTACAAA AGGACCAATAT
GTTTTGGACATATTCACGACTATCATGAATATAAAAAACAAATATATTATTCAGGTT CATTCTCCAGAT
ATTCTCATGGCGATACTATGGATAAAGGATATTTATATATTAAGTTAAACAGTGAAG ATACTTCTGAAT ATGAAATTAGTTTCTATGTTAATGAATTAGCTCCAACATATGCCACTATTGATTTAGATA AAATCAAAT
ATGATAATATGGAAGATTTAGCATCATTAATTAATGATAGTCGTGAAGAATATGACT TCATTCGAATT
AAATCAACAAATAATAATGATAGTTCTATTGTAAGAAAAGTTATTGAAAATAGTCCT AATATTAAAGT
TACTTTAAAGAATAAGAATAACGAAGAACAACAAGTTGATTCTAAATGGAACTTCAT TCTTGATAGAG
AGCTTGATACTGACGACTCTATAAAGAAATTTATTAAAATTAAATATGATAAAGATA TCGATATTAGT
AAGATTAAAGCAATTCTTAATCCAGAGATTGAAGATATTGATGATATTATTAAGAAT ATTTATGATAA
GAAAAAATAATTAATAATCTTTATTAAGAAGTGAATTATGAAAGGAATGTTTCATTG TGCCATTTATG
GATAATAGCGAACGTACAAGAGTCTTTAGATCTAGAATGGATGAATCTTCTCAACAA GAATTTCCATT
AAAGATTTCCGTATCATACTTATTTAGTTTAGCAAGATATGTGGTATATCCAAGTAA ACTTATCACTAG
AACTAATTTACGGAATTTAGATACATTATTATCAGCAGTCGATATTGATAGATCTTA TTTAGAAAATGA
AGTAATGGAAAAGAATGCATTTATATTCTTAAGAGAAATTAACCGTGTATTATTACA TCAACAATCAA
CAATAGAAACATTGTTTGATTATATTGATGATGAATTAAAAGATAGAGAAATCTCTG AAGATGCTCTT
CAAGAATGTGTAAACAATATTGCAATGGTGTTTGATGATAATTTCATTCTTGATGAT AGTGAAATATTA
AGCTTAACAAACTATGTAGAATCCAGATTAAAGATTATGGCACTATATCGTCAACGT GATAGAATGGA
AGGTATTTTAGAATTAATCAAAATGAATAAATCTCCAAACGAAATTAATACTGAATT TAAAGATTTTG
TTACGCAGAATGCATTACAATTAAGAAAGATTGAAACGAATAATCGAAGTTCAATGG ACGATATTATG
TTTAGCAGAGATAATGATCGATCAGTAGATTCACTAGACTCTACTATTAGACAATTA AGAAGTCCTAG
TAATAAATTATTAACAGGATATAGTAAGTTTAATGAAATGATTAATGGTGGTTTAGA GGATGGTCGAC
TTTATTTACTCTTCGGCGTTCCTAAATCATTTAAGTCTGGTGTTATGTTAAATATTG GAATGTCAGTATG
TCATAATAACGCAGGATTTAAGACAAAAGATCCTAATAAAGAACCAACCGTTGTTTA TTTATCTCAAG
AAAATACAATTATAGAAACAGTAGAACGATTATATGAATATATTACTGGTACTAGTA TTAATGAATCA
CAAGCTACTACGCAAGATGTTTTAGAATTAATCATGCAATATACGTATGATTGTACT GGTATTTATTTA
AAAATTATGTATAGACCAAATAAAAGTATTGATACAAGTTATCTATATAATATTTAT GATGAGCTTAAT
GAAGAAGGTAAAGAATGCATCTTTATGATTCAAGATTATACTCGAAGAATTAGACCT TCTGAAGGGCA
AAATCAAGATATTCGGATACAACTCGGTAATATATCTGATGAGTTCTGTACGTTTGC TAAGGAAAAAG
GTATCCCTGTAATGTCGGCGGGACAATTAAACCGTAATGCAAATGAAATTGTAGAGG ATGCTCTTGTT
AAGAATCGTTCAGACTTTATTAATAAGTTAGGTCGCCATCATATTGCAGAGTCTGCA ATGTTACTTGAA
AATGCTGATTATGGAATTATCATTGGTCGACAAGATTATCTTCCAGAGGGTGAAGAC GAAATTAATCG
CAAAAGTTATATGTCATTTAAACTTATTGCTTCTCGTGGGAAAAATAAGGATAAAGA TAGCAATATGT
TCTCTCAACCTTTTGAAAATGGATTTAAAATTGCAGAAGATATTAATCTAGCTGAAC CATTAGCAAAAT
TAAGAATTAATGAACAACAGTCTCAACAAGATATGGAAAATAGTGCTGACGAAGTAA TTACTTCAAG
AACTCCTAGATATAACAGTACTAGTAAATCTAGTAGTATAGTTCCGGGAATCAATAC TGGTAAGAGAC
GAACAAATCTTTCATCAACAGCATTATTACAAGAAGATGATATTCCGTTCTAAATAA TATTAATAACCT
AACATCCTTTTTTATAGGGATGTTAGGTTAATTTTTTTTTTTTAGATAGATTCGGCT TTTTGACGTAATT
TACTAAAATCGATATTAAACATTTTAAGTGTATTCATACTTTCTAGTATAGTATAAG ATATAATAGATT
CTACAATTGTCATTTCTGCAATATCTTCTTTTTTAGATTCTGATAGATCCATATTTT CCATTACGTATGA
TAAGCGTTCTTCACTAATTTTCATATATAATGATTTTTCATCTTTAACTTCTACATT ATTTTCATTGCATT TATCAACAAAGTTTTTGTATTTCTTCTCATAATCAATTACATTGATAACTTTATCTTCAA TTACGTTTAC
TGCAGATTCAATTAATGATTTCTCCTCATCATGGATAGAAGATACAATATCTCCAAC TTGGTCAAATGA
TAATTTCTCTTCATTTACATAATGACTGACTTTTGTCTTAACAAGACTTAATAAGTC ACCAAAGGCACC
ATGCTCTTGAATATTGATTGATTTATTTTCTACAATAGTATTAAAAGCATTAATACA TTCATTATAAAT
ATAATCAACATTCCCTTGTTTTTGAACTTCATCAATAGGAATAGCTCGGTATACAAT ACTTCCAAATAA
TGTTGGAGCTACTTCTTCAGCATGTTCATTAATTCGATTTTCCTTTTGAACCATCTT TTCACGTTCTTCA
GCTTCACGCTGAACCGTAATAGACGTTGTTCGTAGTAATTTACTCTTGTTTTCCATA TCTAAATTTTCTT
GTAATGCTTTTTCTTCTTCTTTCTTTTTACGGAAATATTCAGTACGTGCATTATTTT CTTCTCTAAGATTT
CTTGAACTTTCACCAAAGATACTAAGTCTTGACATTAATTTTCACTCTCCTATAATT TTTGCTATATTAA
TTTGTTTGATAAGTTATATTAGCTACATGCTCATATTTTTTACCTAGATTGATAGTA GTGACTTTACCAT
TACTATCTGTCGTTTCTACAATATTATCAGAAAGTGTTTTCTTAATATTGATATATT CAGGAACATATTC
AATGATTTCTTGTTTTGAGAGATCATTAATATTTCTTGCATTGTTAAGGATTTTTTG ATATTTATTAGAT
ATCTTTTCATCATAATTACCACTTAAACCGTTATATTCAATATAGCTAATGATCGCA AATTCTTCTTCTA
ACAATCTTAATAGATTAGATATAGGTACGATTCCATCAGTATTACAGGCTTCAATAA AGTCGGAAATA
AATTTCTTAATTGATAAGTCATCATTATCATTAACGGCTTCATATGTGTGAATAGTT AAATCAATTAGC
ATGTCAATGCGAGTAATAAGATCATACTTAACACTATCTCCATCCACTTCAGTATTT AAGTAATAATAT
TTAGATGGTTCCCAACTATTATAAAATTTCATATCAATTGTAGTATTATTTTCCAGT TTAGGAATAACA
TTGCTTAATATAGTGATATACGATTCAATTAATGTATATAAATAACTATATTCATAT ATAAAATATTGT
AAACTAATGAGCGGTATCATTTCAACTTTAAAATCCTTATTTGCGTCACTAACGTTT GAAGCACCTACT
CTAGTTACTGTACTTGTCATAATACTAGAAAGATTACGATATAACTTTACGGTAGAA TTAGTAGTTACT
GATAATGCCAATACATAATTATCAATATTTCTATTAGCATCTGGAAACTCATCATCA AACAATTCAATT
TCATTATTATTCTTTGTACCAACAGTCTTATATGAATTATCTTTATAAAGAATTCCG ATCTTAATATATA
GATCTTCATCAATAAATACATTATCTAGAACATCACCATTTTCATCATATAGCGAGT TTGATAATGATA
ATAATCCTTTATTAAATTTACGATTAGTTGATAATTTTGCAGTATAAGTAGACTCTG CTTGTTCTGGATT
TTCACGTTCAAATTCAAAGTAACCATACTTCTTATTAGAGTTTTTTGACATTAAGAT ACCTCGTACGCA
AATACGTTTATCTAAGTCGCCTATCGTTTCATTACTGTTTAGATCAAACTTAATAGT ATAAGTATCGGA
ATCCAAAGTAGATTCAAAATCATGAATTTTTGTTATATTAAGTTTATTGATAATCAT TGTTGTAGGAAT
TAAGTTATTAAGATAACTGTATGATGTATCGAATGTTTCATCAATATCCAGTTTATA ATATTTAGCACT
TAATACAGGATCAATATCTATTTTAACTAAGAATGGATTAGTATATACAAGCGTATT TTTATCATTAAT
AGATTTTTTAATATCATCAGTATATCCATCGGGAAGATGTTTATATTTTTTATCAAT ATAATCATACTGA
ATTAATGAATGTTCCGGAATTACATATCCATTAATATCGTCACCTAACAGTTGATCT GTAAAATATTTC
TTAGAGAAAGTTACACTACTTGCAGTATTTGTAGGAATAACCTTTTTATCATTATCA CGTAATAATAAA
AATGCATTATATAAACGCTGAAGAACATCATTTCGCTTTTTCATAAAGTTTATTGAT GAGTCATTTAAG
CTTGATGCTCGATCAATATTTCGGAAATAGATATCTAAGTCAGTATCCATAATTAAA TTATCTCTACCG
AGAGCAGTTTCAATAATTTTGTCTTTCATACCGCTAGTACTTAGTTTATCATTACCT CCTGAAGCAGAG
GTAATAGGAACTACTGTTGTGAGCATCTTTGAAAAGTTATTACTTGCTGAATTAGTA AAGTTAAATAAT
ACTTCTCCATCAAAAGTAAAGTTTCCTTCAGAACCTTTTGTAGTTAATATCTCAATG GTTATCTTACTAT TATATCTAGGTCTAAAGTTATTAACTAATGAAGAAAAAGATATCTGTAATTTATTATCAT CAACAAAC
GTATAATAACAGAATTTCTCATCAGGATTAGAAGGATTAAAGGTATTATTAAAGTAT GCGTTTAATTTT
ACTTTTTCGCCCATATACGTATAATATATATTGAATCCTGCCAATTGATCGTCAAAC TCTGCAGTATAG
AATAAATTATCACTAATATCTTCAGACAATATATCAAAGTCAAAAGAACTACTTTGA ACTTGGTAAAT
ATCTAAATTTAGATACATATACTTTTCACCATCAAAGATAGATTGATAAACTTTTAT CTCAGGAATACT
AAGTTCAATATATGGGAATGTACTTACTTCATCAATAAGATATCTAGCTGTAATCGT ATAATCATTATT
CTGATTTTGTTTCATTAATATTTGTACGTCATAAGGTAACTGGAATTTAAATTTACC CACAGAAAATTC
AAATTCTCGATCTAATATGATCTGATAAGTTTTAAGAGCTTTAACTTTGATATATTG ATCTTCGATAATT
TCTTCCCTTAATGGAGAATTTATTAAATCCTCTTTACGTATAACCATATTAACTAAC ATATGAGAAGGG
TTTGATAGTACTAATGGTACGTTATATAATTTTGCATAATTGAAGATACTATCTGGG AATGATGCACTA
TTTAAGAAGTGTTCATCATACAGTACATTACGATTATATACCGAGTTTTTAACCTCA TGGGCTGCAATT
TCATTAAAGTATCCAAAGAAACCAGTTTTTAATAAGTTTAATGCAGCATTATTTCCT TCAGAACCAGTA
GCAATATTTGTATCATCAATATTAAAATATGTGCTTGCCATTTTAAGCCAATGTTCA TGTACGTCATAT
GACGTTTGATTTACTTTAACTACTGAACTTGTATCTTCTTTAGCATTCTTCATAAAA GAAGGTACATCTG
TTATATCGTTTGGATTATTTTTATTTGCCATTTATTCTCACGCCCAATCACTATTTA ATTATCCAATACA
AATTTGAGTTTATATTTTTTCTTTTCATTATCACCATAGTTTTCAAGAACTACTGCA GGTCTATCTAATT
TTGTTAGGTCTAAGTCTGTAAAAAAGTCATTATATTTCTTAGCAGATCCTGGAGAAG TACTATATATAA
TACTTTCTGAATCTTTACTAGACGCTAATACTGGAGAGTCTAATGATACTGAATTAA AGTCCATTAATA
TTGCGGGATCCATATCTTCTTTATATGAATAAGCATAGTTAAAACTTAACTGAGCGA TATCTTTTGAAG
CTCCAATATCACTATTCATTACGTCATATGGAACATTTGTTGGTGAACATCCAGTGT ATTTAGTATAGT
ATAATATCGTTTCCATAACAAAATCTAATAAAAAGTAATATATGGAACTTGTATAAT CAATATATCGA
TTCATAAATACTTGTGGATTAGGTTTCATTTGTCCTCTAGATACTGCTTCAATATAG TCAGTCCATAATT
TATGAATCTGTAGTATTGTACTATTTTTATCTTCTTCAAAAGTAACGCTAGTTTCAT CAGCTACTACACT
ATTAATAAATGGTCCAGGAAGTAATTGCTTGTGACCATAAAACGTTTCATTAACTTC TTTAGTAATAGT
AGATATTCCTTTAAGTGACATGTTAATAAATCTATTAGTTAACGGTTTTATGAAAGA ACTATTTGAACC
ATATATAGATCCTCCGCCAGTCTTACTGGTTGCGTTCCCACCATAATTAAGCATATT TAATATTTCAGG
GCGATTATCCCTCATATATTGAAAAAAAGAATTCACATTTATATTTTAATCCGTTAA GTTAAGTTTTGG
AGTAGTAACAAATACCATAGGGAATGCTTTAACCATCGGTTCATTTCTTAAGCTATT TTCCAATCTATA
TGGATTAAAATATTTATTCTCATTTATATTATAATTCCCTATAATCTTTTTTCTAAT TTTCGTCTGACTTT
GACAAAAGTTTTCACCAACTTTCATATTAAGATCCTAGTATGTTATAAATTATTGTT AATGTATGCATG
AAAATATTAATTTATATTTTATTTATATATTATAAATTCGTAATAGATATAGTGATC ATCCTTATAGAGT
AAGTTTAATAATTAATATTAAGAAAAATGATTTATATTACTGTCCATATTAAATAAA ATATGACCTCAC
ACCAGTAATATAAATTCTGTAAAATTATTTGGCTTAACTCTATCAGCGCTATATAAA TTGAAATCATGC
ATATCGGAGAATATTAAATAATTCTTAGGGTTAGTCGATACAGTGAGAAACTATATC TATTAAAAAAT
ATTATTGTCTTACATGGGGGCGTTCTTATGTGCTATATGATTGAATAAAAAGAAAAA ATATGATTTAGA
AAAAACAGTAATAATACTTCTTAGTATTATTAATAAGATCCTATACTGAATAAAATT GAGGTATATGA
AAGCGCTCATAGGATTATTTATTAAAGATTATTAGAGTCACATTTCAATTAATTGAT CTGTGACTCTAA TAATCTTTATTTAATTTTTTTTTTTTATAACGCTTCCTATGATAAAACAATAAAATATAA AGTAATATTA
ATTAGGTCATCTAAATTGAAAAGGAGAGAGCGTAAATGTCAAAAAGCGTATTGCTAA ATTTGACTTCA
CTCTTTGGTGAAGTAGTTCTTAGTAAAAAAGGACAATCTGAATTAGATAAAAGTTAT AAAGAATTAGT
TAAAAATAAATCTGCTAGTAATAGTTATCTAAATACAATTAAAGGAAAAGCAGAATC TGCTATTATGC
AATTTCCTTTAGTAATTTCTAATAATATATCTATCGGAGTTTTAGATGGTATTCGTA GAAATATTGAAA
TTGAACGTGCTACGGAGTTCAGATTAGTATTGTCTAACGAACCAGTACAAAATGTTA CAACTAATGCG
GAATTCATGAATAAATATCACACTAACTTTAGTCTTGGAGAAGATATTTCTTCAGCA CATAATGAATTC
AATCAAGAGTCTAAATATATGGAAGAAAAATTAGAAATGCGTTCACTTAATGATTTT ACAAGATCTCG
TCAATATCTTAGAGAAGAAGGCGAACAAGATTTTGTTAATGCTAAGATTGATAAGGA TAAAGAAGAA
ATGAGTAGAGTTGAAAGAAGAATTCAGAATTCTCGTATAGTTTCTGATCGAAATGCA ATCTCTCCATT
AATTGTAAACAGTCCTATTACTTATAGTATTTCTAAAGTCTTTAATAATGATGGAAA AGAAATTAAGGT
TGATCCTCCAAAAATTATTGAAGGTCAAATTCGTTTTGGAATTAAAGCGGTATCTCA TTTAGTTAATAG
CGAAGATATTGTATTTTATCTTGGCGATGCCGCTAGACGTAGTAATTTCTTAGCAAA AGTAGTTCGGTT
TACTTCTGGCGAGCTTAAGTTTGGTAAGGATTTAATTCTAGCAAGTGAACGTAATAA ACGTTTAGTACA
TGACCGTAAAGGTTCTGGTGCTATTTGGAGAAACATGAATTATATTTCTGAACTGAA TAATATTCGTGC
CAATGTAGGCAATGTAAATAAAATGCAAGTACCTACTATTACTTTAGCAATTAGTAA AGAAGAAGTAG
ATTCTATTGCAGAAAAGACAGGAATCAATTTTATCGATAATCCTAACGCTACAGAAC GTTTGTTTAAA
GAATTTTACTTATTAGACTTCATGATCATTGATGAACTAAATGAAGTAGCATACAAA TTTAATCGTACT
GGAAAAACATATGACCGTTTTAGCCTACGTTCTTTAGAGATTTCAGGATCTACTGAA AGTCAGTTAAA
GAAACCTATGGAATTCAGTCAATTAAATAAAATGATTAACTCTATGAGAAAATAAGA AAGGATAGGT
GAATAATTCAATGCGTGGATTTAATAATCGTTTAAAAAATAAACCAACATCTTCTAA AGATGCCTTAC
AACAGTTATTAGTTGAGAGTGGCGGATTAGAAATGAATAAATATAAATTACTTTCTG AAGAAGGTAAA
ATTGGTATTAGTGACCGAGTGTTAATTACTCTTATGAAATCAATTAAACCAAAATTA GAAAAACCGGT
ATTTAAGGATATTACTAAGTCTAAAGGTGATATTACTAAATATAAAGCTTATGATGA TCTAGAAAAAG
TATTAAATAAAGTTCGTTCCGTTATTTCAAACAGTTCTAAACCTGTAGATAAAGACG TTAAAGAAAAT
ATGTCAAGCTTAGATACTGTTTATGATTTTGTTATTCGTGAAAAAGATGCATTTATG CGTGGATTTAGT
AATAAAGATTCTTTAGTAATGTCATTATATGTATCTTGTGTTTCGGTTATTGCAGAA GGATCATTAGTA
ATGTTTACAGATGCTTTAGAACCTACTTCCGATAACTTTGGAAATATTACAATTAAT GTTAAAGATCGT
CCGAAATCAATGAATAAGAGTTTATTTATTGGACTAAGACAATTTTCTGATATGGTT AATGCTAAAAA
ATTAAAAGATATTATTAAAGGTGGACAAATTAACTTAGAAGAAGAACTAGGTGAAAG CTTTGTTGGAT
CTCTTTCAGTATTGGGTAAATTCTTTAATAAAGTAGCAGATAGTATGGATGATGCTA AAGAAAAAGCC
CATGATGATGCAGATTCTCCAAAAGGTGAAGATAGTGCAATGATTCGATTCTTCAAA TCAAATAAATT
TGATAAAGCATCGGACGTTACTCGTAAGATTGGTAATCGAGTAATTCTACCGATTGT TGCATTATTATT
AGTATGTATGTTTATTCGCCTTGTAGTATTTATTATTTATCGTACTCGTGTAAACGT TGCAGACAATCTT
CGTAGTGCTGCTGAAGTTATTGATGAGAACTCTATTCGAATTCAAGATAAAAATGTA CGTGAACGACA
AGAAAAGTCTGCTAAACTATTCCGTAAACTAGCGGATAAAGTAGATGTAGACTTTAA TGTGGCAGACT
CTGGTGCTGATAAGGATATTCGTCAACAAGATGAATTAATGGCTAAAGGTGCAGATG ATATGATTAGT TCATATCAAAATAATGCTAACGAGTTTGGTATCTAAAAAAAAAATATCCCTATACATTCT AAAATTGA
ATGTATAGGGATATATATTATGAAATTTTACGTAATATAATTTGACCACCATTATCA GTAGTATTATTA
CTTTTAGTTGAAAATATTTCCGTCATTTTAAGAACCTGATAATCACCATTATATTTA TTATAATATTCAG
AATCAAACGTTATAGTGAATTTTTTAAAACAGTCATCGATATTTATATCCATATTAT TAAAACTAAATC
TTAGTATGGTATTATTTTCAGTTATTTGTTTAGTATATTCCTGTAGATTTTTATTAT CATATTTATTTTCA
TATACAATTGTTTTATTAATAGTACCATTTCTATCCTTAATACTATCTATTTGATAA CTGTCTTTTTCTAA
ACCTATCATGTCACGATTAAAAATAATATTATTTGTACCATATAATTCTGCATACAA CTCAGTCTGATC
CATAATAACAACACTATTAATCTTAGTATTAATATACTTATCAGTTATTCCATTTAA TTGATTAGTTTCA
CTATAAGTACCCATGATATTCTGGTCTTCAGGATTAGCATTAACTGGTATTTTAACG TCTATACGTATA
TTTCCAGACTCAACTATTTCCATAGAAGACATTGGAGTAATTACTAATTTATTATAT GACATAAACACT
TTTAGACTATCATTATATATTCCGTAAGCATTATTAATGTGGCTAATATTAGTTAGA ATATTTCCGGGT
ATTAAGGCTAATTGATCGTATATTTTTTGATTGTCTGGAGAAGATAGATATGTTCTT ACTGGAAGAAGA
GTTAATAATCTAGTAATGACTTCAGTAACATTAGTATTTGAATATATACCGCTAGTA TTATATTTATTA
ATAGATAGACATATTTCAGGGACGCATAAACATTCAAATTCTTCATACTGGTAATTT GTATCTGTTGTA
TCTTGGGTTAATCTATCACTAATATTAATCGCCCTCTTATCAATAATAAGCGGCTTT AGAATAATATCT
CCGAGAAATATATCATTAATATATGAGTTGGCAGTATCCGCATCAATGGATGAAGCT CCTAAACTTAC
TACAAATTTCTCAGAATCTTCTTGTAAACTTACCATAACAGATACTGGTAATTTATA GACTAATGATAT
CAGTGGCATTTTATAATTTTGAAAATCAATATCGATTTTAGTTAATCGAATATATTC AGAAGCATCAAA
CATATTTCCATCTGAGAATAAGAACTTACTACGTAGATTAAAAGTTTTTTTAGTTAT ACGAGAATAATC
CATTTATTATTTTTCACATCCATTTCATTCATTCAATATAGTAATATGTTTATTTAT TAAAATAAATTTA
TAAGAATATATTATAATAATAGATTATAATATATTTAGGGAGTTGTTTATATGGATT ACGGAAATTATT
TTGGCTATGATACAGAAAATATCGAAAAGATTATGAACTCAAAGAAAGTTAAATATA CAAAACTCATG
TCAATGGTAAAGAATTATGTAACGAGGGAATCTATTGGCAAGAATGTAAATATCTAT ATTGATATGAA
TACTATTTTAAAGCAGATATATAATAAGGATAATATTGAAATCTTTAATCATTTAAA GAGTGATAAAC
GTTTATTTATTACTGCTGAAATTATAAATATTATTGGTCACTATAGACATTTCTTTT CTTCAAGATTGAA
AATGTATACTACGTTTTATTTATTTACTTCTTTTGAAAAATCATCATATCATACAAA TATATATCCTGAT
TATCGTAAAGAATATTACGAAAAAAGATTGGGTGATAGAGATTTTGTTTTTTCAAAT ATTAATAAGATT
ATTAAGGATAATATGAATATCGTTAAGAAGATTTTAAAGTATGTACCAAACGCATAT TTGATTAATAC
AAAAGATAATGATCCTTCATTAGTACCTACTTATTTATTAAATGATAATCGTTTTAC TTTAGATACCGA
CTTGAATATTATTATTAGCAATGATAAACTTTTCAGACAAGATTTATTATATAGGGA TAATACGCTTAT
CTTAGAAATTAAAGGAAAAGATAATAAACGACTTATCGCTTATGAGGACGTTATCAA TACTATTGTAG
ATAGTACTAAAGGTAAAAGGGTTTATTCAGACTATAACTTATTAACAGAATCCATTA CACTTCTGGATC
CTCTTGTAAAGAATAAAGAATATAATATTAATTCAATTAAACGAACTAGTGAAATGA AAGCACTAGAC
ATTATTGAAAAAGGTATTAATGATAATATTATTTCTTCACAAAGCTATTATGACGTA GATGAAGCATAT
AATGATTTAGCTTTTTATCTTGGTGAAAATAATGAGGATGAATTTAAAAGAAATATG TCAATCGTTAAT
CATAAAATTGCAATGTCACATACTTTTAAAGATTTAGAACACGTTATACTTTCCCAA ATAATTGATCTA
GAGGATGATAGAGGATTAATGGAATTGAATGATAAGTTCTTTTCAAAATATCCTATT GTTATGGACTAT CTTGGTGAAAGTTTCTATGATCCGAGATAAAAAAAAAAAATATCCCTAATGCTAATATTA CTTAGCAT
TAGGGACTTATTATATACTTATTTTTTTTTTTTAGACTGATTTAATAAATTCAATAA TTTCCATTGACAT
TAAAACTTTATCCATATCTTCGATAAATACTTCATTATCATTTTCATCAATATACAT AAAATCATAATTA
TATGAGGTTGATAATGACATGATAAAGTTTTCACGTTGAACTAGATCAATAATACTG TCATACTCAGTA
AGAACTTCTCCATAGCTTTCTGATGTTACGATCTTATTATTAATCTTATTACTAATG CGATTTCTTTTTC
CAGAAGGAATAGTTTTACTTAGTAGAACTTTGGGTAAAAGTTTATAGTTATTCTTTT CAAGTTCTCTAA
TCATCGCAACTAGTAATACTAGTACTCTGGGTTCACGGAAGTTCTTAATGGCAAATC TTTTTGCAAAGT
ACATATTCATAAGTGAAATTTGGAATTCGTTTAAATGTTTAACATTACTACTTAAAC GTACAATTTCTT
CATTAGTAATATTATATTTTTAGATAGAGTCTCTCACATACTTATCGATAGATGCAT CATTAATAACGC
TTGACATTTCATTATGTTTATGGTACTGAATTAAAGAAAATTTATCATTCTCATCTA GATCGTCATCTGA
ACTAGAAATCTTGATTACTTTGAATTGTAGTGCATAATTAGAACGGAAAGCATATTC AATCTTTCTTTT
AATAACTACGTCTAAATACGATATTGATGATTTATTAATAGAAAGTTTGCATATAAT TGTACGTATAAT
TTCATCGGTAATTTTTTGGTTTAATATGTCTTCATCTACAGATATATTTTGCAAGAA GTACCAGATAACT
TTATCTTTGTATAACGTCTTTTTAATACGTGGTTCAACAATTTTGCTAATCTTAGTA AGAATATTAATCC
CTTTTTTATTACTAAAATAGCGATTAATTAATTTAAAAGTCTTTAAGAATAGTTG TTCATTGTAAGGCTT
ATTTTTAGCATTACCTGAAGTAATAAGATATTCACATATAGTAGGAATTAACAAA CGTTGCATGATTGC
AGAACGGATTAGTACTTTATTTGATTCATCAGTTACTTGTAGTTCAGGAACAATTTT ATCAGAGTTAGT
TCTACTATAATCATCTAATGAAATCGTATATGTAGAATCAACTACTGCATCAATAGC TTGTAATAACTT
ATCAAATTTAATAAAATCTTCGAAATCTTCAATAAATTTACTTTCAGTATAATCTTC ATCCATAAACAT
GTTTACTTTAAAATTTAATAGTTTATAGGCAATTTCAGGAACTTCATTTAAAAAGTA GTTTAAATCATT
GTAAATAATATGATAGATATTTGAATAAATTGCTTGATGAATATTATATTCAAATAA CTTTTCTTTACC
CTCTAAATTAGCATTCTCTAAAATAGAAGCAAAGTCTACAACTATCTTTTTGGGATG AGCATAGTTATC
TTCTGTAATATAAGTTGTAATGTCTTTACGATGTTCAACTTTTTCAATAGTTACCAT TTCGTTTGGATCA
TTCTCACTTTTAGGTAAAGATACAGTTACTTCTTTTAATCCTTCAATAGATATATAC TTATTTTTTAACT
TAAACTCTTCCTTCACACTATTACCCCTAACTTTTGTGTTATCAGACGTTATTGTCA CTCAAAAACACCA
ACCATTCTCTTTTTATTTTTATTAATAATATAATTGGGATGAGATTAATTTTTCATC ATATACATATCAA
CCTTTCTTATTTATATATACTATACCACACTTATATATAATATATAATTGAAAAGTT ATTAACGTTTATT
AATAGATGTTCTACGAGATTTAGATTTTTTATTACGATCAAAGATACTTTGTTTCTT AGGTTTATCGATA
TTTTTATTTTTAGGTTTTCCTTTACTTCTAATATCTTTTATCTTCTTGTTATGAAGT CTTCTATTCTTATAA
CGCTCAATTTCAACAAGCTTTCTTTCTGAAGCGGGTATATTTCTAGATACTTGTATT TTGTCAATAGGTT
TTAATCTTTCTAATGAGGGAAATGTTAATAGATTATTCTTTTCTAGATATATAAGGG CAAAATAAACAC
TTTTTTCAAATCCATAAATTTGGTTTGGGTTTCTTACTTTAGGTTCATCTACTAA AGATTTAATACTCAT
TTTATTCTTAAGCCAATCAATAATCAAACCATCTCGATTATAAATATATCCATACGT AAACATAAAGTT
AGGATTATTACTATAGAAACTGATATGCGAGTTTAGAATAGAAACGTTTGTATTATT TTTGTCTATTTT
AATTACTACGTCATAAACCATTTTTTCTWYWMTAWACGTYKCAKAWSRRWTTYTAWA KWMATART
MCWAACTTTATSTTTACRTMTKKAWATAYTTMTAMWCKARATGGTTTSAWTMTTGAT TRGCTTWWK
WATAMAATGAGTATTAAATCGGTCATACATATTGGCGATAATCATATCCCGCCTAGC TAATCCTGCAG AACCTTTTCCTGAAGGGTTTTGCATAAACTGTTTTACAGTGATCATTTCTAATATACACC CCCTATTTAT
TAATTATAACATAATTTTTTGTTAAATTTAAAATAAACTTTTTTATTTTAAAAAATT ATTAACCCCTAAC
GTGAATGATAACTATCACGTTAGGGTCAACTTTATTATAAGCTAATTCGAATATATT GATTACTTGTAA
CCAGTAATCCAATTACTGAAAATGATGCTCTCATAATCTGAATATCCGTCATTACCG AGTTGATAATCT
TTGTTTCAGAGTCAGGAACATATTTCTTTTCTTTAAGATCATAAATCATTTTATTGT TAATACAACTCTC
AACAGTTTCATATACTTCTTCATCGCTAAATAATTGAGAGTTCTTTAATACAATTGC ATATGTTTCTTTA
AATGCAGAATATACTAGTTGTAACAATACTTTATCTACTTCAGTTAAACTTTCTTCA TTATCAATAATA
TCTTTAATTACTTTTGGAATTGAAATATTTCCTCCCGGAATATAACCGTAATCTAAA GCAGATCTACAT
GCAAAGATAGAATCTTCCAAGAGATATTTACGAGTATCACGTTCCAATTCAGATTTA CCACCAATAAA
TAACGTAGCTACTTTAGAAAGTAATCTAGCTTTACGATTCTCTAATTTAAAGATTTC AGAATCTACACC
TTTTTGATATACGTCTAAATTCTTTAAATCTTGAATATTAAGGTCAATTAATTCAAT TCGAGCATCTAAT
TCTTCTTGATGATACTCTCCCTTAATAAATTGAGTTGATCCACCAGTCATCGTTACT GTTTCACAACGAC
CAATATGTTCACCATAAAATTGAGCGTTATTTGTTTTACTTAAGATAAATAAGTCTT CAAAACCTTCTT
TACCTTTTTTAGTATTAATCTGAGTTCCTAAGTATATTGCTAAGTCTTCGAATTCTT CTTTACGAGTTCT
AGCGGGAAAGTCTGTAGCTGCAATTTCTAGGGATACTCTGGTATTATTGATCTTTTG AATCTTCATAAA
GTCAATAAATTCCGTTCTATATTCCTTCGCAACAATAACTAGACTTTTACCATTACC GCATACCTGACC
AATAAGATGGGCAAAGAAATCAATATCCGTCTTATCTAAACATGAATCAGTAATAAA TACATAAGGTT
CTTTGAACATTGCTTCAATCTTATTTGGTTTATTTGCAAAGATAGGGTCAACATACC CACGACTAGTTT
CAATACCATTTACAATTTCAAATGTATCCTCTTCAGAAGTAGATTTATCTAAATAAA TAAATCCTCGTT
TACCAATTTGTTTATAGATATTATAAATAATATTTCCGTCTTTTTCATCATTGTTGT TAGATACGGTTGC
AATATTACGGAGAATCTCAAAGTTATCTTCATTAATAGGAATTGATTTTTCTTTTAA TTTCTTTTCAATC
AGTTCACCAACATTATTTAATGAATTAATGATTTCTTTCTTAGGAAGCTTACCTAAG AATTGTGAACGA
TCATTAACCATTGGTTCTAATTGATTATATAATTCATTACTAACCACTACTGAAGAA GTTGATCCATCA
CCAACCTCTTGCACTAATGATCTTGAAATAGTCTTAATATTATTCAGAAAAGTAGTA CTAATAGTATTG
TTAAAACGAATCTTGTCTAAAATTGTGAATCCATCTTTAGAGATCTTAGAACCATAT AAATTATCTTCT
AGAATAGTTGTAGATCCATAATATCCTAAGGATTTAGAAAGAATATCACTAATACTA TTAAGTGTTTCT
TTAGCAATTTTTTGATATACTTCATCAGAAATTACATTGCTTTCTACAATATCAATT TTTTCCTTAGGTT
CAAGAATTCTTGAAATTTGATCTTTAATAATATTGCTCATACACTTTTCCACGCTGC TATATAAATTAGT
GAATTTAATTTAATTCACAAGAATTTAATCAACTTCGTCAACAAGTTTCTTATAAAT TCACAAAAAGTG
AAAATACAGAGGAAAACTCTCTTAAGTTATAATGGGTTTAGCCAACCCTTTCTGCAT ATATTTTTAAAT
TACATGCAGAATTATAATCTCTATCCATCACTTCATTACATTGATCACATGTATATA ATCTATCCGAAA
GTTTCATTTTTTTATCATTTTCTTTTTTATATCAACAACAACTACAAATTTGAGTTG ATGGAAACCATCT
ATCTGCAATAATTAAGGTATTTCCATATAAAATACTTTTATATTGTAATTGAACTTT AAAACGATAAAA
TAAAGACCGTGATATAGATTTAGATATTTTTCGGTTAGATAACATTCCTTTAACATT TAAATCTTCTAT
ACATATAGTGTGATAATTTTTAATAACGTAAGAAGTAAACTTATGCAGCCAATCATC TTGTATATTTTG
TATTTTCAAATAAATATTTTGAAGTTTGATTTTCACTTTATTATATTTATTCGAATT ATTGACTTTTCTAG
ACAAGATTTTTTGGTATAAAGAAATTTTCTTATATAATGGAATTAAATTTTTTAAAG GACTATTAAATC GGTGATTTTCTTCACTTATATCAAAATGACCAATATTTGCATCAATTCCAACTGTCGGAA GATTTTGAT
TTGAATGATACATACTATCATCAGTATCAATACAGAAAGAAGCAAAATACTGATTTG CTCTTTTTGTAA
TTGTACATATTTTAATATCACCATTAAATCGTATCGATTCAGACATTTTTACACCAT ATTTAAATTTAGG
TAAAAATAATCGATTATTAATAATCCTTATTGTACTTTCGGCTTTTCGATTAATCGT AAATGAACTTTTT
GCTTTTCGTTTATTTTTGAATTTAGGTTTACCTGAATTAGATGTAAAAAATCTCTTC CAACCATATGCCA
TATTTTTACAAGTATTATCAAAAATATTTGGGGGAAAATTATCCCATTCAGGTTTCA ATTTCCTTTTATA
TTCGTCTCGCACTTTTCGTTCATTAGGTTTATTGCCGTTAATGTACATTTCATTCCA TATATTCAAAGAC
ACATTATATGAATATCTTGAATAATTGAAAAAATCTTTAAATTGTAACTGCATTGTT TTGTTAGGATAG
ATTCTGATTTTTTGACTTATTATCATCTAAATCATCCCTTAAAGTTTTTTTATATTT TCGTAATCCGTATA
ATCGGCTAGAAAATACATGAATAATTGTCATAAGATCATCAACTAGTTCTTTTTCAG GAGAAGAACTT
TCTAAATTAATTACAGTTAGTGTTGTTCCATTAACTTTACATCTTTCTTCAATAAGT TCAAAACCAAAA
CGAGTTAGTCGATCTTTATATGTTATAATAAGTTCTGATACTTCTTTGTTTTCTATC ATGTCAATTAATT
TTAAAAAATTCTTTCGTTTAAAATTAATTCCGGATGCAATATCTGAAAGATAAATAT TAACAGGTTTTC
CACTATTAACTGAAAATGTTTCAATAGATTGTCGTTGGTTTTCAAGTTCTTTCTTTT GGTTACTAGTTGA
AACTCGATAATATGCTACAATTTTTCTTTTTTCTTCAGGTTTGATATTATTAGTTAG TTCAAAATAATCA
TCAACCATTTCGTCAGTATAATACTTTAGGCGTCCTTTTCGAATAGGTTTAATTATT TTTTCCTTTTCTA
ATGTTTCTAGTTTTTTCTTTGATATACGTAATTTCATTCTAAATTCATCAGAACGCA TAACCATTTAAAA
CACACTCCTTTTTAATTTATATTATATTGTTACATTAAAATATAAATTAAAGTGAAA AAGAGTGAAACT
AGATGATATTCATAATAAGTCGGCTAAATTAAATTCTTATTATAATTCCCAATTTTG TGTTTCCACATTG
GTTAAATAGCAGGACTATATCATAACCTATAATATTATAGGTCCCTCGTACTTCCCT TTCGGTACTCTA
CTTGCTTCGTATAGATATCTCAATCTATCTTATTCACCATATAGGTGTTACATTTAT TATTTGCTTTCGA
TAGTCTCTGAACGTTCACCCATCAAGTGGGAGCTTCGCTGCTAGATTTTCCATTAGT CCACCCTTAGCA
CTACGTTTTCTAAGGTTCACATTATTACTTCACTTAGACACTGATAGGTTTTATTTC AGCTTAGGTAATC
TTAAAGAGTTTTTTCTGTCTTTCGACTGCATTCACGCTTACCGTTACCAGTTACGTT GTAGCCCTTTAAG
CTTTAGGAGTTTACAAGCAATTCACAAGGTTTCGCATACATCTTTACAGATATATGG GAGTTTTGAATA
CAGGTTAATTTAATTTATATTTTAAACTAAACTCATTTAAAATCAATTAAACCATTA CTGCTTCTTTTCT
CCACTTTTTTATTTTATTATAATTGAAAGTACATTGTCATTTTCAATAATACAATCG AATTCTTCGATAA
AGGTATACATCTTAATATAATCTTTACATGAATCAAGATCAATATAATTATTAAATT TTAAGGATACTT
TTTTAAATTGTCTAATTTCTTCATCTTTGGAAGTATTGTTAAATCCTTTGATGATAT TAAATGAAAATTT
CTCTTCAAGATCATATAGTAGTAAATTAAGCTTTAATCCGAATTCAGAAT
SEQ ID NO: 2:. LPJP1.NL Recombinant Bacteriophage Genome Sequence>JGl l_062520-l_
LPJP1.NL (224,658bp):
TGACGAAAAAGCATGTCTTCTACATCTACCGGTACATCTGAAATATCTTTCTTACAT TTACTACATGTT
AATCCATGAATTGCATAAGAAATACCATATTTATCAGATTGCTCACTAATCATTTCA CTAAGACTCTTC
ATGTCACTAACTTCAAGATTACTAATGATCTTAAGAATTTGTTCTGGGTTTGTTACT TTTACAAATTTAA
GTTCTCCAGTTTTTTCCAATCTATCTAGGTCAGGAACCATTATTTTTTTAGTGAATA AAATTAGATCAAT ATAATCTCTAACTTCATCATAGCTTTCAGGTTTAATATATGATAGTAATGTTAATTTATC TTTTAGTGAA
GGTATTTGAATATCGAATACCATTTTACTTAACGGCATTTGGGAACGAGTGATCTTA TTTACTGCTGAA
TACTTTTTAATGACGCTTGGATCTTTAACTGTATCAGTAATTTGTTTTAAACGAGAA TATGTTTCTTCAT
TCTTAACAACAATAAGATTCTCATTATAAGCTTTAACATTCCTCATAACGTTTCCAC ATGATCCACACT
TAATATCAAAAGAAGTTCCACGTGGGAATGTTTGACAGAATAGTCCGTAAATTAAAG TATCTAGATCA
TAGATAGATGTAATGTCAATGAATGTATCCCAATCTAATTTACCTAGTGTAGTGGAA TTAATTTTACTA
AAGTATGTTTGATATTGACGTAATGTAGATTCATATGCAGAAGCGGTGCTTGATGAG ATAGAAAGCAT
ATCATTCATACGTAGACTCTCTACATGAGCAATATATGCTGATTGATTTAATGTAAC TTGATAAGTAGG
GCTTCCTGTTAATGCATATTTAAATTTATCAAAATTAATATCTTTAAATTTATCTTC ATCATCAATAATT
AATGAGTCGATATCTTTTAAATTATCAATTTTTGCTTTATCAAGAATATCTTTAACT GAGTCTTTTTTAG
GTTCTTGTTTAATTTCAGTTAATGTTTCATCTACTTGTACGTTGTTAATATTTTCTT GATTAATTGGGTCT
TTAATAGGAATCTCATCACTTGGTTCTTCAAAAATTCCTTTAATCTCTTCTTCTTCT TTTTTCTCATTATC
AGGAACATCATCAGGTATTGGATTTCCATCTAAAGGCTCAATGTCTGATGGATTATA CGCAAATTGTTC
TTCATTTTCTTGTGATTTTTGTTCATATTGATATTGTTGAGTCATTGCTTGTTCGGT ATTTTCATTTTCTC
CAGTATTATTCGTTACTGAGGAATCTTCTTCTTTCTGGTAAACATCAATACCTGTAC CAGAGAGAGATA
AGTTAGGATCAATATTCTCTTCTTTTTTAGCTTCTTCAGATTTTCTACGTTGCTCTG CTTCTAGAAATAA
TTTTGCTACATGTTGAGGATCTTCACCTACTACTTGGGCATGTAACATTGCTATTTC TAGATCGCTCATC
TTTTTATCGGGAATATTAATATTTGTAGGAATATTGTTATTTTCATTATTATCTGAT TTTAATACCATTG
TATATTTTACCTCCACATAATTTATATTATTTTTAATTATACATTATTTTTGATACA GTTGTATTTGTTTT
ATTATTGTATCCATATAATAATCCAAAGTTTAGATTAGTAGTAGTATTAGAATCTAC TAAATTAATATC
TATATAAAACGTATTTACATTTACGTTTGAATTACTAGAAAGAACGTTTTTAACATT TTGTATATTAAT
CTTTACAACGATATCTTGATGTACAATATATGATTCTATTTGATTTTCAATTTTACT TTGAAGTTCTAAT
CTAGTTTCCGTATCCAAGATTTCATATAAATATAATCCGATACCGATGCCCATATTA GGTTGGTTCGGG
TACGTTCCTTGCTCTATTATAATTAAATTTTGGATCTGTTGTGCTAATGCTTCTAGG TTTTCTCTTAATAT
TGGTTGATTGAAGTCATCCCTCTCTAGTATAACTTCAGGTCTGAATGATATATTTGA TTCATCCGCTTTA
AAGTCTGCCATAATTTTCACCACTTTCTATTTAAAGTATTCTATAAAAATCAATAGC TTTTAATTATAAT
TATATGTTGCAGTAAAAATTAACATTTTAAAAAATTATTTGTGAACAATATTATATA TAAGTTTAGAAA
AATTTTTTTCTGGGTTTATATAATACTTAAATATCACTAAATTGTTTAAAATACTCG GGTTGTAGTTCAC
ATTGTTGACTAACCATTTAAATAATATAATTACATTTAGTGATATTATACATATCTT TCATCATAACATT
ATTCTAAAAAATAATGTTATGATGAATATTGTTTTAATGAACATATACTTATTATAG ATATATTAATGC
AGAAAGAAGTGAATATTTTGAAACAATTTAAATGTCCATATGACAGAAAGATATTTG TAAATAAAAAG
GCATTATATGATTATATGGAAAAGAATTATTCAGATCAATTAAATGGACTATCTCCG GCTAATGCTTAT
TTTAATATCAAGTATAACAAAACACATGGTAGATGTATTGTATGCGGTAAGAATACA CCATTTAACGA
AACTACTGAAAAGTATGATCGTTTATGTTCAGATAAATGTAAAATTAAATATAGAAA GCAGTTTGTAG
AGAGAATGAAAAAAGTTCACGGAACAGATACTCTATTAAGAGATCCTGAAATGCAGA AAAGAATGTT
AGCTAATCGTAAAATTGCAGGAGTATATACGTGGTCTGATGGTAGTAAATTTAAATA TGTGGGTAGTT
ATGAGAAAGATGCGTTAGAATATATGGATAAGATATTAGGATTTCACTCTAAGGATA TTATTGTTCCTT CTCCAATAATCTTTGATTATACGCTTGATGGTAAAAAACATTTCTATATACCAGATATAT TTATTGTTCC
TTTCAACATGGTGGTAGAAGTAAAAGGTACTAACAATCATTACCAAACTAGGGATAG ACGTACTGAAG
ATGCTAAGGATAAAGCGGTTCTTAAGACAAAGTATCGTTATGCAAAATTAGTTGACA AGAAATATGAC
AAGTTCAATGACATTATTGAGAATCTTAAAGAATCAAAGGACGATAAAGTCCGTTAA TATAAATAAAA
TTTTAAACCCTCATTTCAATAATATATTATAATTAAGATAATGTATATTATCATATT GAAATGAGGGGA
TTTTATTGGAAAATAAGAAACGTAAATTCTTGGCACTGTGTGGAATTAGTGGTTCGG GTAAGAATTCT
GTTGAATCTATACTTGATGGTTATTATGATAATGTTAATGGAGTGTTTTTTAAAAAA CTAAATCAAGTA
ACAACTAGGAATATTCGAAATACTGATGAATTTAATAGTGGAATATATAGTTTTATA ACTATAGATATT
TATAATCTAATAAAAGAAAATCTCATTGGAAAAACAGTTATCGATAATAAATATTAT TATGGTACGCT
TGATACTAGTACTACAGATGGTTGTATTAATACTATTATTGTCAATGCAAAAGGATT ATCTAATCTTAA
GAATGATCTTAATAATAAGTATGGTGAAGATAACTATGACCTATTTGTATTGCAGAT TGCTAATAATAC
TCCTGTGGAAAGAAGAAATAGAGACGCAGAATTTATCAGAGGTGAATATAATGATTT AAAAGGATTG
TCTAACGCAACTCTTATAAATAATCCTAGTAAATGGTTAACTGTCTCTGACGTAATT AACTGTCTTAAG
AAAGAAGGTTTTTTGGATACATGACATTAGTTAGTCATACTAAGTTATATGAAAAAA CAAATTATCGT
AATAAAAGAATTAGCTATATTAAAAATACGTTGATTACTGAGTTTGATATAAAAAGT GCTGGTCTAAA
TATTCTATATGAAATGGAATATTTAGACCAAAATCAATATGAAAAATTATTATCAAT GGAAAAGTATG
AAAGAAACGTTACAATCGGAAAGATATTAAGGTCTAATAAAGAAATGAATGAAGCAT TATCATTTGGT
TTTTCAGAAGCGAGAAGATTATTTTTCGAATTAAATCAAATTGATGATTCAGAATTA TTATCTATTAAG
AAGGATGCAATATTTCTTATAGGTAGAAATAATATAAATATTAACGGTAATGTTTCT GAATTTATAAA
ATTTAGACCAAAGAAATCTTATACAACGTTTGTTGAAGTGTTAGACCGAGAACACTA TTTGAACTTTG
AAAGCGAAGAAATAATTTATGATATTAAAGGATACTCTAGTGATATTAAAGATATTC ATAATGAATAT
TTATTAAAGGATCTTCTTAATGTAATGAAGTTTGATTATGTTAATGATAAAGATAGA ATATTTGAATAT
TTAGCAGTTCTTAAGGATGACCTAATTAAATATAGACTTCCAGTATCATACTATAAT GATATTAAAGTA
GGAAAATATATTGTAGAAATGGGTAACGCATTATTTGATCTAGATAATATTAATGAT AATATTAAGCA
ATATTGCCTGTTGTCTAATAATCTTAGTTTTATTTTAAATCTAATCAATAAGACTCT TTCATAAAAAAA
AAATAAATAATATATTAAGGTAACGATCATTAATTTGATCGTTACCTCTTTTTTTTT TTTCTATGATCCA
TAATATACTATATATTTACAGATTTTATTTTCTTGTCAATCGTTAATGATACTTCAG TCATGATAAGCAT
AATCTTGCTCATAACATATTCCTCAATATGTTCTTCTGAAATGATGGTAGAAACCCT ATATTTTAAGTC
ACTAGACATTCTTTCTACAACTTCATTAGTACATGATATAACAGATTCTTCAAATTC ATCTGTAGTTGT
ATCGATATCTATATCATCACTAAGTTCACTCTGATCTTCATCAATAGATGTTTCAGT AGTCGCAGTATTT
TCTACATATTCATTTCCTTCATTGTCATACTGAATATTCATACCATTAATTGCAGTA ACTTCACTTAATC
TAGGAAGTATTCTATCAATACTTTCAGCAATTAAATTATTCTTTACAATCCGTATGC TAATATCAATAA
GAATATCTAATTCCTTTAGTGCTTTTTCACCATCAATATTATTATGCATCATTCTAT TATTACGGTTAGA
TTTAATAATCAATCTTCCAATAATTATATGTGTAATAAATATAATTATTAGTATTGA AGGTACTGTAAT
GTAAAATAAATTTGTAGTCATCAAATAAACTTCCCCTATTCATTTATTATTTATATA TAATTATTCATAC
TAAAAACTTGAATTTTATTTTCTTCTAAGAAAGATACAACTTCCTGAGAATTATCAT ATTCTTCTAAAT
AATATACTTTAGATATTCCTGAAGCAATAATCGTTTTGGCACAATTAAAGCATGGTG AATGAGTAATA AACATTGATGCGCCTTCTGTATTTCCAGAGTTTCTAGCCACCTTAGATATTGCGTTTATT TCTGCATGTA
TTTCATATTTTAATGACCATTTATGATGAATTTCCATATCTTCACATAAATAAAATT TCTTTCCTTGACT
TTCAATATAATAATCTTTGCGACAAATGAATTCCGGATGTGAAGTATACCATAATCC TTCTTTCTTTAT
GAATATATCATTACAGTTAGCGTATCCACTAGGGGTTCCATTAATTCCTGAAGATAT AATGGAGTTATT
CTTAACAATAATGCAGGAGACTTTCTTTGCAGAGCATTTACTTATTTCTGACATTCT TATTGCAATATTC
ATAAAGTTTACTTCGTTTGTCGTAATATAGTCATCCATATTATTATCTTCATTATCT ATAAATATATCTA
CCACTATATAACCACCGATCTTATTCTAATTATAATAAATTATTTGAAATGATGCAT TGTTTAAATACT
TTTAATTTTCCGAATGTTAATGTTAATATCAACACGATTTATAAAATTGTCAATTTC TGTATCTGTATTA
GAGAACATATTTTCAAAGATATCAAACTTTATAATTCGATAAAAGCTATCTTGACTT ATATAATGTGCA
ATATTATTAACAATATTATCATTATCTGTAAGATAAAGATACTTCACAACAAGACTA AGCGTTGTTAAT
ATTAGTCTGTATATTTCTTTTATACGATAATCGTTTATATTTTTATCTATAATTAAC GTATCATATGATT
CTGTCTGGAAGTTAAATTTATATGTTTCTTGAGAATTTACTTTCTTCATCAAACTAA TTATAGATACTGC
GTTTGATGGCATTTTTTTCACTTTTGGAAATATCAATTCTTTATTATTTATTCTTCT TTTTGTATCTTTTAT
TAATTCATCAATAAATTTTGAAAATTCGGCATTATATAACTCATCATTACTTAGATC CATATTTTTTTGT
AGTTCAATATACATTTTAAATTCTAGTTCCAATCTATTTAATATATGAACTTCATGC TTTGATAATAAGT
TAATATATAATACGTTTATTGTAGGAAATTTAATATTGGATTTATCATCAGTATCTA TATCAGTGGATT
CTATATAGTATGATGAGGGTGAAATATAATTTTTATATTTATACATATGCGTATATG AGTAAATAACTA
ATTCATTAGTATACGTAAAATTCATTAAATTATCATTATCATAATTATCCACTTCAA TATAGTTGTTTAT
TATTGCATCTTTTCGACTGATTAACGATCTTTCTTTATTATATTTGTGCATTATAAA AGAGATATATCTA
TTATTATTTATATAATTAGATGAATCGATAAACATGTCATATTCTTGTAATTCTTCA AAACATAGTTCTA
AAATATTTGCAAGCAATATTTGAATTATATTTCTATTATCTTTTATTTTATTATAAC CATAATAATTTTT
GTGACTTATCATAGGAATATCTGAAAATATGATGTAATTTTCAGAAGTAAGAAAAAA ATTAGAATTAT
TTAAATCATTGAAGATACCAGTAATTTTACTGATATCTTCAAGACTTATATTTTTAA ATTTTTCATAGTT
CCATAAATTTCTCACTTTAATATTATGGTTAGCATCAGTATAGAAATATTTAGTATC AATATTCATTAA
CTAATCACTATCCTTATATAATATTTTAGTATCGATATTTACTTTTGTTTTTAAAGT TAACGTCTCTTACT
GTTCCTGGAGGATTATTGATTGATAATCCTGCATTATTATTACTTTCTGTAAGAAGC CAGATAGTATAT
CCTTTAGGTTTCTTACAATCAAGCGTATTCTCACCAAAACCATCCGTAATAATAATA TTAATATCTGAT
CGAATATTTTCATTAATATATTTAATTGGAGCAGTCAATGTAGTTCCACCATAAGCA GTTCTTTCAAAT
TTACGTAATCTATCTTTCTTAGATAACGGATATACATCATGAACCATTGTATCAAAG TGAATTACATAT
AGTTTACTTTTAATATTTGAAATAATCTGACGAATTTGATCAAAAGCCCAAGCCACT TCTTCGTCACTC
ATTGATCCTGACATGTCGATAGCTACGGTAATTTTAGATTCACGATCCGGCATTCTT CCTAATAAGTCA
CCACGATCTGGCATTCTTCTATTTCTACGGAGATTAGTTCTTTTATAAGGAACTTTT AAAGAACCAATC
TTCGTACGTAAGATTTGTTGCCAAGGAATAACTTTTTCCTTATTAATATTTTCTAGA AATTTATTAATAG
AAACAGGAACTGATCCGGCTAAAGATAGTCGTTCAATAGTATTTTCGATATTTTGTT TTATTGAACGTT
GAATGTCTTCTTCAGAATAATCGCCGTTTTTCCATTTTGAGTGAGAAGAATTAGCAC TATTATTCATGT
TAATGCGTTCTTTCTTACCTTCTGAATCTAATTCATTACCTAGATCATTTTCATCTT TTCCGTATTCATGA
GATTTGCCAGTATTACCATTAGAAGAACCTTCTTCTTCATTTTCGCTGTCATTATCT CCACCATTATCAG TATCAGATGAATCATCATCATTATTCCCACTTTGATTACTTGGCATTCCATTATTATTTT GACCGCTTTT
ATTATTTTCATTAGCTTCTAATAATGCATCCATATAGTATTCAAAAGATTTATCTTT TTCCAAATCCTTA
TTATTAGTTAACATTCTTACATAATCTAGTGTAATAGAACCTTCTGGAATATCATCA ATATATTGATTA
ATAGAACAATCCATAGCAATATTTGCCATATGCATGAAGTCTTGATTTTTACTAATC GCCATATTCTTA
TATCGGAAAATATGATTATTTGAAATATGAAGTAATTCATGAGTAATAACTGCAATG AATTCTCGATC
ATTAAACATTAAAATTTTATATGGATTTAGATATAATGTAAATGTATCTTTAAATGT ATTTTCAGCATA
GCTAACTGCTGCCGGAGCAAAGTTCGGATCATGAACAACTTCTTTAATCATATTAAT TGTAAATAGAG
CAAAGAATTTGTCATCATTAATGTTATCACTAATTAAATTAGTGAATGTTAACTTAA TATATGCTTCAA
ATGCTTTTTCTAACTTTTTTGAAGCTTCAAGAGGTAAAAGCTTCTCCTTACCATAAT ATTCAAGAAGAA
ACTTTTTTAATTCTTTTCTAGTCATACTATTAGAATTATAATTATCTAAAGTAGGCA TTAATATCCTCCA
CCGATCTAATTATTTTAAACGTTTACTAATTTTTTGATTGATTGCGATATATTCATC ATATTGATAAACT
CTGTTATAGAAATCATCTGCAGTATTATTTACTTGTCGATTAAACATTGCAAAAGTA CTCATGATAACT
TCTTCTTCTCCCAAAGTATCTACAAATTTAATATAGTTCGCAGTCATTCTATCTAAA TCTTTTTTATTTTT
TACTCGTTTACTATCGTTACCCATTTCACGAACAACATAATTAATTACATAACGACT AAGTAGTGTTTT
ACGTAAGTTTGTTTCCTCTTTAATTTGGGTCAATAGTTTTTCATCTTTAGATAAGTT TGGGTTATCGATA
ATCAATTCAGCTCGGATCATAGGGTTTGTTTTGTCTTTTAGGAAATTAAAGAATAAT GAAGTAGCTTTC
GAACCTAGATTACCTTCAAACACTGCACGTAGTTTATGACTAATAGATACTGTATCT TCTGGGAATTGT
TTCATATGTTCATAATACGCATCAGAACTACGTTTCCATGAACGTGGAGTAGGTGAC TTACCTAAGCTT
GAACTATCTACAAATGACAGCAACTCAGGATTTGTTGCAATAAATTCAGAAATATCT TCATGAATGTTT
GGTCGAATATATAGTGGAGTAGAAGTATTTGCATCTACATATTCAAATTCTTGAATA GCCCAATCTAAC
CATTCTTCTGGATCTGGATCTAGTCTAAGATCTGTAAATCGGTCACGTAGGGCATAG TTCATTGTGTTT
ACTTGATAATCAATACCGTCACTGTTTTCATCTGTAGGATTTCCTGCAGTAATAATA TATAATTCTTCTG
GAAGAGAGTATTGATGAATTCTCCGATCAAGAATAATATTCATTAACTCTTGTTGAA CAGCTAAATCT
GAACGGTTAAGTTCATCGATAAATAGTAATGGAATTTTTCCATTATCTGCAATCTTA TATAGTTTACCA
ATTGTACTATGAATAGTATATTCATTTTCTTTAGGTTGTTCTTCATTTTTAAACCAT GTTTTGATATTTGT
AAGTTTAAATTTATTTTTAGGTTCTGCAATATGAGGGATACCGGTAATTTCTCCTTC TTTAAGTAAGTTA
CCATCAAGCTTAACAAACTCAATTAAGTCACCATTTCTTTCATTATAACGTTCAACA AATAATTCAGCC
AAACTAGATTTTCCGATCCCTGCATGACCTTCAATAAATGGTACGCTTCCTGAAGCT ACCACTACGCCT
ACTACATCTAACAAGTCTGACATTTTCATAAATAAATTCCACCAATCTATATTTTTT ATTTTATTACTAA
TTTATAATATATATTTATAAATTATTTATAATTGTGTTTGTCGCAGTACTAATTTTG GTTAATGTTTCTTC
AAGGTTTAAAAATACTTTCTTATCATCATTTTTTGCTTCTAATGCAAGATCGTCACA TCGCTGATTATAT
TCAATAAAGTGAGGTAGTAATTCTTCTGGAATATGTCGATTTCTTTTTGATGTACCT TTTTTAAATGAAT
TAGTAGTATGTCCTTTAACCCACGTAAAATTAAATTCATATTGAGAAGAACTATTAT TAATAATATTTA
CTAATAACTTCCACATCTCAGCATTCTTTACTGGTGTTCCTGAACTACTCATCCAGT TTCGATTAATCCA
TCCAGTCATATATTCTGTAATACCTCTGATAACGTATTGACTATCTGAAACAACACT AATATTAAACTT
TTCTTTATTACCATTCTTATAATTATCTCTCATAATATGCGCTATTCCATAAATAAC GGCTAATAATTCA
TTTTGGTTAATTGTTGAATCATGAAAAGATCTTTTAATACTGTATAGCGTATTAAAT TCGGTGTCAGTA ATATAGCATCCAAATCCTCCATACATAGGCTTACTGGGGTCTTTCCTACCATTATTAAAG CTACTTGCA
TCCGTAAATAAATATATGTAATTTGTATTATCGTTGTCCAATATATTTTCACTCCCA CGTTTAGTTATTT
CTTTTCGCCTATATTCTATTATTGTAATTCTAGAATAAAAAATTAATTATAATAAAC AATATAATATAA
GCACTTCTATAAGAAAGGTCTGATATTTATGAAAGTTCCAAATAAGAATATAATAAA TGATATTATAG
ATAAGGAACTAGAAGAAAATAAAACATTTGTAGTAGATACTAATGAATTTGATACTG AGAATATGATC
AATAGTGTTGTTCCTAGTGAAGAAAAATTTAATAAAGCTATTGAAAAAATTATTCGT AAGTCTAATGA
ATATCGTAGATATATCGGAATACTGAAAAATAATATTGATCTAACTTCTTGTAAATT TTTGAAACGTGT
TGATGTTTCTGAAATAAGAAGAGTTAATATTGAAATGCATCATTACCCATTTACTCT CTATGACATCGT
ATCTATGCATCGAGAACGTATCAAGCAAGATTTAGGTGAATTTTATTCATATGATAC ATTCACAATTGC
AGAAAATATTATGAAAATGCACTATGAGAATAAAATCGGTATTGTACCTTTATCATA TACTGCTCATG
AATTAGCTCATTCCGGAAAACTAGTTATTCCTCTTAATAAAGATTATGTCTTTGGTA ACTGGCAAGAAT
TAGAAAAAGAAGATATTATTATTACAGATAGTATGCGAAAGCAACTAGAAGTATTAG AACAAATGAC
AAATAGTATTGAGTCTGGAAGCCTTAACTCAAACGAAGATCTATTTAGTAATATTCA GACTGTAATCA
ATATGAAAAGTTCTGGAATACCAAATAAGATTATAAAGGAAAAATCAATCATTGAGG ATATTAATAAT
CCTGAAACTGATGAAGATATAATATAATAAAAATCCCTTAACGTATAATAATACTAT ACGTTAAGGGA
TATAATGTTATATTATGATTTTTTGCCATTAACTTGATCTAATAACTTATATATGAA TAATTCTTTATAT
ACTTTCTGATCTCTATTATATTTATCAATAGTTGCTTTTTCATCATCAGAAATAACT TCTGTACTAAAGT
CTTTAACTTTAATAACCATATCTAACTCTGTGTTTAAAGATTCTGATTTTAATACGA TATGGAATAAAT
TTATGAATTTAGTATTTTCACCTTCAATAAATTCATAATTATCTAATAAAGAAATTT TCTTATCAACATC
AGAAGAACTAAATATTTTTCCAAAGAAATCATCAATATATTGATTAATTGATAGTTT AATAATTTCTTC
TTCACTATAATTTTTATTAGTTGGAATATCCTGAGTGTACCAAATTTTTTGAATTTT ATCATGGAGCAAT
ACATTAAATACGCCCGGAGAATTTACCATAATATTGCTAACAACAAAGCTAATACTA AACGTATATAC
CTTTGGCTTAGTTTCTAATTTATCATCTGAGTTACATGATCCTTCTGATGAAGTAAA GTTATAAAATGT
ATTAAATTCTTTTACAAACTGAGCATATAATCTTTCAATAAAATTATCTTCAAAAGG TCCAAAATCTGT
ACTTAATGGAAGTTCAAGGTCTCCACTCTCCATTAAATTAATTGCTTCTTGAATTGA TTCAATTAATAT
ATCAATCTTACTATTTACTTCATTATCAATACGATCAGTTACACCTTTCGGACCATA GATATTTAACGTC
ATATATTCATTATTGTTATCATTCTTATTAAGTACGTCATATGTTACACTAGTAATA ACTTCACAATTAC
GTGAAAAATCCAATTCTTTATCAGTGATATCATCTAAATCTTTGATATCACCAATAA TTCTTAAACTAA
TAGCATCCTCAATATTAGGCATCCTAATTCCACATCCATTTCTTTTTATTTGATAAT AATTTATTAATAA
ATAAATATAATTTTTTACATTCATTTACAAGATTATACATTCCCTATAACTATGATA TATTCAATAGTTA
TAGGGAATGTATTTATAATTAATTAGTGCATTGTATTAATATATTGTATATACGATG AAGCGTTATCCT
TTATTACATTATCATGTTGTCTTATTTCATATTTCGTTAACATGATATTAATGAAGA TATAAGTTATAAT
AAAGAATATATAACTAAGTATTAATAGTTTTAATAATAGTTTATTTTTAGTTCGATT ATCTTGGTTTTCA
TCAGTATCTATATTTTTTCTTAAATTCTTCATTAAAAAGTCCCCCTTTTATTCTATA TATTATATTGTTTT
TTAATAAAAGCGTAATAAACGAATATATAGACATATATTATAATTATGATAAAATAA TAAATAATATA
AAGAAAAGGATGATATTATAATGAAAAAATTTGTACAAGTATTATTAGTAGGAGTTC TATTAGCAGTA
GCAGTAACAATTGTAACTATTAACGTTACAGAAAGTAATAACGGTACAATGCAAAAA GAATTATTACC AAAAGAAATTTTAAATAGACAATAGTATAATTACTACTATTGTCTATTTTTTTTTTTTAG TTGATTAAGA
ATATTTTATCATAATCTAGATTATCGTTGAATTCTAAAAAGAAGTCCCCAACATTAC TTACTGTACATT
TTCTAATAGAAGATACTCCTTCATCTATTGGTGTAGTATTATTTACTTCTAGCGCCA TACTATTATCACT
ATAAACTCGGATAGATATTTTCCAAGAATAGATAACTTCTACATTTTCTTCATTTAA TACTTTTTGTATC
ATGTATAAGTGATATATATTGTCATCATCCCTCTTCATATCGTTTGGGAAGATGTAT CCAATAGTTTTAT
CATTCTTATCAAAATAAAAATTTTCCACAATAAATTCTTTGACAAGATTAGTATTCA GTAATTCAATAG
CGTTATTTAAGAAATCTTGTCTAAATAAACCTAAATTATGAATATTGATTTCTAGCA TATTATAATCCA
CACCTTTTTCTTTTTTCTTTTAAGATATTAATTCATTATTAAGATAAATGTTTACAC TAAAGTCATCTTT
AGAAGTATTATTTATTTCTAACGTAATAATGTAATCATTGTTAGCACTATAAAAGAT GTATTCTTTTAT
ATACCTAAAATTATGTTGTTTATCAATAAATGAATCAATCGTGTTTGATGTAATATC CCCCTTATAATC
TTTGATATAATTCTTATCAAAATATATTTTTGCTTTATATATCTTTTCTTTAATATA TTCAAAAGATTCTT
TGTTATCTGCAGTAATTGTAACTTGATTATTTAGAAATTTGTTATAATCAATATTAA GTATATTTACTTC
ATTATGATTATAACAAACGTTCCATGCAGTAAATATTTCTTTTGAAATAAACTCAAA AATATTATTATC
CCCACTGTTATTCATAATAAATTTCCCCCGATATATTTATTTGATATAGTAAGTTTT ATTCTAATATTTA
TTTAAGTTTATAATGATATATTATAGATATGGCAAATATATAATATATATTTTAATT TTTCATTAACAAT
ATTTTAAGGAATAAGGAGTGCTGATTAATGTATAGATATATACGTACAAACGGTTCT ATGCGAAATAA
ATTGAAAGAAATGAATATTGATAAGAATGACAGTATCTTTGAAAATACTGTTAAGAT TATTAATGAAT
TAATAAATCATTTCTATTCAATAAGTGAAGTATTTAACTTCATAGAAAAAGAAAATA TTCATATCAATA
ATGAAGTGATGCAATATTTAAGTTCTGATGAATTTTATAAATCTGCATATACTTCGA AAATAATGATGA
AGAATCATATGTCTAAACATTCATTTATTCGCATGATAAAAAATGAATTGTGTTATC GTAATATTAGTT
TTATTTTTAATGATTCATTATTTACTAATGATGATATTGCCACGATAATAGTTAGGA ATGATCTAGCTG
AAATACCATTTGATATTATGGTTAAGGAAAATCCATTAAGCTTGAAAGATTTTAAGA AGACTTTAAGA
TATAATAATTTAAATGATCATGAAAAATCTATTTTAGAATTACGTAATATTTAAATT TATTAAGAAAAA
AAAAAGATAACTATTGTAATTTTAATAGTTATCTTTTTTTCGGATCATAGAAATATT TTATATATTATAT
AGGATAATCATATTATATATCTTTAATGATGATAATCTGTTGGCTAATTCTGGACTT CTTTTCTCTAATG
AATAGATATCGATAGCTTCAATAAGATTAATTACTTTAATAAATCCTAGATTTCGAT ATCTTTTATTTAT
TAAAACAAAATTAAGTAATTCTATGAATTGTATTAATCTTTCAGCATGATACAACGA TTTTATTTTATA
TTTTTCTTCAACATCAGCGAGATCTAATCCATATTCTTTGTAGTAATTTTTCTTTAA TAGCGGCTTCATC
CTACGTATCATGATACTAATATATCTATTAAGTTCATTATAGGTAGTTTTAGTATTC TTATACACTGCCA
TTTTATGAGTTTTAAAGTAGTTATATAAGTAATCTATTATATCATTAAAGAAATATT CGTTTGCATAAA
TAATCTTTATAAAACTAGACTTTGGCATAATAATATCTAATATTTTAGGGTTAATCG TAATCCGAGTAT
TTTCAACCCTTGATAAGAATTTAATATATGTTTCAGTTATAAATTTATATACAACTT CTGATTCAATATT
AAACTTTTCACAAAAATTACATATGACATCATTGATATCATACTTATTATCACAACA GAAGACGTAAG
ACGAAATTGTATACAATAATATATATTCAGTATTATTATTATTACTATGACTAATAT TATCATATAAAT
CACTTATCATGATCATCATATTTTCAGGTTTAATATCATATAAATAGAATATATTTT GATAGTATGATA
ATATTTGTTGACTTTTACGTTTATTATTCTTTAATAAGTACGTAATAATATTCATAG GTAATAATGTAAC
CGATTCCGTATCTTTTTTATCTAATGCCCTATTATTACCTAAGTATGATAAGATATC GATAATATCACCA AAGTTAGAAATATCATTGTATATATCTAGTATACTTTCAATGTTTTCATTTAATGACATT GGTTGTAATT
TATATTTATACGTTATCATAATTTGTCACCTGTATTCTTTTCAATGATATTTCTAAT TTTATTATTAGTAT
ATTCATCATTTGAGTAAATTCTAGGTAATATCTTTGGTTTATTCTTATTAGAAGGAA GATTATCAATTAT
TGAAAAAATTGATATTACTTTATTAATAATATTTATAATATTGGTATTTTTAGATTT CAATAACTTATTA
ATGTCATATGATAATAATTCATTATCACTATCAAACTTCTTATAGAATGTAAAACCG TACATATTAATA
TTATTTTCTAGTAATATTAACGTATCCATAATATTATTATATCTTACGTCATCCAAT TTATCTGAATACT
CCGTTCTCATAACAAAGCTTATTACTTTAACAATAAAATCAACTACGTTATATTTAT TTTTATATCTACG
ATATATTCTAGGATAATTGAATATAGAATTGATAAAAGTTGTATCTTTATACGTTAT ATAGGATACTGA
TATAGAAGGGTCTCCGGTATCAATAATTCTAGTAATATTTTCATATTCATCATCAAT TATATTATCATTG
TTAAGATATTTTAACAATATATATTCAATATATAGTAAATTCATATTTAAAAAAGGA TCTAATATACAT
TGAATTTCATTAAAATTTTTAATATTTATATCATATCCCTCATACATTATAATATTT TCGATAAACCTTG
ATTTTTCAGTGCGAGAATAATCTTTAATTTTACAAATATTATTTTTTGTTAAGAG ACATTTATACTTCAT
TGTATTGTTATTAATAACCATATCCCTAAAAATTTCTTTTGTATCTTTTGTAGGTTG ATCTACATATTTA
GAAAATTTACGATTAAAATCAATTGTATCCCTTAATGATTTTGGATTATAGGTTCGT GAATTAATTTCT
AAATATTCTTGAATGTCTGTATTAATTGATATACTATTTGTCACGCTATATCACGTC CTATCATTTATTA
TATGCTTAACAAATTAATTCGGCTTTTCATTAACTTACATAATTCATCTATTCGTTT AATATTATTAAGA
GTGTTCTTTCTTATTAATGAATTATGATTATCCGCACTAACATTATCTTCATATCTT CTAAATAATTCAT
AATTATTATTAGTATAATCTATAGAATCCAAAATTTTAATACGTGCATTATTTTTTA CGCTAGTCATTTT
ATTATTATTAAAATTAATATATAAGTTTAATAATTCAAAAATAATGGATATTCTATC AATACTGCTTTC
AAATAATATTAGATCATCTTTATTGTTAAAATTAAGATATCTAGATATTCTTAATGC ACTATGAGGGTC
TATTCCGATAATACTGTTAATTGCTTTTTTACTATTAAGTATTATATCTTTCTGATT ATCTGTAAAAAAT
TTAGAATAACCACTACCATATATTGTATTGAATATTTTAGCCATTGATGATTTACTA ATAAATTTTTTAA
AATGTTTATCATCAATATCTCTAACGCCATATATCGCACAGAATAGATTGGTTGAAT ATAGATTCATTT
TGTCAATCATAGTTAAATATTCATTATCTGTAATTGTAGAAGATTCTGAAATGCATG TTTTAAACTTTTC
AGATATCCTATTTCTTATACCGAAGTCAGGATCATCGTCATTGGATATATTGTTATA TGTGTCAAATAG
TCTAAAAATAATTTTTCTAATGTATGAAGAGTTTATTTGTAAATTACTACTAGTATA CTTATACTTCTTA
CTAGATGGTGATATAATAAAGTCAATTAAATCGTCAAACAGTACACTATACATGGAA TTATTATTGAT
AAATGAATCATATAATTTGTCAATATTCTTCTTAGTAATTATATAATTACTATAATT CATACTTCTTTTC
GTATATATATGATTAATATTAACATATTGAGTATTATCCATAAAAGTACTAAACAGT TTATTGTATATT
ACGCTTGACCTAATACTATATTTAAACATAATGTAATCCTTTCTTAAATATTAATGT CCTTAATATAAT
GACGTAATAATTCCTCGGATATTCCTAGTTCCTTAGACATTACTTCAATAGGTTTGT TAAGATTCTTTTC
AATATAGTCTGTTATATATTGTTCTGAACTACGTGAATTACCTACCTTAATATCAGT AGTACTTAATGG
CATTTTAAACCCAATAGTTCTTGGGTTAGTAATTTTTTCATATTCGGGAACTGGATC ATTCTTAATAATA
TGGTCTGGTAGTTTCATATTATGTTTTTCTAGGCTACAATTATCCAATCTTTTAAGT TTATCTAATGATT
CATTAGTAATGATAATCATTAGATCGTTTCTACTTAGGTCTACTGACATTTCTTTCA CATTTTCATCATA
AAGTAGTGTAGACATATGACTAATAATATCATGTGAATTTTCCAATGTAATATTTTG ATCCATATATTT
TCTAATATATTCGACTAATTTTTTCTGCATATTCCGATTCCACCAATCTATATTATT TATTAGAGATTAT ACGTATATCCATTCAATTGTTAGGTTGTTTAGAATTACCTTCATTTAGTTTTATATTTAA TACATATTGA
ATATTGTTTCCTTTATTAAATTTAATGTAATACTTAGTCATATCACCAGTAGTATTA TTAATAAGTCTAA
TTGAATAGGATTTCTTACTATGTTTATTAATATGAGTATATAGATTATCTTCATCCT CTATAATGATATT
CTTTTCTGTAAAGTAATCTAATATAGATTCTATTCGTTTTAATTTATTCATCCTTAT CGATAATAATATC
GATAAGGATGAGAATAATATAGTTAACATGATAAATATAATCATATATCCATCGTTC CTTCCATATCTA
TTTTATGGACATTCATTAAAGTAATATCATACTTTTTAACTTCAATATCAATTGCAG TATAGTTTACCAT
AAATGTATATCGATTCTTTCCAATTTTACTAAGACTATTATATATCTGGATTGAATA TTCACGGATATTT
GGAGAAGTTATTATATTCGTATTCATTTTATTATCATATTCAGTTAATTTATCAATA ATTGAGTATGATA
ACATGATTTTTTTATGTACAATAGATCTGTACACTATTGAGACTATAAAGATTATAA TCATAATCGATA
ATAATAATATCATTTAAACATCCTTTCTTATATAGATTTATTTAATTTTTTGATTAC TGATATACACAAC
TTCTTTAAAGTCTTCATCATATACTAATTCAAATTTATCGTTATTGTAGAAAAAAGT GTATGTATTATG
AGTCCTATTTAAAGATCTTTCACAGTGATATAACAGATCTTTAAATACATTTTCCGG ATTTACATAAGA
TTCCTCCATAACATTTTCATATCCAGAAAGAATTAAATAATTTCTAATGTCTGGATA GACTTTTTCCTTA
AGAAACTTTGGATCCATTCTTTTTCTAAATTCAGCCCCAAGAATATAATCATTTATA GAATCCATTATC
TTATCAATAATTAAAAATCCGATTAACACTAAAAGTAATACTCCTACAATATTAAAT AATAACATAAA
TTTATCACTATCCTTTTCTTTTTATATATATATAAAAATCGATATCACTCCATTATA GTAACAATTATTG
GAGTGATATCGATTTAATTTTAAGTTATATACTAAGAATTATTTCGTGAGATAAATA TTTCTTAGTATA
ATGAAATAAACATGCTTTAGACTAATAATAAGATAAATTGTCAAGGGGAATTTGATC TTTATACATTA
TTTTCATTTAATAACAAGTTTATTTATAATTCTAATTATTATATCAGAATTATAATA TATTATTAAAATG
TAACTATAAATTTTTATAATTATACATTGATAATCATATCTACATTAATATTTTTCT GTTGAATCATTAG
ATTAGAATTCTTTAATGTATTATTAATTTTATTAATATTTAGGTTATCCGACTCAAT ATATTTGTTGATA
AATACATCAATGTATGCTTTTGGATTATTCATTGAATTAATAATCGTATCTTCCATA TTATCAATAGGTT
TAGGAGATATGACCATATTGATAATAGATGACATTTCATTAGTCATTCCCGCTTCAA TAGTAATCTTAT
CAAATATATTTTTTTCATCTTTCCATAAGGTATTATCAATATTCATTTTATTAATAT TGAATTCTTCTAA
AATGAAACAATTGTTTTCTAATACATCTTTTATTTCATGAGTTAGAGTGATAACGTT TCTTAACCAAAA
GGAACACTGTTTATTAAGTTCTTCTAGAATTACATTCTTTTGAGATATATTTTCCCT TAATTCATCAATA
TCCTTGGTGTAGTTATCATATCTATTTTTATATAAATTATATTCATCCATATTGGAT TCTTCTAATTTTAT
ATCCATAATTTCAGAAACAGCATTTTTTGCATCTATAAATTTAGATATCAATTTTTC AGATCGATTAAT
AGTGAAACCATTAAAATATTCTTTTGCCTTACTATTAATACATAAATATGTATCATA TAGGAAATTAAT
AGTTTTTTGTCTATTTTCCCTTAGCGTATTAAGATCTTTGTTATTCAATGATTTTCT AAATTTAACTGCTA
ATTCATAATCATTATCGATATTTGTACCTTCAGTGCTGATGATATTATAATAAGTAG TAGTATTCTTTTT
TAAAGGTTTATTGATAATATTTAACTGAAATGTTCTAATTTCCTTCATACTTACTCC CACCACCATTATT
ATCTAAATATTTATCATACTAATAATATTATCTAATTTTTCACTTTTAACAATATTT TCATTTAATACTA
AAACATCATTTATATATGGAAAACATTCTGTAATGTGTTTAATTATAAATTCTGACG TAATAGATCTTT
GATTCATTAGTACTTCTTTATGATTTAATTTATACCAGTATATTTCAATAAAGTCAA TTGACAACTTTTG
TCTTCTTGATATAATATCCCAACAATCATCATCAATATATACTGATATAAGTTCATA TAGCGTTTTTTCA
TCAAGATTAGCATAATAGATATTCTTCTTCATATATTGGGAAAACTTTATTAAGAAT TCCTTACTATAG TTACAATGCATAACAATATGACTATCCCAAGGAATAAAATCTATATTTTGAGAGTATTCT TCAATTGTC
ATGTGTTTGTATATACTATGATCAATATATTCCCAAAATATTTTAGTTTGGTTTTTA GTAATAAATTTCA
TATACATTTTATTATATTTCACCCGATAACTAAATCTAAACCATTCAGGATCATTTA TATCTTCTTTTTT
AGTCATATCAAGATTAAATAAGACCCCAATAAATAATCTTAGTTGATTTATAAATCG CCCTTTATACGT
GTCCATTATATTCAAGTTATTCTTTTCCTTTCTTAATATAATTATATTCCATTTATA TATTAACTATTTAT
TTTATACATATTAAAACCCAATAGATATATAGTAAATATCTATTGGGTTAGTGTTTT ATTCAGAGATCT
TAACTGTACATACTAATGGATTATGCTGTAATTCACTAACTAATTTAGGAATAGTTG TAAGTTTATATC
TAATAGATGGATTTTGTTTTTCTTCTTCCAATATACTAATCGATTCATGAATTCGAA TAATTTCTTCACG
ACTAATTGGTTTAACAAATATTGCAGGCTTACCAGTATTAATATTGATTCCCTCAAT AATATTCATTTC
ATCATGACTTGATAAGTAACCCACAATAATCTTAATATTTTTTAAATCTTTATACGT TAATCTTGTTTCT
AATAATGAATCATCTTTCATTACGCATAAACTTCCCTTCCAGTTTAAGTTTTATTTT ATATAATTATTAG
TTAAACTAGTATATAAAAAATTAAACTGAATTATAGAATAATTTATTTAAAAGAATA TAACGTACCTTT
CATATCATTATAATAACTATATTTAATCGATTTAAATTTATCCATACTATTGAAGAA GATAAATTCCGG
AGTATCTTTCTTAGGAGGATAGTTTACAATATCAATAATATGAGCGATAACTTGCAT ATCCATATCGGT
ATATTTAATATTAGATAGTTTTGTTTTTGATCGATTTACTGTAGTTTTTCTAGTCCT TTTATCAATGTAA
ATAGTAATTTCTTCGGGATTTTCAGTAAGTTCTTCATGAATTATATTGAGAAAATTT ACCGCTTCAAGA
TACGGTTCTAGCGATGTTTCCATTGTACTATTAAAGTTTTCTTCATTACTTTTAGAG TTGATCATATTTT
TAATATTTTTTAGTTTACCTATTGTTTTTAACATTATAATTTCCACCTTTAATTATT TATTTGTTGTTATC
ATATTAATAAAAAATGTATAGTCGATAAAATTAGACCCATTGTCTCTAATAATTTTT ACATCATCTTTA
AAATTAACATATTCTTTAATAAAATCGAGATTATGGGTTTTTCCTTTAATCGATTTT GAGTCAATATCGT
TAATTGCAAGATTTCTTATAACGTATGGACTATCTTTAGAATCATAATACAAGTTAT GGATTCTAAGAA
TAAATATACTATTATATAAATTTTCTTTTAAGAAAGATAAACTTTCAGTGAATCCTA ATTCATGAGTCT
TATCATTATATCCAGTAATATGACCAGTGCTGACATGTCCATTACTATGGATAATTT CAACTTTATTATT
AATTAATGATTCAATATTCGTTTCGTTTGTATACTTATCAAAAATAGTATGATTAGA CGCATTATAAAT
ATTAATATTCATATCGTCATCAATTGTATAAATATATTTTTTTGAGATAAGTTTATC GAGAATTAATTTT
AATGTATTTTTTCTTAATTTAAATAAACGCTCTTTTAGATAACATACTTTATCAATA TCCGGATACTTTT
CTTTTAGTGAATAATCTTTATTGATAGTATTAACGTCAATATATGATATGTATTCAA TATAATGAAGAT
TAATAATATCATTATCATTAAATGATGTTAATTTCTTTTTAATTGTAGTGATATTCA TTACTTCATAGTA
AATATCATTATTAATCTTTTCTTTTAAACTAATAATCAATATTTCCTCAGACTTATC ATTTGTAAATAAG
AAACCTAAATTGCTCATAGCACTTTCAATAAAAGAAATATTATTATCCATTTAGATT TACACCCTTTCT
AATCTATATATTCATTATAGTTAATGCATCTTTAAATTTTTGATCTTCATTCATATA TTTAATTAAGTAT
GGATGTTCTTTAAATTCATTATCATACTTAGTTAATTTATTATAGTATCTAATAATA AATTTTTTTGGTA
AGTTTTCTTGACTTCTCGATATTTTGAACCATAAATTAGCATTATCTAAGGGTACAG TGCTTAGTATAT
ATTCAATTGATTCTATTGGTAATTGGTATCTTGAAATAGTCATTATAATTGTGTGCA AGTCAAAATATT
CTATATATTTTAGTATTACGCTTAATTCTAATTTATGGTTTGAAACGATAATATAAT TCCAGAATAATTT
TGGAGCATATTTATCAAGAGAAATAATATTATCTATTGTTACATCATACTCAATATC GTATTGAGAGAA
TATTAATTCTGCAGTTATATTTTCCCAAATTTTAGTATTAATATCTATACTGTCTGC ATACTTAATAAAT AGATTAATATCGTACAGTAATAGTTTATAATTATATCCTATGGAAAAATCTATATTGTCA AGAATATTA
GGATTATTTCTCGATATATCTAATATTCTATTGCATATTTCAGGAATATTGTGATCA TATTTATATGAGT
TAAATTGAGATTCAATAAAAGAAGGGTAGTAATTTTCTTCACCAGTATCATACTTTT TATCAATATCTA
TAACTAATTTAATTATATCGATTTTTTCATTCTTTTTAGAAATAATAATTTTTCTTA TATCTTCGTTACTA
ATAGGCTCGGTATCAGTTCTAGACATAATATTCTAACAATCCTTTCTATTATTAAAA AATAAAATCTGA
GACTATAATTGATCATATAGTCTCAGAAATATTTTATATTAATCTTCTAAATTATTA TTTAATATATTCA
TAGACATATTAAAAATACTTCTTGAACGTTTACCGATACGATTTATTGTTTTTTCAG ATATATTTAAATA
ATCTTTAAATTTTATCGGAAAATACTTGAGGTACATAGAAATTTGTTCTGGATTATC AATAATATTGTT
ATCAATGATAGTTCGAACAACAGTATAAATTTGACCATTAAGTAATTCGTCAATAGT TGTTTGGATCGT
ATGCTTGAATAATTCATCCTTTCTTAAATGTTGATGATCTTTATACTCCATTTTCAT TCTAACTTTAATA
TAAGGATCGTTATAATCTTGATGATCATTAACTAGAGATTCAGGATGAAATATTTCA TTAAATAATTTA
ATATCGTCATTTTTTCCATATTTTATAATAATATTTGTAATTAATAATCTCGAAATT TCACCAATTTCAT
TATAAGGAATTTCTGATTCTTCAAATTTTAATGTATAATTAATTTCTTTTAAATACT CATTATAGTATCG
GTATTTATAATTAGATGTTAATGCAAGAGAAGTTACAAAGTTAAGATTATTTTGATA ACTTCCTACTAA
TCTAACTTCATTATAAAATACATTATCCTTTATAAGTTGATTAATGATTTTATAATA TCTTTGCATTAAT
ACATTAAACTTATCGGTACTACAATTTTTTGGTTTAGTAATTGATTTAATTAATGAT TGTTGGGTATTAA
TTAAATTTTCCATTTCGCTAAAGTCTGAAAGAACAAACTTGTCAGGATCAATATTCT TTAATAAGTTAT
ACGCATACATTAGAGTATTAACAATATCGTAATCACTACAAGAATAAATATGGTTAT TTCGCATAAAA
TTATACTTGAATTCATCACTAATTTCAGTAATTTGGTATGGAATACCGTTATTAAGA AATGAAGTTATA
ATGTGTTTAACTTCTTGAACTGGTGAACCGGAATTAAATAATTTTTCAATACATTTA ATTCCGTGATAA
CTGAATTCTAAGTCATCTATATCATTACAATAGTTCTTTTTAGGAACAATTGAATTC TTCGTAATATTCT
TATGAATATTACGAAATTCCCTATGAAGATCTTTAAAGTTCTTTTTGAATGTATCAT TATTACTAGTTTC
TTTTAAATTAGCATAAATCTTAATTGTATTATTCATTATTTATCAATCCTTTAATAT ATTTTTATTTTTCA
ATATTAACTTTAAATTCTATTCCTTGATCTACCATATCATAATCAATATCAGCAACT CGACCAACGCTG
ATAATATATTGCTTGTACAATTCAGTATCTTTAAGATTATGACCAAGATATGCAGTA TCATATCTGTCA
CTTTCAATCTCTCCTGGACTATATTGAACATTGGAGATCGGGTTATCATTTAGATCT TTTAATACGTTAT
ATTCTTTACGATCAGTATCAAAAAGCCTATTCATTGAACCTTCAAAAGCTACTTCAC CATCACTAAAAT
TTTGTACGGATGAACTTACTGTTAAGAAATATAGTGAGTCAGTTGTTCTAACTTTAT CATTAGGGTCAA
AATTAGATGGTTTTGGGTCATTATCAAACTTAACCCCTTTATTAGGAATAATATCCA TACGAACTAGAG
CTACTGTATAATCAGTGGCTTGTACTGGTCCGATTGTAAACACATAATTTTCAGGAG AATTACCGATAA
CTGTCATAATAATTTTATAATCATTATCATTAGTTACCCTATAGTCTCCTACCTCTG TAAGTTCATATTC
TTCTTCTTTTTTGGTTTTCATAAGAGGTTTAAGTTCTTGTATTTTTGATTGAACTGA ATCTTTGTTAACAT
GATTACTATCATTATTTAATACAAAATAAATAACTACTGATAACCCTATTAATAATA CTACAAATATTA
ATATTTTTTTCATTTGAAAGTTCCTCCGTTTTCTAGATTTTTATTGATTTTATATAT TACTTTTAAACCTT
TAGCAAATCTTTTAGATTTTACATCTTTCATACTAATTACATTACTTTTCTTAGCTA CTTTTTTAATTTTC
ATAATTGATCCATCCTTTATATTTTATTTAATCATTATTATAATATATTAATGAAAA TTATATTATTACG
CTAAAAAAAAAAAAATCCGTAATACTCATAAAAGAGTATTACGGGAATATTTATATT ATTTAAAATCT TTCACATATATGAAAACCATGATCAGTGGCTAATTTATAATCAAAGTTTAATCCTAGATT CATTAAATA
AAACTTATCAGCTTCTTCCTTACTGAATGTATTGATTAATGTTTCTAGTGACATATG ACATTCTTTATCA
TAATCATAAGTTTCGCAAGAAGCATCATGATATATCTCATCAAAGTAACCTTGATGA ATAAGACTTTC
AATATCATCACCGAAATTATTTGCGTCACCACTATAATATATTACTTTTTCATCAAC CTTAATAATATAT
CCATACGTCATAATGCTCGGAGAATGTCCAACAGATACTGCTTTTATTTGAACGTTA GAGTCAATATGA
TAAAATTCATATTCTTCAATAAATTGTATTTTATAATCTACGTCTGCATGAACATCA TTAATCTTTAATA
AATTAACGATATTTTCACCATATGATAAAAATAGATTAACTTTTATATTATGAATAT GTTTAAAGTATC
TAATAAATGTTGGTAAGGAACCTATACGGTCAGCGTGAGTATGAGTAATAATTACAT TAATGCTATCA
AAATTCTTTATCATACTATCCGTAAAATAATCATCAATTAATATATCAAACACCATA CTTCCACAATCA
ATAAGATAAAAATTGTTATTATTAATAAAGTATGCAGACGTATTTCCTAATTCTGTA TTAAATTCATTT
CCGGTTCCTATAAAATTTAGTAAATTATTATACATTTTATATACCGCCTTTATTTTT TTTTTTTATTATTT
TTTCTAAAAAAATATTGGATATTGTCATTTATTTGACAATATCCAATAAAATAAGGA AAGTGTAAACT
AGTTAGAATATTACACTTTTAGACGAAAGAGTAATATGGAGATAACAACTAGTCGTA CGGGATTAGAG
ATAGTTATATTTAGGCATAAGATTTACCTAAATATAATATATTATTATCCAAAATAT TAATTTTTTATTT
TTACAGTTTACGCATATAAATCTTCATTATAAGCGTATTGAATTCTTTATTGTATGA ATTAATATCCGTA
ATATTATAATTATGACCAATAAGATTATCATTGTTAATATTAGAATTATATACGCTA ATTGCATTATTA
TATAATGCTTCTAATTCATCATAATTTTCTAATAAACTATACTTGTAATGTATATAT ACAAAGTTACTTA
TAATCATATCGATAAATTTTGAATCGATATTTGCAAAATATATTTTACTAGAATTAG ATATAAGCGTTG
GTATTGTAAAATTACCATGATACATTTCAGCATTAAAATAATTCTTCTTACATATTT CATAAATAACAG
TATCGTCATTACTATTTAGATATTCATTATACGTCATATTAATAAAATTTGCAAGAT TGATTGGTTCTGT
TTTGATATTTGAATAGACGATATTATTATATGATTTATAATCGTGTAGCGTAGATCG TAATACATTTTC
AGTAATTACACTATTACTACGAGAAAAATTTTCTTTATATTGAAAGTACTTTTCAAT ATTAATTCTTAA
GCAATTATTAACTTCTTCTAGATTAGATCTAGATTCATTATTCGAAGTATCAATAAT ATCTTCCTTAATA
TAATTTCGCAGACTTTTCTCATCAGGATTATTATGTAATATATCTACTATAATAATC GCAGTTTTAATTA
GTATATCCGTAGATTTTTTATCCGATCTATTTCCAAAATTAATAATATTTCTTAAGA AATAAATTAATAT
CTTTGGATCATAGTTATACATATTATATATCATGCTGACAAATATATTGTTAATTCC AATTCTTCCATTA
AGAATATGTTCTATAAAATAATAATACTTATTTGTAGAATCTTCATTATATTTATTA TTAGCAATATAC
GCTGATTGGTTGGATACACGAATAAAGCTTGAATATAATGCAGAGATATAACTATTA TTAAAATAAAT
AGTTGGAACGATATTACAAAAGAAATCAGCTAATTCTTTAATATCTATAATATTTAG TATAGATTTTTT
ATAATACTTCATAAATTCTTTTGGCGTATATTGGAGATTATCAATCTTGATCTTTTC AGTGTCAAACATA
AGAGCGTGGGACTCATTTATAAATATATTAAAATCATATATATTTGAAGTGAATATA TCTTTTAGGAAA
CTATATTTATCTTTGATTAATGAATACATTGTATTTCTAATCATATTTTGAAAATAT ATAATTCGTAGAT
TATTACTTTTTTTAGTATTGTCAGAATCGACTAATGATTTAATTTCTTTATAATATT TTGATAGATTAGA
TTTGGAAAAAGTTTCGTTAAATTCTTTACAATCATCTAAAAATTTGTTATATACTTT ATCGACAAGATC
ACTATTACTGATTTCATGAGTATCATATTTATTTTTTATTTTATCGATAGAATTTTC GTCATAATAAATT
CTATCGATAAAACTACTAATTATCGGCATGTTGATGTATCACTTCTTTCCATTGATA TAGTGCATAATG
TCAATATGTAACAAAATGCTCTTACTCTGATCTCTACTGGCATTACAATAATCAAAT TCATGCTGATAA TGATCCAATAACATTAATGCATCGTTATATTGATTTTGGATGATGCTTGAAATATTATTA CTTAATTTAT
ATTCTAAATATTCAATAATATTTAGAACTTCATTGTCAATAGGATTAATTTTTTCAT AATTATTTAATAA
GTAATGATATACATTTTTATAAATTTCGACAGAATCATTACTTATTTGAATGTCATT ATTTATTGAAAA
ACAAAATAACGAATTAAAATCATTAGGATCAATTAATAGTTTTTCTAAAATAATCTT AGTCTTTTCACT
TTCTTTATATTCAATCCATCTTACAGGGATATATTCAGCTCTCTGCATGCTAATGAG AGATTTAAATAA
CTTAATTGAATTTTTCTTTTCTTGCAAACTATATTTACTAAAAATATAATTTATCAT ATTTTCTACAAAA
AGATTAATTCTACCAATAGTATGGTTTACTGTAGCCATGTTTGTTCCTTCAATAATA TGATCTTTACTGC
TAACATTAATAATAAACATTCTTTATCATCCTTCACTGTTTTATTTTATTCACATTA TTATAATATATAC
TTATCTTATTAGTAAAAAAAGAACTATCACATTTTATTATGTAATAGTTCTTCTATG GATTAATTGATG
AATTAATTTCTGTACTATTATTTATTCGGTTAATTTTATCTTCTAAAGATATCAACC TAATAACATTTTT
TTTTTTATTTGTCATATAAAATAAATCACTCTTTTATTCATAATTATTCTATTAT CATATGCACTTCTTTA
TAAGATATATTTATAGAAACTGTATATTAATAACAGTTTCTATATTAATGATAGTTT AACTTTATCAAA
GATGTTTCTATGATTAAGAGAATTCTTAATAAGGTCATTAATAGTTATATTTATGTG GTAAGGTTTTAC
ATTATCTTCTGCATTATAAATCTGTAAATTTATATTGTATCCATTTACTATAAATTT ATAATATACCGAA
ACATATTCTCTTGTTACTGGTTGCTTAAAACGGTCAGACGTAAAAGTATAATTAAAT GTATAAGAATCA
ATATAACCATTATTAGTTGATAAATCACTGATATTATAAGTATATTCATCGATGTCT GATGGGTCAAGA
TCTGTATTATTTCTAATAAATTCATAGATCATACTTTTTAGGATTTCCGATAGATAT GTGATAGTTAATA
TTGAAGAACTAAATCTTTTACTATTAAATTTTTCTTTTATATTGTAAGTATTATCAT TATATTCAATATC
TTTTGATGGAATATTATAATTAGATGTAAACATTTCGTTAAATGTTTTTCGTTCTTC AGAAGTTAATTCA
TTTAATGTTTTAATTAATTCTTTGTCATTATATAATAAAAATGAATTAATTATATGG TACGTAATATTCC
CATTAACATGTAAAGGTTTACTTAAAAATCCTAGAGATTTTACCATTAGATAATTTC CTTTCTTTTTTTT
TTTAATATTAATTTTAGATATTATACATTTTAATTCTATCATAATATTTGATATTCT ACTTCTTTCCTTTA
TACTTATATGGATTCAAGAATCATTTTATCATATATTTTCATATGTTTCCCACAATC AAATAATAGATC
AATCATATTAATATTTTTGTTAAAAATTTTATCATTAATGAAAAAATCAATATCTAA TTCATTGCTATCT
TTATCCATACTAAATTTAATTTTGTCAGAAATAAATGTAAATTTAGTATAAGGATGA TAATTCTCCATA
AATTTATATTCGGGTATATCTTGAATTCTTATTAGGGCAGAGACTTCAAATTTTAAT ATTAATGCTAAA
AATTTCTTAAAGAAATTAGATTCTAGTATATTCCAGACGCCAAAAATATCATTCTCT CGATATTTACTA
AAACTAAATATACGCTCTAAGTTATCAATCATTTCCATATTATTTAGTTTTGTCAAT TTTTCTTCTAAGT
CATCATAAATCTCAAATATTTGTACAATATCATTTTGATTTGTTTCGAAAATATACA TAGATACTATTTC
CTCATACACGCTATTATCTATGTATGGAATAAATGAATTTTTAGCTGAATCTTTAAT CGGTTTTATATTT
TTCATGTATACCATTCCTTTCATTCTTTAATTTCAAGAATATTATGTGGGAAGATAT CAATTAAAGATA
CCTTCCCACATAATATATGTAACGATTGTTTAGTACAACATATCACTATATTTATTC ATAATATTCTTTG
TAAATATATAAAGGACTTGTTCAAATTCAATATCGGTCAAACATAATTTACCGTAGG CTTGACGATTAC
AAAATGATGAGATAGTTGATAATGAATTACCATGAAAAACCATTCTTTCAAGCACTC TGTTTTGATTGT
CATTAAGCTTATCATATTTTTCTTGGGAAGTGATCATTTTATGAGTCATACTTAATA GATCGCCTTCTAA
AGTATTAGGGAAAACATAATTACCTTCAGAATTTAAATAAAAATGGTTAAATCGATT TAATATTTCTTT
TTGATAATTTTCTTTTGTTTTATTCAACACTATTAAAACCCCCATAACCAATTAGAA TTATTTATATACT ATATATTTATTTATTAGTATATCAATTTATTTTGAGTAATATGGAAAAAATTATTTTAAA ATCCCTAAAT
AAACATATAAGTTTACTTAAGGATCATAGATATTTTTAATTCTTTATTTTATTAAAT ACTTTTTAATTTA
TTAATATCAATTAATTTCTTTTTCATACTTTCAGGTAATATTTCATCATGATACTTT AATATTAAAGGAA
TATTTAATTTATCAATATACGTATCAATAAATTCTAGTGATATATCTTGACATTTGC TAATAATATCCCA
ATTAACTTTATCTTGAAACTCAATAATAAAGTCTTCTGATAATGTCTGGTACCAACT AATAAAGTACCA
ATCTAAAGAATCTTTGAATCTACGAATAAAATCTTCTGATAATTTCTGTTGTGAACT AATATTATACCA
ATCTAATTCATCTTGGAACCTTTCAATAAATTCTTCTGATAATTCTCGATACCTACT GATGCTAAACCA
GTTTAATTTATCTTGAAACTTTTCAATGAATTCTTCTGATAACTCTTGATGTATGCT GATGCTAGACCAG
TTTAATTTATCTTGAAACTTTTCGATAAATTCTTCGGATAATTTCTGTTGTGAACTA ATATTATACCAAT
CTATTTTATCCTGAAACTTCTCAATGAATTCTTCTGATAATGTCTGATTCCTACTGA CATGATTCCTATT
AATGGTTATTTTTTCCATAAATAAGTATACCACCTTTTTGCTATATACTTTTTAATT TAATAATTTCTTTA
TGTTTATTAATAAATTCTCGTGATACATTTTGAATCGATTCAATATAATGCCAATTT ACTTTATTCTGAA
ACTTCTCAATAAACTTTTCCGATAATTTCTGTTCTCTACTGATATAACTCCAATTTA CTTTATCTTGAAA
TTTCTCGATGAATTCTTCTGATAGTTTTTGGTCAGACGATATATAGTCCCAATCTAC TTTATCTTGAAAC
TCTTCGATGAATTTTTCGGATAATCTCTGATATATACTAATATGCTTCCAATTAACT TTATCTTGAAATT
TTCTAATTAATTCTTCTGATAATTTCTGGCATAAACCAATATAATGCCAATCTACTT TATCCTGAAACTT
CTCAATGAATTCTTCGGATAATTTATAATATTCAGAGATACTACACCAATTAACTTT ATCCTGAAACTT
TTCAATAAACTGCTCAGATAATTTCTGATACGCACTAATATTGTACCAAACTACTTT ATCCTGATATTT
AGAAATAAAATTTTCTGATAAGTTCTTTTGATCCCTACTAATATTGTACCAAACTAC TTTATCTTGAAA
CTCTTCAATAAACTGCTCAGATAATGTCTGATACCAACTAATATTGTACCAATTAAC TTTATTCTGATA
TTTAGAAATAAAATTTTCTGATAAGTTCTTTTGATCCTTACTAATATAATACCAATC TACTTTATCCTGA
AACTTTTCAATGAATTCTTCGGATAATTTTTGATGTGAGCTAATAAATTTCCAATCT ACTTTATCCTGAA
ACTTTTCAATGAATTCTTCGGATAATTTTTTCTTCCAACTAATCTCAGTCCAATCTA CTTTTACTGAATC
ATCAACGATTATTTTATCCATAGATAATATTACATCCTTTCTTTTTTCACTATATAC TTTTTAATTTATCA
ATAGCAATCAATTTATCCATTGTTTCTTCAGATAGTGTATCTTCGTATCTATATATT AGATATTTAACGT
ATAATTTATGCATATATCTAATAATGAATTCTTCCGATAATTCTTGATGCATACTAA TAGCTTTCCAATT
AATTTTATCCTGAAACTCTTCAATAAAATTTTCAGACAATGTCTGATATTTGCTAAT TTCATTCCAATCT
ACCATATCCTGACAGTTACGAATAAAATCTTCTGATAAGTCTCGAACTGACGAAGAA GCATGCCGCCA
ATTAACATTTTCTGGAAATTTTAGAATAAGGTCATTAGATACATTTCTATTTAAGCA AAAATAATCCCA
ACATATCTTATCTTGAAATTTGGCAATAAATGATTCACTATTTAATTTCTGATGCAT ACTGATTTCATTC
CAATTAACTCTATCCTGAAACTCTTCAATGAATTCTTCTGATAGTTTTTGGTCAGAC GATATATATTGCC
AATTAACTTTATCTTGATATTCACGAATAAATTTTTCCGATAATTTTTGGTATTGAC TTATAATATTCCA
GTTTAATTTATCTTGATATTTAATGATAAACTTTTCAGGCAATTCTTCATTATATGC AATATATTCCCAG
TTAGGTTCAACAGTAAAATTATATTTTTCATTATACTTCATAGGAAACCCTCTTTCT TTTAAGCTATTAT
ATATTCTTCATTATAGTAATATTAGTCAGCTTATCTATAGTTTTCTGAGATAACGAG TTTTTATGAATTT
CAAGTACGAATTCAATATCCAAGCAATGAATATTCCTAAGAATAAAATCATCTGACA ATTTCTGGTAT
TGGATAATAAAATCCCAGTACACTTTATTTCCAAAATTTTCAATGAATTCTTCTGAT AATTTTTGATATT GGGAAATATTATACCAATTAACTCTATCTTGAAACTCAATAATAAAGTCTTCTGATAATG TCTGGTACC
AACTAATTTCATTCCAATCTACTATATTCTGACAATTACGAATAAGATCTTCTGATA GCTTTTGGTTTAT
ACTGATGTAGTACCAATTAACTCTATCCTGAAACTTAATAATAAATGAATCAGATAA TTCCTGAAATAT
ACTAATATATTTCCAATTAACCATGTCTTGATATTTATGGATAAGTTTTTCTGATAA TTTCTGTTTTATA
CTAATAAAGTCCCAATCTAATTTGTCTTTAAAAGTATCAATAAATTTTTCATTCAAC ATTATGTTCTTAG
ATATGTATGTCCAATCAATTTTATCATCATTTATGTTAATATCATTAGTTTTAATGT ACTCGTTAATATT
CATAAATTATAACCACCTTATTTTTCTTCTATATGTATAATATATAATTTTAATTTA TGTTAGATGTATA
AAAAAAAGGAAATGCGTATTTAATAAATGTATAATTCCTATATAATTATTATATTAT ATAAGAATTATA
CATTTAGTAGTTATATATGTCTTAATGCATCAATTTCCTCTAATCTATTTATGAATT CTTTAGATAATGA
TTCTGAATTATTATTTATTATTGAACTAATCGATACTTTATCAATATGATTATTAAT AAATTCTTCTGAT
AATTGTTGCTCTCCACTAATAACGTTCCAATTAACTTTATCTTGAAATTTATCAATA AAAGATTCCGAT
AATGTCTGATATCTACTAATATAGTACCAACTAAGTTTATCTTGAAATTTCTCAATG AATTCTTCTGAT
AATTGTTGATCTGTACTAATAACATCCCAGTCTACTTTATCCTGATATTCACGAATA AATTTTTCCGATA
ATATTTGGTATTGACTTATAATATCCCAGTTTAATTTATCTTGAAATTTCTCAATGA ATTCTTCTGATAA
TTTCTGTTGTGAACTAATAATGTACCAATCTATTTTATCTTGGAACCTTTCGATGAA TTCTTCTGATAAT
TTTCGATACCTGCTGATGCTAGACCAGTTTAATTTATCTTGGAACTTCTCAATGAAT TCCTCAGATAATT
CTTGATGTATACTGATGCTAGACCAGTTTAATTTATCTTGGAACTTCTCAATGAATT CCTCAGATAACT
TTTGATTTCTACTAATATCATACCAATCTAATTTATTTTTCAGATTATTAATAAAAT CTTTATCATCTAA
GTTTTTATTTTTCATAAGTATATCAATCCTTTATACTAATATTTAAACATGTCTT AATTTATTAATTTCTT
TTAATTTATCTACAAATTCTTTAGATAATGATTTTGAATTGTATTGTAGTAATGCTT CAAGATTTAATTT
ATTTAGATATTTATGGATAAATGTCTTAGATAACTTTTGGTTTCTACTAATAGACTC CCAGTTTAATTTA
TCCTGAAACTTAATGATAAATTCTTCTGATAATACTTGACATGCACCAATATATTGC CAGTTAATCCTA
TTTTGGAACTTCTCAATGAATTCTTCTGATAATTGTTGCTCTTCACTAATAACGTCC CAATCAATTTTAT
CTTGAAATTTATCAATAAAAGTTTCAGATAATTTTTGGAACCGACTAATTAAGTACC AATTTACATTAC
TCTGAAACTCTTCAATAAATTCTTCTGATAACTTTTGATGTTCACAGATTAAAAGCC AATTTACATTAC
TCTGAAATTTACGAATAGATTCTTCAGATAATTTTTGAGATCGACTAACTTGACTCC AGATTAATTTAT
TTTGAAACTTACTAATAAATTCTCCTGACAGTTTTTGACATTGAGATATATAATACC AATCCAATTTAT
CTTGGAACTTCTCGATAAACTCTTCAGATAATTTTTGATATGTTACAATAAAATCCC AGTCAACAGTAT
TCTGAAACTTATCAATAAAAGTTTCAGATAATTTTTGATATATGCTGATATAAAACC AATTAACTTTAT
CTTGGAATTCTTCGATGAATTCTTCTGATAGTTTTTGGTATATACTGATATTTGACC ATACTACTTTATC
TTGGAATTTTCTAATAAAGTCTTCAGATAATGTACGTTTTTCACATAATAACCCCCA ATTAATCTTTTCG
GGGAATTCGCTTATAAACTCTTCGGTTAGGTTTTTATTCCACATAAAAGTATACCAT TCCTTCTCTATAA
AGATATTTAGATACTTTTTATTTTATTAATTTGAATTAGTTTATTTAACAATTGAGG TGATAATAATTCT
GAATTGTACTGTATTAGGTGTTCAATATTTAATTTATTTAAATGATTATAGATAAAC TTCTCAGATAAT
TTTTGATATCTGCTAATATAATCCCAATTAACTTTATCTTGGAACTTAATGATAAAG TTTTCTGATAGTT
TTTGATATTGACTTGTAGCATCCCAATCAAGCTTATTCTGAAAATCAGTGATGAATT CTTCCGATAATA
TTTGATATTGACTAACATCCTCCCAATCATTTATCATATCTTGAAACTTAATGATAA AGTTTTCTGACA ATTTATGATAAATTACGACTAAGTACCAATTAAGTTTATATCTAAATTTTTCGATGAATT CTTCTGATA
GTTTTTGGTATCCGCTAATAGTATGCCAATCAATATTGTCCTGAAGTTCTTCGAT GAATTCTTCGGATA
ATTCTTGATATTCACTAATATTAATCCAATTAACTTTATCTTTAAATCTAGCAATAA AGTCTTCTGATAA
TTTCTGATATTGGCTTATATTATACCAATCTACATTGTTTTGAAATTCTTCAATAAA GTCTTCCGATAAT
TCTTGATATCGACTAATAATATCCCATTTTAAATTATTCTGGAATTTGCGAATAAAG TCTTCCGATAAT
TCTTGATATCGACTAATAATATCCCATTTTACATTATTCTGGAATTTGCGAATAAAG TCTTCTGATAATT
TCTGATATTCACTAATATTAGTCCAGTCAACTTTATCTTGAAATTCGATAATAAATT TCTTTGATAGTTT
TTGATGTTTAGAAATACTGTGCCAATTTACTTTATCTTGAAACTCACGGATAAATTT TTCCGATAATTTT
TGATATTTACTAACGTCTGTCCATCTAATAATATCTTGATATTCACGGATAAAATCT TCAGGCAACTTA
ACACATGATACCGTAGTATACCAATCATAACCAAACCTTTCAAGTGTTACGTGACTT ATATTATTATTG
ACTGTTTCCATAGTACTTAATTCCTCCTATAATATCATTTTTAATCTTATTAAGAAA TTAGACCAAGTTA
ATATCTAATTTTTTGAAGTATAAATTAATAAATTCCTCTAATAGTTTTATGAAAATA AAATATATTCTC
AGTATATTTATTATGTGAAAAATCAGCACATATTCATCATATCATTAATAATACGCT TTCTCTCTTTTTT
TGATACAATGTAATACGTGTTATCAATATAATTAAATTCTTTAATAAAATCTTCCGA TAATATTTGATA
TCGACTTATAATATCCCAGTTTACATTATCTTGAAACTCATGGATAAAATCTTCAGA TAATTTTTGGTA
CATACTAATATAATCCCAATCTACTTTATCCTGAAATTCTCTAATAGAGTCTTCTGA CAATCTTTGATAT
ATGCTAATATTTTCCCAGTCTACATTATCTTGGAATTCTTCAGATAATTTTTGATAC CTTGAAGATTGAT
ACAAATTTGTAATTTTATTATATTCAATATTAATATCATTGTTATATTTGATATCGC TATCATGATTATC
ATTATTATTTAGTGATAACACATGATTTTTATCTTTTATAACATTATCATATTTTGG AATATACAATATT
AAGGGATCATTATTACTATTATCATCTAGATTTTTTGAAATTTCAATATTAGCGGAA TTAGATTTAATTT
TATCAATATATACTTTATTTCTAAATTCTATAATAAACTTTTTGGATAGTTTTTGCG AATTGGATAATTT
TTGTGAAAATATAAGATGTTCCCAATATAATTCCGATTCATATTTTCTTATAAATTC TTCAGACAATCCT
CTGGTTCTATCAATCATGTTCCAATTTAAATTATATGGATTAAGTTCGACAATCTCT TCGACAGTATAA
TAACAATTAATATCCATAATAATCCCTCATTTCATTTATTATTTTAATATATGATGC ATTTATACATTAT
AATTATAATATATATTTATCCTATAAGTTATAAAAAAAAAAATCAAACGTGATATAT AATGATTATCA
CGTTTGATATGTAATTATTTTTTAAGAATGTTTAATAGTCTTAGAGAATATTCTAAA TATTTAGATTGAT
TTTTTACATTGTAAGTTATTAATAATAATAATGAAGAGAGAAGGAACAGATCTCCTG ATTTACAATAA
TCTTTTTGATATTTTCCATACATTACATTACATTTCAATAGCGTTAATAAGATCTAA TTCTGCAATAAGC
TGACTTACTCGGTGATCTGATAGATTTTTCCTATTTTGAATTTCTTGTTCTTTTGCT TCATCTAAAATATT
ATTTAATGCTAACATAATTCTATCTAATAGAACCATCGATTCCTTATAAACTTTTAC AGAATTTTCACG
ATTTTTAAGAATATTTATTAAATTACTGAGACTTAATTCATACTGTCTTATTTCT TCGCCATGATTATTG
ATTTTTGTAAGTTCAAGTTTTGCAATAAATAACCGAATAATATCAATATTCCTAT CCCTATTATCCATTA
ATAGAATTATATTTTTTAGATTTTCGCAAATACCATCAACTGATACCATTATATTTC ACCTTCTATTCTA
CTTTTAGTAAACATATTAAGTGCTTCTAATTCATTATTGATCATTTCCAAATTTACT TCTTGTAAATTCT
TTTCTTTCATTAATTTAATTTGTTCTTGATTTTCTTTTTCTTTTTCTACAGATTTAG TAATTACTTCTTCAA
TCTTAACAAGTAATGAATTTACTGTTGTATATACTTCATCTGAAAATATTGCACTAT TTTCATTTAAGTG
TCCAATAATTATATCATTTATGCTTGATAAACTTAATCTAATTTTATCATGTGTATG GATATTGTATTTT AATAGATTAGATACTTTTTTGTTTTTCATTAATGAATTAATAGTTCTTCTTAATCGATTA TTATAGTTTTT
ATCTTTAAAGTATTGAATATACTCGATATTTTTATTAATGAATTTAATAAAATCAAT AGCGTCCATATC
CGGAATATATTTTTCAGTTGAATAAATTATTGCATTATCATTATTATTTTTATATCT TAGTGAGTTTGAT
CTAGTTAAGTGCCTATTTATATATCTAAGATCATTTGTAGCTTGATCTATTTCACTG AAATTAACGGAA
TCATCTCTTACAATATCTTTATAGTCACGAAGTATTAAATATCCTGAACTAATAATA CCTTTAGTTAAA
TGATTATTTTTAATGCGCATATAAGTCTCAATATTATTTTTAATAATATTGAGGCAA CTTTGGATATTTA
ATGAATCAATATTATTTAAACTAATATATTCGATTTCATTAAACAATTTAGACAATT CTTTACTTCTAG
ATAAATTTTCTGAAAGTAAAAATTTATCTAAAAGATCATCATTCTTATTATTTTTTA TTTTAATAAATTT
AAACATTCGATCACCATCCAGTTAATTATTATAATTCTTTCTAATCTTTGTTATATA AATTTATTATCAT
TTCGAAAATTCAGATATTTCTCAATTCTCTGATCTTAACTAATTTACGCTTTATTTT ATTAGATATTAGT
TTATCATGTGATATCAATAGATCAATATCTAATTTCTTGAAGAATATATTAATGAAT TCTTCTGATAAA
TTTTCACAATATATAGATTTGCCCTTCCAGTTGATTGTACTATTATTTTCAATAGAT AAGTATTAATCTT
CAGTTAGATCAATAATATCTTCAAGATGTGAACCAAAAGTAGAATAGTCTATTAACC ATATTTCTTTTA
ATGGGTCTTCTTCAAGAAAGATTGCAATATCTTTTGCATGTTTCTTAATTTTATCCA CAATATAATTATA
CGTTCGATCAGCACCACTAGGATTCTTAATGGATCTTAGAAAAACGTCATCATAAGA TTCAGTTTCAAT
AATATGATATCCTTCATAAGTTTTATTTCCTTTTTGTAACGTCACCGATCTTAATAC ACTTTTTCGAGTT
TCTTTAATGCCAATTAGGTCAGCTAAATTAATTACTTCTTTTTTATTCAGATCAATT CCATTTTCTAGTA
CAAAAGGAACTGGTTGTAGGTTCTCGTATTCCTCATCATCAATATCACTTAGTGAAT TAATATATTCTA
AAGCATCATTATATGATTTAAATACCTTATGTTTATTCTTTTCCGTATTAGTAATTT TATATTTGATTGT
CATAGACCATCAATCCCTTCATTTAGTTAATTTTTATTTTTAAATTCTAGTTTAATA TTATTACTCTGAA
CCTTACGTAAATACGATAATATCGAATTCACCTTTACTTTCCATACATCATTCACAA CAGAAAGTATTT
GCTTCATCCGATAATATATCTGATTATTATTATCGATGGCAAGAATTATACTCATAT GCTGAGCCTGAA
TTACCTTATCAATCGTAATAATATCGTACAAGTTTCTTTCATTTCTACTTTTAATTA ATTCTTCGCCATC
ATTATACTTAATTGGTCTTATCTTCATAAGTTCACTAACAGATTTAATAATTTCAGA CGTATTTATACAT
TCCATATTATCATTCAAAATTTCTTTTAAATATTGAATATTATTATCTGTCTGCTTA ATATTATTTAATA
AGTATACTTCATATTCTGCGATAATAAATAAAATATCCTTATATTTTTCACGAACAG TACTAATCTCAC
GATTATTTCGAATATTATAGTCACTATCAATATTGGACATCATTCTCATAATAGTAT CAGATTTTTCTTC
AATATAATTAATATACGTTTCATTATATGCGTAACGTATAATATCCTTTGATACTTG GTTATTTATTGAC
TGAAGTTTATGCGATATTTCAAAGATCTCTATTTTACGATTAACTACGTCATAATAT ATTTCTTGAGCTT
CTTTCTTTTTATCCAGTGATAAGCTTGAATACGTAGGAACTTTATCATACATAGCAG GATGTATATACA
ATATATTATCTCCTTTCATTATTATTATTATTGTTGATTTATTAAATATATATTAAT AATATATATGCATT
TTTATAATAAAGTTTAATATTATTCCCTAATACAAGAATTTACATTTATCTTGTATT AGGGAACAAATT
TATTTATTTTGATCTATATTAATAAAATATAATACCCAAAAAGACCATATTAACCCA AAGATGATTATT
AAAAATCTAAAAATTAATGAATCTATAAGCAATCCTAATATAATTAATATTAGTGAC ATTATGGTTAA
AATCATTAATACTATTTCTTTATGATCTTTTAATAAGTTAAATATTTTTTTCATAAT AAAACCCCCATTA
TAATATAATAATTAAATGTATAAAAAAATTAAATCATAAAATTTAATTTATGTAACT TGTTAGGGGAG
AACGAGTTACGTCGTATCTCTTGCGTTATCAACAATATTTATAGTTGTTCATAAATA TTATGACTTTTGT ATTTTGCATTTTTGTTATTTCCAATAATTGTTATATAGTTTTGGTATATTAATCTATATA TTATTTCATCA
TTACAATAGAACCAACCTTATAGTAAAAATTATATATAAAGAATAAAAAATCTATAT AATTTACCTTC
GGTATAAGGATTGTTACATAGAAGGAAAGATCTACATATTTTTATTAAAAAGCATAT ATGGATTTATA
GTTAAGTCAGAACCAACCCTATAGTAAAAATTATATTAATAATTATATTTTATTATG AGTTTAATGCTT
CGTTGTAAGAATCTTTACATGCACGGATAAATTATAGTTAATTGTTATGTATAATAT ATCCAAGCATGT
AAGGTTTCTTAGATTATTTTTATTTTTTATTATTTTAATAACTAATAAAGATATTAA ACTTAATTTATTT
CGTTATATATAATATTAAAGTAATTATTTATCTATATGATTTACTTCTATAACTTTA ATTTCTAGTTCTG
AAACTTCTTCGTGTTTTCTGAATACTGATGCAGTATTTCTTGTAACGTATATTTTAT GTTTTCCGGGAAT
CCATTCAATATTGATTTTAAGATTATCCTGAATCATTTTAATGAGCGTTAGTCTACT AGCTTTATTTACT
AATTCGCCCCAAAGGTAATATTCATTATAACCATTATTCCTAAGAATGTCTAATTCT TTTTTTGATAATT
TGTATTTTGTTTCATAAGTTATTTCCATGATTTATTAATTATCCACCTTTATTTATT ATTTTTAAAGATCA
ATAATGTTATCTAGATGTAAAGATTCTTTATCTAATGAATTATTATCGATAATATAG TTAATTCTTGATT
TAACGATGACGTCAGTTATTCTCTTAATTTCTTTAATGCAGGCACTATATAATTCAT TCTTGTCTATTTT
TGTTATCTTTAAGGTAAGATCTTCAAGCTTTTCGTAATCAATTGGTTGTTCACGTCC ATACATAATCCA
ACTTGTATATCCACTACTTACTTTTTTTCTTTTCAGTATTTCAGTGTTATAGTAATT TGTGATGGTAGAA
AAATATTTTTGCCTTTTTCTTTTAATACTTTTAAAGTATATTTTGTTGTCTGAATGA ACGCAGAATTTTA
AGTTAAATGAATTGTTAATAAGAACTTCAAAATCTAAATCATCTAATACCATTTAAT AATTCATTCCTT
TCATTTATTTAATTGTTTTATGCTCCAAAGAATATCTGATTTTAAGTCTTCTAGGAA TTTTACCGTACTA
ATAATAGTGTTTTCGTGTAAGTAATCTTTTTCTAGTATCATTCTTTCTTTATATATT TCAATTAATTGGA
ATAATCTTTCTTTATGTTTAGAAAGATAAGCATAACCTAAGATTTCTGCTGAGAAGA CGATATATTCAT
CATTCAAATTATCAATTCTTTTTTGAGACAGATTATTATCATTTTTATAAGACGTCA TAATTTCAGAGAT
TAGATCATAATATAAGTTACTTAATACTTTTATTGTCTTTTCTATTAACCTATTAAA TTTTTCTGCTTTTT
CTTCTTGAATTAAAATAATCGTATCATTAATAGCATTATTATAGGAATATTCTTCAT TGCTGTAAAGAT
ATGTTTTCTTTTTATCTTCTAATTTCTTTTCTATTTCCTTAATAGTATTGATTTGTA TTTTTATACTATTAA
TTGAATCATCATCGCTGATTGGGATATTGTCCATCTTTTTAATAAGAGACGTATCCG TTTTTAAATAATT
ATCTTTAGTATCAATCGCTACCTTATTACCATCTAATTCTTTTATTATACCTTCTTT TGTAACGCCATTAT
GCATTACTTTTACACGTTCACCTATCTCAAACTTTTCCATCATTTTCACCCCACATC TATTTCTTCAATA
GGAACTGCAAATTGCCAATAACGCTCATCTGATGACTTTATTTGTTCTTTTGTTAAC TTAGTAGTAAAC
CCAGATGATATTTGAAAAGGAATAAGTTGTCTTTTTGCAAACATACCACTTACGCCT GTAGAAGGGTTT
ATCGCTAGATATAAATAATCATTAACTTTTTTAGAAACATTTTTATCCCATTTCAGT TCATTATTTTCAA
TAAATTGAACTTGTTCGTCTATTTCGAATTTCATAAATATGATTTCTTAAATTAATT ATTTTTTCACTAA
TAGTCTTATCAATATTAATAATATTATTTTTCTTCTTTTTAAAAAACATATTCACCA TTCCTTTAACTTAT
TCATTCTTTAATTTTTTGTTAATTGAATCTTTACTAATATTTCGAATAATTTCTAGT TCATCAGATAATA
TATCATCAATAGTATTATTCTTAGATATTTTAATATTTTTATCCATATCTTTATATA CTTCGAATATTTTA
GAGAAATCGTTATAGATAGTAATTAATATTTCTTTAATTTTTTCATACATAGATTTG GTAATTATTCCTT
CAGTCTCTTGACCAATATTAATAATAATATTGTAAATATTATTAATTGTATCAATAT ACTGGGAGAGTT
CTTCAGTGAATTCATTTTTTTGTTGATTTAATATTGACATATTATCAGACTTAATAA GTATTTTATCGAT TATATCTAAAAGTTTAACATGATAATTAGTTTTACCATTTACACCCATTACATAATCATA TAACGGTTT
AGATCTATTAATATTTTCGTCAATTTCATTATCTGATAATCTATCGTAGTTATACAA ACGATATCCACCT
TTTTTTAATATATTATACCTTTTTACATATGGATGAGATTTATTAATATTAATTT TGAAATCATATACTA
TATTTTTAATACTAAATTTATCATACATAATCTGATACTCATAACTAATAGTAGAAC GTTCTCGGATGT
AGTATTTTTTATCCATAAAGATATTATCAAAGTATTCATAATATTCTTGGGGTGAAG GTAGTTTGTCTG
TAGTAATTTGAATTATTGATACCTTATGAATTGATTCAACTAAGGTATTAATAATTT GCTTTCTTAATTT
GATTAATTCATTATCGATAGTTATAACCGATTCTGTATCTGATAATTCATCAGTAAT CACATCTTCAGG
TTCTTCATTATTTATTTTTTTATGTGATTTTCTTTTAAAAAACATGTTCATCATTCC TTTTCTATAATATT
TATTTAATTTATTAATAACAATAAAGTTTTTTCTTTAGTAACTATCTTTTTAAAATA TTAGTTTATCATT
ACAGGAATAACTAATTTAATAGTTATTCCTGTAATAATTTTTCTTTTAATTTATATC TTCGTATATAATA
AGATACTGAATCATTTTTCATATGAACATTGGTTGAGATTTCAGAGATAGTTGCTTT TGGATTCTTTTTT
AGATATTCTAAGATACTATTGATTCTTGAATTAGTAGAATCATCATCACTATTTCGA ATACCTTTAATTT
TTCGATTATATTTAATATTATTCTTTTTAATATATGACTGAATTGTGTGATATTCTA CATTAAAATGTTT
TGCAATTTCTGTCATTGTTAAATTCGGATTTTCTTCAATAAATTTGGATAATCCTTC AATTTTTACTTTT
ATTTTCGGACCAATACCTTTTTTACTTACATATGGTAGATCATATTTTTTAATCTTT TCCCTTAATGTATT
TGGAACATAGTAAATTTTTTCAGATAATTCATTAACTGATAATTCGGGATTTTTCAT AATGATATTTCTT
AGATATTCTTTTTCCTGAATTTGATCTTTAGAAAGTTTTTTGATCATTATATATACC TTCTTTGTTATATA
ATTTTTCTACTTTTATTAATTCGTCTAATATAATTATTAATTGTAGATACATTTG CATTAAAATGTTTAG
CAATCTTGCTTGCTGTAGCTTCAGGATATTTTATCATAAAATTAATAATTTCATTAT CATCAAACATTTT
ATCCACCCTTTTACTTTTATAGGGGATATTGTTTCTTTTAATTGTATTACCAATAAA TGACTTTGATACA
TAAAAGTGTTTTGCAATTTTATCTAATGTTAAGTCAGGATTATCGCTAATATATTTA GAAAGGTCGTTA
ATATTGATAATATCTTCATAAATAACAGTATCGTTATCATAATTATATTGCATATTA TATTCCTTAATAT
ATTTACGGATGGTTGGTGCAGAGTAACCAGTTCCTGATGCAATTTTCTTTATTGAAT GAGTAGGGTTAC
TATTAATATATTCTTTAATAATATTAGGATCTACTTTTTTCAAAACTTTATTCACAA CACTTTCATTTTA
TTTAGTATTCTTCTTTTCCTTAGCAAAGTATGCAATTAGTATGTATATTATCATAGA TATTAATGTTATT
ATATCTAAGACATATTCATTAATAGTTATTGCATTATGGTGTATTCCATATAAGAAT GTATATATTGTG
GTATACACATTATTGAATATAAGGATTATTAGAGGTATATACCTCATTTTATAACGA AGTTTATATAGG
GATACTTCATGACTACTATATAGTAATAATCCAATAAGAAGATTAGCCGTTAATGCT AATGTATATGTT
ATTTTTTCAGACAATACTTCATTAGTAGTAAATAAATTTATTGTAAGAAATATAA TCATAAAGAATATA
AATACGCTTGTTATTAGTCTAGTTCGAATATCAATTTTTTCATTATTAATACACGAT ATATAGACTAAT
AAAAAGATTACAAGATTTGTTAGTAACATATAATAATAATCCTACTTTCCATATACT TATAAGAAGAA
TCCCCATTAATAAAGGATTCTTCTTATAATCTAAATTTATTTTACATATACTTTATA TGATTCAAGTAAT
TTATTTTTCTTTGATAGTTTAGTATTGATAAGTTTTCTGAAAAATAACTTTGTGTTG AAAGAGATTTGCG
TTAATTCTGTTTTATCTTCACCAAAATTAGTGCTTTCGTAAGATGCGGCTGATTTAA TTACACCCCTATT
AATAAGATTTTCTTCAGAATATGTAGATAATTTACCGTTATTACCAATCATAACTAC AAATTCAATTGA
TTCATCAATATTGCCGATAAAATGTTTTAAATTTTCAATAAAAATTCTTTTTTCATT AAATGTTCTAAGT
CTACGTTTTCTATCAATTTCAATAATAAATGCTTTCGGTTTCTTTTTGATATTATTA AATAGTTTAATAA TATCTTCTTTAATAAATTTTAGATTAGTATCACTGGTGATATAGTATTGTAAGTAATATT CTTCAGATTT
TAAATTATTTACTTTTTTGGTAATATCATAAAAAGTAGTAGTTTCAATTAATGGAAT AATATAGTTACT
TTTAATACTCGTGATAGCAGTATTAATACCAGTGACATCTTTATCGCCAATCACAAT TGTTTTTTTATTC
TTCTTAGCAAATTTTTCTAGATTATCAATCATTCTTGAGAAATCAGTTTTCTTAGTT TTTTTATTAGATCT
TAACAAACTTGCAACATTTAACATATAGTTTACCATCCTTTTTATTTTTTAGGTTTT TTATTTACAAACA
GTAGAATAATAATGGCAACGCCAATTCCAATAATTGCAGGAAGTAAATCTTTAAATA TATCCATGTCG
AATCACCTTTTATATTTTATTTTTTGTATACATATTCCGTATCATAATTTTCAATAA TAAGTTTAACAGT
TCCATGAGAAACTCCAAGAGATCTTGCAATCTTAGCAATTGAAAATTCAGGATGTTC CATTATAATATT
ATTAACAGATTCTATAATTTTTTCATTAGTTAAAGAATTATTAGACATATTAACTTG GTTATACGTTGC
GATACTAAATTTATATTCTTCAAATAGACTAATAATATATTCTTCGGAGAATCCTGT ATCTTCAGATAA
TCTTGCTGGAGTCATAATATCATTACTGTCTAATACAATTTTACTTAATCTTTTAAA GTCTGATAATCGT
GTATCAATCTTCATATCTGAAATGCTCATTTTTTGAAGTCTAATAGATGAAATATCT TTTCCTTCTTCTT
TCATAATTCTTCTAATAGTTGATTTTGCAATTGAAAATTCAACATTACATTTTTCAG CAATTTCTAATAT
TGTCATTTCAGGATTATTACGATAAGTATAAATAATATCTTTAGTCATCTTACTAAA TTTATCATTATGC
TCATAAGTTTCTCTTCTCTCTCTTCTTTGTCTTCTTCTACTTTCTGCACTTGTTAAA ACATTTTGACTCAT
TACCATGATAATCTTCCACCCTTTTTAATTAATTTAATAAATTGTATTAATATAAGA TTATAAAGTATAT
CTATGATAGTTTAAATTAAATATATTGTAATCGTTTATCACATGCCTGAATTACAAT AGCATCCCATAA
AGCATTATGTTTATCTTCATTTACTATGACATTAATATATTCACTAGCAAATTCTTC ACGATTAATATCC
GGATCAATATTTTTAGTTCTAAATACTGTAGAAATATCATAATAGTACATGTCAACA AATTCTGGAATT
AATGTAGCATCTTTTCCTTTATTAATTAGATCCACAAATAACATCCAATCGTATGCC ATTAAGTCACTA
ACAAATACTAGTTTTTCAGAACTATGCTTAGCATTATATGATAACCATTCGATAATT TTATCAGAAACT
TCATCTTTAGTTCCATATACTATAGTTGTCTTAGCATTATCCGATTTTGATGCTAAT GCGTCATGTTTGT
TAAAAAATCGAAGTTTAGGAATAACATTATCATTCACCCAAACACTTGATTTCGTTG TATCAAAATTAG
ATACTTCCGCATAAAATAGTCTACCGTACGTATCTACCATTCCAATACTAATTAGGT CGGCATCTTTTG
TTAAATTTGTAAATTCTGTATCAAAATATATCTTATTATCCATAATGTACCAACTTT CTTTAATTTGTCT
ATATATTTCTCAATATAATACTTGATAAGAAATTATTGAATTCTTTTATTAATCGAT CTAGCGCCTTATC
ATTAAGTAATGAATTTATATTTATAAATATGGATTGATTATCAATAAATTTATTGAT ATCTTTTATATCT
ATAACAATTAAGAACTTACCATTATCATCTTTATATAAAGAACTATTGATTGATTCT AATTTTTTATTTA
TATATAACATTTTACCATCAACAATAAATTTAGGGTTAGTATACACTAATTGAAACA TACCATTAGAAC
ATTTCGATTCAATAGGTAAATATTTATACATCTTATATTCATCTATAGATATAATAT CAATAATGCATG
TAAACAAATATCTTTTAATGATTTTTCACCCCTATAATTTATAATTTTGATACTATA AAATAAATATCAT
ATTTATAAATAATTATTATTCTAAAAAAATAAAAAATTCGATTAATGATATATGACA TATCATTAATCG
AATATAATCTATTTAAGTATAGATACTGTTACGTTAGATGTCCCACTAGAACCTATT TGCGATTTATCA
ATTAATAAATCAATTTTATTCCCAATAATTGCGCTTCCCGTATCACATGCTTTAGCG ATAAATGAATTA
CCATTAGGATATGTAATTCTTAAAATACTGTTCATTGGAATTACTGATGTATCTACA GCTACAATACGA
TGACCTTCTGGAGAATAAATAGTGTTACTCACTTTAGTTCCATTAGCAGTAATTCCT GTGCTTGGAGTA
TAATCATCCCCAACCGCATATACTGTCATACGAAAAGAACCAATTTTTCTGTATGAA GAATTTTCTTTA GTTGAAACATTCCGTACAGTTTTTTTATTTTTTACTTTATGACCTTTGTTTAATTTTAAT TTCTTGATAAG
TTTAATATTATCATTCTTAATATTTTTAATAATTGTATCTTTATCTTTAATTTTCTT TGTAAGTTCTTTTAT
ATCAGTAGACATTTTATTACTTTTATTAACAATATTTTCATTTTGTTCTTCTAGATT ATTATTGATTTTAT
TCTGTTTTAATATTAATTTTTCCTGACTTTGGATCATATGGTTTAGATTAGATTGAT GAATCGTTTGAAA
TGCTGTTAACGATAGTAGTAGAATTACGATAATTGATACGCATGTAGTTTTAATATT CATTCGATTCAA
TTTCTTTTTCTTATGCATAGATTCCTCCATTTCTATTATAACATTAATACTATTTGC TATAGTAAAATTAT
ATATCAAAAAACCGTAGTATATTATTATTGTTTTAATATACTACGGTTTCTTATTTT ATTTTATATTATT
TTTTAAACAATATTACTAAGAATTTTTGGCGTTTTTTCCACAAAATAAATTTCATCT GAATTGATCTCAA
TGATATTGGCAATTAGTTTTTTAATAAATCCAACAATATTACTGATATGGATAATTT TATTTTCGTTAAG
AATTGAGAAGTTATCTAGTAATCCATTAACTTTTAGATTGATATATGAATATGATTC TTTATCAATATA
AAATTCAATAAGGTCGGAATCGATAATCCTAACATTAACTATATTATACAAATTTGC TTTGTTTTTACT
ATTAATGTCACTAATAAGTTTATCATAATCATCTTTATCCGGAGTATGAAAATAATA TGGATTTAAAAG
ATTAATAAAATTGATCTGATATTCTTTTCCTAAAATATTAAAAACTAATCCATTTTT TTCTGAAAATTTA
GTTGTAAGAACTTTATCTATAATCACTTTCTGTTCCATTTAAACCACACTCCTATAC CATATTATTAGTA
TTAATAACTTATTGTATTAAGTTATTATAAAATACCCAATACGTTAAATAATAAACG TATTGGGAGTAT
TAATACTAATAATTATTGAATTCTATCTTTAATTACAACTATTGTTTTATGGAAATT ACTAACAAATTTA
ATATTTGTGTCATAATATTTATTTCTAATATTATTAGGGATGTGACCAATAATATCA CTATAAATAGTA
TCAATAGTCTTATCGATATTTTCAATATCCGTATATACATAATGAGATAAGTTATTT ACAATAATTTTTC
CAATATCAATATATTCATTTTCAAACATATTAGTATATTCTTCAGGACGTAGTAAAT TCCTAAATAGAT
TTTCAATATTATTAATAATTACATCAATATTTTCATCATTAATAATATCATCGATAT CATTATTAATAAT
AATATCAACAATTTCATCTACATAATAATTAACATTGTCTTTTTGATTTTCAGTAAT ACCGATTAATCCG
TCAACTTGCTCTACTTTACCTGGATTATCATCATAGATATTACTATCCATTGATGTT GAAACGTTATCCA
TTTCATTAACGCTTGAATCTTCTTTATTCCTACCACTAAATAACTTATTAAATAATT TCTTAAACATACA
AATCTCTCCTTTTATACTATATTTTACTATTATTATAATATATAAATAAAAAAATGA TTAAATTAGTATA
TCTCCAATCAATTTATATTTTGATTAGAGATATACTAATTATTTTTAACTTATATAA TCATCGATATTTA
TTTCTTTAAGTTTAATCGACATATCATGAAATGCTTTATATTGATAGGTAATTTTTT GAAGTTATCTCCA
AATTTTCCCCCAATCCAAACCGTACGTGAGACTTTCATCTCATACGGCTTTCCATCT ACTAGGAATCTA
AACCTAATCTGTTATGTATCTTTCTTTTTAGTAGACTAAGGACTTTCCCTAATTTAT ATTTCTATAAATA
TTATCGGTATCTTATCCTCGCTTTCAATCCAAATAAAATTTCAGTTATAGTCCAGAT TAGACTTTCCGA
GAAATAAGTATTATATTAATACTTTTGGATCTTCCCATGTTTCTATAGACTTAGGTT TATTATATAACTT
AGGACTTTTCTAGACCATATATCTTACTTCTTAACATGATAAGCTAATAAGGTTATT ATCAATGATTAA
TAACTATTAGAAGATATATTTATACATTACTGTATAGGATTAAGTCATTATAGAAAA TTCGTTAAATCT
ATCCATATTATACTACCCAAACCAAGATATCTTATCCTTTTTAATTAAAAGGACAAT CTTCTTGACTTC
ATCCAGCTTCACACATAGTAATTACTTGCTATGCATGTGGAATATTATTTTCAGGAA AATCTTAGAATC
TTTGTTATCTAAGTCCTTGATCAGTCTATAAATTAAATTATATAAAAATATAATTCC TACAATCCCTCAT
ATTAAAATAATGATTTCTGTAGAACATGTCACACCATTGATAATCCAGTTAATGCAT TCCCAATACCAT
TCGCAATTAGCCCAACATTCTTAATTCCCATTTGATAGTATAGTTCGCCTGCACATT TATTACAGATAT GTTCAGACTTACAGTATAATGGACTACGCATTTCAACATTCTTATTAATAAATTTACCTT TATTTTCTTC
GGTAATTTGCGTTAATTTATCACCGTCTTTTACATAACGAGTAATAAATAAATTAAT ATTATTATTTGT
AAGTGTAATATTTAAATATTTTTTAGATTTACAATCACTTCCATGATCGCCAAGAAT TATTGACTGAAA
TGCAGCGGCAAGTTTTTTCGCTTCATATCCACCATCTTGAGTACCAATAGCACGACT TGCACTAGCACT
TGTAATAATTTCTGCATATTGATATAGTTCGTCAGGAGGAATACCATCGTCTAGTGA AGCCATACTAAC
TCGAACATCATTTGGGTCCGCATAACTTTTAGTTACACCTCTAGCTACCGCTGTTTG TTTAAAGTTATTA
TTAAAACTTCCACGGCTTCCACTATCATAAATATCCATATCGGAAGCATCTTTAAGA ATATCATGGGAT
AATGTTAATAATTCTTTTTCTATTTTAGATACAGTAACAATATCCCCAGAATCAATT GCCTTTTTATGCT
TAACAATCAGTTCTTCTTTACGAGATTTTACTTGAGGAGGAGTCATCATTAAAGTTG TACTAAGTGATG
TTGCAATGAATTTAGTTATACCAAAGCCCAGCCATTGCATCTTATCAATATAATTAC TAAAATCAGCTA
CAGTAATTTTATCTTCTAATAAGAGAGTACTTAATTGTTTATCTAACTTACTAATAG CCCCACCATCCA
TTGGATGATTAATATATCCAATATATCTTCCTAATTTTGCATCAATAATTAATAGGT TAAAGATATATC
GACCTACTGTAGTAGTAATTTTATCTTTATTAAAATGAATATTTGATTCTAATTCAA AATAATCACTTG
GGTCAAACTTTGCATCTTCATTTTTGGTATATGCAAATAATTCTTGTAATTTTTCCA TAGTGATATCATT
CTCTGAAAGATTAAGAATCTCAATCTTTCTAGCATCACTAATCTTTTTACCTTTATA TGCTTTTTGCAAC
TATATTCACATCCTTTATAAATTATATCCTTTAATATAAATAAATGTTCTATTAGAT AATAAAATTGTTA
GGATCATAGAAAAAAAAAAATATAACCTAGATATCTAGGTTATATTTCTTAATATAA TCTGACCATAA
AGAATTAATACTTTCCTTATCTTGAACGCTTATTATGTCTTTTAATTCAATTTTATT ATTTTCTTCAAAGT
ATATATACGATAATATACTGGAGATTGCATCATAACCTTGTTCATCCGTATTAATAT AAACGTTATCAT
CATTACCATAATCCATAAATGTATTATATGATCTTTTTGATTTTATTTGTACTGGTT GATGATTAATTAC
TACGTCTGTTCCATTCCTATCTAAATATGCAGAACATTCCATCCAAAATTTAATTTT CTTTTTATTAAAT
ATATTCTGAACTTTTCCTAGAATTCCCATTACTGCAATTTCTGCATAGTGACCTTCA TTAAGCATTGGTG
GCAGTTTATCAATACATTTTCCGTTGAATCCTTCTTTTCTTGCTTGGTTCTTATAAT AGTTCAATTCATTT
AAATTAATATACATCGTAATATTCCCCCACTAATCGTATTATTTATAGTATTATTAT TTTTTCACAATTC
TTACATTTGGTTCGATAAATTTAATAAAACAAAATTTCATTGATAGCTTTATAATAG TATATGTAGTTG
CAATCATAAATACAATATTAATGAATATATTATTGTCATAGTTCCACAATACTACGT TTGAAGCAATAA
TTAATAGAATGGTCAGTATTACCGTTATCATAATTGAGATAAAGATCTTGTTTACTA TACGATTATTCA
TATCATTTCCCTACCTTACTTTTACTTTTTATAAACATGTCTACTTTATTACGAGAA TCCAAGTATTCAG
AGAACTGATCGATGAAAAGATTTATTGATATGTTATATGTTAAGTATGAGAATGAAA TCGATACTAAT
AAGTCTAGGTAAATATTATTATTTCTAAAACATACTTCATTAATAAAAAGAAACCAT AATGATGACGT
AATAATAATATTAAATATTACTTTGGTGATAAGATTTCTAAATAATTTATCACTAGA ATAGATACTTAG
TATACTTTCCTCTCTCTCAAAATTAAATATAGCCATTACAGTTCTTAACATATTTTT TCTACTTTTAATTT
CGATATTCTTAATTAAAAAGTTGCATAAGAATAACACTGCTTTATTTATGTACATTA TATAATCAACCC
TTCTTTTTTTTATTTAATCATTATTATAATATATCATTAAAACTTGTATTATTACAT TTTTTATAAATTAG
AGGGATATGACAAGTTATATGTCATATCCCTCTAATAAATATAATTTATGCTACGTA AATAATATATTC
CATTTCAATATTTGTAGATAATCCACTTAATGAGATAGAATCAAAAGTCAATCTTGA TCCACAACTAAT
GTTTTCATAAGAGTTTTTAGTTTCATTGTATCTACCTAACCATAAACATAATTCATT GATCATTCCACCA CGACATTCACTAGGGTCGATAGTTAATGATAGACTATATGAAACTTCTCCAGTAAATGTA TTAATATTC
CAACCTTTAGAATTACCAAAAGGTTTTGAATTTGTAGCACCATTAAATCGTTTACCA TAATATTTTACA
GTACCATCCGGATCAGCTTGTGGTAAATAATATTTCATTTTTTGTTCATCAGTAAGC TCTTTTACAATAG
AGGGATTATCTTGAGTTTCAGTATCATTATCCTTATCAGGGTCTACTGTAATAAAAG GAAATTTTTGAG
CTAATCCATTATCATTAAATTTTGGAGCAACTGGAGTGAATGGACTAGCATTAATAT CCGCCCCTCCTT
CTCCTACTGAGAATAGACAGATTGATCTTGCAGGATCATAGACTTCGTTGTATGTTG ATGGATGTTTTT
CTTTTAATAATGCTTCCATTACAAATACACGAGTTCTTTGTAAAATTAAATTATCTT GAATATTGATTAC
TTGTTTTGTATCTGCATTACGGAAAATAACTTTTCCTCGAATTCCTTTATCTGAATC TGCAGTACCAATA
TTATCTTCAAAAATTTCTTGAATGTTATTATCTTTAGACATAATGTGGATTACACTT CCTATTCATTTAT
TTTATAGATATCGATCTTAATCATTTGATTTAATAAATAATTTATCACTAAACGTTA TATTATCATCAAG
ACGTTTTGTTAAGTTTAAACTATGAGAATCAATTATAGAAATATAATCCCTAAATAG TATTCCACCTAT
TTTAGTGACATCCATGGTATCAAACAATCTTATACTGTTATCCATTTTACTATCAAA CTTATAAATAGA
ACTACTATAAACTGTATCGATAGTATAGGATTTAAATACTTTTATGAGGATATAAAT ATATGATTTTAC
ATAATCAGATAGACCAATCGTATTATTTTGAGTTAAGAAATCATATTCCCCTAGATT TAAATGATTATC
AATACTTTCAACAAGTTCAAATATTCTTTCACGATATATATCATCTTTACTTAATGA ATCAATATCGTAT
ATATTAATATCTACTTCTGTATAGAAATATAAGTTTGGATCATTATCTTTTAAGTAA TCTGTAAACGTA
TTATATTTTGAGAAAATATCCATATTTAAATCATTTGTAAATTTTTCATTCCATAAT TTATTAAACAAAC
TATATAGTTTATAATCATTTGTATTAATAATTGTTTCTTCTAAGTCTTCCCTTAGTT TTTCATTATATCGG
TATATTTTTGCGAAGTCATTCATAGTATATCTTCTTTTATTATTGACTATTTCATCA TATGAACCAAAAA
CATCTATAAATACCGATAAATTCTTATAGTTTATTAGCTGTTTTCGATAAATATATT CATTGACTGAAA
TAGCTTCATCAATAGCTGAAGGAATCATATCAATAACTTTTCTAAAGTTCTCAATAG TTTTATTTCGAT
TATATATATCAAAAACGGTACTTAACCTGTTAATACCAAGCTTATTTATAAAGTCTC GCATTTCAGACA
TTATTACCACGTTGTCCATACCAAACTGGAATATCTTATCAGTACTAATATATTTAA TATCTACCTGAT
AATTAACAAATCTTGATAGTAATTGTTTCAATAGACTATATTCCGATATTATAGACA TTGATATTTTTCT
ATTTTTATCAAGAAGAATATTCATTAAGTATTCTAATCCATCATAAATATTACCA TTCTTAATGTGATTT
TCTAATTTCTTAGAACCGTTAATACTTTGGATGTATTCTGAAGTGAACTGCATTTGG TTTTGGTAAACT
ATTGAAGAATTATACATTGCTACAATACTATCAAAATCTTGGTCTATATCTAAGTCA AATCCTTTCAAC
TTAAATCGATTTAGATAACCCATAATATTTTCCCATTCTCGTACTCTGAATTTTCGT TTATTCCAGAAAA
GATATTTTCTTAATGAAATAATAATATCATTTACATTTTTATCAATATCATATCCGT AGGTATGTTCTAA
GAATGGAATTTTTCTAATTTTATCAGACCAATTCATTCTTTTTAATACCAGTGTTAT TAATGCAACAATA
GCATCAAATATATGAATTTCACTATCAGAGATATTGCGGTTATTAAATTTAAAGTCA ATATTCTCAAGA
TTAACTACTTTTGAAGCTTCTTGATAGGTAATATTATTATCACTAGCATATTTATTG ATTATTGCTCTAT
TTTTAATTTCTAGGTCATTTAATAATCCATAAAAGTATGATAATTGTTTCGAATTAT TAATCAGATCAA
GAACAATATCGACTGAAATATACTTTGTATTTATAATATTGAATGATTGTTCTAGTA TATTTTTCTTTTC
AGCTCGCCAATAGGGATCACCTTCAGTAATTGCGTCATAATCTACCCTAGGATGAAG CGAAAAATTTA
ATTCTTCATCAATAGGAACTTTATAGAATTCTAGTGAGTCATCACCGCCTAGATTAT TTTTCTTAGCAA
GCATATACCTATTTATCTGTACATTATCAAAAGAGAAAAGATTCTTTATGACATTGA ATACATCATTAT CTCCCTTGTTACGAATCATTTCATTTATTAATCGATAAATTCTTCGTTGATAATTTACTG GAACAGAATC
AAAATAATCTAATCCCCATGATATAAATCCATTTTTTAATTTTTTTCTATCATAAGT ATCAATATTAAAG
TATCCTTCCATAGTCTTATTAATATAACGCATTATAGTCATAAATATTAGATATTCT CGATATACTTCAC
GATTATATGTTTGATTACTAAATGCTTCAGTAAACGTAACATTTAGGAAATAATTAA TCGATTCATAGT
AAGCTTCATTAAATAAACTTTTATGCCATTTATCTAATGTATTACTAGTTTCTTTAA GTATATAGAAATC
TTTTGCTCTTCTTGCTGAAGCATAATCAATATTATATCGATTAAATAAATCTTTATA ATAAGGGTTTGAT
TCATTATATCCTTTAATGATATTTGATTTTTCTGATTCTGAAAGTTCCGAATCACTA TCATATATAGCAC
TTAAATATCTACTAGAATTTAATAGTGATGAAGGAGTTTCATTTGCTTCTGCCAATT GAGTATCCTTAA
TTACTAGTCCACGAGCATAATTTATAACATCTTTTATTTCATTAATATCCGAGTCTT TAAATGCATTATA
AAAATAATATGGTGTATATTTTCTTAACATCTCTTCTTTAAATTCATTGACCAATTA AAAACGCCACCA
TTCTATTATTATTTTTATATTATAAAGAGTTGTTCATAAGTTATAATATCTTTTTAG TTTTGATATAGAA
ACAATATACTATATATTAAAATAAAGTTAGGGTGATTTATATATGAATATTAAAAAA ATAAATAAGAA
TAAAACAGTAAGTAATATTGTATCTATCAGTAAAGATGGAAATATAATTCTTAAGGA TAAGAATTATA
CAAGTGATAATTTTTTAGACTCATTCTATATAAAGTCACTGGATAGTAAATCTATGA ATAAATTTATAA
AAAATATAGAATCATTAATTCGAACATCATTAGAGTATTCTAGATATATTGGGTATT TATCTACAGTTC
AAAATATCAATACAGATGCAATTATGGCAAATATTAATTCTGATGATGCCAGTCTAG AGTTTCATCATT
ATCCATTTACTCTTTATGATATTGTAGAAATTGTTATAAATAAAAATATTGCATTAC AAGAAAATTTTA
CATCAATATCTATAGCTAGGGAAGTTTTAAAATTACATTATGATAATATGATAGGAT TATCTAGAGTCA
GTAGAACGGTACATCAATTAGCTCATGCCGGCGAAATTTTTATTCCATTAGATAGTA TATTTGGAAGG
GTTAATGATTTCGTTAATGATTTTTATGAATATATTTATCAAGAACACATTATTACG TATAATAAGATT
ATTGAAATTTATAATAATAAGAATTATGATAATGATATAACAAAATAATTTTTAGTT ATATATTATAAT
TAAAATAATAACTATTATAGGTGGCGATTATATGAAAAAAGGAATAGACGATTATAT TAATAAATATA
TAAGTGATGATCCAGAGACTCAAAAAGAAATAGATCTCATTGTAAGTAAAATAAATG ATTTTAATAAT
AATTGTATTGAATTGATGAATGATGAAAATATGATCTGTGAAGAAAATATTATTAAT GGTACCATTAA
TGAAGTTAAAGACATTCTATTAACGTTATCAAATACATTTACATCTGTTTATATGGC GAACAGAGTTAT
TGAAAATATTGAATTATTTATAAATGGTGAAAATGACGAAGAGCTTCATGAATATAT TTATATAATGC
AAGATTCAATTGAAGATTTTGATGATATTCCTTTATATGACAAAACGTTATTGTCTG AAGCGATTAATA
CCATTCAGCGAGCAGAATTTCTAAATATGATACTCAAAGAAATACATATCTCAATAT ATTTAGAAAAA
ACACTGAAATTATTAAACGATATTATGGATTATAATAGTGATAATTTGCCTTATGAT ATGTCTATAGAA
ATTAATGCATTACTGATGAGTTCTGAGTATACATTATCAGTTATATTAAGTCAATTT AATCATATTATA
ACTAAGTCATATACTAAATATCTAAAGATCGTTGACATTATCTAATTTTAAACCTAA TACCATAATTTT
ATGGTATTAGGTTAATTTTTTTTTTTATTTTTTAAGGTTTAAACTACCTAGCACATT TGTTTCTTTATTTC
TAATTCTTTCATCAACAGTATTTAATAATTTTAAATTACCATAAATTACTACTGCAT AGGTTTTATTTTC
TTCCGGATTTTTTGTTTTAACAATTAATTTATCAAAATCAACAGAATATTCATCTTC TGTAAGCATTCTG
TTATTTGCAAATATTTTTACTTCAATACATTTATCCATATTTCCATTATTTTTTTCA ATTTCTTTAGCAAC
ACGAATTAGTCCTGAAGACATTATTGATTTAATATCCAATTCATCATATGCTACATT AAAGTCAGGAAT
AAATTCTGAGAAATATAAGATTTGCTTTTCATTAAGAGTTGGAGGTATTAAATCTTT TTGAGTTATAAT ATTAAACTTAAATGTATCACTATTATCTATTTCTGGAATATCTTTTATAATATTTTCGTT TCGCATTTCT
AAAATAAATGATCCCGGCATCCATAATTCTGCAGTCATTGCATATCGCACTTCAGAA TAAGAATTGAT
TAGATTATTCATTATTTTTTGAGAATTTGCTAATTCTGGATATCTTAACATGATATT TGCAGGATACTCG
CACATATAGGTAGGATTATTTGTAGACATATTTATTTTTTCTATAATTGGGTTTAGT GAATGAGATAAT
AAATATTCACGTAATTTATCTTTATCTTCTTCATTATCAAAATCTAAACCTAATACA TTACATATATTCA
ATATAAATGATAATGGTATTTCATAAGGTATTCTAATATCATTAAGGTAATTTACTC CGTTATTCTCAA
AATTCTGATTTAAGAAATTTAAGTTATTCCAAGCAGAAAGTTCACTAGGGAGTTTCA TGTATATATCAA
AACGTAATTTTATCCGATTAGGAATATAAAAAATACGAATATCATTTTCATGATCTT CAAATACCATTT
TGTATTCTTTGTGTTTATTACGATTTTTTATATAATATTGATGAGTAGACCAAAAAG GTAATATATCAA
TAAATGTATCACCTAACTCAAATTTAGGGGAGATTCCAATGTATGGTTTAGGCATAT CAGTAAATAAC
CCTTTACCATTACTAAAATTAGTCGAATTTAATGATTCACCGATATATACCTTTTTA AAATATTTAGGT
GGAAATTTGCTTATAAAATAGTTTGATATGAATGATGATACGCCACTAATAACATTA TGTATAGATGG
ACTAGCAGTACATAATGCTACACTATTATTATATTCAGATCTTGCAGGATCTAACAT AAGAGAATCAC
GCCTTTCTATATAATGTTGTTCACAAAACAAAAAACCCCTATTACTATAGTTATATA GTAATAGGGTAA
AAGATCAGAGATTGTGGGATCTCTAAAAGTGTGGAGTACAGAAAGCATATACAATAG GTTAAAAAAT
AAAAGGTTAAAAAAATCCTATCGTATAATATATTATTTAGAAAATTACGCTTAAAAA AATAATATTAT
CTCTAGGTACTGATGCTCGAATTGTATACATGTTTGAAATGATGAATTTATCAAAGT CGAAATCTTCTC
CAACAATTTCTTCAAACTCTTCATTTCCTCTAATAAATTTATTAATGATAATAGTAG TTTTATTAATAAT
TTCGTTAGTCAAGATAACCTGTACTTTTTCTACATATTTATTCATGTTTTTATCATC ATTTTGATTTTTAA
CTTCAGGAAAATTTTCATTTTCCGGTTTATTTAGTTTTAATACAAATTCAGGATTAT CCTTATTAATAAA
GATTCTTGAATTATTATCTTTAAAATCAACTTTTTCTGATTCATCAATAATTTTTCT TAATTCATTAACT
AAATTTTCTTTACCGATAAAACTAATAATGTTATTTCGGATAGCAATTTCTTTTCTG AGTTTAATCAGTT
TTTCATCATCAATCATCTCATTTAGTCTTTTCTCATTTTCATTATAAATCATCTTGT ATTTTCTTCCCTTC
TAATTCCTTTTCAGGATTATATGTTAATTCACTATTAATTTCATTATTTTTAATTTT CATTGCAAGATCTA
ATATGTCATCATCTAGTGTTTTTTTAAGTTCTTTACTTATGCGTATATTTTTTGAAT TTGGGTTTTCTTTA
AATCTTATTATTAGATTTGTTTCTGGATGAGTATTATAACGTTTTTCAGATATTAAC CGATATACTTGAT
TATCATCTTTCCATAGTATTTTATTTAATAAGTCCATTAATGTTTTTTGATAATTAT CGATATCTGGTTTT
TTAATTCTTTTTTCCTGATTTGTCAACATTAGATATATTTTATAAAGGCTATTTCCA AACTTTGTTGGAA
TATTACTAAATATGGATTCTAATTCTATTGGACCTTCAAAAGCGTTTTCATTAAAAG GTATTTTATTCTT
ATGAACTGAATTATATTCGTTTATAGATTTAATTAATATTTTTCGAAATTCATTTTT ATACCCACCTAAT
GGATCGTATGTGCTACCAATGATATTAAATCTATGTCGTTGATACGGTAATATTTCC CTATCAATATTA
ATATGTATTTCATTTTTATCAAATTTAATGATATCTATATTTGCATTTAAGATATAC ATCTTAAAATTTC
TCGATTTTGGTTTTTTAATTTTTATATCCAAAGGTTTTTCTTCACCATTAGGAATAG GTCTTTTTTTCATT
ACTGCTTCTCACCTCCAAAAGTATTAGTATATAAATAATTATTATTCAATAATTATA ATTTTTTAAAGT
AAAAATATACTCATATCAATCATTTTAATATATCACGATATATGATAATTAATTAAT TGATATGAGTAT
ATAAGTTATATAAAATACTGATGCCATTATTAATATTAATGCAGTTACTATATAATA TATTAACGCATT
ATTTTGCTTTTCAGATCTATTTATTCTAAACGTCATATTCATATGACGTTCTATTTC TTTAAATAATTTAT CCATAAAGTTTTCAATATCAGAAGTAGTTTTCTTAATGGGTTTAATTTCTTTAATTATTT CATTAGTATA
TTTATTCGTTTCATCTGCTTGTTCTTTAATTGCATTTAAAACAGCATCAGTTTTCTT CTTATGTGCTTCAA
ATTCTTCTTTTGTAATATATTTTTCTTTATCAATATATTTATCGTTATCTTTTCTTT TAAATATCCTTTTTA
GTAGTGCAGTGAACTTTTCCATCATCCTTAAACCCACCTTATTTTTATTTTAATAAA AGGTCGGGTACG
ATATTAATAGCTGAAACAATTATACCACTCAGAGCAGGTAACAATGCTAACCATATT TTATTTCTGCTT
TCACTATTATCTAATTTATGACTATGTGATAATTGTGTTGTTTCAAGATTCCCTATT CGTTCATCTGAAG
ATTTTGTAAATGAATCTATTTTTGTCCTAGTTTCATTTTTAACTTCCTCGATATTTG AATTAAATCTTTCA
CCAAGATCATCAATTTTATTAAAAATTTGACTTGAGAAATCATCAAATTTTTCTTTA ATATTATCTACAT
TTTGACTTATTTTAGCAATCTCTATATTTGTATCATTTAGTTTTGTTGAATTTTCAT CAGTTTTCTTCTTA
ATATCTGAAGTAGTTTGATTATAGTTGTCGATAAAAAGTTTAAATTCATTTCTGGAA ACTAGTTCTTTTT
CTGAGTTATTTGCCAAAACCTCACCCCCCCAGTTATAGTAGCCATACCGTTAAATAC CGATATGATTAA
TAGACGGTTAAAGTTTGACTTAATGAGAGTATTTGTATCGTTTACTGCAGAAGCATA AATTATCCATGC
TATTGTTGCAAAGAAACATGATATCGCTATTATAATATATCTAGAGGGTTTCTTATA AGATATAAACGC
CGATATAATGAGTAATGAACCAGTAACAACAAAGATATATGACCATATAATTATGGG AAATACCCTAT
TTAACATAATATATGTTTCAGAAGTAAGTAATACACTAGATTCGGCAATATTAAAAC TGATTCCCGTAC
TTAATGATAATAATCCTAATAGGATTAATAGAGATTGTTCCATCAAAAGAATATAAT TAAATTCATTCA
TAAATTTTTTAATTATATTTTTCATTATAATAAACAATCCTTTCAGAAAATATTATA CCATATACTTATA
ATTAAAATATATGGTATAATTATTCTCAATTAATAAATTTATACAAATTATTCGGAT GGTGGTGAATCT
AATTTAGCTTCAATAGCACTTACCCGATTTAATAATTCATTCCACTGAGCTTCAGTC GGAAATCCATTA
TCACCTTTTGCACCTTTAAGACTAGCTAACCATTCAGCTTCAGTTCCACTAAATCCA GATGCTTTTGCTA
GGTCGTAAGCAGACTTACCGTTATCACCAGTGCTTCCTTTATCGCCTTTATCACCTT TTGCGCCTTTAAT
ACTAGCTAACCATTGAGTTAATGTACCGTTAAATCCATCAGCAACTGCTAAGTCGTA AGCAGACTTAC
CGTTATCACCATTATCACCTTTTGCGCCTTTAAGACTAGCTAACCATTCAGCTTCAG TTCCACTAAATCC
AGCTAATTTTGCTAGTTCGTAAGCAGACTTACCGTTATCTCCAGTGCTTCCTTTATC ACCTTTTGCACCT
TTAATACTAACTAACCATTCGGCTTCAGTTCCACTAAAGCCGGCTAATTTTGCTAGT TCGTAAGCAGAA
TTACCGTTATCACCAGTGCTTCCTTTATCGCCTTTGTCGCCTTTTGCACCTTTAAGA CTAGCTAACCATT
CGGCTTCAGTTCCACTAAATCCATCTAATTTTGCTAGATCGTAAGCAGACTTACCCT CTTCACCATCAA
CTCCGGGATCACCCTTTGGTCCACGGTCACTATCGGAAACGGTATCATCTACGATAT CTTCATTAGGTT
TATGATAGTTAACTTGAGATATTTCATCAATATTACTAATTACATTAGTAACTCTTC CCGCTTCAGAAT
ACGTTAATACAAGTTCATCACGATCATATTTTAATGTACCACTACGTTTAATATCTT TTACTAGTACTCG
ATGATCTGAGTATATTGATGTGATTATTATTTCATTTTTGTTATGTCTATCGATGTA TTCTTCTATTCTAT
ATCCTATAGCCATTTTATTATATCATCCCTTTCGTATAAAGAAACCTTTATATAATT TTTTGTTTTATAT
ATTGGAGTTCTAAATATAAAAATTATTATGATTTGTATATATTAATAACATCTATAA TTCTAAGCTGTG
CTTCTTGATATAATTTATTCTTCCAATCTTCACCTAAGTCAATAATTTTATTTTTTG GTAATGTTTCTAGT
AATTCAATCTTATTTTCACGTATATCGGTAGTAATTACATCATTATCGTCATATACG GTTAATGATTTAT
AATTATATTTATAAAATGATAATTCTATAAATCTACCTATATCGTTTATATTATTTT TTCCTATAACTAC
TAATTTAGGTATCATATAATCATTATAATCAACTTCAATAGCATTATCGTTATCAAT ATATTCAATAGT TGTATGAATTTTATCATCTTCAGTAATTACTTCTGGAAGATTATATGGTTTAATACTGAA GTCAAAACC
ATATTTTTCAGAATAGTTATACGTATCTGTAATATTAACAGAATAGTTTCGTATTCC TTCATTTTGAATT
GAATTAATATCGTCTATATTATTAAATAAATAAATATTATCAATATTTGGTAGTTCT AAATAATGATAA
TTATTGAATTCTCTTTCTAGTACTGTTTCACTAAAGAACATTGAATCAAAAAGATAA TCATCATCATTG
TTAGAAGTAATAATAAACGTATTAATACCTTTATTAAGTTTAATTTTATTAGCATAT TCGTAAACATTT
GTTTGTTCATTATAAATGCTTAATCGATCATGAGATATACCTTGACTATTATATTTA TACGTATATGAC
AATCCGTTAATATTTACTTTTGCATTACGATTATATTTATCACTAGGATTATATCCA GTAATATATACAT
ATTTCTCAATATCATTTTCTAGGTTAATCTTAAATTCGATATTACCTTTATTTATCT TTACTAATTTATTA
GATAATAAGTTATTATAAGTATTATCAACAATCTCTGAAGTATTATCATCATTTACT GTTTTTAATGAA
GATGATAATTCATATCCTGTAATATTTCCATTAATTTTTATAGGATCGATGAAATGA TTATATATTGGA
ACATGGTTAATAATTGCTTTTCTAAGAACTAAAATATTAAAATCTACATTTTTTGTA TTTCTAGGTTGAC
CTGACTTTAATAATATTTCTTCAATATAATCATTATGGTCAGCATTAATAATATTAT TGTTGATTTGATT
CTGAGTATACATACTATACTGTTTAGGAGTTATATCTTGCCATACATTCTTGTTATT ACCATTAGTTGTT
AAACTTCTTTCAATATTATTAATAAAGATTGAAGATGTTTTAGATGTCAGATTATTA CTTCCCATATAT
ACCGTCATATTGTAATTATTCATTTCAGGAATAAATATCTTCATTCTTAAATACCCA TCTTCTAATCGAA
CATAACCCTTTCCAAAATATTTTAAATAGTCAGAAGTCATTCGTGATCCAGAAGTTT TAGTATCTTCAT
ATTCAAATATTGTTCCATCATAACATTCATATACATAAGTACCGTCAGCTAGTATAG ACGGATATATGA
CTCCATCATTATTGATATAACCATGAGTAATGATATCCTGATCAAAAATAATATCTT TTGGATAGTGTG
GATGACAATAACACTCTCCATTACAATTACACCCATTATCACAGTCATCATCATCGT CACCACCATTAT
TAGGTGGAGTAAATTTATTATTAATGTAATTTACCATTGTTATACTGGTAGGATCAA CAATACTTTGAA
CTTTTCCATTCTTATCAGTAAAATTTATTTTAAAATCTTTATGTTCTAATAAGCCAT CACGATTAATATC
TTTAATTAATGTCTTAACATTAGAATCGATTGATGTAATATCAATTAATCCTGAGTT ATGATCATCAAT
CATTTCTTCAATACGATAAACTTTCATATTTTGTTTCACCTACTATCCGTTTAATAT TATATTGTTATCTT
AAAAATTTTAGGACTTTTTGACCTATTCCATATTTAATATCTTTAAATTTATTATCT AATGACCTAAATG
ATAAAACTTGGACTGCTCTATCCCTAGTCATCAACAAGTTTGTTTTAATACGTTTCA TTAGGTTTAATTC
ATCATAACGCATTCCTGCCATACACTCAATATATGATGTTAATCCAATATTATATCT TAATTGCTTAAT
ACGCTTAGAAGCCATTAGGTTAGGATATAAGTCACGTACTTGCATAGATACGGTTAC TTCACGAGGAA
AGTTTTCAGCAGTCCATGTTTGTTCTTCGCCACGAACCATATTTATTGATGATATTA CGCCACATTCAC
ATTCAAATCTTCCTGGACAAGACATTCTAACCAAGAAAGGTTGTTTATAACTATAAT ATGCGTCTTGTA
ACGGTAAACCTAATACCAGTAAAGATACAAATGGTACATATACATAATTGAATATCG CTCTAGGATCT
CCATAAGGAGTATAGAATCTAAATTCTAAATTATACGATCTATCGAAAGTAGAGTTT GACCATAAGTC
TGGATAGTATAACTGAGAACCATCTAGATTTTCAGTAAACGCACCAACTAAGCTACC CAATACCGGAA
TTGTTTCAATAACGTCTGTTATCATATCCTTGATTCCATCAGTAATAGCACCCAATA ATCCTCCGCCGC
CAATTCCGGCAAGAGTTTTATTTTCTCTAATTTCAGCCTGTTTACTATTAGATTCAC TAGCTAAAGAAG
ACTGAGAATAATCATTAGATGAACTTTCTGATACGCTGGTTGATTTATTTGCATAGA AAGCAATGCCGT
AGTTATCACCATTATTATATTTACTAAAATCGAAAACACCTTCTAATCCCATAGAAT GATATATATAGC
TTAGTATTGTTTGTACATATCGATAATACTCTTCGTAATTTTGTTTAAACGATATAA ATCTTCCATCACT AAACTTATTTGCATTAATCATTGGAAAGACATTATCTTCAATTTTCTCTCCAATACCGAA AAGATTAAA
AGTGTTTCCTGACATACTACCAAATAATTTCTTATTTAGTCTAGGTTTTCCGGGAGT AATAAATATTAC
TGGTAGATCATTTTCGAATGTATTTCGGTACACTCTAGAGTTTGCATCATCTAATGG ACCATATTTAAG
TGGCATACCTAATACCCTTATATTATCTTTACCATATGAAGCATCAAACGTATCTAT TTTAGTATTTCCA
AAAGCATTAATAGTTTCTCCCATTGCATTGACATATAGACCTTCATTATTAACTTGT GAAGGGTCAATA
TCATCTTCTTGCATTAGTGTGTCTCCCTCAACTCCACTGTCTGGTTTTACAATATAA AAATCATCATCTG
AATCCGTATTATTATTAGAATTTTTATTACTTACTAAATCAGGCATATTTTCACCAC TTTCAAAATAAAT
TTTCCTTGAGACCAAATTTAATACATTTATGGTCTCAAGGAAATAAAATTTAATATC CCGCTAATATAG
GAGTTATACTATTAGGATCAAGTTTAAAGCTTGGTTGATCTAATTTATTATCTCTAT CATTTTTATGATC
ATTTCTAGTTTGTTTTAAGATGTTATTCGTTTCATTAGTTAAGTTATTATTAGTTGC TTCTAGTCTACTAA
TATTTCTAATTTCACGAATTAAATCACTCAATTTGCTGATAGAATCTTTATCATTCT TATCAATTAATTT
ATACATCTTATCGAGAATATGATTTACTTTTTTAAGTTCATCATATTTTTCTTTATC ATATTGGTAAGGT
TTATTAGGTTTAGCGGAACTTCCATTAGATCCATTTTTACCGTTAGAACCGTTAGCA CCATTAGATCCG
TTTTTACCTCCGGAACCATTCTTTCCACCGCCGTTAGGTTTAGCGGAACTTCCATTA GATCCGTTTTTAC
CATTAAAACCGTTAGAACCATTACCATTAGAAGAACCACTAGAACCAGGACTATTAT CTCCAGAATAT
CCACCCTTAGAGCCACCACTTTTAGAAGGTTCAGCGGTTGCTGAAGTTGAATTACTA CCATCTTTACCA
TTAGAGAAGTCTTCATTATCTCCTTTTAGACCGTATTCTTTAGCATATTTACTGTTA ATACGATCACCGA
TAGCTTTCTTTTCTTCTTCAGTTAGTTTAAAGTTAGCTCTTGATTTTTGTTCTTCAG TTTCTTCATTAACT
TCTCCAGTACCAGACAGTTCTGCACTACCATCAGCAGTACCTCCAGTGTTTCCACTA ACTCTACCAAAT
CCTACTAATCTACCAAACCAATCTGCAGGCATATTTAATGCATCACTACGAATGTTT ACACCTTTACTA
GATTCAGCATTGATCATTTTCCCTTCACTGATATAAATACCTACGTGGGAAATAGAA CCATCTGGGTTT
GCTGAGAAGAATATCAAATCACCAATAGATAGTTCATCTTTTTTAATTCTTTTAGTA GCTTTATATTGTT
CTCTAGAAGTACGTGGAAGTTTCTTACCGACAGAATTGTATGCATTCATAACTAGAC TAGAACAGTCA
AAGGTCTTAGTTTTACCTAAACCAGAACTTGGTCCCATTGAGTATGGAGTACCGATA TACTTCTTAGCA
TATTCTACGGCTTTATATCCTATAGATTGTCCGTCAGTTTTATCAGAACTTCCATTA TTGGACATTACAG
AACCTAAATTACTTCCAATATCTTTACCGGTATTTTTATTTTCTTTACTAGACGATA CTTTTTGGTTTGT
AAGATCTTTTAGTTTTGCACCCTCTTCTTTAGCACGTCTTCTTAATCCCGCTTCTTG ATTGGTTCCTGCAT
ATTGACCCATATATTGACTTAATCTTTGTTTTTGGACTAAATCAATAATTTGATTGT CTGATAGTTTACT
AATATTTTTTCCGGCTAATGCACGTTTAAATAGACTAGTTGCACCTCCAGCACCATG CTGTACTGAAGC
ACTTAAAATTAATTCTTGAATACCTCTAGATCGACCACTTAAATCAGTTCCCAGTGC TTTATTTATTTTA
GCTAGTCCTGGATTATAGAAGTCTTTTTGGAAGTATTCTTGTTGTGCTTCACCAAAT GCTTTATTTTGTC
CTAATTTTTTCCAAGAAGCATCAAAGCTAGATGAACCTGGAGAACCACTAAGCTTTT TAGCAAGGTCT
GGATGAGCTGATCCTAACCATTTAACAAAATTAGCCAGTGATCCTTTAGTAGATGAT AATTGGTAAAT
ACCGTAAGATTTACCGCCGGCATCTCCAACCCCACTAGAGATATATCCCGCACCACT AAAGTCTTCTTT
ACCAGTTTCATAAAATCTGGCTACTGAACCAAAGTCTTTTGAAAGATTCTTTCCAGC TCCGGAACCGCC
AGAGTTTCCACCAGTCGATGCAGCATTTGCATTAACGCTACCTAATCCTTTTACAAT ATCTTTTAATTTA
TCAGTAATTGATGAGAAGAAATTGCTTATTTTACCCCATACTGATTTAGATGGTTTA TTTGGATCAAAT CCATTTTCCGCCATATTATATAATGCTCCAACCGGAGTAAGACTGAATAAAGATTTAGCA AATGATTTA
GGATTCTTTTTCATATCTTGACCTACTCTAGATGACATTAATTTACTGTATTCAGAA CCCATATTCATAA
CCATTCCTAATGGAGTAGCATCTAAAAAGTCTTTAAACTTACTTTGTTCTTTACCAT CTTTACCTTTATC
ATCTTTCTTTTTCTTTCTAGCATCATTGAATTTTTCAGCAATACCCATTGGAGTTAA TCCGTATAGTGCA
TCTTTAATCTTATTTTTACGTTCTTCGGATTTTTTCTCTTTATCATTCTTTTTCTTT TCTTTTTCAGCTTTAT
CACCTTTAATTAAATCCCCAATAGAAGGTAATTTAGGAGTGCTTGCAGATTTACCTG ATTTAGCACTCG
ACATTCCTTTTACAATTGATCCTACTAATATAGAACCTAATATTGCTGCACCGCCAA CAGCTAATGCCG
GTCCGGCAATTGGAATTCCAGATACTAATGATAGTAATGCCCTTCCACCATTTCCTG CAATCCTAAGAG
CTGATGAGATTCCAGATACTAATTTTTCTCTGGTTGCATTAAATATTGCAGTTCCTC TTTCAGTAACAGT
TCTAAATGCTTCAGTTTCACCTAGACTTTTCATTCGAAACATCATTCGAGCAATTAT TCCTTTTTTACTT
TCTGCGGATTCTAGTGCAATATCTTTAGTTGCTGAAGCCATTCTCATTTTAGCTATT AGATTTTCAGTTT
TTTCACGAATGGAATTGATTGTACCCATTGGATCTTTTACTGATGAAACAATTGATC CTCCAACTTTTTT
AGCAGTATCCATAGCAAGACCGCCTGCATTTTTGACCATTCCACCAAATTTTGTATC TTTAACCATTCC
CCATACAGATCCGGCTGCATTAATGGCTCCAGATATAGTATCTTGGTTAATAATATT ATCGGGTTCACC
GCTAATGATATCACCTTTAGTTTTATTATTAAACATATTCATACGATCTTTGGTTTT CTTGATTTTATCTT
GCATAGAATGATACTTGGATACAATTGAACTACCTAGTTTACTTGAAGGATTTTTAA ATGCCGAGCTTG
CATCTTTAATTTTGGTTCTAGAGCCATAATCCTCACCGACTGAACTATCGATATTTA CAGGGTCGCTTG
CGTCAGGAGTAACATCTTGACCATTCGCATTTTTTACAAAATCACTCCTAAGGTCTG ATACGCTTGATG
CAATAATTGACAGATACCCTAGTTTCTTAGATATTTCAGTAAGAATATTTATCTTCT TCATATCATTATC
ATTATTTCCACTTGCAGAATTATATGATACCGTTGATCTATTATCGTCATCACGAGT TATATTTCCTGTA
GTTTCATTATCAAATAATCCAAATAATGCATTTTTTACTGATCCTAGAGGAGTCTCT GCTTGTAAATAT
CTTTGACCTTTTACTTGTGTCTTAAGAACATTTCTTGAAAAAGTTGCACTATTACCA TCTATAATCTGTG
ATAATTTTTCATAGATGTCTCCATCAAACATGTCTTTGTTATTATCTAATGCAGTAC GGTTTTTGATATT
ATTTTTAGATAATTTGATAATAGTATCTTTAATATTATCATTATCGATTCCTGCT TCACTCATCATAGAT
TCTAATGTTGCATTCTTACTAGATTTATTTAAAAGTATGCTGAGTGGAGATTTATTC TCCGTAGAGATT
GCTCTATCCATTCCAGAATTAAAGTTATCTTTAGCTTTACTAGGATCTAACCATTTT CCACTCTTATAAT
CATATACTAATTTTTGACCTGAAGAAGCTTCTAGCATTTTTGCTAAATAACCTGGAA TTACCGTATTAA
TAGTATTATGAGTTTGAGCATCAAAGTTAACAGGTCTGTCTGCTGAAACTCTAGCCA TAGAGCTTACTT
TTCCTAGATTAGCAGGACCAAATTGTCGATTGAGTGAAGTCATTAGTGGATTTTCAC CAAAGATTTTCT
TAAATTGACCACTAATGATACTTTCGTCACCTTCAACAAGATTACCTAGTGCTGAAT GTATTTTTCCGC
CAACTTTACCATTGGGATTAGTTCGATTAAGCGTACCTTTAACCATTCTGTCAATTA ATCTTTCTTTATT
TTGGAATGGTCCAATTTCACCAGTAGATAATCTTTCAATAGTGTCATATATCGATGC AGGTATATTTGA
TACATTCTTATCAAAATAATTTTTTACTCTATCTCTTGCATATCTATTTGCTCGTTC ATTAATATTTTTAG
AGATAGAATTTTTTGCATTTTTAAGTAAGTCTTTAGCGCTTGCATTTCCAGAATTTA GACTACTAAGTTT
AAACATTGATGATGTTATTTTACCTATTCCAAATATACCAGAAAGCATATCATCCAT TAGACCCACATT
ATTGATACTTGCTTTAGCGCTTGCTTGAGATATTCTATTCATTTTTTCTAATAATGT AGTAGATTTAGAA
GATTGCTCGATTAATTGTGAATAGAATTTGATATTTGTTTGATTCATTTTATTTAAG GTATTATTTAACG TAGAAAATCCTCTTGTATTTACCCCAACTACTGAACTTGCTGATACAATAGTAGATTCAA CAATTTTAT
CAATATTTTGTTCTTCATTTACATCTTCATTATTGATATGATCATTATTATCTTGAG GAGATTCGGTATC
AATAATAACTTCAGAGTTAACGCTTGAAGTATTACTTGATTTTCGATTCATTTTATT TAATGATCTACTT
AGTATATCTAACGTGTTTTTACCATAAGCTTCAATACCCAAATTATCTTGGTTCATT GAATTATTTGAA
GTTCTATTATTCTTACTTTCCAGTTTATCGTCTAAATCTTTAGATATACTTCGGTAT ATATTATTAGCAG
ACATATTGGATGCAGGAATTCGATTATTTCCTTTTCCCCAATTTTTATTACCTTTAT TCATATTGTCAAT
ATATTTACTTCCCTCTTTAAAAGTGCTATCAATACTTTTATCTGCCATTCTAGTGTC TCACCAACTTTCA
TATGTAGAGATTAAATCGCATTATTAATCTTCTTATATATTAATGTTTAAGAATAGT AAAAATCTGATA
ACTTTAGAAAAAAAAAAAATAACCATATAGAGATAATATCTCTATATGGTAAATATA ATTTAAAGATC
AATATTAAATTGTGATTTTTCAGTTATAAGAGTATTTAATTCTTCCGCACTATATTT ACTATAACGTTTA
TTTATAGTACTGCTAATATATTTTAAAATATAAACTAGATTTAATAATACGCTAAAT CTTCTTAATTCTT
TTTCATCTTTAGATAATTCTTTTAGTTTTTTATGATATTTTCTTTCAGGATATTGCC TGCGAATATTAAG
GAAAAGTATTTCTGAAATTACATCATTAAATTTATCTATTTGAAGCTTAGTTTTATA TTCGCTAGGTAG
TTCTTCTAGAATAATCTTTTTAAAATGATCCTTGTTTAGATTATAATCTACAATAAG ATGAGTAATGAC
TGAACCAATATATAAATATATATCCATAATTTCTAAGATAGCTAATTTTTCATTATC CATAGATTGATT
GTTTACTTCATATAAATATTCTTGTACTTCTTCCATTATCTGAGGGTAAAATCTTTC TAGCATTTTACAT
TCTGTTTCTTCTGGAAATTTATACTTAGATATCATATGTTTTTGATTTTCAATAAGA TTTTCTATAGAGA
ATGAGAAACTATTGTTTTCTTCCGTAATAATTGATTTAACTTTATAAGCCAAATTTA CAACACCCACAA
TCTGTTTATTTATAAGTATTATTATCTAAAAGGGTCTTGGTATTAATCTAAATTCCT TAATATCTTCTTC
AGTATTAAGATTAAATTCAATTTCCCACTTATTTTTATTTAATATTTTTCGAATATT ATAGTCAAAAAAG
AATTCGGCAGTATCTATAAAATTTCCTAAAATACTTGTTCTAAAGTTATACGTAAAA GATTTTCCAATA
ATAATCTTTTGATTTATACTGGTCGGTATTTTCCAAATTCCATTGATATCAATTCTG AAAAGATTATCTG
GATCATAGTAAATATTAGAAAAATAATCTAATATTGTTTTAATATCACCTATATTTC TATTATAAGGAA
TAATGCTTTTCTTAGTTTTCTTATGGATAATTTTTAATATACCGTCATAATTTTTTG TTTCCATAAGCGA
CATGCCTTTCAATTAATTTTATTAATAATTTATTTTTGAAAACTGATTTTTTAGATA TAAATTTATTCTA
ATATTAGAGTTTTGTATTGAATGAGTTAGATCTATGATATTCTCATTACTATTACCA GAATTATTTAGTA
CATTTATAATTCTTAGTAAGTTTTGTTGACTTTCAGGAGTTACCTTCATACTCATAT CATTAATTATATT
ATAATCTAAACTTTCTTTTGACATATTAATATCAATAGAATCAATAATATTAATATT TTCTAAAGATAT
ATCTTTCATTCTTTTATTATCCTCAATATCCGATATAATATAACTAAGATAGAATAT TGTCCGTAGTTGA
TTTATTCGGTAAGTATTTTTATAATGAATGTTTGGATACGTTATCATGAATGGTGGT TCAATCTTATCTT
TATATTTAACATTATTATTGAATATTTCATCAATCTTATAAACAATATCCTGATACA TTCCCCTATACAT
TATGTCTTTATTGTAACAAACACTGGAATAGTATACTAAATATACATTTATAATTAA AAACGAAAAAA
TATTTATCATTAGAAACATTTTTATTTCATGAATATTATAATAATTTATAAATGTAC TAAAATTAAAAG
ATACTAGTAGTATACAAGTATTAATAGCTACTAGGTATAAAGGATTCTTATAAATAA TCTTACCAATA
GTAATAAATTTATATTTCTTTAACAATTTAGATCACTTCCATTTCTTTATATGACGT GAATATATTATTG
TATAGAAAAAATATAAATGTACAATAAATATTATAGTGCAGGTAGTTATATCTATAA TAAAATAAATA
TAACTACCTACACTGATTCCCCGATTTAACTAATACAATAATAAAAAATTGTTATTG TTGTCTATGTTG TTTGTATTTCTCTTCAAACTCAGAAGTGTATGATTCATTTAGTTTGGAGATATCATAATC TTTACCGTCA
TCTCCAGTGAACGTACCATCCCCATTATCTGTTCCACGAATCTTATCATAATTCATT ACGCTTGCAAAC
ATACGAGTTCCTGGCATACACAATGTTTCAGTTTCACGGACTTTACCAATATGAGCA TTTGTTTTCTTA
CGTGAAAATCCAGTAGAACCTACACGAACTCTTAGTCCATTTTTAAGAGTCTCATCT AAGATATCCCCA
AAGGCGGTAATCATATCAAATACTTTTCGTTTAGAAAGATCATCTTCACTAAAAGAT CCATCAGCAAT
CAGTTTATCATAAAGAAGATTTACTTGATCGTCCTTAATCAACATATCTAATTTTTC ACCACTATCTGTC
TTTTGATCAATAAGTTTATTAAGAGTTAGATATTCACGAGATTCTTTTGGTTTCTCT TCTTTTTTCTTTTT
AGATTCTTTTTTAGGTTTATCCTCTTTTTTATCTTTTGTTGAATCTTTCTTGACTGA TTTAGTAGTTTTAG
ATTTTTCTTTAGGTTCAACTTTTTCTTTATTAACTACTTCTTCTGAAGAAATCTT AGTAGGTTCACTTTCT
TCACTAGTTTTTACCACTGGTTTAACAACACGTTTCTTGGGTGTTTCTTCTTTAGCT TTACTTTTTACCAC
TGGAACTACTTTTTTATTAAGTTCAACTTTTTCTTCACTAACTGCTTCTTCTGAAGA AGGTTTAACTGTA
CTCTTTCTTACTGCTCTTTTTACCATAGGACGAACGACTTTCTTCTTTTCTTCTGCC ATTTAATTTACCAC
CTTTAATTTATTTTTTGAAATATTATTAAATTAGTTATTGAATAAAAATAATCTTTT AATTCTTAACTTT
ATTTAATATATACCCTATTTTATATTAATGTAACTACCTTATTGCCAACGATATTTA ACAATATTTCACG
TTTATAATATATACTTATAATATAGGTTTAAATTTTAATTTTTTAAAGAAAAATTTT CATAACATATTAA
TATTAAAAATTATATTAATTTGATTTTCTTATGGGACTCCGATGGGACTCGCAAAAT CTGGACTGAGCC
TAGACTCCTTATTAAGATGCTTATTAATGGACTTTACTATTTTAAATCGAATTCCAA CGTTTGTTAAAA
GGTGGACAAATAGAGGGTAAAGAGCTTGCGGTATAGTAGACGATGGTCTCACTGTAG ATGTAAGTAA
GTTTGTAAAGATTCTTTATTATTTTACGTTTTATTCTTTTTTTACTTCCCACACTTG AAGAGTGTTTAAAA
GGGGGGTTGGGGGGTTTATTGTTAGTTTAATTTTTTCATAAATAATTTTAAAATAAA AATTATTTTTATT
AAAAAATAATTTAGAGTGGGTGCTGGAATTTCAGCGCTCCGCACTTCATTCCGATAA TAAACAAACCG
AGAACCTGAAGTTGAGTATTGTATCCAATTATCCTTAATATCAAAGAATGTTTATAA TAAGTAATATAC
AGTAATTAAATAATAAATATTGTATATAGGAAATATAGTATGAATATTATTCAATAT AATAATTAATG
ATTTGATAAATACTTTAATATAAAAAGTATTTATCAGTATAATATCTAATCAATATA AATATTCAATAA
TTAATAAAATTTTAAGTTAGATATTAAATATTATATTAATATTAGAATAGTATAATA AATATTAAATAT
TAGAAATATCTAATAATTATTACATATAAGGTATATAGTATTTCAATTATATTAGTA TTAATAAGTTTT
ATCAATATAATTTAAATAACAATTCTATATACTGAATGAATAAAAATAATTATTCAG AGAGGAGAGTA
TACTTTTGTTATATATCAGTGACCTAAAGAAGTATAGATTATATAAAGGTAATAAGC TTAATGGTATTA
ATAAGTTAAGTGAAAATAAAGATCCAAATAAAGGTCAATTAATATTACATTTAGGAA ATAATGATACA
GATATTATCAGTTTCTTTAATTCAAGAATATTTAAGAATAATCTATTCAAAAGTTAT TCTACAGCTAGA
AGATATAGAACTAATAATAAACGAAAAATGTATATTAAAGATCTTAAAGAACATTTT GCAAAGATAA
AGAAAGAAACAAAAGTTACATTATTTACTAAAGTAAATTATAAACAGTTTAAGGGTA ATAACTTAGTA
TATGATATTACAGATCAATATAATATTGAAATTGAATCAATTAATAATAAAAAGAAT GGTTTAATGGT
TTCTAATAACTTTATAAAGTTATTAGAAAAATCTCTGTTGGAAGAATATGATGATAC AGTATTATTAAT
TAATATGAATACATTGAACGTAGATATGGATGATATATTCAATATTACTAAGTCTAC TCATCCACTAAC
AGTTATTGATTTTATTATTAAAAAGAAATTGGATATTAGTAACTTAATTGACAAGAA TATAACAATTGT
TGTATTTAATCCTAATAACAGATTATTTTATAGTTATCCATTAACTACAGAATTATA TCCTAAAAGACA GATCATCAATCAAAGATCTAAATCACTAATTAATTTGGAAGTTAATGAAATTGAAAGCAA TGATGAGA
TGAGTAATATTCCAGACATTAATGATATTGATGATGCTAAAAGACAACTAGGTAATA ATATGAGGTTA
GGTCGATTAAGGTCTAGAAGTAAGATACCTGTTAGTATAGACAATTCTGAAGTAAGT AATAATTCTTC
ACAAGAAGACTCAATAACAACTAAAAAATTAGATGATATTGATAAAGCTAATGAAAT AAATGATAAG
GTTGAAGAAATTATTACCCTTACTAGTGATAATACTTTATTATCTTCAGAAGCTAAA AAACAATTATAT
ACAATAGCTCAAGATGAAATTAAAAATAATAAAGATTTAGTTAAGATGGATAGTGCT AAAGTTGTCTC
TATTCTTAATCGTAATGAAGAATTCAATAGAATAGTTTCAATGTCTTATAGATCATT TAATATTGGTGG
ATCGAACGCAAAAGAGCTTGCAAGAACAGCAGCACTACAAAAAAGACAGAATGAAAT CCTTAATGAT
AAAAATATTTCGAATGTATTAGCTCATGCAAATGATAAAATGATTGATAAAGGAATT ATTAAATCAAA
TAATATTAATGATGAAACATTATCAGAACTTTCTGTAAACTCTTTTGATAAGAGTTA CATTGAGAAACA
ATTTAATGCCGATATTATTAATGTGTTAAAATCATTTAACGATAATGAGGATATTAG CGTATTCATCTC
AGACATATCTTCTGAAGACTCTTCAGACTTTCAGACAAAGAAAACTACATTAAACGT TAAGCTTAAAG
ATACTAAAGGCGTTAATCATAAACTATCATTAGATATTCCTAAGATATATAACGGTA GATATATGATG
GTTAACGGTAGTAAAAAAATACTAACAAAACAGTTACTGTTAAAACCTGTAGTAAAA ACTGCACCGG
ACACAGTACAAATAACTACTAACTACAATAAAATGTTTGTTAAGAGATTTGGTAGAA AAGATACTCCA
ATGTTAGCTTCTATCAAAGAAATCTTTAATAAATTTAAAATTGAAGATCATCTTCTT TCTGGTAAAAAC
ATTAAATATTCTTTAGGTAATTCATTATTAGTTAACTCAAAATATCTAACTTCAGTA GAATACAATAAT
ATTTCTAATTATTTACTAAGCTTTAGTTCTGGTAAAGATTATTACAATTTTAACCAA AAGTTATTATTAG
AATTCATTGATAATGATGATAAACTTAATTCACTAGAATATGATTCTACGTTATATT TCCCAGTAGGAT
ATACTTCAGATAAAAGTAAACTTATCTTAGCAAATTTTAAAGATTATCACGTTTATT ATAAAGGTGCAA
CTAATAATTATGAATTTGTAGAAGAAAGTTTAAGTAGAATGATATTACTAAATATTT TGATGAGTGTTG
ATGATGAGGTTGCTAAGTTTATTGATAAGGGAATTAAAGCAAATGATAAACTAACAT ATACACGAGTA
AATATCATTAATAAAACAATTCCTCTAATAATATTATTGTCATATGAGAATGGATTA ATCAATACATTG
AATCGATATAATATTGACTTTGAAGTATTAGATTCCAATCCTAAACTAAAGATTACT GATAATAAAGTT
AAACTTAAATTTAAGGATAAATATTTGGTATATGATAATACACTAATAAGAAATTCA TTATTATTGTCA
GGTCTTCATATAATGGATATTAATGAATATAACTTAGATGAAATGGAAACCAAAGAA CCATATTTAGA
TTTATTCCAAGAATTGTTTAATAGTCGGAATGTAGCTAAAGGTATTCATAATGCATT ATCTCTCGCTAT
TGATCCTATCACCAAAGAAGTTTTAGAAGATCTGGGATTACCAACTAATATATTTGA TGTCTTATTGTA
TTCAAATACATTATTAGAAGATATGTCTTATAATACTCCTAATGATATGAATGTCTA TCGAATTCGTGG
GGCAGAGCAAATCTCTGGTATGATTTATAAGATAATTGCTGAATCATACAAGAACTA TAAGGATTCTC
TAAATTCAAGAAATAGTGCTACTAGAATTACTGTACCAAAGGACATTCTTATAAAGA CTCTTATGGAG
AGTCCTACGGTAGAGGAAAATTCTGAATTAAACCCAACATTAGAAGTTGAAGTTAGT GGTAAAGTATC
TTATAAAGGACCAAATGGTCTTAACTTAAGTCAAGGTTATACTCCTGCAGTTCGTTC ATATGACCGTTC
TATGAAAGGAATATTGTCGATGATATCACCAGACAGTAGTAAGATTGGTGAAGTTCG TCAATTAAGTT
ATAATCCTGCAATAGTTAGTACTCGTGGATATTTAGATGTAGATGCTTTAAACGGTA ATGAATCTACAA
GCCTATATTCTCCTTCTGAACTTTTAAATAACTTTACAAGCTTACATGCTGATCCAC CACGTATATCTAT
GCAAGTAACTCAACAAAAACATTTACTAACAACAAGAGTCAATAGTAAACCGCTTAT CGGTACTGGTG TAGAAAAATCATTAGCATATCAAATATCTGATACTTTTGCTACTAAAGCTAAATATGATG GTAAAGTA
GATAAGATAGATACTGTTAATAATTTAATGATGGTTTCTTACGATAACGGTAAAAAA GATATCATTGA
TATTGGAGTTGTAATGAATAAAAACTCCGGTGGAGGATTCTTTTTAGCACAATCTAA AGATATTATGTT
TAAAGAAGGTCAAAAGTTCAAGAATGGAGAAATTCTTGCAAAGAATCCTAACTTCTT TATTGGTGATA
AGCAAGGTGAAATATCATATGCTATTGGTAAACTTTCTAAAGTAGCTTTAGCTCCAT TAGACGGAACTT
ATGAAGATAGTTCTATGATATCATCATCTATGTCAGAGGATATGACTTCTAAAATTA CAATGAAAAAA
GATTTAGTGTTAGGTACTTCGGCAAACTTATCTTATATTGTAAAAGAAGGTCAAAAC GTTAAGACTGG
AGATTCATTAGCTGTATTTGAAAATGAATTTGATGATGATTCTATAAATCAGCTATT AAATACTATTGG
TGATAAATTTGAAGAAGAAATCCAAGAAATATCTAATAAAGTTGTAAAATCAAAGTA TACTGGGGTA
GTCCAGAAGATTAATATTTATTATAATCGAGAGATTGATGAATTTTCTCCTTCATTA CAAAAGTTAATT
AAAGCTTATATTTCTAAATATGAAAAGAAAAATAAGATAATCTCAGATTATATGAAA GATAGCGATAT
TGATATATCATATGATATGAATATTCCTAGTATTACTAAAATGGATTCAGATAAGAT TAAGGGTAATG
ATGTAGATGGATTATTAATTGAATTCTATATTGAATATGAGGATAATTTAAGTACTG GTGATAAAGTA
ACATATTATACGGCACTTAAAACGGTTATATCTGACGTATTCCCAGAAGGTGAAGAA CCTTTTGCAGA
ATCAGACCCAGAAGAACATATTGAAGCAGTATTGTCTCCATTATCTGTTATTTCTCG TATGACTCAAGA
CGTTTATCTAACATTATATACTAACAAAGCATTAATCAATCTGAAAAAACAAATTGG TGAAATGTTAA
AATAACTCACTCTTGAGAGAAACATATTAATATTATAGATGTGAAGGTTGCTTTGTG CAGCTTTCGCAT
CTATAATTTCTATCAAGAAAGTTGGTGAAACTAGTGGGTAAGTTAGTATCAAATAAT AATAACGGGAA
TAATGTAAGTCCTATAGAAAAAGATATTGTAAATAACTATATAGGTAGTTATATTGA AGGTACTAGTG
CATATAGTAAACTATTAGAAAATGCTCCCAATTTTGTTACCTATTACTCTAAAAATA CTAGATCATCTA
ATGAAGATCCGGGTCTTGGAGGAACGGTTGAATACGTAGGTTCAGAATCTTCACTAT TATATAACAAA
ATAAAGAATTTTCCAGTATTTTCCGTTAATGAAATAAATCCTACTTTTAATTTTGAA GAAGGCGTAGGA
CTGGATACTGAATTAGAAAGTCAAGCAATAGTACTACCTAAAACTATTATACCTTTA CCTGATGATTAT
TTGACATTTTCATATCATGAAAAAGGATATGAGTATTTTAAGACATATCGCATTAAT AATGTTTCTACT
TCTTCAATAGGTAGTAACACCTACTATTCAATAACTTTTATTAATGATCCTATAGAT ATAAGGATTCTT
GAAGAAAGACAAGTAGATAAAACTTATCGATTTGTTTATGAAAATGTAGGTACTACT GATAAAGTAAT
TATAGAAGAAGATGACATATTATTAATTGATAAAATTGAAAAGATATGTGGAGATAT TAATGAAAGAT
ATATTAATAATTTCTACAATTCACAGTTAGGTATTTTATTATACGAAAATCTAGATG AAAGTTTATTAT
ATAGTCCTAATCTTCATTATTTTATAAATAAGAATCAGGTATTTATAAATAATCGAA CTTTCATGAGAA
ACGTATATATAGAAGATATAACAAAAGTGAAGCTGAAAGATTATAACAAATCTTTAT TTAGCATTATT
GATAATGGTTATAATAACATTAATATGTCTTATCAATATATAACTAGGGTTTTGGAA AATAATATTCTA
AAGAAAACTAGGGGTCTTTATGTTGAAGATTTAGAAATTATTGGATCTAGTTGTAAT ATTAAAATTCCG
AGAACTACGATTCATAATTATTTTTCAGTAGATATTAATGATTTGATAAATAACTAT GATGGCGTAGAC
TCGTTAAATGGTATAGATGCGATAACATCAATTATAACAATTTATTTAGCACAACCA GAACAATTAAG
TATTAATACGTTATTTAATTTAGTTTCTAAATTAAATTATGATGACTATTCAATCAG TAATTATTTCTTT
ATACCATGCGTATTATCCATTATAAATATAATTACTAATAAAAAAATTACTATACAT TCTGAAGAAGTA
TAGAACTGAGAGGAACGTGAATATAAATGTTTAAGAAAATAGAAGAAAAAATCCATC AAAGAAATAT GGAAGTTGAAGCTAGTAAAATTGTAAGTGAAGAATTAGAAGTTGTTGAACCAGAAGAAGA AAAAATT
ATTGCAGTACCTAATACTTCTGAAAACAATGAAGTTTTGGGTAATCCAGAACAAGAT CCTGAAATTGG
TCAATTTATCGATAGCACTGATGAATACGATGATGAAGAAGATGCATTGATTGATGC TTTAGAAGATA
AAAATGACGATGAAGGTTTAGACGGTATTGTTGATAAAGATAATGAAGAAAAACCTG TAGAAACTTCT
GAAGTTACATTTAGTGAATCTAAAGATGATAAAAAAGAAGATAAGAAAGATGAGGAC GAAAAAGAA
GATTCTGAAGATGAAGACAACGATGAATCTGAGGAAGCTGAAGAAGAAGATGGTGAT GATGAGTCTG
AACTTGAAGAAGGAATCAGTTCCATGTTCTCTGGAATTTTTGACATCAATGAAGAAA TTGAAGATGAT
ACTAATAATATTTTAAATACACTAATCAGCGAAGAAGAAGATATCTTTATTAAAGAT GAAGAAGACGA
AAAAGATGATGAACCTATTGAAATTGATTTTATTGGTGATGATGAAAAAGATCAAGA AGATAAAGAA
ATCGAAGAATCTGATACTGATTATCTTAAAAAAGAATATCTAGGTGAAACAATACTT AATAAAATCTT
CGACAAATAATACTGTTAACATAATATTATTAAGGGTATATAAAATATAAATTATAT AAAGGATGTGT
ATTTCAAAATGCCAAAAGTTGTTATAAAAGATAATAAATTTGTATTTGGTTTAGGTA AAGGACCATTTA
ATAATCCAGTTGAGATTAGTGATGAACTTTTACGTAAATTAAAAATCTCTGGATATA CGGTAATTGAA
GTAAATGATCGTCATATCGTATATGAAACTCCAAATAATGAAGAAAAAGCTGAAGAA GTTAAAGAAG
ATCCTAAAGAAGAACTACACCAAGAAGAAGAGTCTGATGAATCCGTAGAAGCTACTG CAACTGAAGA
AGAAAATAAAGACGAAGAACATCAAGAAGAATCTAATGAAGAAAAAACCGAATCATC TAAAGAATCT
GATAACGAAAAAGTTGAAGATGATAGTGATGAAGAAGATTTCAAATCAATGAAGGTT GATGAACTTA
AAGAAATTCTAGAAGAACGTGGAATTGAATTCAAAGCTAATGATACTAAAAAAGTTC TCCTTTCAAAA
TTAGGTGTAAGTGAATAATATTTTTATATTATATTGATAGGTCTACTTGTTGAAATT ATAGCAAGTAGA
CCTATTTTTTTCGATTATTATAAGTTAGATAAGAGGTGTTTATGTGTGCCAAAAGTA ATTATATTAAAT
AATAAATATATACCAGATATTGGTAGTGGTCCAATACTAGAACCAATTGAAATCAGT AATGAAAAATA
CCATTATCTAATAGATAATGGTTTTAATATATATCAGATAGACGATAATGAAGATAT TATGATTGATCC
ATCCATAACTACCATATTGAAAGGTAAAGTTAAGTCAGTATATGGAATGTTTCATGC AGATCAGAAAA
AACTTGATTCACTATTAATGTTTAATAGAACAAGCATATCTTCATTAAAAAATGTTA ATACTAAGAGTA
TTACAGAAAATAATAATATAATATATTGGAAATCAATAGATACCGATATTGCATATG TAAATTCTGAC
GGTTATATTGCTGCAAAAGAAAATGGTTCCACAATAGTTACTGGTTTTGATTCAAAT AATACGCTTAAA
GCAATAATGTTCATAACGGTAATACCTAAACTTCCAATATTACCCAATGATATTAAT GTTAATTTAGAA
AGCTATATGGAACTTAATAGATATGCAGAATTTCAATACTTAGTTGAATTACTTCCT AGCGAAGTAGAT
AATAATAAAGTAAGTATTACATCAAATAATATACAAATTGCAACTATTGATGAAAAG AATAAAAGAA
TTATTGCTGAAGAACCTGGATATGCTGTTATTAATGTTAAGAGTGCAGAAAACCCTG AAGTATCTCAT
AGTACGTTGCTAAAAGTTTTTCCTAATGATGATAGGAATAATCCTTCTAATATAAAT GTAAATATTCCG
GACGAGATTACAATTAAGGTTGGAGAGGAAATTCCCTTTGAAGTAAAAATTACTCCT GAGTCGGCTAA
TAATCTAGGATATATGTCTTTCTCATCAAACGTTGGAATTGTATCTTTATTAGATAA TAACCATATTCTT
GGTAATAGTATTGGCGTAGCAACCATAACTATTGTATCGAATAAAATATCATCATTA TATAAAGAAAT
ACGAGTTAATGTTGAAGCACCAGACCCTAATGATATTATTGTAAATTTAACTGAAGT ATCTATTGAGA
AAGGTCAGACTAGAGGGTTTAATGTAACAGTTCTTCCAATATCAGCTAATGACAGAA CTTACAGTAAT
AGTTCTTTAAATGAAAATATTGCGACTGTAACTCAGAATAATATTATTACCGGAGTT AATATTGGGGA CACAAAAGTAAGAATAACATCTAATAAAAAGCCTGAATTATTTAGGGATATTATCGTGCA TGTTACTC
CGCCAAGCCCTAAAGATATTATGACTGATCTTCCAGACGAGATTACAATTACTGATA CCGAAACTAGA
AATTTTACAGTTCAAATTCTTCCTGAAGATACATTTAACAACAAATATGATATGGAA GTAACAATTCCG
GATATTATTGATCTTGATAAAGAAAATTTATCATTTAAAGGTAAAAAGATAGGTGTA ACTAATTTAAG
AATTTTTTCACAGTATAACCATGATATTTTTAAAAATGTTAAAATTAATGTAGTACC AAGTCCATTACC
TGATCCGACATCTTTTAAAGTTATTCGTAGAGATACTGGGGAAGAATTAAAAAATGG AGATACTGTAC
CTAGTAATAAAGATATACTTTTTGATGTTATAGTTTTACCAGAAAATGCCAATGATA AAAGTTATATAG
TATCATCTTCAGACGTAACGATTGCAAAAGTTAACTTAAATTCTATAATAGGAGTTT CTCCGGGTCAAG
TTAATATTAGAATAACATTAAACAAAGTTTCAACAATATTTAAAGTATTTCAACTTA ATATTGAAGAAC
CTGTTCCTACATTAATTGATATTGATGTACCAAGCAATATTACTGTACAAACTATGC AAACACGTAATT
TCACTGCAACTATATATCCTGAAAATACTCCATACCAAAATTTCTTAACATCTGTTG AAAATCCTGATA
TAGTAACTATTTTAGATAATACAAATCCAAAAATACGTACGATTAAAGGAATAAAAC AAGGTGTAACT
AAGGTTAAAGTGTATTCCGAATTTGATCCAACAATATTTAAAGAAATTAACGTTACA GTAGTTAATCCT
AATCCTAGTTCAATAGAAGTTTCTCCAAGAAGTATTTCAATGTTATTAAATGAAACT AAAGAATTGGA
TATTAATGTATTGCCAGAATATGCTAATGATAGAACATACACTATTAAACAAACAGG CTTAGGTATGG
TTTCTATTAATGGAAATAAGATTACTGGTGTGTTAAAAGGAAATGTAAGATTAGATA TTATATCTAAC
AAAGTAAGTTCTCTTGGAACTACGGTATATGTTACTGTTGATAATCCTGACCCTGAA GATATGATTGTC
GATATACCTGACGAGATCGATATCAATGTAGATGAAAGAAGAAATTTTGGCGTAACA TTTGTTCCAGA
AATAGTTAGTGATGATTCTATTATTATAACATCATCTAATTCTAGTATTGCTATAGG TAGTGCTGTACA
AAAATTTATTAATGGAGTTTCTGTTGGTACTGCAACATTAACTATTAGATCTAATAA AGTAGCTACTTT
ATTTAAAGAAGTTATCGTAAATGTTCATGAAGATAGACCTGACCCAACAAGTATCAA TGTTGGAACTA
ATCCGCTTACTTTAGAATTAGGTACTACAACTCCAATAAATATTGCATATGAACCAG AAATTAATAGT
GGTGGTAAAATAATTGATGATTATTCCACATCAAACACTATTATTAGAATGGATCAA TTTAAAAATTC
AATACAAGCTATTCGACTAGGATCTACTAGTATTAAATATACTTCTGAAAGATTTCC AAATATTACAAA
TACGCTAAATATTACAGTTATTCCTCCTAGACCAAAAAGTATTAGTGATAACTTTTC ATATAATAATTC
TTTAAATGTTAATGAAGCAACAAATAAATCGTTAATTGTTAGCTTTTTACCAAGCAC GGCGGTAAACA
TTGGATACAATGTAGTTATTGATGATCCAACTGTTTTATTATTTAATACAAACTCTA AGAAATTTGAAG
CATTAAAAGAAGGAGAGACTATCGTTAAGGTGGTATCTACTGATAATTCTTCTCTAT TTGTAGAACATA
AATTTAAAGTTAATAAAAATATTATTATCGATGACGGTGGTAACGGTAAAGATGATG ATGGTAATGAA
GTTATAGTTCCAAAATCAATAACGTCAGATATAGTCACTGAAATGATAGTCGATAAG AACTATCGGGT
AAACGTAACAGTTTTACCAGATAATGCTATTGATAAAGGTTTTGAAGTTATAACTAG CGATAATAATG
CGTTTAATATAGTTCAAAACAGTGGATCATATTTTACTATTAAATCATTGGTTTCTG GAATGTATAATA
TTACGTTGCGATCTACATTAAATCCTAATATAAGCGTATCTTATGATATCGTGTCAG GCACTGAAGATG
AATTACATCCAATCTTACCAGAAACAATAAATATTATAAATGCTACTGATGAAATGA CTGTAGATGAA
GGTACATCTATGAATTTAGATATACAAGTTCTACCAGAAAATTCAACTAATAAAAAT GTAACTGGTTA
CAGTAGTAATGAAGAATTAGCAACTATACCTAATAATAAAACTATAAGTTTTATTAA AGAAGGTTCAG
TAGACATTACAATTACATCAAATAAAGTACCTACATTAAGTAAAACAATTCACTTTA TTATTAAAAAA CCCGACCCTAAGAGAATTGAAATTAATGCACCCAACGCAGTAACTTTAAATATCGGTGAG TCTAAAGA
ATATCTGATAAGTGTAATTCCTGAAAATAGTATTGATAAAGAATATATTTCAGAAAC ACTAGATTCTA
GTATTGTTACTACTAATGGAAAAAATATTATTAAAGCGGTTAAAGAAGGAAACACTA CAGTTGTGTTT
AGGTCTAAAACTTTTCCAGATATATTTACACGACTTAATGTTATTGTTCTTCCTCCT GAACCGAATGAA
ATAATTGTATCTCCATCCAATGAAACAATTAATATGATTAAGCTTGATGAATTAGTA TTTGATGTAACG
ATTAATCCCTCAAACGCAATCGATTTAACATATAAGATTGAGTCAAGTGATACTAAT ATTGTAAAAAT
TAAAAATCAAGATACAGTGGTTGCAGTAAATCCCGGAGAAGCAAACGTGACTATATC GTCTAGACGG
AATGCTAATCTAAAAGTTATTAAAAAGATTATTGTAACTGCGCCTGACCCAGAATCT ATAGATGTTATT
GGTTTTGGACCAGACGAAACAATGATTACAAATTCAACAACTAAGTCCGTTAATTTT ATAGTCAATCC
GGCTAATGCTAAAGTATCTAACTTTACAGTAGTATCTTCTAGTGATTCGGTACAAAT TAATATTCCGGA
TCAAACAAAATATGGATTTACTGTAAAACCTGTTAAAGAGGGTAATGCAATTATCAC TATCCAATTAT
CATCATTCCCAGATATTATTTACAATATTAATGTAAGGGTGAATAACCCTGATCCTG AAAGCATAACTG
CAGGGATAACTAATCCTCCAAATATGCCTTCTGGAAATATTCCAGGAAAAGGAATTG CTATAGGAGAG
AAGGTTGTATTAAATGCTAAGATACTACCTGAATATGCTAATGATATAACTTACTCA ATTAGTAGTAGC
GATAATGATGTCTTTGAGGTTCGAGATGATGGAATTTATGCATTAAAAGCCGGAACA TCTAAAGTTAG
GGTATTCTCTAATAAAGTTCCAACAATATTTAAAGAATTTGATTTAGAATGTCTAGG TAATAATGTTAG
TGATATTGAACTGGATATTCAGTCACCATTCAATATGGTCGTTGGTAATACGAAACA AATAAGTATAA
ATATTCTTCCTACTGATGCTATTGATAAGAGGTATCAGCTTAAAACAGATGACGCTA ATATTGTATCGG
TATTAGATAATAATACAATACGAGCTATATCTCCTGGGGTAAATGGTGAAGGATTTA CGAATATACGA
ATAATATCTTTACGTAATAATTCTGTGGTTAAAGTAATACGAGTTAATGTAGAAAAC TTAACGCCTCAA
AGTATTGATCTTGTTCCATCTGGACCCATAGAAATATATTCATTAACATCAACTACA TTTAATGCATAT
GTAAGACCAGACACGGTAATTGATAGGGATACGGTAGTTAGTAGTTCAGACATTTCA ATAGCTACGGT
TCAACAATCATATATAACTGAAGGTGGCATAAAAATTACTAGAGTTACCGTAAATGC ACTTAAATCTG
GAAATGTTAATATTCGTGTATCATCTAATAATTATAGAAATATTTTTAAGATGATTA ATATAAATATTA
TTGACCCAGATCCGGAATCAATTACTGTAACTCCATTAACAATAAATATGGCTCAAG ATACATCTACT
AATTTTAATGTAAATATTCTTCCAGAGAATGCTAATGATAGAACATTTAATACTGAG ATTGCAGATCCT
ACAATTGTTTCTGTTAATGGAAATACAATTACTGGTCTTAAAACAGGAACGACTACA GTTAAAGTATC
TTCAAATAAAATACCATCATTAAATAAGACAATCACAGTCAATGTGAGTCTTCCTAA TGTAAATAAAA
TTGAGATTACTACTGCATTAGTTGCGGGAACAGTTAATACTGTATATGAGGGCGAGT CTTATCCATTTC
TTATTAAGTTATTGCCAGAAGTTGCTGCAGATAAATCATTTACGATAAAATATTCTG CTAATGCTGATA
TGTCTGGTACTGCTGATTACTCATTTAATTTTGGGTATCGTAATGATTCATTAAATC CATCACTATATAT
ATCAGCTACAAGTTCATCTAGATATGTTCCACCTTTTGTTAGATATATTCAAGTGGT TTCAGCTAATGG
AATTACCTCGGATATATATGGTCTAAGTGTTGTACTTAAACCGATATATAAAATGGA TAGTACATTTAC
ATTTTATAATGATCAGTACGCTTCTGCTAAAACTACTATATCTTTTGATAGTACTAA TCCTAATTCTGAA
AATTATGTAATTAATGCCTATGCCGGAACAACAGCTAGAGACCCTAATATTAATACT GTTAATTTATAT
CCTCTTGAAGCAAAAGATACAAATTTAACAGTTACTATAAGTGATCCTACAAAAGCA TCATATAATAG
TACAACTAAGACTTTTACCGCTCTTCAATATGATACTGAAACTACTGCAAAGATTGC ATCCACAACTAG CCCTGATGTATTTGTAATTGTTAAGATTAAATGTATGAGATCTAGAATAACGTCTGTACA AGTTACAGG
TCAGAATGGATTAAGATATAGTACTGGCGATGTCTTTGGAATAGTAGTAACAACTGG TCCAGAAGGTG
CTATTGATACAAATGATTATACATTATCTTCAAGTAATGATACTATTATATCAATAA ATAATGAAACTA
GAACTGGAGTTGCTTTAAAGGCAGGTTCATCAACTATTACCGCATTATTTAATAAAG CCGGCGTATCA
AATAGTGCTAGATTTACTATATCTGACGTACTTCCCACTTCAGTAGGTATTACTGAC CCTCCAGGAGGT
TCTGAGCTAATTATTGGAAGATCCTATCCGATAACTCCAAGTGTATTGCCGACTAAT ACAACTAATAA
AGCGGTAACCTATTCTGGAAATAATTCAAGTTATTTAACATTGTCTAAAATAAATAA TATTGATTATAT
TAATGTGGTGGGTAAAATTGCAACAAATACACCTATAACTATTCGATCAGTTGCTAG TACGGGAATTT
ACAGTACAGTTCAATATAAGACTGCGTATGAATACCCAACAAGCATTGATATATCCA AAATTAATGAC
TCATATAATTTAACTGAAACAATTGACTTATCTACTTTGATAAATATAATTCCATCA AATACCGATAAT
GATAATAATTATACAATAACAACTCAAGATACCGATAAAATAAATATTGATGGTAAG AAATTAACATT
TATTAAAGATGGTAGTGCAACTATTACAGTAACTCATAATAGAAATAATATTTCCGT TAATAAATTGAT
TAATATTGTATATAATGATTCAATTAAACCGAATATTGTATTTACTACTTCAAATAT TATCATAAATAA
TAATGAATTTGATATTAAAAATAATATTACTAAAGATTTAACACTAGATGAATACCT CATTACTGGTGA
TCTTAATGGTTGGAGATATAATGGCAATAAGAAGTTTTCAGATAGTGGAGATTTTCA AATTAAATTTA
ATTATCCTATTAATATGCTTGAATTTGAAAGTATTAATGATCAATTTTCAAGTGAAT TTATGTATAATTT
AAATAATCCGGATTCTAAAGTTGATCCACCCCAATATGTTGACCTTGATAGGGGTAG TGATTTGATTAA
TGATCGATTATTTAGTATATTAGATACGTATACCATTTCTTCATATTATAATAAACG AAGAAGTACTAG
TGGTAATGAAAGTCAATCATATATTGTAAGCGCTTCACCAGTAATAAATAATATATC TCCTGCAGGAG
AATATTTTTATAAAGTCTATGTAAAGAATGATCCTAATAATTATATTATTATTAGAA TTAATATCGGTA
TTCATGGATCAAAACAATCCAGTAATTTGATATATAATGGATATCCTACTCTCATTA GTCCAGTATCAA
TATCTACTGATGATAATATAAACTATGAACTTAAAGTACAGCTGTATTTAAGATCTA AGTGGTTGAGTG
GGGACAAATCACCTTTATTATTTAATAATGAGTTAATTACTCATCGATTAATGCTTG ATTCTTCATATA
ATAATAAAATAAATATTAATGGTATTGAATATAATAACATTAGTGATTTTATTGAAA TTGATAATAGA
ATTATTAATCGAATAAGTAGACTAGGTGTAAATCGTGTAAATACTATTACCGATACT GTCGCATCTATT
GATAGTGTGGTCGCAGCATATCCGGACAGGGTAAGTTATTTTATTAAAAGAAATCCT ACTAAAAATGA
AGAATTTAGTATGGATATAAGATTAGTAAGTATTGAGGATTCGAATATCAAAATTCC AGTAACTTATA
CATTCACTACAATTAATAAATAATTCTTTCAAAGAAGCATATGATAAGATTCTTGAA AAGAAGATTAA
AAAAAAAAAAAAAAATAAATCTCCCATAACCTATTAATTTAGGTTATGGGAGATTTT ATGATTATTTA
TTAAACAGATCATCAATATTATTAGTATCGATATCTTCTTGAGTTTCTTCCTCATCA TCTTCATCTAACG
GTACAAAATTGATAACTGGTTTATATCCTAATGCCTTTGCAATATCTGATAGACTGG AATAAGATGTCG
CACCTTTTTTCCGTAGTCTGTAAAAGATATTAGAAGCTCTTCCTTCATTATTAGGAT TATCAAGATCAA
ACTTTTCAAAGAATTCTTCAAATGTTTTACCTTTTTCACCCTGCTCATTAATGAATT CTGCAGTAATTAA
TGCTAATTCTGTTTGATTTTCAATAGAATCCACATCAATATGCAATGGACCAGTTAA TTTCTTTCGTTTA
GATTTCTCAGAAGGATCTTTAGAAGCCTTGATCATACTATCTTTCTTATCTAATTTA TCCATATTTACAT
TATTTAGTTTTGAAAATAGATCATCGGACACGAGAATTTCACCTCATTTATTATTCA TATTAGAAATCC
ATATCATCATTAGAAATTTCTTCAGAAGCACCAATCTCAGTTGATTTTGCAATTAAT GATTTAAGATCT TTTGATCCACCACTAGCTTGGATAATTTCTGTATCCACATCTTCTGTTTGTTTATCTGCA ACTTTTTTCTC
GGATGATTTAAAGTTACTACCACTATTATTACTGTTATTAAATGTAGAACTTACATT TTTAGGTTCAGT
GGTTGTATCATTTTGTGATAGATTGTTATCATAAGGATGTTGAGTTGCGTTTGGATT CTTTCTAGTTACT
CGATTACTATTGAATCCACCACTTGTGTTTCCTGAACGATTGAATGGAGTTGTTGAT GTAGGTCTATTA
AATCCACCAGTGTTTGGACGTTGACTAAATGAACCACTATTATTAGATTGACCTTGA GAATAATTTCCT
CCGCCCAAAATATTAATAACGTGATCTAATTTATTTTCTACAGTATATAATTTCGCT TGAATTTTCTGGA
ACTCTTGTAGAATATAAAGATCAATATTATTAATACAATCAATCATATTGAATAATT GTAGTGTAGTTA
GTTCTACTGAATATTCATCGCCATTTACGCATAAAATAAATCCTGGATAAGTAGTAT CATCATTACGAT
GAATGATTGAAGGATAGATTAATAATTTTTTACCTTGACCACCAAACTCTGGAGAGA ACCATTGTGGT
AATTCTGGAAGATCCCATACACGATTACCTGAATTATTACCTTCAATAATTTCATTA GCAACTTGGTTC
ATATATGATTTTAATGTTTCATGATGAGCCTGACTAACTACAACATTCTCACGAACG CTTTGATTAGTT
TCAGGATTAAATCGACTATAATCAAAACGTAAAAACACCGTTGCGCTGTTTTGAATA CTAGTTAACGT
TTGAACATCGGAATATCGATCTGAAGTGTATTCTCTTGCATATTCAGCATCCCTACG TTTATCATTAGTT
GATGTTTTATTACCTAGTAATAAAGAACTTTCTAGTTTAAAATTGAAAGCACTAAAT AGCGTTAGACCA
TGAGATTCTACTGGATTAAAATTTGACAAAATATGATTCCTCCTAATAATTTTATAT ATTACAATAATA
TAATATATGATTATAATTTATTTTAAATGATTATTCATTTGTATCTTGATTTAATGA TAATGCAGTAAGT
CTGGAAAGCTTACTAACAAACTGACTTCGTATAATTGATGAGTACAATGCTTCTTCA GGAACATTAAA
CATTTCACCAATCTTACTGATACTGTCACCTGAAGTATAATCTAAGAATTGATATAC ACTAAAAATATT
GATAGGTTCAGGAATGATATATTCTGGAATTACTGGAATTTTATTTTTAAATAAGAA AGCTTTATCTAA
GAAATGAATCCAATCTATTGGATTATCTACCCAAAAAAGTATTTTATTTTTTCCTGA ATTAGAAAGCTC
TAATAACAATGATTCAATATTATTGTATATTGTTGCATCTTCATCTTTCATAATTCT AATATTTTTGTTA
GCATCATAAGTATAAATCTTTTCAACATTATTCGCTAGTTGATTATTATATACTTTC ATACTATCTTCTT
GGGATATAGCTGTAGCAATATCGTAATTTGTAAATTCATAATAGTAATTAGATATTA CACCTTCTGCTT
CTTCTACACCCAAACACATATTCATGATGTTAGATGACGTACTAGACCCATCTAACA TACATGATAAGT
AAATATTTACAATCTTAGTTCTTTCCATATTTTACCCATCCTTATTTAATTCTTTTT GTTTTTTCATTTCTT
TATTATAGAATATATCATGAGTTAATAAAAATTTGAAATTAAGTTCAGAATTAATAC TATTGATAATAT
CTTTAATACTTTTATTAATAACTGCAGGGTTTGTTAAATCTTCAAGAATTTTCTTTT CCCTAATATCATT
ATTAATAGTTAAAGACATATCAAGTAGATCGTTTTTAATTTTATGATATTTTTCAAA TTTAAGTTTACG
ATGTCTATAGAAAAAACCATCACTATTATTTTCACTATACATCTTTAAGAATGATGC ATATTTATTAAA
TAAGTCTTCCCTTTGAATTTTAATTTCACCTTTTTGGAGTTCTAAAATTTCAATAGA CCTTTTAATATGG
TTATTAATTTTTCTAAGTTGAGTTAATTCAATATCAATAATCTCTGTAACAAGATCA AAATTTACAATT
CCGATAATATTACCGTCAATATTAATATTAAATCTAAGAATATTAAAGTCTTCTGAA ATTTTAGCACCA
ATTAATGAAAAGATATCTTCATCATACTGTCCAGTATTAACATTCTTTGTTAAAGAA TATATAAAATCT
TTCTTAATACGATTCACAATCGTATTAAAGATATTTTTACTAGCGATTAATTCTTCA ATGAATTTTGAA
GGATTTGTTTCTGAGAGGGAATAACGATCGTTAGATGCATACAAAATTTTCACCACT TTCCGCTATATA
ATTTCCAATTTAGATTCAATAATTTCTTTACATCTTTTACGATAAATTTTCTTTCTT TTAGTTAATTGACG
TTTACATTCATCAAAACCTGTATCAATGACATCAAAGTATAGACATTCTTTATTTTT TACCTTACGTAA ACGACCCATAATTTGTATCAACCCTTCTTCAGAACCAGAAGGTACAGTATTTACTAATAC TCGTAAAG
ATTGTTCATCTAAACCTTTACCGAAAGATTTATCCGTAGTAACAATAATATCTTTTT CAAACGCAGTAG
ATTTTTCATCTTTAGGAACGTCTGAATAAAATCTACTTACCGATATATCCCACTT ATTATTTTCAATTTC
TACTAAGAAATCTTGGTAGAAAGCATTAACCATAATCTTATTTTTAAATAAGATTGC AGTCTTTCTTTT
ATTCTTACCTTTATCAAAGATAATATCGAAGATAATCTGATAAATATAGTTATAATA TTCATCATGCTT
TTTATCAATAATATACTGAGAATAGCTTGGTACATTAAATCCATAACCTTTAGATTT CTTTCTAATTTCA
ACTAAATCTTCATTACTAGGTTTAGTATCTATTTTACAAATGATTGTTCTAATGTAT CTATCACTATCAC
TAACTACAGTAGAGAATTTTGGAACGTTCATATACATATTCTGATAAACTTTATTTT CAATAGGATTAG
ATCTACTAGGAGTCGCAGTTAAATATAATGATGGACAGTCATAAGTAGAATCAATAT TAAATACAGAA
ATATATTCAACGTGAGCTTCATCATAAACTTTAATTGATATTCCAATTCGATTAAAT AACTTTACAACC
CTATCAGGATCAGACTGAATTAATTGGTTAACAGTCTTGTGAATAGATAAAAAGAAT TTATACTTAGA
TATATCACGTTTAGTCATCTTTTCTAATTTTTCAATAGATTCTATTCCTGAAATAAT ATAAATATTATCT
AATGATACGTCTGTATATTCACTAATTCTATCCTTCCACTGTTCTAATAATGATTTC ATATCAATAAAG
ATAATTGGTACTGCTTTGATTTTATTAATATAATTAATAGCACAAAAAGTTTTCCCT TCACCAGTCTTTA
ACGATAAAAACTTTTGATAATAATTATTATCATCATTAAGAAAATTCATTGCATCTT CTTGAATTTTATT
TTTAGGTTTATATTTCATTTTAAAATTATTTTTCCTAAGAATATTTTTATTTCTTTT ATCATTAATATGAA
TATTAACATTTTGTCTTCTTCTTAAGTTACTAGATAAAGAATCAATATCAATACCAG AAGGAAATATTG
CTTTATCATCATCTATCTTGTATGCTTTAAAATCATACTTAAACCATTTAGCATTCC ATACAGAAAGAC
TATTTTCTACAGCACTAGCCATTTTTTCGCTATAGTTATTAATAACTATCCTTGTTG GATAAATATCAAG
ATCCATTCATATATCACACCTTTATTAGTTTAAAATCAATAGAATGTATTATATAAC TAAATAATACAT
TCTATTGATATATTTTAATTTAATATTCTTTAAAGAATAAGTGAGGAAAAGATTCAA AGAAATTAATAT
GGTTAAGTTCTTCAGGACTTTCAGCATCTGTAGCATTAATAATGTAACCAAAAATAG GGACTTTTGAA
GTGATATAATATTTACCTTCTTTAAATGGACCAACTGTCTTTTGACATTTATCCATT AAATATAATTCAC
CATCTAACTGGTATCCTACTGAAAGTTTATCACCTAGTTCATACATTGATAAAAAAT CGGTATTATTAA
TAAATTCTGTAAATTCTTTTGGATTATTGGTATATCGTCTGATTCTAAATTTATTTT CATCTGGAATATT
ATCTAAACTAATAATAAATCTATTTTTTTCTACTTCTTCGGAATCAATTAAATTATC TTTGTCCATATTC
ATATATCTATATATCTCCCTTATAAATAAAATTATCTAAATACCCTATCGAATTCAG ATTCAACATCTTT
ACCAAAAAGATCATTATAACTATCTGTCTTAAATTGTTTTTCAATATTTTGATATAA TAGTGACATTGC
AGGACTTTTCTTACCGATAAGTATTGCATCACTTACATTATATATATTATATTTTGG TAATTCTTCAGCA
TTAGCAAATTCGGTTCTATCATTATTTTCTAGACTTACCATTTCCCTTACAATAGTT TCTACATGTACAG
AATCAATCATTGTTCCTGAATCCACTAATAAGTTTACAATTTCTTGTACAATGATAG AATAATCATTAT
TTGATACATTTCTAATAAAATGATTTTTTTCTAAGATATCTTTAATCTTTAGAAGTG GGTCTGCAATACC
ATCATTTTCCACAATAATATTAAACATATATTCATTATCAGGCATATATTTTAATGA GAATACATAATT
ATTTGTGGAATTATCATAATACTGTTCAATATCATCCGCAATCTCATTAGGAATAAT TAAGCTTAATGG
AGTGTCAATTCTAATCTGAGTGTCTTTCCTACCTTTAACATAGATTGTTCTTGTTTG ATATTTATTCTTTT
CAGAGTCTTCATTTTCCATAAGATCATCTTTATGAATATAGATTGTTTCATTATCAG AAATAGGACTAA
CCTTATCTTCAAATAATTGAAACTTAGATAAGAAATCTTTAGACCAGTTAGCATCCT TAATAATAACTT CTAATAAATGCTTTGTTGATAAGATTTTTTGTGTTAATGGATTAGTAAGTTCTAAAGTTG CAGCAGTTC
CTACTTTAATGTGTTTATTAATCTTTTCTAATCTTCCATAACATCTAGGACATATAC CTTTTGAATGTGC
GCATGTTATTGGACTAAATATCTTAATATCTTTACCAATAAGATGTGTATCATTCTT AGTTATTACGGT
AGTTTTATTAGTATCTTCATCATACATCCAACGATGATTATATAGTGATAACATGTC TTTATCTCTAATA
TGAATATTAATATAATGAGAAGTGTTACAACTATCTACATTATTTTCATCTTTGTGA AGTTCTTTATCTT
GTGGATCAATATCTAATGTGTATATTACTGAATCTTCAGTTAATATAGATATCTTTC GGTTAGTATATC
CAGACTGTTTTACTTGATCCTTTGCAGTGATAATTGCTTTTCTACCACCTACTGCAT CAATAAAGAATTC
TGTTACATTTTTAATTCCCCTTACAAAAGAACTATTAATTGGAGTAGTAATAACTTT ACCATATAGATC
GGGCTTATAACCAATTAATCCAAAATTTTGATTAAATTGTTTTATATTAATTCCTGC ACCCGACATGAT
TAAATCTCTAGTAATATTATCTTTATCTTCTTTAATAATTTGAATCATTTTATCTTT GTTTTCTGCAATTT
TTTGATTATTTGTTCCAATATCATCTTTTAATTCTGGATCAAGTTCGAATTCTAAAG TTTTCTTAAATTC
TTCATTTCTATCCATAATATCGATTATATCAAATAAACTATAAGTCACTCCGCTCTG ATATAATACGTTT
TGAGTACTAAATATTGATAGTTCATCTACTGACCACGCAATATCTTTTTTAATCAAT TTTATCTTTTCAT
CACTAATATCATAATTATAAATTTTGTTAATAATCTTATCATAAAATACATTATGAA GATTAACATTAT
AATTACCCTTTTCATTACAATCTTTTAAGATAAATGTAAACTCTTCGGTAAATTCTT CTTCCAAACTCTT
AAAAGGTTTTGCCAAAATAAACGTTGTTAATAAATTTGACCTAGATATTTTTGATGT TCCAAATTGTAA
AATTTCTCTACGAGAATCCACATCTTCTACAATTTTCTTTCCTAATTCATCAATCTT CGAATAATACTTA
GTATCATCATGAAGAATTGAATTAAATAAAGATAGATCTAATACTGTACTCAATATC CTCCACACAAT
CCTTTCTGTAATATATTTAACCACAAATATATAATATATAATTGTAAGATAATTTAA TAATCACAAACC
TATATTATGATTCTAACAGAATATTTCATTGTTGTAAATTAAAATTAACTTTTTATC TTATGAAACTTAA
TGTGGATCATAGAAAATTTAAACTATCAATAAAAATATATATTATATATTTGCGAAT AAAATCCCCTAT
CATATAATTATAACACAAATTTATATGATAGGGGAAATAAATTATTTATCTTCGACT TTTTTAGATTCT
GATTTAGCTTTACGTTTTTCTCCGAATTCACGAAGTTTTTGTTTTCCTTTGCTTGCA TACTTAAGTTGAA
TTGCTCGGCGAGTTTCTCGGCGCAACTTAGAATATTTAACGTATTTACGGTAAAGTG GATCATTTGCTT
CTTTAGCGGAAATTAATACTGCTTGAGTATATAAACGTTTCTTAGCGGTACGTTTAT CTAAACGAACAA
TATTGGCTTCTTCTAGATAGCTTAAAGATTCTTCCAAAGTTTGCATTGAACTTTCTT CATTATTATAATT
AAAAAATGTATCTTTCATATTGATTAAGCATCCCTTTCTCTAAATAAAATGGTTTAA TAATTATATGTTT
ATCAATTCAATGCAGAAAAAATAATAATTTATTTTTATTCGTTAATAATGTTTTATA TTATATAAAATA
TAGAAAGGAAAGATAATTTATGTATAGTTTTTAGTAGTAATATTCTCTTTAATTATA TAAAAAATAAAA
TTGGTGGTGTATTGTTTATATGAAGATTGAAGAAAAAGAACGTGAAATGAAACATAT TGGTTACATGA
AGATATTACTTAATGTTGCTAAAGAAGAATTTCCAGATATGGAAGAAGATGTATTAA AAGAAAAGATT
AAAAATATTGTAAAGGATAACATGAAAAATCCAAAAGCAATGATTGATGATCGTGAA ACAACATTAT
TAGGATTAGACAAATTTATCGTAACTGAGAAACCTATCATTACTGGTTTTGGATCAA TGTATTTAACTC
ATGATAAGTTTGATAATCTATTAGCAAAATTGGTTGAATATATTATCAAAACTCGTA AAGTTTATAAAA
ATAAAATGTTCGAACACGTTAATGATGATGATCAAACACTGAGAAATATGTATGATA TGTATCAACGT
ACCATGAAGATCCTAGCGAACTCATTTTACGGATCATTGATCCAAAGTAGCTTTATT TTGTATAATCCG
ATATCTGGTCCGTCAGTTACTTATTCTGGTGTTGATATTATCACTACTGCACTAAAT AATTTTGAGAAA TTCTTAGCAAATAATATCTATTTTAGAAATGTAGATGATATTATTGTATATATGAATAAT ATTAAATCT
GAAAATTATAGTATGGATAAAGTTAAATTTAAACAATCCCGTAGTAAAGATCAGATT ATTGATTATTT
ATTTGATAAGACAGATAATTATATGGATGAAGATAGAATATTATTGATGACAATGAT GAATAATTATA
CGGATGAAGATTTACTTAAGCTTTATTATAAAAATAACTTCATTGATTTATTAAAAG AATCTGATATTG
CAGATAATTATTTTAAAGAAATTCTAAGTTGCTATGAATTTACTGATCCAAACGATC CTCCTGCTAAAG
TTATCTCCACTAATGAAATTTGTACTATTAAAGGAAAAGATAACGGTAAAATTAAAG TTAAATTATCT
AATGGTGAAATTTCTCTAGAAGATCCTAGTAATATTTTAGATTATAGGGAAAAATTA GATAATTTATG
GAATATTATTAGAAATATTGTATTCTACAATTATCAAGATTTCTATCGTATGGAAAA TTCTGAAGAAAG
ATTAAGAAAAACAGTGCTCGTGGTTAATGTATAGCCACACTTATATAGTAATATATA GGTTAAAAATT
CTATTAATTGCTGGAAAATCCTAAAGCTTATTTAACTACAACGGAATCAGTAATGAT AAACGTGAATG
TTGTCGAAAGACTGAAAAAATAAATAAGATTAATACATGGTGAAATAAAAGTACTAT AATATATAGTA
TCCTAAATATTAATTATAATGGATGATCAGCAGCAGTATTTCTTTAAGATTATAAAT GAAAGAAAAAA
GAAATGTTGTTCAACGACTATCAAAAGATTATTATATAAATAATAATTTAGTAGAGT AGAGCCAAGCT
TTTGGGTTAGTATTTAAGAGATATTATCTTAATGTAAAACTATTAAATCGAAAAATA GAATTATCCTTT
AGTAAGGATAAAGATATAGTCTGTTCTTTAAGGAAATCTTAAAGAAGTTCATAAGAG AACTGCATAAG
AATTAGCGCACTTATGTGAACACGAAAGTGATACCGACTCAAACTTCTTGTATCTCA ATCACTTTGTCG
ATTTATTCTCAGAAATTTATCCAGATATTACGATGAAAGAAAATGATAAATCTATTG TATCTGCCATTA
ATACTATTATGTATATTGTTACTGAATGTATTAATGAAACGTATTACAAGTATGGAA TGGAACTCGGTA
TTCCAGAAGATAAACGTGGACTAATTAATATGAAGAATGAATTTCTATATAAACGTT TAATGCTAACA
GACGCTCAAAAGAATTATGCTGGCGTAATTTTAATGCAAGAAGGAAATATTCTTCAG ACTCCTAAGAT
TGATATTAAAGGATTAGCAATTAAGAAGACAAATACGAATAAACATGTACGTGAAGA ATTTTCAGGA
ATTCTTAAAGATGTCATTCTTGAATCAGATAAGATTGATGGTTCTGAATTTATTACT AGATATAAGAAT
CTAGAAAAAGAAATTCGAAGATCTTTAATGAATAGTGAAATCACATTTACTCTCCCT AGAACTGCAAA
TATTAAAGAAAACTACGTAGCACCATATACGCAAGCACCATACAAAGGTGTATTAGT ATGGAACACAT
TATATCCTGATAAAGAAATTAACTTACCAAACAAAGTTAATCTTATCAAGCTAAATA TTGAAACTTTTG
ATGATATTGAAAGTAAAACTAATGATCAAGATCTAATTGAACGATTTAAGAAAGTTT ATGAAGATGAG
GAATTGACAAAAAAAGGAATTACTTATATTGCTATTGAAGCAGAACAAAAACATATT CCTGAAGAAAT
CATTCCATTTATTGACATACCTGAAATGGTTAAGACTCATGTATCATCAGGATCCAA ACTAATGACGTC
ATTAGGATTCAATCCATTAGTAATTAATGGATCATTATTCCCAACAAATATTATTAA CTTTTAATGAAA
GTAGGAAATCTATTGGAAAATTTAAATATTGATATGAATGATCCAACCAAGAAAAAA CATATTGTGGT
AGATTGTGATGAAGTATTATGCAATATTTCACCAAAATGGACATACTTAATACATCA AGAAAAAGACT
ATTTTGGTAAATATATGAATCTTATTGATAATTTTGATATTGATCTGCATTATAATA TGGTTTTATCTAG
AAATAAGTTTTATCTAAATCAGTGGTTAATTAAAGATGAATCATATACGAATTATAG TGAAGACGAAA
TGGATGAAGTATTAAGACGTATGATGATGCTTTATGAAACTGAAGATTACTATGATA ACTTAAAACCA
AATCCTATTGTAGAGTCATTAGCATTATCGATTCGTCAACCTATTTTAGATAGAATA TCTATTGTAACA
AGAACAAACGCTAAAAATCTTAAGTCTAAAGAAAGATTTCTTAAGAATTGTTTTCAA GGTGTTATGAA
TAAAGTTGATATATACTTTGTAGAAAATGATGAAAATAAGTCTGATATTATTAAAGA CTTAGGTGACG GTATTGCAGCTATATATGAAGATGAAGTTAAAAATATTGTAGACATTTTAGATAACTGTA ATAATCTTG
ATAAAAGCTTAATATATGTACCTAGTTATGGATATAATAACGCTAACCTTGATTTAT ATACTAAAGCAG
AAGAAAAAGGAACTCAATTAAGATATTATTCATATTAAAGGATGTGGACTTATTATG TATAATGGTAA
TTATGATATAAGTCTATATGAATATTTAAAAAGTAAACTTAAAGTATGCTATATCAC AAGCAAAAAGG
ATGAAACTGTTATACGTTGTCCTTTTTGCGGTGATTCTGCAAAAAATCAGTATTCTG CACACTTATATA
TAAATAATAAACCACCTTATAAATATTATTGTCAAAAATGTAATTCAAATGGAATAT TTAATGATAAG
ATACTTAATAATCTAAATATTTTTGATGCAAAACTAAATCAACAACTTAAAGTATCA TACGAAAAATT
CATTAAAGATGCAGGAATAAAATATGGAAAATCATTTTCATCACTATTTAATATGGA TGAAACGGACA
TTCTTCCAAATAACTTTGGAATGTTAGAATTAAGAAAAATAAAATACTATGAAGATA GATTGGGAATA
AAACTCAATGATGAATTATTAATTAAGTATAGAATTATTCTTAATCTTAGTGATTAT ATGGAAAATAAT
AAAATTCCAATAAAACAAGACAAATGGTATATTGAAAAATTAAAAATGATTAATGAT AATTACATTAT
ATTCTTATCTAATGACAAGAATGTTATTAACTGCAGAAATATAACAAATGTTACTGA AAAAAAGAAAC
GTCATATTAAAATGAGACTATTTGAAGATTTTACTGATGAAAGTAGAAGTTTTTACT CAATAAAGAAT
AATATATCTCTTGATAAATCTTTATACAATATTCATTTAACAGAGGGTATATCTGAT ATTATATCCGTG
CATCATAATATATTTAAAGATCAGGAAAATAATAATGATATTTTTATATCTAGTAAT GGTAAGGGTTAT
AATTCGGTATTACAATATTTATTATCAATTGGGATTACAAACGCAAATATTAATATA TATGGTGATTCA
GATGTTAATCGTAATTATTATAATAGATTAAAGTATAATTTACTAGCTAAATATAAT GGGGTTAATCTC
TATTTTAATATTGCTAAGGATCCTTATGGTAATGGATTTAAAGACTTTGGCGTAAGA TCTGAAAATGTA
GAATTAAGTAAAAGCATTAAGATTTCTTTCTAACTTAATGGATCATAGAAATTTTCT AAAAAAAAAAA
AGACCCTAATAGATATTATATCTATTAGGGTTATATTTATTTAATTATTCTTTTTTT AATTGATAAGGAT
ACACATTAATATATTTACTATCTAATAAATCATACACATTAATTAACCGACCATACA TATTAATCTTTG
AAATTACCACATCGTGAATTTTTCCTAAAGAATCAATAATATAAAAATCTTTTCCTA CAATAATATTTC
TATTATAAATTTCTTTCATGAATTCATCTAATGAATTTTGGTCTAATTCAGTATTAT ACATATTAATCAT
TTATATTTCCTTCTTTCTTTTTTTTTTTTAATATATTTTCCATTTCATGATAAGGTA TATTCATTATAATTG
ATACATCATTAGTACTATAATTATCATCTAGATATTTATCTATTAATCTTTTTCTTT CAGAGATGCATTT
ATTTTTAGCAGTATAATGATCATACTGTCGGTTAGCACTTTTAAGTTCTTTAAAG AATAAACTATTATT
GTTAATATATTTTTTAATATTAGATTTATCTACTGATAATTCATTAGCTAATGAATA AACACTGCTGAT
ATTCTTCTTATTGATAATATCAAGAATATATGATAAACGAGAAATTCTTTTAACTAT CAAATTGCAATC
TTTAACTTCCATATTAAAAATAATATCTACATATTTTTTCCATGATGGAGGATTATC GATAGATGTAGT
TTTATTATTTAATAGTGAATTAAGATATATGACAATATCTTTATTTAATTTGGTATT ATTTATGATATCA
TCATATTTTCCTTCATCATAATTACGTTCTATATATTTTGTAAGGTATTTTATTTTT TCATCATCAAGACT
AAAATATGTCATATATTTCTTAAAGAAAGTATTTAACTTTAATTTAGTATATCTTCT TCGAATATTAAA
ACCATAAACAAACACATTAGTTACTGTGGTATCTATATCTTCCATAACAGTATTAAC TTTAATATTATT
ATTAACAGTATTAACTTTAATATTATTATTCTTAATAAAATTATTCATGTTCTTTAT TTCATCGATAGTA
TTAATGATAATATTTCTAGACAATAATTCTTCTTTTTTAAAATTATTAATAACTTCT GTATTATTTAAAG
ATAAAATGAAGGCATTTTTCATCTTTTTAATATTATTTCTAATAACTTTATTAATTA TATTTATATCAAC
ACTATAAGTTTTTGATTTTATGTTATTAAATATATCTAGGTTAGTAATAATATCTTT TTTAGTAGATAAT TTTAGATAAGTGTTGATTATAAATTCATCTATATCTTTAGGATATATAATATACAATGCA TCAACCATA
ACCTTATTATCATAGATAAGTTTAATTTTAATTGATAATTCTTTTTCTAGAATATTA ATACAATTTTCAC
TAATTGATGTCTTAGTATTAATTTTTTTACCATAATGGTAGTCATTTCGTATATCAC ATATTATTGAATG
TTCTAGATTAGTAATTATATAAATTTTATTATATAATTCTTTATTATTCTTTATAAT ATTATTAACACTAT
AAATATAACCAACGCCAATATCATAAAATATATCCATATTTGTAACAAAAGAAAATT TCTTTTTTAACT
GATTATATGACTTGATAATATTCTTTTCAATACTATCAGTACTTCCATCATTAAATA TCAATTTATTATC
CTTTAGATATTCTTTAAATGAATCTAATATAGTATTATAGTTATCTAGATTCTTATT GAGTACTAAAGAT
ATAATATCAATGTCATTCATTTTTCGATAGTTCTTAATACTTTTGACAATACTTTTC TTTGTTGGAATTTT
TATATTGTTCTTTATATTTAATTCATTTATTGTATTAAATGGTATATTACAGTATAA TAATATATCATCT
AAACTTAAATTTTCAATAAAAATTAATTGAATAAATTCATTATAGTTGATGTAATTA TTTTTAACTTTAT
TTTCTTCAGTAATTCGTATTCCTTTTAACATGGAATAAAGCTTTGACTGATCATAAC TAAATCCTGATA
GTTCAGAGATTTCTTCTAAGGTTACTTTATTAGGATTAAGTTTATTAATATTATTTA GGATAATATTATC
AACAATCTTAGCTTCTGAGATATTTTTGTTCTTCTTATTATTTTTAGTTTTATTATC ATAACTAATTTTCA
TTTTTTTATCAAATAGACCGGATTCATCAATATATAGATTTACTACACCTACTGG AACTTTATATTTCAT
ACATATTGACTTTAAATCAAAATTATCATTAAGATATGTACTATCTATTTCATGTTT TAATTCCTCGCTA
ATTCTTAACATCTAGTTATTCCACCTTTTAAATATTATTAAAGAAAAGGATAATGAA AATAAATTTCAT
TATCCATATAATTACAATGCAATAATCAAGTTTGTTTTAGCTCTAGTAATTCCAGTG TATAATTGTTGA
TGATATATGCTCTTATTATATATTTCATCAAACAGTAATACATTATCATATTCCGAT CCCTGTGATTTAT
ATACGGTTGTTGCATAACCAAACTTAAACTTATTAATGATAACATGTGATTCTTCAA AAATATTTCTTC
GAAGAATTAATGACTTATACATTTCATTTTCATAAATTTGATCATCATTAGTTATTC CATCCGTAAAAT
ATAATGCATCTACATGCAATCTATTATAGATTCCAGTATCTGATGAAAATGTAGGTT TAAAGTCTAATT
CAAAAGTATCCAACCTTTTCTTATATTCATAGATATTTTCCACATAACCGATAATAC CATTTGTTAAAT
ACTGTTGTGATCCATTATCTTCATACATTTCTAACCAGTTATTCTTAAGACATATTA ATTTTTCACCAAC
ATATGGAAATGGTGAATTCAAATTAAGTATATTTTTTCTAATAAGAGAGTTTATCCT ATCAACAGTTAT
ATTTTTTGAAGCTAGAATTTGATCTGCGCCAGTATACATATCATAGTCTACATCT TTTTTATTAATAATC
ATTACATTTTCACCGATAGGACCAATTCTTAATCTATTTTTCTTACGAACTTCATTA GCTAACCATATAA
TTGGATTATCCAGTGCTTGCCTTAATGGTTCATCTAGGAAGATATCTGGTCTTTTCA TATATTTATTAAT
TCCACCTTTAACTGGTGGAAGCTGCATCGGGTCTCCAATCATAATGATTGGGACGTT AAATGTAATTAG
TTCTTCAATCATTGAATCTGTAACCATACTACCTTCGTCTACAATAATTAATTTAAT ATTTTTTGAAATA
CTTTCTTTTTTAATAAAGTTAAACTTATTCTTTTTTTCATCATAAACTACATTATAC ATTAACCTATGAA
TTGTTGAAGTGTTATTATTCCCTTTCCTATTAAGAACATTAGTAGCGGTTCCAGTAT ATGCAGAATATA
CTACCTGTTCATCGTTTAAATTGATTGCCGAAGTTATAAATTTTATAATTGTACTTT TACCTGTTCCGGC
TAATCCTGCTATTGTAAAAACTTTTTTAATATCTTTATTCCACCATTCAACTGCTCG CATAACAACCTCT
TCTTGTTTGTTTGTTAGCGTAATAATACTCATTATATACACCGCTTTCTATCCATTT TATTTACTATAATT
TTTTATTAACATTATAAATTACTTTTTCATTAATATAATATATAATTAAAAATTTAT ACAACTTTCTAAC
ATAACATTATAATAGTAAATAATGGCGGTGATAAAATGTCAATGAGAGATATGAATG GAAATCGTATT
ATGGACTCATTTAGCTTCGATAAAGAGTATGAAGGAATAGTATTAGATAATAACGAT TTTGACGATAA ACTATTTATTAAAGTATATATCTCTGAATTGTTTATTAATGATATTCCTGAGAAGGTTAT CGATATTAAT
GAAAATATTGATCATACTAAAATAATTAATAATAATAAAATAAATTTTAAAAAATCT GTAGTACATAA
TAATTATTTGAAGTGCTATCCAATCATATATAATAATATGAATCTTGATATAATGAA ACCAAAAATAG
GTTCAAAAGTTATTGTCAAATTTATTAATGGTAATCCAAAATTGCCATATTATGAGA ATAAAGGATATT
ATACAGATATTATTATACCAATTCCTCCCGAAATTATAGATCCTCCTACTGATCCAT CCACTAGTGATG
ATTATACTTCTTTTGGATACTATAGAATGATTAAACTTACTAATCCGGCTATGATTG GTCGAGATATAC
TAAAAATCCAAAAGAAATTAAAGACTCTTGGGTATACATTCACTATTGATACACTAG ACGGTATATAT
GATTTAAGAATGTTGAATTATATAAAAGATTTTCAATCTAAAAATAAACTAAGTGTA GATGGACAGAT
TGGTCCAATTACGTTTAGAACAATTATGCGTAAAAATATATAATTTTTAAATTCGAA CATATATTTATA
GTAAGATAGTTTACTATAAATATATTTAATTGGGGTGGAAATTTTTATGGAACAAGT AACTTCTGGACT
ATTAATTTTGACAGTATTATCCGTAGTAATTCAGTATTTAGTTGAAAGAATTAAAGA TATTTTTCCAAC
AAAAGTTATGGATAAACTAGCAAACTATGTTAATCCTGCTTTCTGGTCTTTAATTGT ATCTCTTCCTATT
GCTTTTGGTATAAATATTGATTTATTTGCAATTATCGGTTATAATATGCATCCAACA TGGCTTGCAACA
TTATTTACTGGTTTTGCATTGAGTGGTGGAGCAACTGGTATTAATGAACTTATTAAA TCATTAAGTGCT
GTTAAAACTAATAATTTTACTCAAGCAGATTCGGTAAAAAATACTGATGAAGAAGAA ATTAAAGTTGT
CGCTAAATCTAAAAAATAATATATATCCCTATAGTGTATAATTGCACTATAGGGAAT TTTATTTACTAA
AATTATAAAATACATAATAAAATAACATTAAAATATATTTACATTAATATACAGAAA TGGATGATTAA
ATATGAAATATCCGATACGTGAGGATCATAGAAAAAGAGTCAAGACAAATTACATTA TTATTACTCAT
GCTAATAATCTTATAAAAAGGGGAACACATATAAATAATGCGTTAAGGCAGAGAACT TTTAAATACAC
TTGGGGAATATGGCAAGAATATTTAATGACTCACGTTAATAAAAGATATTTACCAAT GCATTATTTTAT
TGAATTAATTGATAAAGATTATGCAGTATTGAAGGGTCTTTCTGACCATAAACCTTC TTACTTTATTAA
TGATTTAGTAGACGAAGGTGTAATAAAATATGTTTACCGAGATTCGATATTAATAGT CATTGGAGATA
ATTTTAGTATAAATAATCCTGATACTAGAATGATTGATCATTTAGCAACTAAAGTTA TTCTTCCATTAA
TGAAAACGTATAATTTAAGTTGGAATAAAATACAATTTTTTGATGAGTGTTTAACTG ACTCATTTATTA
ATAATATTGATAATGATGAAATAAAATATAATTACGAATATGAACCAATGTCTATGT TTGATATGAGT
ATTCTAAGAAATGCAGTACTTAGATATAAATCATAAATATAAAATAATAATTATAAG TATTGTGTGGT
GATAATTGGAAATGGATAATAATCAAAGACATAAGAATAGAAATTTTTTTAATATAA TGATAATTATA
AATATTGTAATTATTGTTATAATAATTGTATCTTCAGTATATCTATATATACATATA AATTCAGGAAAC
AGTTATTCAAAAGAAACATATGCTAAAGTGAATAATGTGTATATGACATATGATAAT GAAGATAAGGA
TATACAAGTAAGAATTGGTAAAAAGAAACTAATAATATTTAATAATGGTAAAATTAA AGAGATTATAT
TTAATAATTTTGAAGTATCAGTATATGATGAATATACTTTAATATACATTTCTGGAG ATAATGATGAAG
TTAGTATTTCTGTAGACAATGATAAAGATTCCATTTCTGATATAGTCATAAATAATC AAAGTTTAATAG
AATAATTATATAGATATATAGAAGTGTGGAAAGAAGGTTACAATATATGCTCATATT AAAAATGAGAA
CTGACAAAAAAGTAGACTATAAAAAATTATGGTTTATAAAACTTCATAGAAAATTAA ATATTGAAATT
CATTATAATATAGAGGAAAATGGATTCTACTATATTGATAATAATAAAACATTAAAA CTTAAAAAAGA
TTTTTCAAGAACAATTAGTATGATTCTTGATATTAAGAAAAGATTCAATTCGTTTAA TACTGAAATGGA
TATAATTGATAATAATATTAATATGTATCTTAATGACGTTATAAATAACTTTGAAAA AGAAGAAATGC TAAGAATTATACTAGGAACTTCGGAATATAATGTGAAGAATCTATATAATGATCTTACTG AATTAGGA
ATTAATATTGATCCAGACTTATTATATGTAAATTTATATAAAAATACAAAACATTCC GAATATAATGAT
GAAATAAAGAATACATTTAAAAGAATTTGATAACCTGAATACTAATAATTAAAATAG TATTCAGGTTA
TCAATTTTTATCGAGCAAAAAATATTTTTTTCCTTCTTGAATGTTTTAAGGCACCAA TGCGCATTTTTTC
AACTAGTTCTTCTTTCTTATTTTTTCCATCAGCTAGATCTTCAATAAATAATTCTAT ACTGCCATACGTT
GTTTGAATATTTTGAAAGCGATGTCTAATTTGATATAATGATTCTTGAGTATCATAT AGACATAATTGC
ATAAAATGTTCTTGAAGATTTACTGGTATGCTGTCAAAATGTTCACTATGAACTGCG TTTGCATATACT
AGAATTCCGTTTAATGTATATTGGGGAGCAATTTCAATTTGGTTTGGATGAATAAAC CGGAATGTTGA
AGGATTTATTTGACCTTGAATGTTACTCATCATCTGATTTTCAAATAAACTTCCAGA ACCAGAACCAGC
TCTAGGAGTTCCTCCGATAATTGCACTATTACTACTATACATATCTAATCCAATTAC ACGATTAATATT
TAATACGGAAGTCTCTGTATCTAAATAATAACGATTCTCATATCCCGGAACAAGATC TTTATTAAATAC
TCGGATTTCTTCAATTCTTGGGAAATACTTACTAAACGTAATCAAACTTTCTGATCT TATTCCACTAAG
AATTTCTTCATGAGAAAGTTCTAATTGTGTAAATTTATATCCTAATTTTCGTTCTAA GAATCGAATAAC
CTCTGTAGGATTAATCATTTAGTTATCACTATCCTTCCAATAATAAAAATACAATAC CACTTCCTAAAT
TTAATTAAGAAGTGGTATATTTTAAAACATATCTTGTATATATTTGCTTAAATCACG TTTAATTTCTTCT
TCGAGATAAATCCGGATAGTTTCGTTTGATTGTTTAATACTTAATGTTTGATCTTCA GTAAGAGTTACT
GAACCATTCTCGAGATTCATAGATATACCTAATGATTCTGCTAATGAATATACATTT TCAGATTTTTTA
GTAACAAACTCTAATAATTCAGAAACTTGATAAGGAACTACTTTACCTGAAAGATTA TATGAGTTTGA
GCTTGCTGCTTCTAACAATCCTTGATAATCTTCTGAGAAGTCTTCATTAATCCGGTG AGTCATATATGA
GTTTGGATGGGATGGAATAACAACCCAATCATAGCAGCAAATCATTAAAGGTGAATG AACTCGTTGAT
ACTTCCCATCAGGCTTAATAATATTACCAATACCACGCATGGAGAATGCTGCCTTTG ATCCTTGATTAA
TCAAACCTTTCATGTCTCTACCTACAGATGTATCTGCAGTTTCAACTCGTCCAATTA ATCGATTCCCATC
AAACTTAGCTTCAGTTACAATATGCGAAATATTGCGTTGATCAATATATAATTGTCT ACGATTATCAGT
ATTTAATGGATGACCTGCTTCTCCAAAGAATGTTCTATTTTTAATTTTTTCCTGAAC AATTGGGTTTTGT
ATTGCTTCATCAATTGCACGTCTATCATAAATACGGTTATTACGGTTAGGTGCATCA GCTTCTTGCAAC
TCAGTCTCGAATAATACATTATTAAGTGTTTTATCTATAATTTTCGGTTTAGATTCA GTGACCGATTCCA
TTATAATATAACCTTTTTCTTCAGTCATAATAGTAATACACGTCCTTTCTTAGTATA TAAATAAAATTTA
TAATAAAATGTTTGATTAGATAATTATTTTTTTAAACAACTTATTATAAAATATTCT TTTTATCATTTTT
GATAAAATATGTTTTAAATTTAAAGAATATTAAATTATAAAATAAAATGATAAGGTG GGAAATATAAA
ATGCCAAAAACTTTTTTAGATGTAATCCTTGAAGATGCAGACGCATTTGAAGCTAGT AAATCTGTTGA
AGTGGTTGATAAAAATACTACTGAACCTGAAGTAGTCGCTAAAGATGAAAAAGCTGA TGTAGAAGAA
CAAAAAGAAGTATGTGACGAAAAAGAAAAAGCTATTGAAAAAGAAAAAGAAGAATAT ACTAATGAT
GCAGAAGTTGAAATTACTAGTGACGTTTCATTAATGAATAATGTTGCTGATAAATTA GATAGTGGTAT
GTCTATTGAAGAATCATTCAATTCTCTAATCGAGGTTAATCTAGTTAAGAATGAATT TAAAAACATGG
GCTTGACTTCTGAAGAAATTAATCTTCTTGCTGAAGATGCTTCTAAAGAAAGAAAAG GAATTATACGT
GGATTGGCTAAAAAAATCGGTATCGATGATAGCGGTAATGTTGATGCTCGTAAATAT GTTAATGCTCG
TAAAAAATTAGGCGTAAAACAAATTACTGCCGCAGTAACTTCTACGGTTGCTGCAAG TGCTGCTGCTG GAGCTAGTAGCTATTATATTGAAACATCAAAAAGTAAAAGCGAAACTGTTAAAGGTGGAA TCTTTTCA
GGTTTAACTGTAGGATTGGTCGTAGGTTATTGGGTTTCCCTTTTCTCATTTGTAGTT ACTATTTTGCAAA
GTGCTAAAGTTAAAGGTCAAATGAAAAGTGATCCATCTATCTTAAGAAATGCTCTTG CTGAAAATAAA
AAAGATTTAGCTGAAGTTGTATCTTCTATGTCTAAAGTTAAAGAAGATGCTAAAGCA ACCAAGCAATT
AGAACGTATTCAAAAAGCTTTACTTCGTGAAAAATCCAAATTATTGAAATTGCAAGA AAAATTAAATA
CAAAATAAGTTATATATGATCTCAATTCTGATTAATTTCAGAATTGAGATTTATTTA AACATTATTATA
TAAGAAAATATATATTGGTGGTGATTTCAATTGCATCTTGATGAGGAAAGTATTAGA TACGCTATAAA
ATTTACAGAATCTTTAGAAAAAAATGATTTTGAATATGGTCAAACAATTCGTGAAGA AATTCAAAATG
AAAATAATTCATCTCAAATAAAAAATATTATGAATATGCTCAATATTAAAAATCCAA ATACTATTACT
GTTGAAGAATATTTAAAGATACGTAGAAAAATTAAATTTTCGGGTCTTATTGGATTC TTAGCAGGTCTC
GGAGGAAGCGTAATGTTTACTTCAGATATTATTATAAATAATGATCGGCTTAGAGAC GATCCTCAAAA
TAGAGGAGTCGCTAATAGAAATAATCGTAGTAAGCTAAGTATGCTTAAGTCAACCTT ATTTGCTTTAGT
TTCGGCTTTTGGTTCATTTGCTTTATCAGTATTATATAGTAAGAGCGTTAAGAAAAC TTCAGTAGCTAA
TCCATCAATAGTTAGAAGTTTATTAGCTATTAATGCAAATGACTTAAGAATGGTAGA AAAAGCAAATA
ATAGTGTAGTTACTAAGTCTGACTTAAAATATATACGTAGAATAGAACGAATATTAA TTAGGGAAAAA
AGGGATCTATTAAAATTGCAAGCATACGTTATAAAGAAAAATAAATGAAAGAAGTGA AAATTTTTATG
GAATATAATGATGTATTTTTAGAATATTTAAATTCTGAAGAAGATAATATTGAAAAT ATGGAAGAATT
CCTATCAAGCTACATTGGAATTAAACCAAGATATCTTGAAATTAGACCTACTGTATT TAGTGAAACAA
GAATTACTAATGATGGTATTAGTGATGAAGAAGATAATAGCGAAGAATCTGATCGTA AAAGATCTACT
GATGAAGTAAAAAAGATTAGTAGAGAAGTAATGGAAAAAGATAAGAAAAAGAATCTT AATCCACAA
AATAAAGCAAAAATTGCAACTATTAAACGTGAAATGGAAAAATCGATTAAAATGGAT CCAAATAGTC
TTGGTAATGATACTAAACTTAAAAGACTTATGCGTGTAGGAATTACAATGTTAGTTT CTTTCGGGATTA
TTTTTGCTCCTGCAGTTGGTGTCTTAATAAAGATTATTGCTCTTATCGGAGTAGCTG CTACTGCAAAAC
ACGTTAATCGTAAAAAATTGGAAAATACTATTATATTACTAATGGATAAAATTAAAT ATATTGAAGAT
GAAATGGAAAAAGCATCAGACAATCCTAAAAAGAAATATGAATTAACAAGAGTAAAA CGAGAACTCC
AAAGAACACTTATGAAGTATCAGTCTAGACTTCGGAATTTCCATTAATATATGATTT GTATAAGCGATG
TTGCAAAGGAGGTACTATTATATTGAAAGATGATTTCTTTAATTATTTATTTGAAGC AGATGATCCAGA
AGAAATAAGTAATATTGATCCTAATGAAGATAATACTGAAAATAATAACGAGGATAC TCCTTCTAATG
AAGAAAGTTTACCAAACGAAAATAGTGATGAAAATGATTTAGAAAAGGATCCAGAAA TAGAAGAACC
TGATAATGAAGAAGAAATAGAACCTAATGAAAATGAAGACCCGAATAATAATTTACG TATAAAGGAA
ATATTATTTGAGAATTTCTCTGGACTTAAAAATGCAATTAAACGATTATTTACTGAC ATTGAATCGGTA
ATACATATCGTAAAATCATATGATTCTAATAATGATAATCATAATTTAGAAAATACT GTGGATGGAAT
ATCTGAAAAAGGATATGACATTTTAAATAAAATTCAAACATTACAAAATGGTGTAAT TCTTAATATAT
CAAACGATAAATTAAAAATCATATATAATGAATTAGAAAATCAAGTAAGTGATATTA TTAAGGAATAT
TCAAATAAAGTTGATGTAAAGTTGAAAAACAAGTATTAATAATATAAACAATTTAAT ATAAAAATTTT
AATTTATTTCTATGTAAGTTTCGTTTATTACTTTTTTAAAGTAAGAATGATGAACAA TTATATATAAATA
ATTTATAATATTATTTTTATAATCTATAATTTTATATAAGAAAAGGAGAGAAATTAA ATTATGCGTAAT TTTAAACGTATTACAAAGACTAATACAGATTCTTTTAGTACTCATCTAAGCGAAACTCAA GACTATTTC
GCTAATACTAAAGGAACAAATATTACTGGACAAGATATCGCTGCAATTATAGTGAAT GAACAATATTT
TGATGAGTATGCAACTCGTCTATTAGAAGGTTTCGATGCTGACCTTAGTGAAGAACT AGGTGTTCTTTT
AGAAAACACTCGTAGCAACATTATGGAATCCTTGGGTGGAATTACTCCATTTGCTTC ACTTTCAATGCC
TGTTTTGGTTAAACTTTGGGCTCGTTTGTCTATGGTAAATGCTATTCCTACTACTCC TGTTACTACTCCT
GCATTTGTAGTACCAACTATCAAACCATATACTATTGGTCCAGATGGTGAAAAATAC TACCTACCAGA
AGCTATTAATACTATTCCTGAACACTTTGTAAGTCTTCGTCAACTTAAAGAAGATAT CACTATTACTGG
TGGTCGTCTTTCTGACTATGATCTATTTACAGGTGTATCAACTGCTGACCGTGCTAA AGGTGATCAAGT
AGACCGTAAATTCCAAATTGTTGCAGGAACATGGTCTGATTCTTATAATGTCGCTGA TGCTGCTCTTGG
CGAATATGAACTTAAAGGTCAAGCTCTTAAAATGGATATTCATGGTAATATCTTTGG TAAAGTAACAT
ATACTACTGATGGTAATGGTGCTACTAATGAAGATACTATTATGGGACATGTTGATG TTGAAAAAGGT
CGTTTAGATTTAACTTCTCTTTCTGGTAAATTGACTGAGTTCAAAATTCAAGGTTTC GTTTCTTCTGAAA
TGCATACTGGTACAACTCAAGTTGGTTTTGATGTTGATGATCGTACAATCAACATTG GTACTGCTCCAC
ATATCGAAGGTATCCTACCTATCGAATCCGTACAAGATAGTAAAGCTATGTATGATA TTGATGCAGCA
GCTGTTATTGTTGATACAATGTCTGCTACTTCTGCACAAAAAGTTGATACTGACTTG ATTGAATTCTTG
TTACGTTCTTATGAAGGTACTAATGCTGCTTATCATAAAACTTTCGATGTACATCCA AATGGTGGATAC
AACATGCATCCGCATGAATGGCGCCGTGGTATTCGTGACGTTATTGACTGGATGTCT CAAGCAATGAA
AAATGATTACAAAACTTATGATGCTTACTTTGTAATTGTTGGTAATCCAATTGACAC TCAATTGATTCC
TGACATTGAATGGGAATTCCAAGGAGCTACTGATGAAGTTGCGGGAATTAACGTTTC TTATAGCGTTG
GTGCTTCTTCTACAGTTAACCGTTATAAAGTTGTTTCTTCTGACTTAGTACCTGCTG GAGATCTATTAAT
CTTTGCAGTTCCTACTCGTGAAGACTTCAAAACTTACGAATACTACCCATACACTTT CAATATCGTTAA
TAATTACAACAATGCTGTTAACCAAAGCGTTCCTAACATTATGCTTTCTCGCCGTTA TACAGTTGAAGA
ATTTGTTCCAATTATCGGTAAAGTTACAATTAAAAACAACGATGCAACTCAATACGC TCGTTAAATAG
AGTATAAATTCTATTCAGTTTCGTATATTAATACTAGTAGATAGGAGGTGTTTCGAA TGGTCTTCACAC
TCGAAGATTTCGTTGGGGACTGGCGACAGACAGCCGGCTACAACCTGGACCAAGTCC TTGAACAGGG
AGGTGTGTCCAGTTTGTTTCAGAATCTCGGGGTGTCCGTAACTCCGATCCAAAGGAT TGTCCTGAGCGG
TGAAAATGGGCTGAAGATCGACATCCATGTCATCATCCCGTATGAAGGTCTGAGCGG CGACCAAATGG
GCCAGATCGAAAAAATTTTTAAGGTGGTGTACCCTGTGGATGATCATCACTTTAAGG TGATCCTGCACT
ATGGCACACTGGTAATCGACGGGGTTACGCCGAACATGATCGACTATTTCGGACGGC CGTATGAAGGC
ATCGCCGTGTTCGACGGCAAAAAGATCACTGTAACAGGGACCCTGTGGAACGGCAAC AAAATTATCG
ACGAGCGCCTGATCAACCCCGACGGCTCCCTGCTGTTCCGAGTAACCATCAACGGAG TGACCGGCTGG
CGGCTGTGCGAACGCATTCTGGCGTAATAAATATTATGAACCTTTCAGAGACCTTTT GGTTTCTGAAAG
GTTATTATTTATAAAAATTTAAATTGGCGGTGCAACCATGCATATTGATTATGGTAT TGAAAAGAATAT
ATCAAAGTACTTACATGAAGAATTACTAACTGAAGATATCTATAATCATCCTTTATT AAAAAAGATTG
ATGATGAATTTCAGAAAATATTAGATGAAGATAATATTAATGATACTAAACTACCAG TAACATCATAT
AAAAAAATTCAAAATATAATTAAATATGTCTCAACTATATTTAATATAAATTTAATT ATAACGATTGAT
AACGATAATATCCTTACTTATGGAATGATGACATTTATTCCGGTTAAAAATCTAACA AAGATATCTAAT AATATAAAGAAGATTGTACTTCAACCAAAAACTGGTTTTGAATATATTAAAACTGAAGTT ATTGAAAT
TAAAATACAGAAAAAATTAATATCTTTCATTAAGGATCCAAACTTACTTATAAGAAA TAATAAAGTTC
CAAAAAATTATACTCCTAGTGGAAGAATATTGACCAGTATACTTCTTCATGAAGTAG GTCATCATATAT
TCATTGGATTTGAAATTAAGAAATCTATTAAAAATGATAAACTTTTTTCAATTAACG GTGGTAATGGTA
AAGAAATAACTATACCTAGTAATGTTAATAATAATAAATATGTATTAACAAGCACTA TATTATCTATAT
TAACGTTAAGTATTTCTATGCATAGTTATATGAGAAGTGAATACAATGCGGATAACC TACCAATACAA
TATGGTTATGGTAAAGAAGTATTTTATTTTTCAGAATTAATGGAAATATTAGAAAAA CAAAAAAGAAA
TTCAATTCTATTAAAGATTAAAGGATTTCTAATGTTTGGTAAAGATAATTATTATAA TCGTAAAATAAA
GAATCAAGTAATTATTATGATGAAAAAAGAATTAAATAATGATAATAATAGTCCTAA AGATAAGGAA
ATTATTATAGATAATTTAAAAACTATAGAAAATCTTGAATAGATAATGTGGTATAAC TTATTAATTAAT
AAGTTATACCATTAATACGCAAGTAACTATTAATTATAATAAAATAAAGAAATTGTG GTGATAAAAGT
ATGCTTAAGATTAATATTAAAGATAATCCTGAACTTAAAAAGAATATTACTTCAAAA AATAAAAAACT
CTTTTATGATTTCAATACAAATAATCAATCTTTCCTAGAATTAGCTATTGAATTAAA AAGATTGGGAAT
CAGAAATAATAAGTTACATTTAGTTTTATATGATAAGAGTCTTTCCGGAGTAGATCC GTATGACCCGA
ACTTAACTGATAACGTAAAGGCAAGAATTGTTAAAGAGAGCATTATTAATTTTTGGT ACTTTATTAGG
GAAGTAGTTCGTATTCCAGTTCCAGGATCTTCAGTCCATTTTGCTATTCATAGAGGG AACCTTGCAATG
TGTTTCTGTTTATTAAATAATTTAAATACCGTATTAATGTTACCTCGACAACATTAT AAGACATATAGT
GCTGTAGGTTTTTATTTATGGATTGAATTATTAGTAGGTAGAAACTATCAAATGATC TTTTCACATAAA
TCATTAACGGATAGTATTGCCAATCTAAAAAGATTGACGGCTCTATTTGAACTATTA CCGACATATATG
ACTGAACCTATCTTAAATAGTAAGAATGATAAGAATGCTGAAACTATTTTAACAATT GACTCAATAAA
TAATACCATTAGGACAATTGGTCCAAGCACAGATATTGCTTCAGCAGATAAGTCAGG TTAACTTAATT
TTTCGGCTTGACTATAAAACTTTTTTAATTGCTGGAACATCCTTAAGTCTATTAAAC TACAACGTAACT
GGTAACGGTAAGCGTGAATGTTTGAAAATTAATAGAATTGGACAATCAGCAGCCAAG CTTCCAATGAT
TATTGGATGAAGGTTCAACGACTATCGAAAGGGTAAATTTATATTTTAAATTTAGAA CTGAGTAGAGT
AGAGCCAAGACAAAAATTTGCAAGTTTACTTGGTTAGTAATTAAGTGACATTAACTT AATGTAATTCT
ATTAAATCGAAACGGAAAGTATAGAATAAAAATAAATATATATTATAATAATGATGA GATAATTTATA
TCTTCTTTAATTAAGATTATTAAAGAGGTGATTATTATGGTAAGAAAAAACACAGAA TTTGATCTAGTT
AATAGAATATCACAAAAATTCAGTAATAATGAATTTACCTATATTGAAGGGTTTAAT AGAATGATAGA
TAAATGTAGATTTAAATGTAATAATTGTGGAAATGATAATTATTATACTTCGCCATC CATATTATTGGA
TAAAAATAAATCTATATACTGTAATCTATGTAATCCTGCAACTTTACGAAAAAATTC ATTTATGGATAA
TGTTAATAAAAATTACACTGTTTTAGAAAAACCTAAAAATAATAAACAAAATATATC TGTAAAGTGTA
ATTTATGTGATTTCATATTTAAAACAAGGTCACAATATTTAACAGCTATGGACAAAC CTAGTAAAACTC
GAAATTTGTGTCCTAAATGTAATGCATCAAATTCTGAAAAAATATTTGCAAAATTTC TTGATTCTCAAA
ATATTAATTATGAAATGCAGAAAAAGTTTAAAGAATGTATCGGTATTAATAATAGAG TCACTCCATTT
GATTTTTATATAGATTCAATGAATCTAATTGTTGAAATTGATGGAAAACAACACGAT TCATTAAAATAT
GCATTCCATAGAGATATTAAAGAATATGAAAGAACTGTTGCTAATGACAATATTAAA AATAATTTTTG
TAGTGAAAATAATATTGGATTAATACGTTTAAGATATAATTGCAAAAGTAAAGAAAT TGAATTCATGG AATCAATTATTGATGCAAAATATATTCCAAACGTAAAATTATCCATAAATGCAAATCTTA TTAAATATT
AGATATAAATCTCATCAATTTATAATTCTGACTCTTCAAATAAAATTTGGAGAGTTT ATTTTTTTTTTTT
TTCTATAAAGATATAGTCTATGGGGAGAGAAATCTCTTAAACTTGTTATATTCTAAG CGAGGAATGAC
CGTTGTATGCGCCGTAATGAGTTTATAAAAACTCTAATCAATTTTGAGAATAACGGA ATGATAGATAG
CAAATAATCTTGAAACGTTATATCTAATACTCCTACATGCATATATTTATTAAACGG ACTATATGTGTG
AAGTTAGGTGAAGTCAGTTGAACCACTCCCCTATAACGGGAAACTTAAGTATTATAT ACTAAGAGTGT
ATAGACTGGGATGCGTTATAATATGGTAAGGATATTCTTTAAAAGAATTAGACGAAT CAATGAATTAA
AACCGTTAAAAATTAATCTAACAGGTTAATGAATACTAATAGGGATGAGTAAGTGAG CGGTTATGAAA
ATCCTATTTAAGTTATGCTCTTAAATTATTATTAGTGCGGTAGAGTTGGTACCTAAG TTATAACTATGC
TATCAAAATTGAAAAGGTGGAAACTAGGAAGATCGTAAAGATGTTTAATGTCTGATC TAATAAATAGG
AAATGATTTATGAATCTTAGTGGCAGCAGCCTGTAGTAGTGATGAAGCTCTTGTAAT GAGAGTGGAGT
GAAGGGGCATAGTCAGAGATTATATTAACCAAATAATCTTTGATGGAACGCTGTATA CGATGAAAGTC
GTACGTACAGTGTGAAGTGGGGGAAAATCCGGAGATAATTTCAAAGGATTACCTATC ACTATCCGTTA
ATATGGTTAGATGAATATGCGTTTTTAAAATATAATGATACGGTATTTAAAGCAATG CGCCCTGCTTTT
ACAGAAGCAAGTAAAGCTGCAAGCATGAATGATACTCCGTATTCAATACTTATTACA ACAACGCCTAG
TAATTTAGATTCCGATGAAGGAAATTCATGTTATAATCTTATACAAAATGCAGCTAG GTTTGATGAAA
AGATGTATGATTGGTACTATCAGTTTGGTCCAGAATACCTTCAATCATACTTGGATA AAAACTCTGGTA
ATGATTTTATATATATTGAATTTAGTTATAAAGAATTAGGTAAAGATGATGAATGGT TAGAGAGTCAG
ATTCGGGCAATGTTAGGTGATAGACTTAAGGTTAAGATTGAATTATTATTAGAATGG GTTTCTAGTAGT
GAAGATTCAATCTTTAGTGAAGATATTATTGAATCTCTTGAAGGTAATATTATAAAA AGGGAAAATTA
TGCAGGATCCATATATTTATGTGATGGAACATATAAACTAGATGTTATTAAAAATCC TATAAACTTATT
AACTAAAACATACGTTATATCAATAGATATTGCCGGAGGATTAGGTAAAGATAATAC CGTTGTAACCG
TTATTGATCCAGTAGACCTTAATACGGTAATGGTATTTCAAAATAATAAAATTACTG TTCCGGAATTAG
AAGATCTTGTTACTGATCTAGTGTTAAATTATATTCCAAACGCAGTAGTTATTCCAG AACGAAACTATG
GTGGGGAACAACTGATTGATTATATTATTAAACATAATTTAATATCTAAAAATCTTT TTTATGTAACAA
AACAAATAACTACTGAAAAGACAATCTTACAAGAAAATAATGTTTTTAGAAAAAGAA GTAATAAAGT
TAGAAAAGAAAAAAGGGTATATGGTATATATACAACAACTAAGACTCGTGATATAAT GATTAATACTA
TCCTTCCAATGATTGTTTATGAAAGACCCGAATTGGTAAATAATGCTTCCTTATTTA ATGATATTAAAA
CGCTAGAAAGAAAAAGAAATGGTAAGATTGAACATAAGTCAAATCGCCATGATGATA ATTTATTTTCA
TATCTGGTAGGATTATATGCACTATTATATGAACACTCGATCAGTAGGTTTGTGGAT ATTATTGATAAA
CCCGAGTTAAATAAGGAAGATGAATTAGTTGATAGCGGTAATAATACGGGTCAACAT CGTTTAACTAG
TTCTCAAAAAGCATCAAGAACTATTAATAATTTAAGAAAAGTTAGTAAAAAACCAAC AAGCAAATCA
ATTATTAATGCATCAATGAATATAAATAACGAAGATTCTAGTATTAATAATTCTATG AGTAAAAAACC
ACGAAGAGGACTAAATTTAGTCCGAAAATATAATAAAAAATAAATTAATTTTTTATA TACTATCCTAA
AAAATATTATATAATAATTAAATATAATTGATTGGAAGTGGAAATTTTATTATGGTT ATGTTAAATGCA
ACTGTAAATGAAGAATATAAACGTGAAAACGTAAATGAAATTATTACAAATATTAGT GAGGATATTAT
GATTGATAATATCTTATCTCAAATAAATGATACTGATATTCAGGATCTTTCTGAAGT AAGAAAATCATT CTTTGAATACTTTGAAGAACGTTATAACTTTGTTAAGAAAAATTATAACGATGATGATGA AGCAATGC
AAAATTGCCGAGAAGTCTTTGATGATATTTTAAATCAAATTATTAAAGCAATCTCTG AAAAATACAGT
TTTGATCTTTTCTTTTCAGATATCCTATTATTCGATACAAAAGTAGAAATTACTAAA AGTCTATATTATT
TCTTTGTCATCAATATTCGGGAAAATATTGAAAATATGATTTATTATTTTATCATGA AAAATAGAAAAA
CATTAGTAAAAATGTTTAACACTATTAGTAAAGAAGAAAGAAAGAATTTAAGCTATA TTAATCTTAGT
TCTGCAATCAATAATGATTATACGACAATGATATATCATTTAAGCATGATTATTGAT AATATTGAAATT
CCTACTAATGAAGATATTATTGAATTAATGGTTGAAGATAATTCATATGAACTTTAT AACTACGTAACT
GTTAATACATTAGTTCTTACAAATTTCTGCGAAGTAAATTATAATGAAAACTTTTAC TCAATCTTTCTA
GATATTATTAAGAATTCTCCAATTATTGTAAGAAATGTTAGAAACTCACTTATTGAC TCATTAAAATAA
TATTAATTACCCTATCCTTAAATAATTTAAGGATAGGGTTTTATTTAAACAATTTTT TATAAGAAATATT
TAAAGAAGGGAGACGTTAATGGTTGACTAAAAAGATGAGCAGTTTAGACCGAATTAA AGATTCACTT
ATTTTTAAAGGTGAAATATTAGATATATACTTACCAAAATCTAATTTTGATAAAA ATCTATCAACGTAT
AATGGTGAATATATAAATACTATGGGTATCTTTTCATTCATTGAAAAGAAAGCTGGA CCTGAAGATAA
AACAACTAAAGGAACTTTACGTAAACTAGAATTACCTAATATGATTGACTTTCAATA CGATTCAAGTT
ATTCTTTTAAGGGAAAATTATCGGATGAATTACCCTCTGACACATACGAAGTTTTTC GACTTACTACAG
GAAATCAATTTATTGCAAATGTATTTACAGAACAAAATGCTTCTAATGTTAAAAAAT TTATATCGGCTC
TTCATGGTGGTAATATTCCGAGTTCAGTATCTTATGATAATATTATTAAACTATACT TAGATACTTTATC
AATTAATAAAGTTAGTTTACGTAGTCCATCAGTAATTTATGAATTGATTATCTCCGA ATTATGTAGGTA
TAGTAAAGATATTAATGAACCTTTTAGAAAGATTATTGCTTCAAAAAATAATATTAG TCCCTATATGTA
TACAAATATTAATCTTAAGAAATTACCATCAATCAATTCTACTTTTGCGGCACTTAG TTTTGAAAATCC
AAATCAAGCAATTATTGACAGTATTAATAAGAATATCAATGGTGAAAAAGAGAATGA ATCTCCTATTG
AAAGGACTATTAAATACTAATATTTTAAAACAATAAAATATAATCTTAATAAGATGA TTTATTTTTATG
TTTATTAAGTTTTTTATAAAAAAGATTATAATGAAAGGAATGAATTATAAATATGGC TAATGATGCAA
GTTTGACACAACTACATCCATCAGTTTCATCCGTTATCAATGCAAATCAGTCTAATT TTCTTACATCTA
ATGGTGTAGTTACTCTATTTGCTGCAGACACCTTTGCTAAAGGTAAAGATGGTGCAA TTGATTTTGTTA
GTACTAAAGATGAATTTATTTTTAAATACGGTACTCCAGATTATTCCAAATACGGTC AATCAGCTTATA
ATATTGTAGAGTGGTTAGAAAATGGAGGTCAAGCATTTGTCCTACGTCTTCTTCCTG ATGATGCTACCT
TCTCTCATGCAATTCTGAATGTACAAAGTAAAGTTGTATCTCAAGGTAAAAATGTTT TAACTACTGCAG
GAGAATTGGTTAAATTAGATGATGTTCATCTACGTCCTACTACTGCTTTTATTAAGA AAAATAATCGTG
ATAAGAATATGTTGATGTCTGAATTGACAAAAACTCGTTCTGATGAGAATACTGTTG ATGGTTATACA
AATAACTTTGTATTGCTAGTATATCCAGAAGGTCGTGGAGAAGCTTACAATAATTTA GGTTTCCGTATG
ACTCTTAATGGTTCTTTCGATTCAGCAGTAAATAGTTCTCGTGTTTATAACTTCGAA GTAATTCAATAT
GATTCTGAATCTAATATGACTGTAGTTGAAGGACCATTTTATGTATCTTTCGATCGT ACTGCAATCTCA
GCTTCTGGGGAATCTATGTTTATTGAAGATGTTATTAATCGCTATTCTAAACACGTT AATTGTGAATTT
AATGAAGAAAACTTTAACCGTTTGACTAAATCTATTAATCCTAATGTTAACCCAGGA CATATTGATATT
CTTACTGGTAAATCTAAAGTTCTTCCTTCTGGTAAAGCTGAAACAGTTTATTCCGAA ATTACTCGTGAT
AACGAAGATATTCATATTTCATTACAAAAATATAATGCTCGTGGAGAACTAGTAACT CAGAATGGTAA TGCTGTGCTTAATATTCCAGACCCTACGGATACTGTTGAAGCAGCATTGATTAGTTTAGA TAATGGATT
ACGTGAAAATATTTACAATCTAGACTCTAATAAACTTGCTTACATGAAAGAACAATT CCCTAAACTAA
AAACTGATAGTTCTAGCGAATTTAAATTGGCTATGAATCAAATTATCAATGTTCCAG GAGATGATTCTC
AACCTAAAACAGGTGAAGTGGTTACGCTTATTAATAATAACTTTGATTCATCTAATC CTAGCAGTCTTT
ATAGTAAATACCTTATTGCTAAAGAAGCTTATATTAGTGAAGATAGTGATGAAAATC TTTCTGCAGTAT
TATCATACGTAGATCGTTTGTCTGAAGTATTGAAGTCTCAATTTATTGATTATTCTA CTAAAATGAATG
CTTCTTATACATTAACTCTTCATAATTCACCAAATCCTCAACTTCCGGCACAATATG CGCTTGAACTTA
ACTCTTTGACTGATCTTCTTAATAAGAAAGATCAAATCAATATCTTTACAGTTGAGC ATCAAGGTAAAC
TATTTGATATTCAAGAAACAATCACTAAATATCGTTTAGGTACTGTTAGTGGAAGTT ATTTGGAAGGAT
TGTCATTAATCCTAAACAATGTTGAGAATGAAATTAAATATGTATATGAAAGCTTAC TTCCAGTAGCAT
ACAATGGTTATCAAAATGTACCTGTAGAGATTTCTGATAAATTTGATTCATCAAAAC CAGAAAGCATT
ACAAGTCGTTATAACCGTATCTTAGATCTTCAAAGTGATATGCAATCAGGAATTATT GACAATACAGC
AACTAATCGTGATGAAATCACTTCAGTAGCTAATGATATTACTATTGATCTATTGGA TGTTATTAATGA
AGTTACATTCACTTCTAGCACTACAAATATTGAAAGTGCATGTACAACTTCAGTATC TCATATTCTAGA
TAATATCGTTTCTTTCCATTCTGCAGTTCTTACAATGATTACACCTCAAGGTACTTA TGACTTTGATGCA
ATCATTTCTAATGCTAGAACTCAAATTGAAACTGAAATTTCTAAAGTTTCTACATCT AACTCTAAATTC
TTTAATACAAATCTAATTGACTTTTCTAATCCAATTAAACTTCTTTTGGGTTCTGAT GGTTCATTTACTT
ATGACCCAGATAATTTATCTGAAAGACGTGCTTCTATTAAACAATGGTTAATTAAAG CATATAGTGGA
TCAGTTGATTCTGATCTATTGAATAAAGATAAATATCCAATTGATATCATTTTGGAT GCAAAATATGAT
AGTGATGTAAAAGCCGCTATCGGTAGTTTGGCAGCCAATATTCGCCGAGATTTCCAA TTCTTTGCGGAT
GATGCGGGTGGTTCATTTAGTTCTTCTCCAGTAGATTCTCTATCATGGAGACAGACT TCTGCATTCAAT
ATTAGTTCTCTTAACGTTTCAATATTCTCTCAAGATTTAACTTACTATGATGAATAT ACTGGTAAAGAT
ATTCGCTTCACCGCTCCTTATCAACTAGCAAGTAAGATTCCTTACAACGCAGTACAA TACGGATTGCAA
TATCCTTTAGCTGGACCACGTAGAGGTCTAATTAGTGGTCATAAAGCTATTTCTTGG GTTCCTAATGAA
GCTGAAAAAGAAAAACTATATATTGCTAAAATCAATTATATTGAACAAGATACTAGA CGTACTAAATT
TGGTTCACAATCCACTACAGAAACTGGTTATGGTGCATTATCTAATATTAATAATGT ATTTACTATTCT
TAAAATGGAACGTGATGCTAAAGAACTTGTATCTAGTTACCAATTTGAATTCAATGA TGAAGAAACTA
AAGATTCTCTTTATACTGAATTGAATTCTTACCTATCTAAATATACAAGTGACCGTA GCTGTGAGTCTG
TTGTAGCTACTGTTAGTGCTTCTGACTATGATAAACAACAACGTATCATTAAAGTAA ATATTTCTGTTA
AGTTTAACGGAATTATTGAACGTGTTCAATTAAGCTTCGATGTAGCTAATTAATACT ACAATATTTCTA
ACTAGAGGTAAATAATTTATACTTATTTTATTTATCTCTAGTATTTATTATAAACAA TTATTACTTATAA
GAGAGGATGACAAACATAATGCTAAAACCGGGTTCTAGTGCTAGAGTCTTTGATAAT GACTTAGCTAA
AGGTAAAAGCTTTTTTACCGGATCAATGAATACACAAGAACTTCAGTTTGATCCATT TGTTACAGGATA
TGCATTTATCCTTTGGACTAAAGTTCCTACTTGGGTTGAAAAATCATTCCCAGGATT CCGTAGCCAAAC
TCAAAAGAATTTTAAAGAATTCTCAGGAATTTCAGATATGGAACTACAAACTGCTGA ATATACGCATA
CTTTTAATAACAATGCTTATCGTTTTAATAGTGGTATTACTAAAAACAATACTGAGT TTACTCTAAGAC
ATCAAGAATTCTCAGGTAATCCAATTACAAATATGTATAACTTATGGGTTTCTGGTA TCAGTGATCCAC AAACTGGTATTGCTACTTATCCTAAAGAATATAATATGGAGTATGCTGCTAAGAATCATA CAGGGGAA
CTTCTATATATTGTTACTCGTCCTGACGTAAATAACGTAGAACGTAATAATATTGAA AAAGCATTCTTC
TATACAGCAGTTATGCCTACTCGTATTGCATTAAATCATTTTAACTATACTTTAGGT ACTCATGATGGT
GCTGAAGTTGAAATGCCATTTGCAGGAAACTTGCATATTGGTCCATTAGTTGATGAT TATGCTAAAGA
AATGTTACGTAAAACATACTCCTTTAACGCTCAAGGTATGTTTAACCCTCAAGATGG TTCAATTGCTGG
TGAAAATATTGCTGTATTTAATGATAATGCAGGAGTTACTGGTTCTGGTCTAGGAGA TATCTAATTAAA
TTAAATACCTATCACTATATTAATTTATGGTGATAGGTATTTTATATTTTAATTTTT TAGAGAAATTATA
GATATCTAACAATAATATATAAATGTATTTGGTTGTGAATCTTTATTATTTAAAATA ATTTTTTAAATAT
TAGAATAACAATATAATATAATTTTACTTCTACGTGTCGGTATGCAAGCTGGTTAAA GCAGACGGACT
GTAACTCCGTTTCGAAAGATTCGAAGGTTCAAATCCTTCCCGGCACATCTTTATGGA AAGTTGTCTGAG
TGGTTTAAGGTCTCGGTCTTGAAAACCGATGAACGTTTATAGCGTTCCGTGGGTTCG AATCCCACACTT
TCCTCTTTTATATTATGGACTTTTAAAGTTTAGTGGCTTTAAGAGTCAGCCAATTGT TTGTTTTTCTTTCT
TTATTCCATATTTACTTTAGGGATATATCTTAAGGGGTTTTTGATATATCCCACTCC TTTTGACGTGTAG
CTCAATGGTAGAGCATCTGACTGTTAATCAGACGGTTGCAAGTTCGAGTCTTGCCAC GTCAGCTTATTT
TATTAATACCTTATAATTAATTAATACCTTATAATTAATTAATATAAGGTATTAATA ATCCTAATACGG
TTCTTTAGCTCAGTTGGTTAGAGCAGACGGCTCATAACCGTCCGGTCGATGGTTCGA GTCCATCAAGA
ACCATTTCTCTAAAAAAGATTATATAGAGAACAGTAATATTAAATTCAGTAATCTTA TTCTAAGTTAAT
ATGTATATATTAATAAGATGATAATTAAAGAAATTAATTATTGCTGAATAATATTAA ATTTCTTAATAA
ATAGATCAATTAACTTAAAAAATATCATAACGATCCTTTTTAAAACCACACCTTCAA AAACCATGTAT
ATGATTGATCTATTTAATGAAGTCAAAAGTATTCTTGTATCCTCCTAATATATGAAT ATTTAACCATTTT
TTTTTTTTTTTTTGCAAGTTTATATTGGTTCTTGCAAACTCTTTTTTCACGTATT ATCTCTTAAATGAGGT
AATACGTGTTTTTATTATAAAAATAAATATATATTATAATGATGATTAAAATAATAT ATAGATTGGATT
GATGAGACGATGGCATACAATATTGATAACGTAAGGGAAACTAAGGCAAAGGTATTA AGAACGGCAA
TTAATTCTCTGATTGCTAGATATTATGAATCTAATGATCCAAATACTGCACTAGAGT ATTTGGAGACAG
CTGCTAAAATGGAGGAATTTGTTGAGAATGACAATTATAATTATTTATTAGATTATA ATATGAAGAGT
ACCCATCTAGTTAGACGAGTGACTAGTATTGATACAAATCTCAATAAATCAGAAACA AATGTTGGAAA
ACAAAAGATTAGATGTATGTATGAAAGAGAAAAGTCTGCATATATTTATAATATCAA AAACAAGAAA
GTTGAAAGTGTTTATAGAAATAATAAGAATATTTCTAAGATCAATAAACCAAACTTT AATGAAGATGA
TATTGCATTAATGCGTAAGATTCTTGATTCCGAAGAGGGTAGTGCTATACATAGAAA TCTTATTGGTTC
TTATGTATACAATCATCGAATTGGTAAATGTGGAGTGATTGTCGGAATTACTAAAGC GCATATGTATTA
TACACTTAGTGATAAGCATAATAATACTAAAACTAATGATACCAAGTTTGTTGTGAG ATATCTAGACA
ATACTATGAACAACAAACAAACATCTATTGGTATCTGGCGTGCTACTAAATGTTCAT TTAGTAAAGAA
ATTTCGGACTTTGCAACATATTATACTAGTTCAGAAAGTACGGAAGAGTATGATAAA GAATATGTTAT
TAATTCAATGAATCGTCTATATGAAATTGAGAAGAATTATACTCATAAATTCTTTGA TACAGGACTAA
AGATTTAAAGAATATTAACGCTAATCATCCAATAATAAGGATGATTAGCGTTATTTT TTTTTTTTTTAAT
TTTTTCTAGATACGTTTATTGCCTTCATAACTATCTTATAGGAATCATATGCTATCT TTTCAGGAATTAC
GTTTGAATATTTATTATGGACATCCACTAATTTCTTACGTAGTTCTTCATCGCTAGT ATTAATAATTAGC TTCTGAAACATTCCAAAGATACTCATATGTTCTCGTAATCCACTATTACTAGAATTATAT ATTACCTTAT
TAAATTCGATCTTTTTTACTTTATTAGATCGGCAATATTCATTATCAATATTTTCTA ATAGTTTATTAAG
GTCACTAATAGTCTTTATACCTTTTATTTTACTAATATCTTTATGATATTCAGATAT AGATGCGTATATA
TTATTTTTAGAAAATATACTTATCTCATCTTTATTAAAATGTTTGTTTAAACCATCT TGATTTATAATAT
TAATTCCATTCCGAATATTTTCTTTATTTCGACTAATAATTTCAGTAATAGTACTTT GTCTATCTTTATGT
TTCTCAATAAGATTTTTTACTTTACGTAATATTGATTCATTAATTTGTGATTCTAAT AAATCTTTAATAT
AATTATTATCCATATCTATATATCACCTTTGTCTTTACGATTATATTTATAGAATTC TATCAATTCAAGA
GAAAGATCACCAAAAATAGCTTGCATTGAAATTCCACCATTGATATTTACATTTTCC ATATCCTTAAAG
TTTATTAGTGGGTTAAGGTAATCATAATTATTATTATTATCTGCAATAAATACTCGA ATTCTATTATTTT
TTTTAATAACCTTAATTAATTTACTATCAAAGTTATAATCATAGGTATCTATAGTTT TAATATATAACGT
AGGATCATCTTTAAATATATTACGTTTAGTTCCATAGAATTGATCTATTTCTTTAAA TCCGTTCGAAGC
AATATTTCCTACAGCTACAGAAACGCTATTATATGGTGGTAGATTACTATTTGTACT ATCACTTTTAAT
AAAGAATCCATAACCAGAATTATCATTCTTATTGTAGTCGAGAGCAAATAATATCGC TCCGCCCTTAG
ATGGTGAAGTATGTTTTAGTTTAAATGTGATAATATATTCGTCTGGTAAAGTTAAAT TTGTACTATACA
TATTTTTCCAAATATTATTCTTTGTTTCGTTATCCCTTGAACTTTTAATAATCACTG GATTAGATTTAATT
TTAACATTATTTTGAATTGTTTCTATAATTCTACCATTATTATATGATGGATTATTT GTGATAATTTCAC
TACCGTTTATTTCTTGTATGGTTGGATGAAAATATATTCCTTCAAAAGAATCTTTAG GGAAAATTTTAA
CACCTTTATCATCTATTGTCTTATAATTATATAATAGGTTTATATTATACCATCCAG AGGAAGGAACTG
TGAAACTAGTATATGAATCATTATTTGAATAGCTCTTAATATTAATAGATTTTGTTT TGATATATGCAG
TAGTATCCTTTTTTGCATTAATTATAACATTAACCGTAATTTTTTCAATACTTATTG ATTTACTTTTAATA
ATACCCAACTTAAGGTAACTATTCTTTTTATTAGTATTAAAAATATCTGATCTTGGA TGTAATGTAGTT
ACGCTTTCAGTAGTACTGTCTGTATAAGTAATAATCATTTCATAACCCATACTATCA ATATCATCATTA
TTAAAACTACTTGAGTACTCTAAATTTGTAAAGAATAATCTATTATCTTTAATACGA TTAATATCTCGA
TAGTTATTTACTGAGTCAGCAGTAAAATTTACCGATATAATATTATTCTTTCCTTTT TTTATTGTACTAT
CAAGAACATGCACATACCTACCTTGATCTTCATCATAAGAAACAAATGTTCCATTAT ACGAATTTACA
AACTTATCAAGATTATCATCTCTAAAATCGCTTAATAATTCCATTTCATTAGGATTA AAATCTTTATTA
ATATTTACAATATTTTTTGCAGTATCAAGGTTATTTATCATTAATCGTACATTTCCA CTAAAGTTGTTGG
TCAATCCATATTTTTTACTTTTATCTAAGTATATTTTACCTGTAAATGATTTAGTAT AACCTTTTTTAAA
ATAGTATGATGGTATACTAGTTAGACCTTTATCATCTAACGTAAAAGGATCTACATA TCGACCATCATT
ATCTGTAACTTTACCCATTTCAACATCTATTGATGCTAGATTATAGTTTGCATTTAA TATTTCATCTTTA
TTATCTGAAAAATCAGGAACTGTATGCCATGGAATTGTTTCATTGATATCAGTACCT AATAAATCTTTT
GATTTTTCATTTAATGGATGTAACATATGTTTTTTTACATATCTTGGACTTTGTACG GTTGATTTCATAT
TTTTTTCCTGATTAATAATTTTATTGATTGTATTTAGAATAGTATCAGGGAATAC TTTAATTGTTTTCTT
ATTAAATTTTTCAACAGTATCCATATCATTAACAAACATTAATAAGTACCATAAGTC AGTTGTTTCATA
TAATTCCTCAGATACATATTCCGGTCTATAAAATTGGTTTTCCGATATATCATAATC AATTAAGTTTGA
TTTAAAAATATTTTCATACTTTTTTAACAATGGAAAACCTAATACTATCTTTCCTTC TAATAAATAAAA
GTTAGATATATTACTAAGCAATATTTTATTAACGTTTATTGAATTTATTCCACCAAC TAAGTCAACAAA TCTTGAACTATCTAAACTATTTCTAGAATTATCTACTACTACCAAAATATATTCACCACT TTTCAAATTT
CATTATATAATTATATGTTACTATATTCTTTTTTATCAAAAAAAAAAAAAAATGCCA TAGTATATTATG
TAATATACTATGGCATAATAAATGTTACATCATTGGATCATTATTATCTTCAGAACT ATTTTTAATATTA
GATATATTTAACTTATCTTTAGTTAAATCTTGATTTGTTTCGTTAAATAATGTATCA AACTTAGTCCAAT
CAAGAGTAGACATATATATTTCTGAAGCTAATTTTTTCCTAAACAATCTTTTCTTAT TATCGGTATCCTC
ATTTTGTTCTGACTCTGTGAAATAATTACCTACAATAAAATCTATTGTCTGTGAAAT ATTATTAATTTGT
TCATTAACATTAGCAATATTCATAAATACTGGTGTAGGGAAATTAATAGTGATTTCT TCAATTTTTACT
TCATCTTGGTTTTCGTTATAATCTTTTTCATCATTTGTTTTGTTCTTATCTTTACGA TCTCGTTCACCATA
CTCATAACGATATAGCTCTTGAATTATCTTAGTAAAGAATTTACTAAACGTTTCTTG ATATCCAATAAC
TCTTCGAACAAAATTACTATTCTGCATTGATAGATTTCTTGCAAAATCAACTTCATT AGTAGCATCAAT
ATAATTAATTGGAACACCTGTTCCATTAACTGCCGATTTCTGTAAGAATTCTAAGAA ATCATCATTAAT
ATCAGCTTGTATACCTGGAATAACATCAATATCGAAAGGCTTATCTCCATTAACTGT TGGAATAAATGC
TTCTTCTGTAGCACCTAAAGTTTTAAGCATAGTAGATACACTATTTCCGGGACCAAT ACTATCCATTGA
AAATTCAGTAGTCTTTAAATCTCGGATAAGTTCTTCAATAGTTCCCTCAATATCAGA ATCCATATCAGA
CTCTACGTAATATACTCTTCTATCTCTACCTTGATTAATTTTTACCATTAAATTTGT AATTAATGTAGAA
AGATACATTTTAGCAAAAAATAGACTATTATTTAATCTAGATACACCATACTCGCTA GTGCTATCTAAA
GGTAGATGATACACCTGATTTGGTTCTAAGAATGTTATAGATATATCTTTATTGATA ATATAGTCTTCT
CTGACCAATCTATATATTACATCTTTAAAATCTTGGTTATCTTCTAAAAAGTCTTTA GATATTTTATCAC
TAATTCCTTTTACAAATATATCAGTAATTATCTTGTATTTTTCATTACTAGTCACTC CTGAACCACTCTG
ATTTGATCTAGAGTTATAATACATTGTAATATCTCCATTAACACTAGAAGATCCTTG TGGGGCATTACC
GTTAAGAGTTCCTGCAATAGTACCTAATATTGAACTACCTTTAAATGAATTATTGCT ACCATTCTTTTC
AATATACACGTATCCTAAACATACTCCATCAATAGATATTTTAATGATATCTTCCGG ACTAAATATTTT
TAAGTAAGATCCGGTAATATTTAGATTTTGAATGTCTTTAGATTTTTTACTTGCTTT TCGAGATTCAGAT
ACAAGATTTAGAGGGTCTTTATAATATTTTACATTTTTAGATATAGACTCATATACC TCATTAGCAGTA
CTTTCTACTAAAATCTTTTCAATATCTTTAGGATTACTTTTAGAAAATCTTTTTCCA TTTTTAATATTAG
ATGATTTAAATTCAATATTTTCATCATTCATAACACTTTCAATAAGATTTTCAATAT TTCTATGATCCAC
GTTAAAAGATTCATTTAGATCATCTTCTTCAGAATCAATAAAGAGATTATTGGTATC TAATTCATTAAA
TTCATCTTCAGAAAGAATACTTTTAAATTGGCTTTCTAGATCGGTAACCATGATAAA CAGATCACCCTC
AATTAATGTATTCCGAATAGAATTTCGAATAACTGTATTTAGATTATATTTATCAAT CAACTTAGACAT
ATTACCATTGAATTCTTTTTTATCCGTCTCCCCTAAGGTAGTATTTTCATTATTATA ATAGTATGATATT
GATTGTTTTGTTACATCGTCTGGAGACATAATAGAATCTACATACGTATCAATAGCT GTACCCAATTCC
GGAAAATACTGAGATATTAGTCTAAAATCATCATATCTTTGCCATCTTAGTTTTTCT TCAGCAAACTCT
CCTGATGAGAAACTACTTTCAACTTTTTCCTTAAAATAATTGTTGTATATATCAGAA CTTTTTTTATTTT
TCGTATTTTTCATTCCAGTATTCTTAACTTTATCTCTCTGTATGTCGGAGATAATAT CAATTATACTTCTT
CCTGAACTGTTATTATTACCGTTTCTTCGTTTAATCTTATTTAACATATCATGAAGA TTACTTAATTTAT
CTTTTGGTATATCTTTCTGGTTCATAATACCGTATAGATTTTTATTAACGTTTGCAT TATCTGCCATTAA
ACTTATCCACCTTTCTAAATTGATGAAAAAAAAAAATATCATAGGAAAAAATTTCCC TATGATATTCA CTAATATTTATTTCATATCTACGAATATATATGATTGTTCCATAATATAAGTATCATTAC AAACTTCAAT
TACAAGCATTTTTAATGATGAATCCTTGTTATGATTAAAGCATAATATATTTATAGA TGGATGTTTACT
ATATACTACTGGAATATAATCACTAAATTTTTCTTCTTTATATTTTTCATATGCTTC ATTAATATCTTTTG
GATAGTTCAATGATCCGAGATTATCCTTAATATTTGTAAAATAAGGTATTTCAGTAA ATTGGTCTATAT
CGACAATTAATGGTTCAGGATTCTTTTTACGAATATACTTAAAGCCTTTGATAAATT TAGTTGATACGG
TAACACTAATATAATCATCTAATTCAGGTTTAATCATATCATCATGGATAATAATAT TATTATTATCAT
TTTTATCAATAACTATTGAGAATGTATATTTATTGTCAAATTCAAGTAATTTTATTA CATCATCATCACT
AAGCGTTATCTTTGGAATATTTAATGAATTTTCACTAAAAGAATCTAATACAGGAAC AATATGATCATT
ATACGCATTAATATCTTTTTCTTCTAAATACCATTTAATAAAAAAGTCTGATTGTCT AATAAACTTTATA
TAGTTATCGTTATAGTCTATTTCTATAGAGACAATTTTATCTGATTTATTTTTACGC ATTTCAAAAAATT
CTATCATATGAATAGAAAATGTATTCTTTTGCATAAAATCATTTACTGTTTTCATTA TACCTTTTTTATC
TAGTTTTCTTTCAATAAAAGTAGCATTGATATACTTTGGTAGTTGTTTTAGTAGTGC GTCATCGTTTAGT
GAGGGAAATGCAAAACCATTATTAAAAATCAACCTATCCCCAACATTAAGTACATTC CTAAATTGATC
TACCATTTCTTCAATAGAAACTACAATTTTTTGAGCTTCATTAGGATCATCTACAAT AACTTTATTATTT
TCTTCAATATACAACTATAATTCACCTACTTCTTGCATACTTTCAGAATCTATTGAT TCTCGAATCATAC
CCAAAGCATCTTTAATATTTGGTAGATTATAATATTTAATGCAAAATTGTAAAGGGT TATTACTATTAT
AATCATCAATAAATGATTCTGTAATATTCTTATTACCTTGTTTAAAAGTAATATTTC CGATAAGACTTTC
AGGACTAATATTTAACGCCATAATAATATGAGGGTATAGTGCAGTTAAGTCAATATC GGTTACATTAT
CGAAAATCATATTTGATTTTTTACCCATAATATCAATACCGATTGGATGAACTTTTG ATGAGTCTGCTA
CAAACGCACCTTTAATTTTTCCATCAATCTTAGGATATAATGAACTATGATTATTAC TAATTACAAACC
CACCATTATTATAAAAGATTTCTGTAAGGTTTCTTAAGCATATTGTTTTCTTAAGTG CTTTTGTTATTCG
AGTATGTGTTAACGAACTAATTTGATAAATTAGATCTAAGAATTTAGTTGCTTTTTC GATCATCATTAA
GAGAACTGTATCCTGAATGTTATATAGAATGAATTTATAGTAGTTTTTAATATATAC GTTAGTGATGTC
TCCGTCACCCTCTTCAAACTCATCCTTTTGCATCCCTACTTCTTTTTCACCTATGTC GTTCAATTTGTAAG
AGTCTAAGACTCCCATAGATAGCGATAGGTAAGTATTTGATATTATCTCCAACTTTT CCCCCGCTTCAC
ACCGTACGTGAGACTTTCACCTCATACGGCGTTCCATCACTCAGTTTATATTGTCAC CGATATATTAAT
GACAATAACTAGTCGTTAACTAAGTTTCTTAATTTAGTTAGTTGTGTTTTATTTACC CCGGTAGGAAAA
TCAGTACTATAGTGAATTAGATTATGTGAATAAACAGACAGTAATACAAGATTATCA AAACTATTTGA
CCCACCTTTTGATCTCGGCTTTTTATGATGTATAACTAAGTTATCTATTCCTATTTT ATATAATGGTATA
TTAGTGATAGGATCCTTCTTCTGTTTTTTAACCAGACCGGGAAGATACATTTTATAC CTTATATTGGGA
AAATTAGAACTATTTGTAAGCATATTAATAAATTTTAATATTAACTCATCGTTGTTC TTAGTTTTCATAA
TAGGCGTCCAATACTGTTTATTTATGAGATAATCTTTAGTATTTTTACTGGATTGTT TCCGCCACATCCA
TGTATTAAATATAATGTCTTTATACTTATAAATTTCAGTATCAGGTTTCTTATACAT TTGACTTTGTCGA
CTCCAACTATATAAAATTCCGTTAACTAAGTTAATATAAGCTTGCATATTAGTAACT AAATTAAAATTA
TATATAGTTCCCAATATAATAGACATTACCTTTTGATAATGACCTTTTCTCAGTTCA GACCTTAATAATT
TTTTCTGATTATACCAAAACTTACTAAGATTTTTAAATGAGATCATCACATGTCCAC TTGCAAATCGCA
TATACTTAAAACCTACAAAGTTAATTACAAAGTCCTGACCTTCTTTGATAATGATTT CACTAGTTTTATT CCAGTTTAAAGAAACTTGATGTTTTGTACACCAAGAATCTAAAACAGGTTTAAATCTTTC TACATCCCA
AGGATTCGGACTAATTATTATAAAATCATCAGCATAACGAATCATTCTTATCTGCAT TCGATTACCAAC
GGTTTTCAAATATTGATCTTTACCTTTTCGCCTATAATATGACATATTATAAAACTT ATTATAAGGATGT
GTTTTGTGAAATTCAGATCCATTAGAAATAGCCTCATTATACATGTTTAAGTCATTG ACTAAGATTTCT
AGATCATGTAATAAAACGTTAGCTAGTATAGGACCAAGTATAGAACCTTGAGCTAAA CCAATCCCTTG
ATACTTTGTGTCTTTAGTATCTATAGACATAAGAAACTTTATAGATCTTAGTAGTTG CGTATCTCTAATT
TTGTGATTATACCTTAATTTATCAAGTACTATATCTAAATTAATAGTATCAAAATAC TTAGATAAATCA
CAATCTAGTACTGATCCATTCTTTATTTCTTTAGTGTTATTTACTAAAGCTGACATG GCATGTTGAGTTG
AGAGATTACGTCTAAAACCATAAGAATCAGGATAAAATTGATATTCCAAAATAGGTT CTAAAATATTA
AGAATACATTGTTGTGCTATTCGATCTAATATATTAGTTATTCCAAGAGTTCTAAAC GAACCATCCTCT
TTTGGAATGTCAACAAGTCTTGAATATGGTTTTATATCACCTTTTATTCGTTTCAAT AATAGGCTTTTAA
TATCTTTGTAATCTTGTTTTAGTAAATCATCTAAAGTTTGACCATCTGGTCCCGGAG TATTTCTTCCATC
ATTAGACATTATCCGTTTAATAGCATATTGAATATTACTATCTTTAATAATATATCT AGATAAATGCGT
AAAAGATGGTTTACCATTTAAAACATCATTATACAATTTTATTTGGATTTTATTGAA ATCAAAATATAT
AGAATGTAAACTTTTTGTGTCTATATTAACACACCTTCTTACAAAATCAAGCTCTGA ATATAAATCAGG
CAATTATATATCATTGTTTTGAGTGACTTTGGGCTTTCCCATTAATGATACATTACA TATCATATTATCG
GTTTCTACCCAAACTTTCAGTCTGTATTCATTTAACTTCACCGTGACTAGCAGCTAA ACCGTTAAATTA
ATAATATAAAATTATCTACAGACCTTCCCACGTTCCCTACATCATAGAATATAGTAT ACTTAGGTTCTT
CCTCTAGGCTCTGTGTGATTATAGAAATAATCTGGTTCCCATTATATACCATCCATC TACGCAACAAAC
AATACGTATTTGGAACACAAGTTTACTAGCATTTCTACTAGCACATACCTGTACATT CAGAAGTTCGTC
AGTCTTAAAAGACATACTAACCATATATACCTCCACCCGACCCATTTGAGAGGATTG TTTACCCTTTCG
TCAACTTAATGTTACGCTCTAAGTTAGCCGTCTTCACCCAGCTTCACACATAAATAT CACTACTTATGC
ATGTGGGAGTATTAGTGTACATCTGATATAACTTTAGGGAGTTATATAGTGTATTTG ATGTAGAGTTAT
TCAATATTATTATAATACTGAACTTTAGACACGCCTATGTGTATCATAGACTTTCTC TAAAAACATGTC
GCACGCTTATTGATATTGGCATATAACGCCATTTGATCTAAATATGTTGTATATCCA GCTACTTCATAT
ATGGAAGACTTATCTGCAGGATTATTGTGTTTTTCATCCATTTTATGATATACATAT TTATATTTAAAAT
CATCAGGACACATTAATTCTTCAGGAATCGCATTATTCTTTAGAATTCGATTATATA TTGTGATAAAGT
CAAAATCAGCATTCCACGCACTAGCAAAGTCAGGTCGATGAACTTCATTGATATAAT GAAAGAAATCA
CTAATTAAATCAATTTCTTTATCATATTCATAAATATTAAACGTTAAGTCTAAATTA TATTCTTTATATT
TGTTTTTTAGTTCATCCAATAATTTAGTTTTATCCAACATTGCGTCTTTATAACCAT CATGATCATATTT
TAATGCAAAAGTTTCAACAGTAAGATTCCATTCATTTACAAGTGTAATAATATTAAT CGGAGCTTCTGC
TTTCTTTTGATCTGGAAATCCAATAATATTTTGAGTATCTACTTCGATATCGTAAAA AGATTTCTTTAGT
CCAAAAAGATTATTATCAGGAGCATGTTTTTCTAAATAACGATGAATATAATTATCT TCAATATTCTTA
TCAGAACCATGAATTCGATAATCTAAATGCATTTTTTTAAGATTTCTTCTATCACGA AAATCTTCAGAC
TTCATAATATTATCATAGAATATTTTTACGCTAGGATCTTTTAACTCTGTAGCAATA CTTTTAAATATAT
CTCTGTTATAACATCTTACTTGCCTTACTTTTTCTTTATCAATATAGTTTCTTACAA CATTATCTTGAAAT
TCCGGTTTAGTAATATAATAATCCATCATTGGTTTTTCAATAATATGATGTTTTTTT GTACCGTCCTCTT CTTTAGTGACCATAATAAGTTTATCAAAATTATCTACTGCACCAGAATTTCTTGCATCTT TCTGGTTTAA
ATATGTTGTCTTAATTAGTTGACCCAAAATATACACCACCATCTAAATTTATATAAT TCCTTGTTATTTT
TATTTTATAAAATTATATTCTAGTAAGATTAATGATATCAATAACTTTGTTATATCC ATCGAATTTAAAT
AAATCTTTTCTACTTATAATAATATCTTTATCTAGATTTTTAGCATATTTAAGAAAG AATCTCATATCCA
TATCATGATAAGTACTAATCATTTCCCATTTTTTAGAATAATTTTTAGGATTATTCT TCATATGCCTATC
AATAAATTTAGTGGATAATTTTTTTCTTTTAAACATGTTTAAATTAAAATTATTACT TTTTCTACCGTTT
ATTATTGATAACAGTTTTTCTTCACTAATATTATTATTTTCCGCCATTACTTCTTTT TTGTCTAACGGTAC
ATTTTTGAAATCTAATTTATCTTTATTATAAGCCAATAATTTACTATTTTTACTA ATAAGATCAATATAT
TCATCATCCATGAAAACTGATGCGTTTGTTATAAAGTTTACAGTATCGTTAAATACA TATATTTTTTCTT
TATTAGATGTATCACTACTACTATTATATTTACATATAGTATTTATTAGATACTTAA TAGATTTAATACT
ATTAAGAGTATCATATTCCGCAATACGGAACATATATTTAAATACATAGGAAATATA ACCAATACTAA
GATAATCAATATTTAACATTAACGTATCTATGAAACTGCATAAGACTTTATTAATAT TCATATTATTTTT
CATATGACTTGACTTGATCATTAGATTAAGATGAATAATAGGTTCCACATCTTCGCT TTTATATGATTT
ATAATATTCAAAAATTTGCGGTATAATATAATCGCATAAAAATTCTTCATCTATATT CGAATTAGATAA
AATAAAATTTATATTATCGTATGAATATTCCATATAGTCACGAAATAATATTCTAAT TATAGAACTATT
AAATTCCATAACTGACCGCACTGAAAGATAAGAATTTTTACTATTTACTATCTTATC AATATTCTTTAT
AAATATATGATTAGGTATTTTCATTTCATAATAATCTATATTATCAAAATTTTTTAT AATAAAGTCAATC
ATCTTATCAGATATTCGGTGTCCGTAAAATGATACTAAATCTTTGATAAATTCTTCG CTGTATTCATAC
ATATATTTATCTAATTCTTCGTTCGGTATACTTATATAATTATCTGTAAATCTTAAT AGTTTATCACCCA
AATTCCCATTACTAGGATCAATTTCTATTGTAAGTTTCTTCAATATACTTACCAACC TTTCTATAATTAT
ACTAGCTTTAGATCAATTACGCTTTTTTCAAATTCATTTAAATGTTTAGACCAATTG AATGATACTTCTT
TATACCTATTAATTTCATCAATAGTCATTAAGTTTATTGTATTAAAATCCAGCGATA TCAATGAAAATA
CTTTATTCTTTAATGAACCGATAACATTTGTATTTATAAGTATATTATAAATTTCAT AATATTTTTTAGA
TATATCTTTATTCATTTGTAATGAATTTTCACTAATAAAATTTCCACTATCTGATAT CACATAATCAATA
AATACTGTATCATTTATTATATTAAATATACTAACCGGATCAGATATGTCACGCATT ATATTAGTCAAT
ATAGATTCAATATGTGAATTATCATTATTACCTTTATTATACTGATATAATAAAGGT AATATTTCTAAA
ACAAATATAGTTCTCTTAGACTTCCATAATGGAGGCTTATTTAAGTATAATGATACT TGGAATTTATCA
TCGATATCATAATAATTCTTTTTTAGTAAATCTATAAATGATATAATGAATTCATCA TTATCAATAATCT
TTAGTGATTTAATTATATTATCATATAAGTTTAATTTTTTAATTATCTTCATGCTTA ATTCAATATTTTTA
ATTCTAAGTATGTTCATTATAATATTGTCTGAATTTGATTTAAATATACATAGACTT AGAATTTTTATAT
AATGGAATATATACATATAATATCACGCTTCCTAATCATTCTTGCTTTTCATTATCG ATTACTAAACTAT
GATTTTCTAAAGAACTTAGCCATGGATCATAGATATTATTGAATCTTTCTTTATCGC TAATATCTTTAGT
AAATATATTTAAGAATGATTTTTGATATTTCTTATCATTATCAAACCATGAAGATAT AAACTCTTTTCC
ACTTTCTTTACTTAATTCAGTTAATGTAGTATATACTTGGATTGCAAAGAAAGAACT TAATCCTACTGC
ATCAACATCTAAATCATTATGTGAATCGTTATCAATAATAATATAGCGATTATCATC AACAGGAGTAT
ACTTATTCAGTGCAATCTTTTGAAACTCAATTTTAATATTACCATTAAAACTATATT CACCATCAATAT
AATTGTTAATAATATAAAAACTATTTGTAATAAGTTCCTCAATACATTTATCAGCTT CAGCAATAATTA ATTCATTACTATATTTTTGTAAATCTTCATAGTTTTGAATTCCTAAGGATTTAAGTCTTA CAGCAATAAA
TCCTTCAGTAATTCCAGATAAAGAGATTAAAAATTTTGCAGGATTCAATGAATATAC TAATTTATTAGT
ATTATTCTCAGTAATAATTTCAATACTATATGGAATTTCCATATATCGTTCAGAATT TTCAGTATATGTG
TTACTGTCTTCATCAGTAACCACCCATTTTTTTCTAGTTCTTCTATTAATTCTAGAA ATTTTATTTTTCAT
TTCACCTACATTATTGCTGTTATTTAAGCTGATATTTACTAAGATAGTTTTTTCATT ATCGTGAGAATTA
ATAATTCTAAAGTCATAATTATTTTTTCGAAGATCACTTGTAACTTTCGGTAATTCA TTATTTTTAACAT
CTAATTTTACGCTAAACATTTTTATCATCCATTCTATTTTTATTTTAACAATAATTC GACTACTAATATT
AATATTAGTAGTCGATATAATTTATTTTTCTGCATTAAAAATAATAGTTTTATTTTC CATAAATACAGTA
TCTTCAATATCAATGCTTGGATTCTTCGTTAAAATTAAATCCACGTCAGAAGTATGG AATTCATCATTA
TGGCTAATCACAAATATTTGTTCCATATTTAAATAATCTGTTTGTAGATCCAATACT TCCATAAACTTA
CGTCTATTATTTGTATCTAATGTAGCATCAACTTCGTCTAAATATATAATGTTATAC CCTGAAGATACG
GTTTCAATCATTGACAATGATAATGATAAACTAGTGATTGCAGTTTCACCTTGAGAA CTTAACTTAATA
TCTGAAAGATCAGTTCCGTTATCTTTAAAGACCCTTATAAAGAAATCTTTTTCAGTG ATATCAAAACGT
ATACTAAATGATTCACCGTAAGCAACTTTTAATAAGTTATTTGTATCAGACGCAATC TTTTTAAGATAA
TTATCAATAAATATTAATGGAATACCTTTCTTAGGATCTAATGATTCTTTAATAGTT TTAAAGTCATCAT
ATACTTTTTCAATACTAGATAGTTTATCGGTAATATTTGTTGCAATATTAAGTCTTT TTTCATTATCTTCT
AATTTATTCTTAACTTCAGATAATGCGTTATTATTAATATTGATAGACGTTTCAGTA TTATTTAATAGAT
CATTATTATTTTCTAATGTTTTTAGTCTGGATGTAATATCATTATAAACTGAATCGT ATACTTCTTTTTT
ATTAAGAATACTTTCATAGTTTGATCTCAGATCTTTAAGAATATTCAGTATATCCAA TCGTTTAGATAC
TGTTTTAATATTCTTATCATATTGATCTATTGATTCATTATTATCTTTAATACTTGA AGATAATTTTTCTT
CTTCCAAAGTACTAGATTTCAATAGTTCTTCATACTCATTATATGATTCACGCATGA TATTGTAATTTTC
AATAGACCCTTTAATATTATCAATAAGATTGGATACTTTGTCTCGGTTGTTGATATT ATTAATTAGATC
AATATATAAATTAGGTAGTTTTACAAGACTATTTTCAATATGATCACGGTTTGGTAA AAATAAGTCATC
CTCATTTAAATTAATAATGCTTGCAATATTACGAATATTATTAAATTTAGGTAGAAC TTCTTGACGATA
TTTATCAAAATATTTAATAATATTTGACAAATTACTGATATTATTATTAGTTTCTAT TCGATCTTTTTCT
AAATTACTTAAGGTATTTTCTAATTCATCCAACTTAGGATATTCATTCTCTTTATAT TCTAAAGCAATTT
GAATAAAAGGACAACTATCAATATTACATGCTTCAGGTCTTCTATCTAGTGTTGTTA GTAAATTAGATC
TACTATTAATATCACTAATATTTTTATTGACTTCCAGAATTTGAGATTCGATATCAT TCATTTTGGAATC
ATTAGATTTAAACATACTTAGATAATATTCGTAGTTGTCAAAAGTAATATTATCGTC TTCAAAGTAAGT
ACTTTCATCCATACTCATAAGATTTCTTAGAGAGTCCAGAAGATTACCAGTTTGATG AATACTATTATA
CATATTATTGTCATTCATAATAGATTCAACATTTTCCATACTAGTTTCATTCAATAA AGAATTTATATTC
TTATTAACTTCAGTCAGATATTCTTCATTTTTTTCTAATTCGTCATAATACTTTTCA GGATTAAATTCTTT
AAACGAAGATATTTTATTACGGTAAAGACTAATATTTTCCCTAATTTTCTTTAATCG GTCTTCAGAATC
AGTATTTTTTTCCTTTAATGAATTTCTCGATGTTTCTTCTTTGATTAATTTTTCTGT AAATTGTTGATGTT
TATTATAAATATCATCACTTGTATATTTTTCTAATGCTGGAAATTGAGAATATATAT TCTGTAATCCTTG
GTAAGATTCATCAAGACTCGTATTAATTGTATTAATAGTATTATTAAATTGGTCAAT CGATTTATTAAT
ATCTATTTCATCAATAGGTAGATTTAGTTCATTTAATTTTTCTTTAATAAAAGAACT ATCCATATCAATA TTATATTTAGTAATTGTTCTTTGTTCGTTTAAACGTTCTTTTTCAGATTCTAATGATTTA ATATTATTGGT
TAATTCTTCTTTATTTTCTTTTATAGTATTAATATCATCATACTTAGAAAGATCAGA ATTTAATGTCTTA
AGATTTTTATCTAAAAAAGATAATTTATCTTTAATAACATTAAATCTTTCTAAATAA TCATCCATAGAA
GGTATAAACTTATATAAATAATCCTTACGTTCGGCAGTTTTATAATCAATAAAGTTA TTCATATTATTA
CCTAATCTAGCAACTGTCATATAATCTTTAGTAATTCCAAGCTCAGTACTTACAATT TCTTCAAAACCA
CGAATTCCACCATTTTCATTTAATTCCGTACCATTCTTAGAAATAAATGACTTATTA TGAGAAGAATTA
TCACCATAATAATGTTTAATAATATACTTATCATTATAATTAATATAATGAATTTCT TTATATCCTTTAG
TATCTGGAATAATAATGTTATTTCTAGAGTCATTTGTACCACGGTAAGGATTCAATG CGGAAAGAATA
ACTGTTTTACCAGAACCATTAGAACCAATTAACATAATTATTTTATTTTTAGAATGG GAGAAATCAATT
TCAATTGACTCTTTTCCCATTCCAGCATATATTCCGATAAAGTTTACTAATTTTAAA TATGTTATTTTCA
AGATATCACATCTTTCTAATTATTTAATCTTTTCTAGACAAACTAAAACTAAATTTA ATCTTATTACTAG
CGGCATTATAAATAAAGTTTGTAATTACATCGTTAGGAGATTCATTATTCTTTTTAC ATGACTTAACAA
AATCTTCATAAATATCATATCTACAATTTAGTAATAGCGTTTCAGGAATGAAATCAA TGATTTCCATAT
TCTGAATATTCATTTCTTCAGTAATACCATTATTATCAATATAATTTAGTATAAATA ATTCAATAAGATT
ATAATCAGAGTTATTTAAGATTCCTGAATAAATTAGATCTTTTTCACGATTAGTATA ATTATCAATATA
CTTCTTAGGAATAATAACCCTAATATTTTTTCTAGGTTTATCAAAAATAACTAAATT GATCTTTGTATTA
TCATGACCAAAAAGATTATTAGATTTTTCATAATCTACAACTTCTGTAAATTGCTGA TATGACTTACAA
TGATAACAGTTAATTGTTTTGATATGATCAACCGCTTTATTGATCGATACTTTTCTT TGAATCATTACTT
TATTACCACAATTGTTACATATTAGAGTACATGGTTTTGTATTATATAATGAATTTG CGTTATTTTTTGT
CATGAGAAATCACCCATTCATCCATAACACTAATATAATCTTTATTCTTAATATCTA GAAATTCATTAT
ATAATTTATCAAAATCTGGATAAAATTCTTCTTTTTTACTTTTAACACGATTAATAA CATCATTATAATT
TGGTGAAAATAATAGATCTCGAATATCCCTAAGACTATGATACGGCAAATTTTCTTT CTTTACGCTATT
ATACATTACTTGTGCCATGTTCATACTTCTTTCATGATTATAATCAATTTTTCGAAT AATTCCAAATTTT
CTAGTCTTCAAATCAAAGCAAACCATATTTCGAATATGATTATTGTACTTAGTACTA TATAACATATCT
TCTTTAACTTGTTCTGAAATAAAATCATTAGTTGTTAGTTTAATAGGTGCTTCTAAA TCTTTTCTATCCA
CTACAATTTTATTTTTTTCAGATTGATAATAATTATATACGCCATAAGAATCATTTT TACCATAATTCGA
GATAGTTCTAATATTAAAAACCGCTCTTAATAATAAATTATCAGTACTGCTAAATTC ATATGATAACTG
TAAATTGAAATCTCTTGCATTTTTTTCCACATCTGAAGCAAACTTTAAAAATTTTAG AGCTTCACCACT
AATATATGATGTAGTAGTTTTATCTCTAGCTTCATTATATCTATTTAAGTTTGCATT AATTGTGGATCTA
ATTATCTTTGATAATGTACCATTTACATCATTTACATTAAAATTTTTCATGAAAATC TCTCCATTCTATT
TTTTATAAATATTCATAATTGAGAATAATTCTTTTATTTCTTAAATCACTAATACGA TCAATATTGATTC
CTAATCGGTTACAGTGTTCTAAGCTTGAAAGAATTCTAATATCTTTATTGATTGATT CGATATCTTTTAT
TGTAGTATTTTCTTTTCTGGAAGCATATAATAAAATTGATTCAGGGTCATTTGAAAA GATATTTTGATT
GATCCATCTATTATATCGATTATTAATAATATTGGACGTTGTATTCACAGTAGTAAT AGATTCTTTGGA
ATCAATATTTCTTACAATACCTACTCTTTTTTGCGGAGAATTATAAGTAAAAACAAT ATCGTTACTAAT
ACTTTCTGGAGAAACTATTCTGCTATTATTAACAGTAAATTTACTATTAGTTCTACG TGTTAATAATTTA
TAACTATTCCGTTTATTTACGTTAGAATCTAAATCATCACTAATCTGAAATGATACA TATGAAATTAAT CCACCAATATTATTAAACGCAGGAATTAATAAGAGATCACTATATTCAGATGAAATCTTT CTTACGTTA
TTATCAATACGTCTTTTAATTGTTTCTAATGCTGAAATCGTTTCCCCTTTAGCGTAT AATTTATAATACT
GCTTAATAAGAATGTTAATAAATTTGATTGTTTCTTTAATTTCAGTTGTAGGAATTA ATAAATTATGAT
AATTATTATTCCTATAAGTTTTTCTTTCTTTAATACTAGTTGACATTAAAAATCATC CTTTCAAAATTAT
TATTATAATGACTATGTAATATTGACATAAATTAATTCTCATGTCATTACATAGTCA TTATAATAATAT
ATAAATATAGTTAAAGTTGAAAGGTAATTTTTTATTCTTCTATTTCTACATAACTGA ATTCTGAATTATC
AGAGAATATTACGCCTACTTCATTATCGTCTTCATCATAAAGAGATTCAATTATTCG GTTATTAGCTAA
ATATGAATCAATTACTTCATTATTCATTTCATTAGAAGAGTATACTGTTTGATCTTC ATCTAAGAATATT
GGTTCTGAAGTATTAATATCTACGCACATTACATATCCAATACTTTCTAAATAGTCC GCAAAGTTCTCG
GAATCATCTTCAACAATTACCACAGATTCAGTCTTTTTCCCTTTTTCGTTAACCGAT TTTTTAGCATCAT
TATTCTTAATAGCATTTAGTCTTTCTTCAATGAGTTTATCATAATCTTGTTCTTCAA CTTCATTTTCATTA
TCTTCGTTATTATCATTTTCTAAGTTTTCATCTACAACTTTTTGAAGGTCTTTTCGG TTTGTATTTAATAA
TTCATTTACAATTCCTTTAATAATTAAACTTTGATCCCCATTAATATCGCTGTCTTT ATTATTAATATTG
TATTCTTTAATCTTAATATCTGCCATTTTAACTTTAAGATCCGACATTGCTTTAATT AATTGCATCTTCA
TTGTCTTAAGACTAATCAGGTTAGATGTCTGGTCCGTAACAAACCTTGGGTCTGTCT TCATTCTAGAAT
TTTGTGCCTTACTTCCCCTATCAAAATAACCTTCAGAATAAGTATATAATTCATCAA TAGATGATAATT
CTTTTTTAAGCATATTATATTCATCAATAAGTTCTGGATCTATTGAAAATTTAGG TTTATTTTGTTCTTC
CATATATTTAATTTCACCTACCTATTTTGTAAGAGTATATAGTGATAATACTGCTTC ATTACCAACTTTA
CGTATCGATTCACCTTGTTGGGATAATATATTTGTTTTTGCATTAATCAATTGATCT GCTTCTTTATTTG
CTTCAGCACTGAATACCCCACGAATTGAAAGCGTATCCCCATCATAATCAGCACCTA GAGCAGCAGTT
AATGAGTTATTAATAACTAATGAATCAGTAAAATAATTTTCTGCTACTGGATAGTCT GGAAAAATGAT
TGGATAGTTTTCCAGATATCTATCTTCAATTTTTCGATATTCAGTATCATTAGTGCT TAGCACAACAATC
TTTGAAGGGAAGATGCTTTGATAATTATCTACTGGATATCGAGTACAATACACATGT TTATCAGAAGT
AATATCAATAGCTGCAATATACAATAAATCTGTTATTGTAAAGTTTCTATCAAGATC AGTATGAAATAC
TTCTACTGGATATTCATTACCTTTGTCGTCTTTAACCGTAATTGCTTTAAATCTAGC AGGTATATTCTTA
ATAAAGTTACTTACTAACTTATTAATATCTTTATCGGTAAATTGATTTTTTACATTA TCAATAAAGACAT
CTTCACCTTTTTTATTCTTTACATTTGAAAATTCTTCAATATGGATATCAATAAAGT CATTAATATATTT
TACAAAGAATGGAAAGAATAATGCACATACCTGACTTAATGGAATGCCTACGGTCCC AAATTTTATTT
CTGTATCGTCCCATCTATTTGTGTTTGATCTAGGAGCAGAGATTACTGATCTAGTTG CATAATCAATGG
ATTTTCCTAATAGACCCCTATGCACTAAGCCGTTCTTACCAGAAATATAGTCGATAA ATGTTTTATATA
CGTCATATATAATTGTCTGCATTTGAGATTCGGTATTTGTTCGGACAAAGCTAAACG ATGATTCACCAT
CTAGACTAGAACCAAAACGAATTAGTTTAGCGTATAGATCATTAATCTCATCTACGT CTGCTATTCTTC
CGGCTTTTGATGTGTTTGGATTGAAGTCTCTTAAGAATGGGGGAATAACGATAAATT TATTTATAAATA
ATGTATCTTTATCAAATTTTTCAATAATATTTAGTTTACTATCACGTTGTAAACTTT CTGTTTTTTTGAAT
GATAATTTTTCAAAATTATTGTATAAGAAACTTACACCGGTTTCTCCGTTTACATCA TCCTCAACTAGTT
GACCATCTTTAATGGTAAAATATTTTAAACCACTAATACATTCTTCAATTCTTTTAT CTAAAGATATGA
TTAATTTATATACTACTGGGTGAAATATTCTGGTATTTAAATCAATATATGCAAACT GATTTGATCTCG ATTTAGACCCGATTTCTCCAAATATTTCATAACTAAACAATCCATCTTCAGTAGGATAAT TCGATTGAT
TAAAAAATATTGGGTTTGTTATTTTTGGTAAGTTATTTTGTTTTACTACATTATCGA TATCTAACAAATT
TATTTTCAAAGATAAACAACCACCTTTCTTTTTTAGGTATCACATTTTAAGATATAA TAAATATTTGTTT
AATAATAGTATAAGTATTTAATTAAATGCAAGGATCTTAGAAAAAAAAAAATAAGAG AATAATATGT
CATTATATTATTCTCTTATATACTGATTTGTCTAGTGAATCAATATTCTTTAATGAT ATTATTATTTATA
AGATAACTTACAATAATATCGATATCAATGGCAAAATTTTCTTTATCATAAATATCT TTATTTAAAGAT
GTATATTCAATACATTTACTGATGATATCATCTTTACTGTATAATGATTTATCCTTA TTCATTACAATCC
AGATGATATCTACATTATTTGAAGTATTTTCAAAATTTCCATTATTATTCAAATCAA TTAACATTTTAAG
AATAATAACAATGTATTTAATAAATTCATTTACAATGTGACCATTAGTAATAATATC ATTATTATAATA
ATGTTGTTCGTATATTTCATAACTTTCATTAGATTCAATTTCATTAATAACAATCTT TCTAGGGTTTAGT
ACTTCTAGTGAAAATACATCCAATAAAAATTCTAGTCTTTTATTTAATACATGCCGA TTAATTCTTGAA
TTCTGTTGTTGATGATTCTGAAGATCAATATTATAATATTGTTTTATCAAGTTATAA ATAATATCTACAG
AGGTAGTATGAATTTTATTTCTTGAAAATTTTTCATTTTTTCGATATTTATATAGGT AACTTAAAACTTT
TGCATAACTGTCATCAACACCAGTCTTATTTTTACATACAATATCTTTTAATTCAGA TGAGCTAATTGTT
AACGATAACATATAATATACCCCTTTTCTTTATAGTTTTATTTTAATCAATACAAAA CACTTAGACATA
TCTAAATGGATATCATGAATATTATACTCAGATAAGGATTTTACAATATGATCTACA ATAATGTGCATT
TCATTATCACTTAAGTATTTTTTATTATTTTTTCTAGATAATAGATTAATCTTTAAT GTAAATAAATTTTT
ATAGAAATATTTTGAAGATTTAAATAATTCTGTATTAATTGATTCTTCTAAATATTG CACATAACTATT
ATTTAATAATTTTTTAGTATTAACTGTCATATATATTTGATCTTTATTAAAATTAAT TTTATTTTTAAAAT
CTTTAAGTTTCATAATCATAGAATAATAAATCCATCCATTCGTATTTTTATTTAATG AATAAAATACTC
AACTAACATAAGAGTTAGTTGAGTATATATCCTAGTTATTTAGTAAATATGCAGCTT GTAAAGTATCTT
TATCAAGACCATAATCCCTATTAAAGTCTCCATTATTAACACTAATTATTAAATTAG AAGGTTTTATCT
TTTCAAATTCTTTAACTTGTTCTTTTGAAAATAATGCAATAATATTTAATACGTCAC CATCATAGTCTCC
ACCTAATCCGGCAAGAACATTATTACATAGGCTTAGTGTTTTATCCGAAATATCCTT TTTAACTTTGGC
AATATTCATTAATAAGATACTTGAAGTGGATATTGAAGGATTTCGATTTAGTATAAT ATATAAACCACC
TTCAGTTTTATTAATCAATTCTTCCATATAACGATACATTTTTTTATTAAATGTATT TTTAGTATCTATAT
GGAATTTTTCAGCTTCCACTAAAGAAATATTCTCTGAAGTTGAAATAAGATTAATTA ATGGACCCTTAT
ATAATTCGTGAAAAGTAATATAATTCATATATACTTCATCCATTTTACATAATGGGT CTGGAGATATAA
CGTTTCTTGCAGAGTAGTTAATTCGAGTACCTAAAATCTGTTTACGAATTGTTCCTC TTTTACCTTTAAT
ATTATTTTTAATAATACTATCTACAATTTTTAACACGTCAATCTGTACTCGATACTG TAATTTTAACTTC
TGAATTTTAATATCTTCATAGATTTCTTCATCACTATTGACAATATCTTTTAACATA TTTGTATGATTGA
TTAAGAAATTGTAGTCATTATTTATTTCAGAAAGCCGAAATAGATTTTCTGAAGCAA TTAACTGAGCCG
GTCTCAATTTAGGACTAAATATTGGTAAGCAGTCAATAAACAATAATCCTTCAAAAT ACCAACGGATA
ATACGTTTATATTCTAATGAATTTTTCTGTTTTGGATCAACATACTTTTGGAGTAAT TCAATAAATCTTT
CTTTAAATTCATCCAAACCGATATTCCGATCCTCAAATTCTTCATGCTCACTACCTT CTTCATCTTCTAA
ATCAACAATATTTCCATTTGCATCAATACGCTTATTATACATAATCATATCAATAAA TTTAGTACCATC
AAATAATTTGATTAATCGATCAAACATAATAGGATTAACTACATAGTTATTCTTAAA ATCTACATAACC GAAGTTATCAATATTATCCCTTTCAACTTCAGGACCATAGATTTCTTCAGAAAATATTCC ATCAATAGA
ATATTTCTTTTCTTTTTTTGTTACTGGTTCATGGTTAGTAATAATTTTATCTTGTTC AATTAATTCCCTAA
AATCGATAATCCGTACTCTAGTCAAAAGTAATCAAGCATCCTTTCTAACACCTTTTA GGCTTTTATCAT
ATTCACGATTAATCATTACATCCACATATGAATAATTCTTAGCTTCCGCTTCAGATA TCTCTTCTTCTGA
GAATCCTGAGTTGTAGATTGTTCTTTCTTCAACAATATTATCAATAATATCCTTTTT CTTTTTATTAAAT
TTTGTAATAATCTTCTGATAGAAGGAGGTTTTACTGATAAATGCAGAGATCACTGTA AAAACAATTATT
GTAATCATAATACATTCAAAAATAATAGTAAACATTTCCATCACCATTCTTTATTTA TTTTTTTATTAAT
CATCATAATCAGTTAAGAAACCTTCAATATCAGGTTTCTTTTCAAAGAAGAATGTTC CTGAATTATTTG
GATCATATTTCTTACAGAAAGGTACTACGGTAAAAGAACTTCCAGGGTCTCCTGAAC TAGTACTTACT
AAATCGATCTTTCCAACAAAGCTTGGATAAATACCCCTAGCGCTTACTGATAATCCA TTAGCTGTTGCA
GATTGTGGACCCTTTACAGAACCTTTTAGATAACGAGTAAATAGATCCATAGAATTA ACATTATTTGA
GAATCTTACTAATTCGCTGTTAGGAATATTATTTACTAAGTAATCTTCTTTAATATT GCTAAATAGTGTT
TTTAATTTACTTACATTATTATTTTTTGGTCCAACTAAGCGATATCCGCCTTTGGAT AATTTTTGAGTTA
GATCATAAAATAGATATTCATTAACCCTTAAACGTTTATTGGATAAAGAGTGATTAT CTACTTTTAAAA
TATTGTAATAGTTTGTAATCATATTTCTAACAATCGCATAAATATCTTCTTTATCTT CTGAACGTAATCT
TAAATTGGATCGAGTTGTATTATCTAGTAAACGTTCAAAGGAGGATAAGATAGATAT AGCTTTATCAA
AAGTCATTGAATTATTATTTGTAAATACCGAACCTAGTTTTCTCTTCCAATAATCAG AATCAAAAGATT
TTTCATAATCAATTCGATTATATTTAAATAGATCTACTAAGGTTGCAATTAATGTTG CATTAGATTTTTG
ATCGCTTTCAATCCATTCTCGATTAACTTTTAATGCAATACTTTTTGTCAACTGGAA GAAGTAATATTCT
GGACTAGTAATATCATGATCTTCAGTTTTAACGATTTCTACATAATTATGAATATTA AAGTATCTTAGA
GTTTCAACTACACCTTTTCCTGCAAAATAGTAGTTCATTACATTTACAGTTTTCTTA AATAATAGTGTCA
TTAACGCTCTAGTTTTTAATGGTTCACCATTATTAAAACGTTCATCAATATCAGATA GTACAACCTTTTT
ACCCTTAATCTTGATTGGCATAAACATTGTTTTCAATACAATAATTCCATCATTAGT ACGATAATACTC
GGAGTCATTCATTTGGAATACTGGGAAAAATTCATTTCCGTTAATTAAGAAGTATTG TTGATCTAATAA
TTCAGGGAATAATAGTTTAATTTCTTTTTGGATTGTTTCTTTTCCATCAGAAAGTTC CATTGTAACTTTA
ATTCTAATAAATCTAGATTCCTCGATATTAACGGTTGGATGGTTAATCTTTCTAGCT TTACCTTTTTTAT
TTTCTTTCTTTTCTTCAGTAACTTGTTTTCTTTCCTTATAGATTTTCCGATCTGTAT CAATTTCACATTTA
ACAAAACGAATACCTTCTACAAATTCAAGTCCTTTAAAAACATCTTCAACTAATTTT GGTAAGTTTTCT
TTAGATCTAAAGAAGATCACTTCCTCATTAAATGGAGCTTTTTCTTCCATTTTATTT TGAAGATCATTAA
AGAGTTTTCTTGACAAGTTTGGCACAAACAAACAACTCCAATCAAAATTTATTTTAT AAATTTTTATAT
CGTATAAAAACAATTAACTATTATTAGATAAAAATTTGTTTTTATATAAAAATAAAA ATTTAAGGATGT
GTATATACTATGTTGAGAAACGGTGAAGAATTTTTTAATGAATGGTCTGAAAGATCA GGAATACCTAA
ATATGAATTAAAACGTCAATGGAATATTATGGTAGAAATGGTTATGGATAGCATCAT GGAAGAAGATT
TTACCAAAACAGTATTACCAAGCATAGGCGCTTTTGAAACTATTGTTAAACCTCCAT ATATTGCTAGAG
ATCCTAGAAATGAAAAAGTTGTTATTGCACAAGTTAGGAAGCGAATTAATTTTAGAA TATATCGCAGA
TTTAAAAAAATAGTAACAGGATTGTTATAATTTTCGTAATACAGATATTTATTTCTG TATTACGAAAAT
CTTTTTAATTGTTATTTCTTTTAATAATCTGTTTTTCAATATAAATTCTATCTTC TTGAGATAGTCCATTA TATATTTCTTCTAAAGATTCAATATCTTCATTATCATTAATTAATACATCAATATACCTA TCTAAGATTT
CTTTAGGTACATTAGTTTTTAAATTATTGATATTATATGATAAATTGATCTTAGAAT TAGTAAATTTATT
ATCAACAATCTTTACACTTAACTGATTTCCATCATTACTAATATTGATGCTTGAATT AGTACTTTCACTT
GTAATATTAAGTTCAATACTTTTTAATATTTTGTTAATTATATTTAAATCCAAGTTA AAACATCCTTTCT
ATTCTTATATATTGTACATTTATATAATATATAAGAATAATATTAGTTGATGAATCG AGATTTAGCTTC
TTCGATAGTCATAATTTCTTTTTGCATTTCCTTAGCTTTAACAATTTTTGAAGAAGT GGATTCTTTATCT
TTACAAACTACAATATCAGTTTTTGAAGATACGCTACCTGTAACTTTATGACCGAGT AATTCTAATTTC
TGTTTAAATTCATTATCCCGAATTCCTGTAAAAACAATAACTTTAGATTCTTCAGAA GCATTATTAGAT
AATTCTTGTTTAATAGATTTTAGTTTAAATTCATTAATCAAGAATATCAATTCTTCT TCATTATTCGAGA
TACCGTTTAGTAATTTTTCTGCCTTAATATCTGAAAATCCTTCAATATTAATAATAT CTTCTTTCTTAGG
TAAAGATCCATTTACAAAGAATTCGTTAATTACTTCTTCCAAGATATATTCCTTACA GAATAGTTTAGA
GTTTTCAATACCTAATCCTTCAATACCTAATGAACCAAGAATTTGATAATCATATAG ATCACGTTTGTT
ATTAATTGCATTCTTGATATTATCTAGTGATTTTCTACCTAACCCTTCAATAAAGTT ATCATCAATACTA
TCATAATCTATACTATATAAGTCTGTGATTGAAGTCCATAATTTATTTTCATATAAT TTACTAATAGTAG
ATTTGTCAATACCTTTAATGGCTAGTTTATCAAGATAGTTAGATATCTTTCCAATAA CGTTTCCAGAAC
ATTCTGGATTATTACAGTATGCAAAGGTTTGATTATCATTAATAACTACACTTTCTT GCTGACATACGG
GACAATATTTGGTAAATTTGTCAGGAATAATATCTTTGTTATGATCACTATCTACTT TATCAATATATGT
TAGTGTATCATTCCTATATTGTACTAAAATTTCTGAACCAATACCTAAACCTAATTC TTCCGCTCTTGCA
AAATTATGGAGACTTTGTTTTGTATGCGTACTTCCATTTGAAAATGTAACTGGTTCA AAATGTACTAAT
TTAGTAATTCGTGAAAAATCACCTAATTGATAGCTAAAATCAGTAATAACACTTTTT TTCTGTTCATAG
GGTAGTTTAACTGCAATCGAATAATGTGGAGTACCTTTAGGAGTCATTCCTAGTTTT TCACGATAATCG
TCATCTAAAATTTCAACGACAATACCATCAATCATAAATCCATAGTTATATCGATTA TTAATAACTTCA
TTATAGAAATCATTAAATTCTTCAATGACTTTTTCTACTGAATTACTTTCACTAGTA ATACTGAATTCTG
AACCGATTAAACTATTTGATCCTAAGATATTAAAACTATTATCTCGTTTAGATAATG TAATTTCGAATG
GATAATTATCTTCATCGAGGAATTTAATATCTAGAGGGACAAGAGTTAAGAATTTAG AGAATTTATGA
GCATCGTCCCTACCTAATATTCCAGAGGTTGCGGATCGTGGATTAACATAATTATTC TTTGTATAATCA
TTTAACTTTTCTAAATTATCATACGTAATAATAACTTCATTTCTAATTGCGAAAGGT AGTTTGATATCAT
ATTCTTGTAAAGGATCTTTAGCGATGCTCTTAAATACATTAGTGAGATCTAACCCGA TACCGTCTTTTC
CACGAGTATACGCCTTATCAAACTTTCCATCTTTAAAAGTAGTAACTACTGAATTCC CATCAAACTTTA
ATGTAAATAGGAATGTCGGGAACTTAGAAAAAGGTTTAAGCTTATTAATCATTCCTT GAATTACTTTTG
GAAAATCATTAATATCTTTACATTTAAATAATGTTCCTGTCAGATTTTTATATTCAT GCTTCATATTAAG
AATACCTTTATCCGTTTTCGGTAATGATCCTACAATTTCTTCACCAGTTAATTGTAA GTATTGTTGATAT
AATTGGTCATATTCAAGATCAGACATAATTACTGTATCTGTATTATAATACATGCTT GATGCATTTTCT
AAATATTCTTTTACTAAATTATATTTATCATGTTCTTTACTGTCTAAAATTCTTTTT GATTCTGTATAATC
CACATTTTTCAATATCCACACTTCTTTCTATATTATTATTTAATATTAATCTTTTTT CCATTAATGGTAAT
ATAGTTATATTCACTGTTATAAGATACATTTATAATGTCCATATCAGCATCATATAC TTCATCTATTTCT
TTTTCATTAACATATATTTTTCCATTGTCTAATTTTATTTCATATAATCCATCACTT ATAACTATAACATT ATCTATCTTTTTATTATAAGTTTTAGATTTCTTACCATCAATATATATTTCACCATCTTT TAATAACACA
TTTAAACCATTATTATATATATTGGCATTTCTATTTTGAGGAAGAGTTTTATGTTGA TGAAAAATATTAT
TATATACTTTTTTAATTTTATTTATCACATCATCACAACCTTATTTAATCTTAAGAT ATATCCTATCACA
CTATAAAAATGTGATAGGATACTTTTTATTTATTTTTATACTTATTAATATCAAACG AGTCTTTATTATT
GGTATATTCATTAAGCATGGATTCAATATCTTCATCACTTAATTTTTCGATATTATC AAAATCATTTTTA
TAATCTGGATCAGTATTAATTTCAACACCTATAGATTTAAAATATGAATTGATAATT TTATTATTATTA
CTAATAGTGTCTGATTTCTTAGGTAATTTAATGTCAAAAGGATTTCCGAGAAGTTGA GCTTTTACTAAA
TTACTTCTATCTTCAGTATTATTTGAATAAGCATCAGTTAATCTTTCAATAGGTTCT AAAGATCCTACTA
ATCCTGAATTGGTATATTCCATTTCCAATTACCTTCACATAGATTCGCAATTTCTAT GCAGTTCTCTTAT
GAACTTCTCTAAGTTTCCTTAGAAGTTGAGACTATATCTTTATCTTATTTAAAATTT CTTTTTGTTTTAA
GATACTTCCCATTTCGCCTGTCATTTGCTTACAGACTACATCAATAGTCGTTGAACT TTCTTCCAATAAT
TGTTGGAAGCTTAGCTGCTGATTATCCATTATAATTGATACTTAGGAATATTATATT TATACCAGAATA
TAATATCTTTTTATCTCACCATATATCATTCCAATTATTTTTTCTATCTTTCGATAA CATTCACGCTTATC
ATTACTGATTGCGTTTTAGTTAATTGGACTTTAGGAGTTTCCAGCAATTAAAGAAAT TTTCATCATATA
TCACTATATAATGCGGCAAAATTTACCGACTCTAATTGGAGTATTATTAGTAACATT ATCAGAATTTTT
CATATCTTTAGTTTTTGTTGGAAGATTCTGGAAGTTAGTATTACCTTCACTACGAAT AGATGTTTTTTCA
ATAGGCTCATGTTTAAGTCTAAGCATATATAGTTGACCCATTTCAATAGGCTTACTA ATTCCACTTAGT
TTATAACGATCGATATTGAATTTATCACGAATATCTTTAAGTTTAAAAATATCCATA TCATTCCAGAAT
GGTGTAAATTGAATATAAATTCCATTCTTTATAGTATCTTCTAGATAATGATCCTTA TCGCTATCACTTA
ATTGATCATATATACTGATTAATGATTTATACATATTTTCATCAATAGACTTAATAT ATTCAGATAATA
AATTAAACTTTTCTTCACGACTATCCATATGTTCCATTCGATATCGAATAACTTGAG ACATCATATTGA
ATGTATGTTCAAATGATTGTGAAGGATTTAATCGGTTATTAACGCCAAAAGGATTAA GAATAATATCC
GCTCTATTTTCTAGGCAAGAATCTTTATCAAACTCCTCACCATCAATAGTTTCAATT ACAGGCATTTCTT
CGTCCGGAAGAATTAATCCAATAATTCCTTTATTACCATATCGACCAGTTAGTTTTG AACCTTTCACAA
GAGGAATTCTTTCTAAGATTGTAAATACCGCTACAATACGGTCAAACACTCTTCCCT CAGACTGAAATT
TATTTGCAGGATCATTAAATGCTGCAATCTTATTATAAAATGCAGATAAATCACTAC TGATATTATTTC
TTTTACTAGATACAATAGGTTTTAAATATTCTACAACTTCAGAGTAATATTTTGAGA TAGAAATATATT
CATTGTACATCTGATGATTATATTTTTGAGATCGTAACTTATCAAGACTTTCGTTAT TATAAATATCAAT
GTCAATAACAATACCTTCAGCATGTTTTACTGTGTCAGTAGCAAAGATCTTTCTTAA ATTGACATCTTT
CATACTGAATCCCATATCATTATAATTAATTCGACGAATTCCCATTAACTTACCATC TTTAATTTCTTCA
CCAATACTAGGAAAAGTTCTATATGATTCATCATCGCCATATAGATTTAATAGTACA TCATTGGTATTT
AGATTGATCTTAACTTTCTTTATTAAATAGGAAGCCATCTTTTGAGCAGTACTCTCA GAAACAACAATA
GAGTCTTCATTTGTGAATCCTTTGTATGGAATATATACCGCATTGAGATTTTTACCA TACTGAAAGTTC
ATATCTTCGTCATAATTTTGATCTCGATAAATTACTTTGTTTTCAAATTCTTCATTT TCATTGATATTATC
AATTACTTCATTATTGAATTTTAGTCCAAAGTGTTCTGTTAAATGTTTTGCTTCTTT TCGTTCTACAATA
TGATAGAGTTCTTCTTCTTCATTAAATAATATTGCCGTGTAATTAAATTTATTCTTG TAAAATTTTTTAA
GAAGTTTCCATCTACCATCAAGCTTTTTATATCCAGTAGAATATTTACCTACTTGAT TTTCAAAACCAG TAAAAACTAATGGTGGATCAGCTTGTTCCAATTGAATATTTTGACTTAAATGAGAAGTAA ACATTTGTG
ACCTATTAGAGTTAGTCTTATCTAAGTTTGGAATGAGTAATGTTTCGGCTAAGAAAT CAAATTTACCTT
TATATTTTTCATCATTAATCTCTGTTAAATCCAAAGTATAACCACACTTTCTTTTTT TTTTTAATATACTA
ATCTATCCATTATATAAGAGTTATTATATTATACGCTTATTGGATAGATTAGTACTT GTAATTATTAAG
ATTTATTTATCATTTTCTTTTTCGATTTCAATTAAATTCATGTCAGAGTCATAGTAT CTTCCATCTGAAC
CAACCCAAATATCTTCATCTTTATTAACGCAGTCAATAAGAGTAACAATATTATCAT TCTTGGTAGATT
TTGGAATTGTTTTAAACACTTGATTTTCACCATAAGCGTCAAAAGCATTTCTAAATT CTTCATTAGTATT
ATATAGTGTAACAAAATCTTTACGTTTAAATTTAACGTCTGGAAGAGTAGGAATAGA GTATCCTCCTTG
CGGTGAACCATCTAATAGTTTATTATCTTTAAGATAAGCAAACAGTGAAATACCGTT AGAGAATCCAT
TAAGTTGATCAAAAACAGAATTAAATGAGTATCCTGAAGCCGAAATACGGGACTTAA CAATTAGTCCA
TCAACTTCTAAACCTTTATATCCAGTTTCCTCTTCCTTAACATTTTTACCCGGATTC AATTTAACAAATG
TATTAGATAAATATCCAAAGGCAGAACCACCTGGAATAGCTTCATCAATCTTTAGAT GATTCAGCGAA
GCTTTAGTCTTAACTACTGGATTAATTTCAATCTTAGTAGTAATATGATTAATCGCA AATAACATGATA
TTTGCTTTTTCTAATGCACTTGAGCCAATTAATCGTTTAATCATCTGATTATTGTAT TTTGCTTGTGCTGT
TGCAGACATCTGTCCACTCATCTTTTCTTCTTCACTGATGTCTTTAGTATACATAGC AGCAATAGAATCT
AAGATAATAATTGTCGGATCGAACTCATAAATTGGTTTACCTGTAATTGGATCTAAT TTACCTGTATCA
TGTTTAAGTTTATCGCCCCTGCTAAGTTTCTCTTTTTCAATAATTTTTACTAAACCA TAAAGAGTTTCTG
CCGATATTCCTGAATTAAGAAGATTATACTTTTCAAGAATCTTTTCATCAGCCCACC CAGTAATATTTT
TAATACGAGCTAATGATCCGGCATGCTCATAATCTAGATGATAAATTTCAGAATTTT CATAACGATCA
ACAATATTACATGCAATTTGTTGAATTAATGTTGATTTACCAGACCCGGATTTACCT ACAATGGTAAAT
AATTTACCGGCATCTAATCCCATCATTAATTCTCCCTTACTATCATAACTTGCTAAC TTTGCATCAATCT
GACTGAAACCCGTTCTATAAGTTTCAGTAAAATTTTTGGATTCACCTAATCCATCTT TCAATAACTCTTT
TTTAACTTCATCTGTAATTAATCCCATACATTTACTTCCTCCTTAGATATCATACAT TATAAATCATTGT
TATTACAATAAAATAATTTTTTATTTATAATAACATCATACTACAACATTCCCTTCA GTATTTTTATTTT
AACATATTTTTGACGTAAAGTGGAGATAATTTTTTACATCATAATTTATTATAAAAT GCTATAATGAAG
ATTATACTTCTTCATTATAGCATCATTAATTCTAATACTTAGATAATATTAATTTAA CAACATCGTCAGT
ATTTATCATTTCAAATTTTGACATATTATCAATATAATCACGTAGTTTATCAGTATC AATCAAATTACA
ATAATCATTTCTTTTTACAATGTCTGTAACTATTTGTCTAAATCTAGTGTCTGATAT GATTACATTTACA
TCTTTTATAAATGTATCAATGAAAATTTTTATTGTATTTTTTGCAATATTAGCTTTA TCAACATCAAATA
TTTTATCGATAATTTTATCAATCTTGAATGCATAAAAAAGTAACATTTCATAGTTCA TATCAGGTAATT
TATTTTTTGCATACATAATAAATACTTCGATAGGGTCTCGCTCAATTTCTTCAGTTT TTAATAATAATTC
ATAAATATAGTCTCGGATAGATATTCGAGATAAAGCTTCTTGCATTTGATTAATAAA GACTGAAGTGTT
ATCTAATGATATTTTTTCTAATATTGTGATTAGTTCACTTGCCTGTTCATCAACTAA TCTTTTATAAATA
GTATTATCACGCATATTATCTTCCTGAATTATCTTAAATTCATTTACAAAAGTCAAA AATATTCCTCCTT
TCTTCAATAGTAAATAATCACAAATATATAATATATATTTATTATTGAATTTTAAGA TCGTTTATATTTG
AGATGTTTTCTTCTTTAACATCAGCAAAATCTAAATTAAATGTATCGGAATCATCTA GTAAATCATTAT
CAATTCCTGCACCAGTAAGAAATTGGGATACGGTATTTAACGTACGCTTATCATTAA TGCTTCCCGGTA AATCTTGTAATGAAGTATATCCATACATTGCAATATTTTTATACATTGTAGATTTTGCGT CTTGTGAGTC
CGCTCTAGGGCTTAAGAATTCTTTTAATGCATATTTAGCGTCAATAGCACTTAATGC AATAGTTTCTAA
GTCACTGATCCGTGCAATCTTATCTTCGTTTGTTACTTGGTTGGTTCTTAAACTACG TTTACTAATATCT
AATGAGTAGGTATTCTTTTTCGATAAGGTTTGTTATACTGATAGGTAAAGATATACT ATAAACGTATTC
TTTTTCCCCCAGTCCAAACCGTACGTGAGACTTTCATCTCATACGGCTTTCCATCAA ATTTATTTCATTA
CTTAGAATAAATACTTAATAAATAACTATTCTAATTAATGAAAATTAGATTTGACTA AGAACTTTCTCT
CCACTATTTATTATCATAGCTTCATCGATACTTCATTCTCTCTTACTCCCTATAAAT AGGGTATCAAACG
TTCCCTTTAAATTAGGTATATAAATGTACTTAGGATCCACCTGTTATTTATAACAAT ACTTACATATAA
GTATAATATGACAACCTATTAGTCATATTAGCTAATAAAGACTACAATTTTATTTCG CCTATTATAAAT
CATTAAAGTGATTCGTATTCCTATCCATATACATCTACCCTAACCGCTATAAGTATT ATTAGCGACTTC
ATCCAGCTTCACACATATTAATTACTCAATATGCATGTGGAATATCATTAATAGCAA TTCATGACTATT
ATTTAGGTTAGTCACAGCTTATTCATTTAAAGAGTTAATTATATACGCATATATAAT CATGCAATCCTC
AATATTTTTACATATCTTTCTGCATAACGTTTCGCACGTAGTCTCCTTACGGGAAGA TAACCTAATGGT
ACTGGATATCTAGTTCTTAATGGATTATCTTTATTTCCATCATGACGATAATAGATA TATTCTTCTAATG
GTACATTCATAAAGTCTAGTGTTTCTTTAATATCTATCAGTTTTGGTTCATTTTTAT TCGGTAATACTTC
TAAATAGAAATTATCATCACCATTAGTAAATTTTTTCATATACGATAAAAATTGTTC GTCACTCATTTT
ATCGTAAATATCTTTATACTTTTTAGCATTAGAACCAGTTTTATCTAATTTATTGAA TACGTCAATAATA
TACTTTTGAATTTTATTTCTTTTTTGTTTATTATTAGATACTTCTTCATTTAATTCT ACCGATTCATTGAG
ATTATCTTTTGTATCCATATAATATACTGATAATATTTTAAATAAATTAATCGAATT ATCTTCAGAAAT
ATCATACTTCTTAATGTTTTTATCTTTAAAAGGAAACTTGTCAATACTGAATTCAAT AATCTTTAGACC
ATCTAGATCACGGTTATCGTACTTATCAGTATATAACTTAGAAAGATAATTTGAACT AATTTCCCTAAT
TTGAGAAGTATTTGATAATCTAATAGATTCAGGATAACCAAACTCAGGATAATAATT AAATAATACAT
AACTATCATTTTCTTTGTAATAAGGAAGACTAATATAATCTATTAATTCTTTATTTT TTTCATTATATAG
ACCCATTATCATAAGTTTTGTAAAAGGTTGAATGTTTCTTAGTATTAAGTAAATAAT AGTATTAATAAC
ATTACTATTCAACTTGTGATAATCAGTAAGAGTATCACTATACTTGATGATATTGAA TAGACTCATTTT
TATACTACTATTATAACTTCGATTATTATCATTAAGTATAGATTCAATATACTTAAT GATATCTTCTTTA
TTATTAATATCATTTCTAAATATAATATCCATTATATAATCATTAAAATCAATTTTT GTAATATCAATAA
CCGAATCCTCATCAATAGATATTACTCTTTTATATAATGATGATAATGGGTATCTTA CAATACCAGAAC
GGGTATATTTAGTAATTGATAATAATGAGGGATGAGATATTAACTGATCTAATTTTA TAGATGGATAT
AATTTACTTTCTGAATCCCTGAGTTTAAATAATTCAATACCATAAGTTCTCATAATG GTCATAAATACG
CTTACTAATTGAATTTCTCTTATAGTTGTTTTATTTCCTTCTGCACTTCTAATTATT AGATCATTATCCAA
GTATTGATTATAATCTTTAATCTTATCAGAGAAAGTATTAAACTGATCTATAATATT AATATTATTTTTA
TCATAATATATAGGAAACTCAATTACCTCTGTAAACATATCAATATTCTTTAACTTC TTTTCAAAATTG
GATGTAAACTCAGATACTTCCATTTTTTCATCGTTATAATCAATTCCAAATATTCTA GAATTATCATGA
CTATCTATTAACGCAATTTTACTTAGTCTATCTTTAGCAGAACCTATTACCCTATCA ATAATTAATGTAA
CTTCTAATTTACATTTATCCTCTGAAGGACTATTATCAAAAGGTATATATTCATTAT TATCTAGCATTAA
TGCATTATCTGTAAATTTTCTTTCATTCCCTAGGTACTCATTATATTTTTTATTCAT ATAATTATCCAACT ATAATTCACTTCCTTTATATTATTCACTGGTATATCTATATGTTTATATTACTAGTTATT AAAATCTTTTA
TCAAAAAAAAAAAAAATATTAATTATTAAATACATAGTATATAACAATTTATTTGTT ATATACTATGTA
TCTTTTTTTCCTTACATTATATTGATTAGAAATTTAAACCTAACCAGTATCTAGCAA ACATAGATTTATA
TGAAACTAAATCTACAATAAATATTGATACGAAAATAACCAATGATAAAGCAATTAC CCAAGATAAG
AATACAATTACTTTCTTAGATAAATTAAGATTAAGTAATCTTTCTTCAAATCTTTTT AGTGTAAAATTTT
TCATGTTATCTTCTAAGAATAATAAGATTGTAATGCATTTTAATAGTTCATTAAAGA TTCCCACAATTT
TGTTACTACCATTATTTTTATTTACTATTACTGTTTGTTTTTCCACTTTCTCCACAC TCCTAATATTATTA
TTTTCATTTTATAAATTAAAAAGTTAACCTATCATCAGGATAATAAAAATATCCAAT GATAGGTTAACT
CGTTTTTCTCTATATTTAAATAATATTTAAACTATTAAAAATTATAATCAATCTCAG ACTTTTGAAATTC
AGCTTTCATTCGTTTTAGTTCTTCTTTATCAATATTTTTTTCTGACCTAATAGTAGT ACCTGTTGGCACTT
TTATATTAGTAATCATTTTGCCTTGAACTGTTAGGATAATATTTAAAGTAATCAATA TAAGAGCCAAGA
GCAATAATGAACCAATAATAAAAGATGAAATATATCTATCTACTTTCTTTACATCTT CTTTATGTTTAC
TCTGGTTGGATTTATATTTCGTACTAAGATTATCCATTCTTATTTTCACTTCCATTC ATTTTATATTAGTA
ATATAATTTATCTATATTACATAATGATAATATATAAACAAAATATGGGTTATTACG CTTTTATAAAAA
TTTATAGTTAATGTATAATAATATTATATATTTTGGATCATAGAAAAATATATATGC TTTATAAGTATA
TATTATAAATTTGTAGTAAAATAATTAATTATGGAGGATTAATATGAAAGAATCTTT AAAGTTTAATGT
CAAGGAAGTAAGAATTCTTAGCAAAATCGCATCTAATGAATATGCTAATGAGGAAAG TCGGTATGAA
AGCTTTTTATCTAAATTGGAAACATTTAATAACTTTCGTTCAGGATTTTTATATCTG TATCTAAAGAATC
TTTCAGAAAGTGGATTAACTAAACAAGAATCTTTAAATAAGGCTATTGATAAATATG TCAAATAATTC
AATAAGATTTAGAATAATGGCAGATATTTATTGTAATAATAAATTTATCAATGTTGA AGAATTAGAGT
TCACTGGAACGAACGAAAGTAACGCAAGGAAACAATTAACTGGTTACCTTAATAGAC TAACAAGAGA
AAATAATAATGGTAGATATACAGCTAAGAATATTAATATAATACCCATTAAATCCCA ATTTCAAAACA
ATATTGAAAATCAAGAACAACTAAATCTTTTTAGTAATGATATTAATGATGATTTAT AATCTAAGTAAA
TCATCATTAATTATCTTTAATAAATTATGAAAGTAGTGATATTTTTTTGGCTAAATT AAAGAAAAGCAA
AAGACGAGTATCCTTTGAAACAATTGTTAAAAGGGTTATTGAAAAACATTTTCTTGA AAAGTATGATA
AAGCAGAACTAGATTTAGATAACGAGGAAACGTATCAAATCGGGTTAGGTTCTATTG ATATTGATAAA
TACAATATCAATCCTGATGATTTCGAAACCTCTGGAATTTATTATTACAGTAAAGGG AAAATATCTTTA
GATAAAGATTCATCTCCTTTACGAACAATGAATGTTAATGTAGGAACTGTTAAGCCT TTATATGACGTA
ATATATGAAATTGAAATTATTTCAAGGGTAGAACCAGAAATTAATAATTTAACAGTA TTAGGATATTT
TATTAAAGAATAGATATGGATGGTGAAATAACATTGACAAGAACTTATTCTGGTGAA GATATTGATGT
TTTAGAGGGTCTAGAGGCTATTCAGGTTAGACCGGATATGTATGTAGGAAGTTCAGA TGAAACAGTCA
ATCATCTTGTTAAAGAAGCAATTGATAATGGTGTAGATGAATTTCTTAATAATTTTG GAACAAAGGTTA
TTGTTGACTTAGATACTGACGAAAATATTATTACAGTTATTGATGATGGTCGAGGAT TACCTACTGACA
TTCATCCTAAAAAGAAAATTCCAACAATGCAAGTATTGTTATCAGAAGTACATTCTG GTGCAAAATTC
CGTAAAGATTCTTTTAAAGTTTCTAGTGGTAAGAATGGCGTTGGTATTAAAGCTGTT AATGCATTGTCT
GAATATCTCCGAGTAATTTCTATTAGGGAAGGATACCAATATTCAATGGAATTCTCT AATGGTAAAGTT
ACTAAAGAATTTAAGAAAGAAAAGCAAAAAGAATACAAAGATATCAAGCATGGAACA ATTATTGCAT TTAAGCCTAATGGAGAATTTATCGATAATTATGACAAATTTGATCCCGAATTCATTAAAG ATAATTTAG
AAAAGCGTGCATACAGTAATGCTAATCTTAAATTAATCTATAAAGAAAAAGGTAAAG AAGTAGCTAC
GTATCATCATGAGAATGGTATTCGAGACTATATCACAATTCTTAATAATAATCCTTT TACTAGTAATCA
TTATTATAAAGAAGAATTAGAAAACGGCGACTTATACGAAGTAACTTTTGGATATAG TAACTCTTCAG
ACGAAAATATCTATAGTTTTGTTAATGGATTGAAAACTGCTCGTGGTACGCATGAAA CCGGATTCAAA
ATGGCACTTACAAACTTAATGACTAATTATATTAAGAATAATAAAATGTTGCCAAAA AATATGCAAGC
TAAGGCTATTACGGGTGAAGATATTCGTTCTGGATTAGTATGCGTTATTAATCTTAA GTTGCAAAAAAC
ATCATACAGGTCACAAACTAAAGATGAATTATCAAACCCTGAAGTTTCTGGTATTAT TAAGCGGATTA
CAAATTCAGCAGTAAAAGATATTATGGATACAAACCCTAGTGAATTTAAAAAGGTAT GTAGTCGTATT
ATTGATTTTGCTAAAGGAAGAATTAATGCTTCTAAATATCGTGAAAAGATTGTTAAA GATACGAATAA
TCTTACATTAAGTTCTAAATTTTCAGATTGCCTTTCTAAGGATCCTTCTGAAAGAGA AATCTTTCTATGT
GAAGGAGACTCTGCAAGCTCTGGAATTAAAGAATTCAGAATCTCTCAAACTCAGGCA GTATTCCCATT
AAAAGGTAAACCTAAGAACTCTTATGGTCTTTCTAGTAAAAGTTTATTAGGTAATGA TGAATTTAATA
ATATCATTAAGATTATTTTTGGTACTAATGATATTAAAAATATTGATTATGATAAAG TCCGATATCATA
AAATCATCTTTACTGCAGACGCAGATACTGATGGATTACACATTAATTCATTATTAG GGTTATTCTTTT
ATACGCATTTTAAAGAATTATTTGATAGAGGATATATTTATATCGCAATGCCACCTA AATATAGTACTT
ATGATAATGTTTCTAAGAAATTTATTTACTTTAAGAATGATAAAGAATTAAATACTT TTAAATTCAATA
ACATTAAGAAACGTATTAAGCTTAGTGATGATAGTGAATTTAAATTAAAAGACTTTA TTAATAATATG
AGCGAATATCAAAATCAGTACAATATTGTTAAACAGAATAATAATAATATTTCCGAT AGCGTTATTGA
TACATTCTTATTACATGGTCATGAAAGTAATTCCTTTATTGAAAAGATCCTTCTAGA TAGGAATAACTA
CAGATTCAGTAAGAATAAAAACGGAAATATTATTGGAATGCACGATAATGCTTGGCA TGATATTAATA
TTGACTTATTAAATAATGATATTAGTCGTATTAAGAAAGTTATGAGCATTAGCGACT TGTTTGAATTTA
CAGATACCAAAACAAATGAAATTTATAGTAATGTAACATTAAAATTTCTTATGGATT ATATCAATAGT
AAATTTACGTATAAACTTAACTATTTTAAGGGTCTTGGTGAAGCAAATCCTGAAGAA TTGTTTGATACT
ACCATTGATCCTGAAAAACGTGATTTAATTCAGGTTAGGATTGATCCTGAAAATGAA GAATCAACCCA
AGAAATTACAGATATATTCTTTAAAAATAATTCAACTCAAAGAAAAGAATATGTAAA TAGTTGGTTTA
ATATTAAATAAAATTTTATACAATTCGGGTATTACTTAGAGTTAATCCCGAATTGTA TAATTAAATTAA
AATAAAGGTGGTTCATACTTTTGGCTATTATTCAAAAACAACTTGTAAATATTCATG AAGAAAATATG
GAAGAATACTTTGTTGAAATACTTACTAGTCGTTCAATTCCAGATATTAATGATTCA TTAAAACCCAGT
CAACGAAGAATTATTTATTCTATGAATAAAGATCGAAGATTTAGTAATTTACCATTT ACTAAATCTGCA
ATGATCGTAGGTTCTGCATTAATGATTCATGCCCATGGTGACGCATCATTATACAAT ACTGCAGTAAAT
TTAACTCGTAAATTTTCTAACATGCAACCATTAGTTGAAGGTCACGGATCTTTTGGT AACGTATATGAT
CCTAGACCTGCTCAAATGAGATATACTCAAATGCGACTAAATAAGTTTAGTGAAGAA GTTTTACTAGA
TAATATTAATGATAACTGCGTTGATTTCGTACCATCTTATGATGAATCTGAATTAGA ACCTGTCGTTCT
CCCATCAAAAATTCCAATGATTCTTATCAATGGTTCTTTTGGTATTGGTGGAGCATA TCGTTCATTTATT
CCCCCTCATAATCCAAAAAATGTTATTAATTATACAATTGATTATATCAAAAATCCA AATAAATCTGAA
GAATCATTAATTAAAGATAATGAATTATATCCGAGTTTCCCTCTAGGTGGTATTTTA GATAATAAAGAT ATTATTAAAAAATATACGACTGGTGAAGGAAAATTGGTTCTACGTGCAAAGATTATTAAG GATGAAAA
TAAATCTACTCTTACCATTGTACAATTACCATACATGAAAACTCAAGATATCATTAT TGAAAATATACA
AGAAGCAGTTAAAAAAGAATACATTAAAGATATTAAAGGTATTGATAATGGTTCTGA GCGTGGTAAG
ATTAAACTTATTATTAAATGTTTTAAGGGAACAGACCTAAACGTAGTAGAAAGTCAA TTATATAAGCA
TACCGGATTGCAAAGTACGTTACCATTAAGCTTTGTATTAGTAGATCAAGGTGACTT TAAAAAATATA
ATGGAATTAAACATATTATTTCTGATTGGGTTGAATTTAGAAGAACAACTATTCGAA GAATTAAAACG
AACCTTATTAGTAAACTTGAAAGAAGGATTCATATATTAGAAGGATTACTAAAAGTA TTAGATCCAAA
AGTATTAACAAAACTTATTAAATTAATTCGTGAAGGAAATAGTCGTGATGGAATTAA ACTAAGTATTC
AAGATAAGTTTGATTTATCTGTAGAACAAGCTGAATATATTGTTGAAATGAAGATCT ATCGACTAAGT
AATATTGGTATTAATGATACAAAAAATGAATTAGCTGATAAAATGAGGGAATTTGAC GATCAATCCGA
ATTTATGAAAGATCCTAGTCGTATCGATAAATATATTATTGATGAACTACAATCAAT CAGTAAATCTAA
AAATCTTCGTAATGACTTTGAAATAACTACTTATGATGATAATATGAATGAATTGGA TATCGAATCCCT
GATTCCAGACGAAAATTATACGATTGTTGCTACAAAGGGAAACTATATCAAGAAATT CATTTCAGAAA
TGAAAGTACAAAAACGTGGCGGTAAAGGAATTAATATCGGCAAACTTAAAGATAATG ATATTCCTTTA
GGAATTATCTCTGCTAATAGTAAAGACAATATTTTATTTATTACAGATAAAGGTAAG ATTTATAACTAT
AAATGTTATAAATTACCAAACGCTTCTAGTATTAAGACGCTAGGTAATAATATTTCT AATCTTATTAAA
AAGGAAAAGTTAGTATCGATTATTAGCGTTACTGATGATCAATTAAATAATGATAAA AATTGCTTATT
AGTAAGTACTATTGGTAATAATATTAAGTTAGTATCAATGACCGAACTAAAAAGTAT GAATGAATCTG
GATTAATTTTATCTAAACTTAAAGATAATGATGAAGTAACAAGTGTTAAATTAGTAG ACATTACTGAA
TCTAGTAATGTAATTGGTATCACTTCTGAAGGTATGGTTATTCGTACAGACATCTCA AATATTCCAGTT
ATTAAAAGAACTACACAAGGTAGTAACCTATTTAATAATAAATATATTACAGAAAGT AATAAACTTGT
ATCGGTATCTCTAGAAACAAAAAATACTACTGGTCTGTATATTATTACTAAATCAGG ATTATCTAAACG
TGTAAAGATTGATGAATTCAGTAAATATCCTAGAAGGGTAAAAGGTGTAATGGGGAT TAATCTAAAAG
ATACTGATGATAAAGTTGTATCTATGGAAACTTATGAAAATGTAGATGACCATAATC TTATCATTATCT
CAAATCAGAAAGCAATTTCCATACCTCTTAGTGATATTTCTGAGTATAAGAGACCTG CAAAAGGACTA
ACACTTCAGAAGCTTGAAGATGACAACTATATTATTGATTCATGCTTAATTTAGTAT TAGAGGGTAAGC
CATTGTTTATTGATGGCTTATCTTTTTTTTTTTTTCATTTATATATAAAAATTAACC TTTTATATAACAAT
ATTATATACTATTGAAAGGTTGTGGAAAATAAATGGCAAAAGAACTTATTTTAGATG TTTCTCATCATC
AAGATCCCAATAACTTTAACTGGGCTAAACTTAAAGATGAAATCGATCTAATACTAA TTCGTGTACAA
TATGGATCAAATACTATTGACCGTCAATACAAGAAATTTGTTGAGCTTGCTAAAAAA CATAAAATTCC
TTTTGGTCACTATGCTTATGGTGTATTTGTTAGTTCTAAAGATGCAGTAGTTGAAGC TAATAACTTTTTA
AAACGTGGTGATAGTGAAGCTACTGTATGGATTTTAGATGTAGAATCCGACACTATT GAGTCATGTAA
AAATTCTCCTCTAGGTGAAGCTTCTCAAGCATTTATCGATACTCTTAGCAAAGCCGG AAAGAAAACTG
GTTTTTACTATGAACATCGTTATATTGGAAAATATGGTTTAGATAATGTTAAAGC TGATTTCCGCTGGA
TGCCACGCTATGGAAAAAATGATGGTACTTTATCAGGAAGTGCTAAACCTGATATTT CTTGTGATTTAT
GGCAATATACTAGTACTGGTAAGCTAAAATCATATTCCGGTAGTGCTTTAGACTTAA GTATTCTTAATG
GTAAGAAGGATATTAAATACTTTACAGGTAAAGCATCATCAAATAAACCATCCACTG TTAAACCATCT AAGCCTTCTAAACCTAGTGATTCAAAAGATACTGTAAAAACTACTAGTTATTATGTTACT GCAACTAA
ACTTAATATTCGTCAAAAACCTGATGCTGATAGTAAATCTTTAGGAACATTGGATCA TAATGATCGTGT
TCAAGTTATTTCAATTAGTAAAGGTTGGGCAAAATTAAAATCCGGTAGTAAAGAAGT ATATGTTTCTG
AAAAATATATTTCTAAAAAAGCAAAATCAAATAAACCGAAACCAGTAACCACTAAGA CTTATACAGT
CGTAAAAGGGGATACTCTTTCTGGTATTGGCAAAAAACTTGGAAAAGATTGGAAAGC ATTAGCTTCTA
AAAATAATATTAAAGGTCCAGCTTACGTAATTAAACCAGGACAAAAAATTAAATATT AAATATTTTAT
TCACCATACAAACAGATCATTATATTTAGTGATCACATATGTTTGTATGGTGATCTT TTTAAGAAAGAG
GGTTTGAAAAGTTGACTAAACAATCAATATTATTAAATAGTTTTGAAGAAAAAATTG AACAGGCATTT
AAAAATAGTAGTAATGTAAATAAATTAGTAAAAATTGTAAGTCAATATATTGATAAA AATAGTGATAT
ATTAAATCATAATACACCTACATATCGACTAGTGTTTGCTCGTGAAGGATATGATGC TGAAGTTATATA
TGATATAGTTAATATATATCCTGAAGAAATTAAAGAAGTTATTTCACAACTAACATT TATTCGAAAAG
AATGGAAAGTAACCAATGAACCCTTTTCGGTATTAATGACTTTAATTATTCGATATT TTCATTTAAAAA
ATAATCGTAGAGCATTGCAATCTGCAATAATGTATCTTTCATTATCATTTTATTCAT CGTTACATTTTAG
ATCATTTAGATATGAACCGAACGATAATATTATGCAGTATACAATTAACCGTGTAAG TAATAAATTCT
ACTTTAAACAGTACGGTACAGTATTTAAAGCACTTAATGCTACTGCTGACAAAGCAG ATATGAATCTT
AAAAACTCTTTAAAAAAGAATGATGACGAATTAATTATTGCATATATGACATCCCTA AGAAGTCGTCT
TGCAAACCAATTAACTACTTTTGCCCAAGAGTTTTATAAAGACCATGCAGCTAATAA TTATTTAAATAA
GGTATCGGATGTTTATGATGACGAAAACCATATTGAAAATACAAATGTTTCTGGAAT TGTGATGTCAC
AAACTAGTAAAGTATCTCTTAACTTTTATCAATCTAGACTTAATGAAAAATATATTA TGATATCTGCAT
CTACTTCTAAAGTTACGGCTAATGCAGTAAGAAATACATTAGAAGATGTTAAGGAAC ATGAACGAGA
AAAAGTGGAAACGATTATTCGTAATACAATATCAATATATTTAAATGATCGAAAAAA TTCGGTAAACT
CAATCGGATCACAGAAATTTATCAATTATTGTATTGGAATATATACAAAAAGTAATA CAAAAGAAAAA
TTGGTATTAGAAATAAAATCAATATTAAACTATTTCTTAAAAGAATACTGTGATAAA TATAACAGTAC
TGATAGGGAAGCTACTAAGAATAATTATCGTAAAGCTGTATTTCTTTACTTTATATT CTTAATCAGTGC
AAATAACTAAAAAAAAAAAATATTAAAGAATATATCCATATAACCAATAATAGGTTA TATGGATATAT
TTTTATTGCTTATTTAAATTTCTTCAGTATCCCTTTTTATTAATTCATTTACTTTTT CTGATATAAATATA
GTGGATATTCCCATTGAAATCATTGTAATCAGCATAAGTGTTAATAACGCTAAAATT AAAATTTGCATA
ATAATCATTATAACCATCCTTTTAAATTTTATTTTTCAATTACAGTACTTGTAATAT TACCATCAGTATC
GACTCCAGTCATTACAGTGTATGTATTAACTACAGCACCCTCTGCAAATACGCCATC AGTTCCTTTAGA
TTTTACAAATACAATGTATGTATGTTCCCCATGAGGACCCATTTGTTCATTGTCTTC TGTAATATCATAA
TATAAATTACTAGTATTAATATTTCCATATTTTTTAGATACAATTGAAGCTAGATCT TCATTAGATAAT
GTTGTTGACATATATACTTGTTGATAATTATTTAGATCAACTTTTTTACTATTTTTT ACTTGTTCTTTCAT
TTCGCTTAATTTACTTTGTTTATAATCTACTTTATCAATAGATAATGTTTTTGATTT AGTGTTATATTTAA
CCGTTTTATCTTTAATATTGAAAATAAGATTTCCATTTTTATCATCTTTAGATTGAT ATTTGTCAAATTT
ATCATTCAATACTACATTATCATCTACATGACCGATTTCAACGCTAGTATAACTACC TAATACTAAATG
ATCTTTAGTTAATTTTACATATCCTTGAGTATCTTCATTATAATATTCCCCAGTAAC TGTATTGATATCT
GGAGTCTTTTCTTTTTTAATTGTTACTTTCTTTTCTTTTTTCTTATTTTCTTTAGAA GGAGTTTTAGTTTCA ATTTTCTTAACGTCATTATCTTTCTTTACAAAAGTATAATTGGTTGACACAATCCCAACA AATATTCCA
AGGGCAATAGCTACAGTAATAATTCCAGTTAGTATTAATTTCTTTTTCATGTTGATC CATCCTTTTCTTT
TTTTTTTTATTTAAATGTCTAATACCGAATAGCTAATCGATATTAGACATAATTG AAAATTTATTATTTT
TATTAATTTTTTTATTAATTAAATTTTGAATTTTAATAACTTCTTTTTTAAATTCTA AGTTTCTATCATCT
ATACCTTGGATAACTTTATCAAATTGATTATATCCAATAATATTTACATATCCTTCT AGACCAGAACCT
TTTATATCCTTATAACTGGATATAATAAATGATTTTGCATTACTTTTTACATATAAA TTTGAATTATATG
AATTATTAGTTTTTCTAATTTTAATATATGATGATACCATTTTCTTAACTTGTTTTT CATTCACAAATAA
TACTTTATATTTATCATTGATATATACTTCTTCAGGAATAATTCTTCTTTCTAACAT GTATGGAACACTT
TTATTAAATGTAATTTCTGATGTATCATTATTATAAATAATATTATCATCTTTACGA ATATTAATATATT
TATCAATATCTTTTACAGTATGAACTGCAGATAACTTATCGAAATTAATATCAAATT TTTCCATATAAA
TATAAATATCTAGTTCACCGCTAATATATTTACCGTTATCATATGTGATTATAGATA CGGTAGTTTTCGT
AGTTCCATTAAATTCAGATGTTTCGATATTATGCGTATTAAGAATTATATACTTAAG ATTATTATTATAT
AATTTTTTGATCTGTAAAAATAAGTCATTTACACTATACATTAGCATAATAGTTAAT ACCAACTTCCAT
TATTAATTTTTAATACTAGGATAATATCTATTAATTTAGATATTATCCTAGTGATAT TTTATTAATCTTC
AAATACAACGAATCCGTAGATATTAATTGGATCTTCTACTTCAGTAATTACACTAAA TGTATTTCCATT
AGCACCACCATTATCTTCTACTACATAACCACTGTGACCCATCACTTCAGTAATATT ATTATCCTGTAG
TTCTTTCATCTTACCATCATCAAAAAAGTCAGGATCAATTTCATCCACCCCTAATGT ATAACTTTCTGA
AATGACTACATCTACACCATACACTTTTTTAATTTTTTCCGTTAATTTACTTACGTC TAATGACATAATA
AACACTTCCTTATTATTTATTTTATTTCATGATTATAATATATATTTGTAAATGTCT TTATTACGGATTA
ATCGATATTCTTTTCCTTCAATAGTATTTATATTTAATGACATAGGATTAATATGTG GATGTAATACTAC
ACGTTTATAACTGAATACCTGATTCATAAGTTCAATAATATTGTCAGCATCAAAATT ATCGTTTATATA
TTCAATACTGTATATAATATTTTTATGCATTGAAACATTTAAACCAACATCAATATT ATTCTTATCTAAA
TATTCTTTGATTAGATTAAGTCTATTTACGATATCATATTGGTCTGGAAAACAGTTC ATTAAATGGCTT
GCCCTTCCTTGAATATTTTCTTCAATTATCATAATTTCTTTTATTTGTTCTATTATA TTATCCAACTAATT
CACTACCTTCTTTTAATATATTTGATAATTCTTTATAATATTTTCCTTCCAATGTAG TAATAATATTATC
ATCATTGTCTAGAAATATTAATGAGAATATCTGGCAACTATTTCTTGCAATAAATAA TTTATTAACTTT
TTCACCTTTTTCTAAGAATGTATTAAGTTTAATATCATAATACTTATAATAAAGACT TCGCATAATCCA
ACCAATATCACGTTCTTCTTGAATATATAATGTATCGTCATAATCTGGAATAATATC TAATTCATATAT
TTTTTCTGAATCATCATAATTGTATGAACTAAACTTATGTTCACTATTAATTAAGGT ATGTGGTCTATCA
AAATAACATTTATCCTCTAGTATTGTACGATTAATATCATTACGTAAATATCCTAAG AATATCTTTTTAT
AATGAGTATTATTAGTAATCCAATCCGAAATAATACTAAAATCATTATTATTTAATA ACTGGTTTGATT
CAATATTATCCATTATTAAACAAATATCTATAGTTTTTGTTTCTTGATTGAATATTC CAATTTCCCATAC
AAAACTAAACCAGATCTTTTTACCCATATATCCAGTCAATATTCCTGCAAGAGGATT CTCTAGAGATAT
TTTTACTAAAGGTGCAGCCAATCCATTAGGAGTGAAACAACATTTTGTTTTAACGCC AATATTCATTAT
TTCATCAACATCTTTAGAAAAGTAAATAAATTTATTACTATGATTATTGGATATATT CATTTTAGATTC
AGATACATTATATTTTGTACCTGCACGAGCCAATAATACATTATTGATATATTTATT CATTTCCTTATAA
TTTAGGTCAGATTTTCGAATTACTTCATAATTCATAAAAGGTAATAATTTAATAAAC TTATCATTATTA TATTTAGATAATGAACTTTGAAGAAAATTATATGCTTCATCAATATAATTACTATTTACT TTTTTATTTG
TAATATATTTATTAGTAACTTTATTAGGAAATTCACTAACAAATCGATGAATGGATA TATTATTGACTA
CGCATTTATTTAAAATATTCATTAACTGTTCATATGAAAATAAATTAAACATACGAT ATAAACCATTTT
TCTTTTTATATTTAACAAATTGTATGTCAAATAATTCAGGTTCTAATTTATTATCAA GATTATTATTGTA
CCAGTCCTTAATAAGCTTTATCATCTTATACATTCTTTTTTTACCAAACTTATCATG CAAAAACAGTATT
TCATGTTCTAATTTAAAATCAGTAATTGAAGCACCAATACCAATATTTAATTGATGT AATTTTTCAATT
ATTTTAATTTCATTATAGATTTCACTGTCAATTTGAGAAAGTGAAAGTACATCTTTA TATAAGGATGCA
ATATATTCTTCATATAGTACATTATTATTCTTCAATTTTTTCATCACCACGCTTTAT AGATTCAAATATA
TTAATATACTTATCATATAATTTTCTAAATTTTCCAGTTTCATCAATATGCAAATAG TATGACATCTTAC
CAAGTAATTCATAATCATCATAATAACAAGATCCGGTTTTCATATATGAATATAAGT TATTACGCATAT
CATCATACTTTTCTGAACTTAATGTTAATTGATTTTTATGATTTATCGTAATCCCAG TAATATTACGCAT
ATTCCCTTTAAGATAGACAGTTTTACTATCATTAATTTTAAATTTATCATTATATAT CTTGAATGCCTGA
TTACATATCTTAATGATAAATTTTTTATTAAATAGTTTATTATTGTCAATATTTGTT GAAAAAGTAATAT
CATCCGAATATGAAGAACAAATTATTCCATATTTATGGAATATGGTTTGTATATGAT TAATAATATCTA
CCATAATAATATTCGATATTACGCCAGAAACTGGATTACCTAGAAACATTTTATCAT TTTCATCAACAA
AACCTTTCTTTATAGTATCCATATATTTATCAGTAACGCCATGGAATAATAGTAATA TGAATCTACTAT
TAATTAATTTCCAATCAATACTAGGAAAATAATTAGATATATCTACTTTAATAATAT ATTTATTATTAA
GGTGCATTAATGCATTATCTTTTATAGATACATTTTTTCGATAAGCCATAATATTTG GATATTTCAAGTT
TGATATTTTTCTATCTAATCTTTTATCGAGGATCTTAGAAATTTCTTTTAATGTATT TTTAATTTTTATAT
TTGGATCAATAACTTCACGTTCTTTACCATTTTTTTCTATCTTGATTTTCTTAAATA ATTCAATATTATTG
TCCTCTAAGTCTTTAATGATACAATATAACTGAATTATTTCTAGAGACATTCTTCTT TTTAATAATAATT
TTATATCACTGGCATATTTACTTTTAAGTTTATAAATTAGATATTTACTATTACTAA TTTTAGAGTTGGG
ATATAATAATATATATCCTTTACTTACTGATACAAGAGGTGTAGATGAAAAAGATCT ATACATACTAA
AGAATTCACTATATTCCCTCAGCTCAATAGAATTCTCTAATAAATATTTTTTACTAT AGTTAAAATCTAT
ACTGTTGGATGTCTTATAATAATTCATAATCTTAATTAATAAGTCATAACTATCCTT AAATAGTATATT
ATTTAGCTGAACTAACTTTTTTTCTGAATTATCAAATCTTGATATTATTTTAATATC TTTATCATATGGA
TAAAAGATCCCTTTATTAGTTAAAATTCTTAATGGATTCTTACTAATTATTAATAAA TCATTCAATATTT
ATCTTCACCTTTCTTTTTATTGTTTTCAAAAAAATTTAAAATGACCGAACATTCTTT ATACTAATAATGT
ATAAAGAATGTTCGGCTAGTATATTTTAGATAGATGTATACTTTTACTACTCAAATA TAATAATACAAA
TTACGTTAGTACGAATATACAGTATACCGCACGCGCTGAGTGCGGTATACTAACACG CAACCGAAATC
TATGAGGTGCGTGTTAGTATAATTAATATTACAGAGAATAGTGTTAAGTGTTTGAAT GCATATTAACG
ATACGTTAATGCTTCTCAAATATTAAATGATATATTGAGAAAAACTAATATTATATT GATAGCTTAATA
TACATCTATTAAAACCAAAATTATATTATATTATTTACATAAAATAATAATTTTTTA TTATATATAAAA
TCAAAAAACAGGAATTTATTGACCGGGGTCCGAATAATGTCGATTTATCGCATGAAT GGACCCGAAGC
AATAAATTGCATGTATAATGGAAATAATTTTTTGACTAGTGACGATTACATCACATA TTAATCATTTTA
TATATAATATATTAACTTATAAATTGTAAAATCCAAGAAATTTATGAAACCGCAGCT CACGTCCCGAG
TAATTTATAACTCGGAAATGTGAGCTGCTGGTTTTACTAAATGATAATGATAGAGAC TTTTTTGATTAG TGACGATTACATCACATATTAATCATTTTACAATTTATAATTACGTAAATTAAATAATAT TTTGATTTAC
TGATTATTAATCAGTCTAAAATATTCCTTCAATATAATGATATATACTTAAAATTTA AGTAAACTTTAA
AAGCATATATTTGAGAAGGATACTTATAATTAATAGTAAATTGTAGAATCTAAACAA AAGAATTCAGC
ACTTCATTCGTACCTGACGTAACTAGTAAGGCAGGTACGGAAAGGATGTGGAATTAC TTTAATAATGA
TAGAAACTTTTTTGATTAGTGACGATTACATCACATATTAATCATTCTACAATATAC AATAAATATTAA
AATTTAAGTAAGATTTAAAATCAGTGAAAAGATTTGTGAGATGTCGGATCGGATCGA GAAATACTTGT
ATGAAGCGATCAGATACTCTGATATCAAACAATCAATAAAATACGACATATATTGAT TAGTGACGATT
ACATCACATATTAATCATTTTATATCTACTTAAATTTATAAATTAATAATAATTTTT GCATCTTCTTTAA
TATTAACACTTTCCGGTCTAGAAGTTTTTAGAGAAGTTCTATCATTAAATCGAGTAT CTTTAATAAATT
CTAATCCATCAATATTAATTCTTTTCATAAACTGTTTAGAATTTTCATTAAATGATG ATGAAATATATTT
AATGTCATTATCAATAATAAATTTCTTTAGATCTTCAAAAATATACTTAATACTTGA GGTAATTTTTTTA
TTAAATGGAATTACAATGTCTTCAATATACAATAATTTACTATGGGTATCCGTATTA AAGCTTCTATTG
TTAAATTGAACGCTCTCATTTTCCGGATCATAACCATAAATATTAGATATTAAATAT CCATAAATATCA
TTGTTATCATTACGAATAATATATGATGGAGACTTCATTTTCCTAGCAATTTTCTTT AATTCAGAAATAT
CGCTATCTTGTTTCCAAACATTCTTTTCAACGTATAACATTCTATTGAACCAACCCG GTGATGCCTTTTC
AATAATAACTTCACTATATGGAGAATATTTTTTAATAATATCTTTATTATCAGAACC AATATATTTAAT
ATTATTTTTACGATCTAATACCGTAAATACATATCTTGAGTCGTCAAATGATGAATA TCTATTGAAGTT
ATTTTCATAACAAATTAGCCCTTCACTAGAAGATCTTAATCTCTGAGTATATGAAAC TTTATAATTACT
ATTAATATCATTACGTAAATATCCTAAATATATTTTATTGTAGTCTGAATTAATATC AAGCCAGTTAAT
AATATATTCATATTCATTCATGTCTAAACTTTTTGACGATTCAATATTATCTAGAAT TAAATTGGTTTCA
TATGATTTAGTATCTTCATTATATTCAACAATCTCCCATACAAAACTAAACCACGTT TTAGTATCAAAA
ACGCCCTCAAGAATCCCTGCGATTGGACTTTCAATAGCGGGTTTTAATAATGATTTT GCAGCACCGTCT
GGTCTGAAACAACATAATGTACGGAAACCAATTGAATTAATGTCTACTTTTTCTTTA GTAAATTTAATC
ATATCATTATATTTACTATCGTCAAATAGCATTTCACCATTAGAAGTTTCCCCATAG GATAATCCTTTTT
TTGCGTTATCAATAATATTAACATACTTTCTTAGATCACTAATATTTTTAGATTCCC TAACACCTTGATA
ATTAATATAGTTTAATAGCTTAAGAAAGTCTTTACTTTTATAAATTCTTTTAATATA TGCTAATATCGTA
TCAATATATGTTTCATCATCATCCAGTCTTTCTATTGCAGTCTTTGGAAAATTCTCG ATAAAGTTATGAA
GATCTATTTTATTTTCAGAATTACCCTTATTATATGCATATGAGACAAAATTAAGAA GTTTAGTTGCAT
TATCATATGAGATTCGAATTAATAATGAATTTAATTTACTTCCATAATTACTATTTT TTTCTTTAAGATT
TGATATAGTAAAGTTACTAGTATACTTATCCTTAAACATTTTTGGATTAATACCTAA ATGTGACTCAGA
TATAAGATCTGTAATTTGGTAAACATCCTTTAATTGTTTAACAGGTTCTACTAGATT GATATTACTTCTT
AAATCATTATTTAATTTATTTGTTATTTCTAAATCCATATTAAATTCATACTTATTA ATGCGATCACTGA
GAATACTATCTTCGCATGATAACATTAGCTTCATAATATTGATTGCTTTTTTCTGAC TGTTATATAATGC
GGATAGATATATTAATGCACTAGTAAGTCTTTCACTATTGATTAATAAAAATTCTGG AGGAATAACTCT
AAATCTTCCAATGTCATGTAAAGAAGTAATATTATTTATTACCTGTAATAGATCAGA ATTATCCATTGT
ATAGTTAAATTTAGAACAATAGTCTAGAAAATTAGAGAATATTTCATTTATTCGTTT AGATAATTTTTC
ATCATCTATATTATTGTAGTTGTCATATAAATACATATTATGATTCACTTCCTTATT TATTAATCAACTT TAGGTTCATTAATTAATTTTAATTTAATTAACGTATTTTGATATTCATTTACGAGATTTT CCATTTTATT
AGTATTATCGATATAACGATAATAACTAATTCTACCTTTAAGTTCATTAAATGTCAT TGAAATATTATT
AATATTATTTTTATTCTTAGATAATTTAAAGAAAATAGTCTTTAGTAGTCTATACAT TTTCCTATCTAAT
GTACATTGATCATTGTGATTAATTCGAATCCCTGTAATTCTTCTTTTGTTATTCGAC ATTTTAATAGTTT
TTTCATCTTTAATAGATAAATTACTATAATTATATACTTCAAATGCCTTATTAAGAA TGAACTTCAAAT
ATTTTCTATTAAAGAATTCACTTTTCTCGTTTGATGAAAAAGTAATATCATCTGCAT AAATAGAGAATG
TAATACCACTATCAATTAATACATTTTTAAGATATTTTGCCACATTACTCATTAACA AGTTTGATAATG
ATCCAGAAGCAGGATTCCCCTGATATAATCCACCAGTCTCTGGATTAATAAAGATTT CTTTGAATAACG
TATCCATTACTGAATCTTTATTATTCTTCTTCTTAAAATTTTCTTTACCTAACACTA ATAATTTAAAGTA
CTTACTAATATCTTCATATCTACAATTATCAAAGAATGAAGCAATATCCATTTTAAT AATATATTTATT
ATTTTTATGAACTAATGCGTTATCTAGTATACCTTTTTTCTTTTGATAAGCAAAT AAATGTTTTTCAACA
CCTTTATTAGATAATTGAGTTTCTAACATTCCATTAAAGATATTATTAAATTTTCTA CTAATATCTTTAA
TATCATTATGTGGAGCATAGATATCTCTAATTTTTGTACCTTGATTAATCTTGAAAT GTTGATATAATTT
TTCATTATTATTCTGAATTAATATTCTGGTTAATAGTAACTCTAGTAATAATGGTTT ATTATTTGGTTGA
TCTGGCGATATACTTATATCTAATAAATATTTAATCATTTTAATCATTTCTTTATCA TCTGTGATTTTAT
AAATATTATATTTATTGTATATATCATTTGTATTTGTAATAATATAGAGATAACCAT CATTCATTTCAAT
ATATCTATGAGATATATTGAGATTTCTATAGGATAATTTTATACTGATATTATTAAT AAACTCTGTAAT
TAAAGTTTTATCATAAGTAACAACTGGTAAATCGGGATATCCTTCATTAATACAAAT TTCATCATTTGA
GAGCAGATCATAAGTCTTAATAATTTTTTCTATATTTTCTAGATGAATGTCATTAAA TTCCTCGTTATTT
TCAAATTTATTATTTTCTTCTAGATATGATATATCTTTTATTGATTGAATCAATTTA TTACGGATATTAT
ATTTAACTAATTTAGCTAATACCTTTTTATCAGAAATAATATTCTTTTTCATTCGAA TATCTATTTCTGA
TACAATCTCTCCATTTATATCGATTAATACATTATCGATTAATATTAGTGATAGCAA ATACTGTCACAC
CTTTCCTTTAATTATTAAATTATTACTACATAAATTTACTATTTAATATTCATTATA TGATCCCACCTAT
TTATTTTATTTTACATTTTAATAATATATAAATAAAATTTAAATAAATATTCCCGAT ATCTCTATAATAG
GAGATATCGGGAATATATTTTATTTAGTTACAGTTACGTTAATTTTTCTTTTCATGG AAGTAAAAGATT
CAGGAACAACGGTAATAATTGTTTCACCTTCACTTACGCCAATAAGTTTAGATGGAT TATTCTCATCCA
CTTTAACGAGTTCTTCACCTTTTTCTAGAATTATCAGAACCTTATCACTAACGAGAT TATCAGGAGTCA
TAGTTCCGATAATATCTTTACTTTCGCCTTCTTTTATAGTAAGATCTTCATCTACGC TAAAACTTTCTGG
TTTGGTAATTCTATCGTTAATTACAGATATTACGTCTATAGTATCAATAGGTGTATA CCACGAAGAAAC
TTGTCCTGCAATACCTCTTGATTCATCTACTACTTCATCATAAATGATACAACCGCT TACATCATCATAC
GTAAGTCGATGTCCAAAAGCTCTTGATGGAAAAATTTGAGATTGGGATGTTGTTACA ATTGTGGAGAT
TAATAGTGGATCAGATAAATCATTATGACGATCGATAAATCCTTTTACAGTTTCAAT AGCTATCATTTT
TATTATTCATTCCTCTCTATTTTAACGAATATTTTTTCTGCGATTAAATTCAGCTTC CTCTTTCTTTTCAT
TAAGGATTGTTAGATGAGTATCTATTCTATCTTGCTTTGCTTCCTTATCACTTTTAA AAGTATTATTGTT
AATAATACTTTCACTAAATACGTTTGGATGAGATATATTGCTTTTTTCATTAAATCC ATCATTGAAGAA
AATACTTTCATCAATATTTTTATTATCCATATTTATAAACATCCTTTCCTACATGAT TATAAACCTTCAA
AGAACTTCCACATATTCTCATCAACTTCTCCAGTAATAACCATATTAGATACCATTT GTATTTTTCTTAC ATTATTATAAGTATCCTTATCATATATTCCTGAAACACTAGTTGTTGTAATTGCAAATTT ACGTTTATTA
TCATTTATCTTTGTTTGAATAAATAATACGTCTGGTCCTTCCATAAGAGGATTACTA TATTTAAGAACT
CTTGTAAATTCAACAATAAGCGTATCAATAATATTTTTCCATGTTATGGGTCCAACA ATTCCATCTTCA
GTAAGATTATTTGAATGTTGAAATGATTTAACAATAGTTTCAGTAGAACTATCATAA GAACCAGTAAC
CTCAATATCATATCTTAGTTTTGAAAGTTTATTTTGAAGCGTAATAATATCGTCACC TATCATCATTGGT
GATTTATAACTAAGCATTCGATGATAGTTTGAATAGTCTTTAATATCATTTAATGCA ATTATCAATTCA
TTAATTTTATCAAAGTCTTCTTTCTTCATTCTACCATCAACTTCTAGATTAAATGTT TTTTGGAATATTCT
TACCGAGTTATATGTGTATAAATCATAGATACCATTACGAATAGTGATTGGGATATT AATCATAGATA
AATATATTTGTAATAATTTAACGTCATTACCGATAACTGGTTTTTCTGGATCATAGT AGAATTCCCTTTT
ACCAAAACTATAAGAAACAGTTCCTGCAGGATTGTCTACATACATCGGTACAATAAT AGAAAGAATTT
GGGAACGAAGAACATTCATATCAACTAATGATCCTAGATTACTATATTTTGCATAAT ATTCATTTAATG
AATGAATGTTTCTAATATTTCGATATCGACCACTAATATTAGCACATAGATTCTCTA GAGATACATATT
GGCTTTGAGTTAGGTCTTTAATCTCCGTATTTCCTTCAAGACATATAAAGATTTTAC TAGAAGATACTG
GATCAGTATTATCAATGAGTTCAATATCTTTTCCAGCAATATTTTCATTAAGATACA TTTTCCGCATTAG
TAAGTCAATATTACAAGGTAATGCTCTTTCGGGTCTACCTGAAATAATATCCCCTTT TTTAGTAATATA
ATAATGGAATGCAAACATCTTTAATCCTAACCCTTTATGAATTGATTCTAATGTATC ATAATCCATACT
AATATTACGACAATCTAAAATAACTATATTTGATGGATTATTCTTGTATATAAGATC TTTTACCGGGTC
AGGAGTTGTATCTACATAGTTCTCATCAGTATTAGCATCCAGTAAAGATAACATGTA TGATATATGACT
TCCCCACATATTATTCCATTGTTTTCCATCTACTGAAAAAGTTCCCGCTAAATCATT TTGATCATAAGA
ACCGCTTCTTGTAAATTTATTTAAGTATCTTAAACAACGGTTTAATAATGAATACGT AGTAGATATTTC
AATAGTGTCATTTATGATATTTAAATAACGGATACACGACTCTGCAAGAATGCTTGC ATAATAGGTATT
ATCTCTAGCACTGTTTGGTTCATATACACTATTAAATTTTGTGATTATCCCTTTATT TTCAGAGTTCCAT
ATAGTATTAATAGATTTTATAAATTTCATAATGATATTATTTACATTATTATTTACG TAACCTTTTTCAA
GAAGTCTAATTAATGAATTAATGATATTATATTGAAACTCTCCCCAATCTCCTCTTT GATCTAAACCTT
CCCACCTAAAACTATTAGATGAAATATCAAAGATAGGTTTAAAGAAACCTTCTACAC CTTTTTCATTAT
AATATTCTTTTTGAGATCGATCTAAAATATCAATAAGTTTAGTTAATTCATTAATCA TTCCAAGGTCAT
ATAATACTTCTGGTTTTTGATAACCTAGATATATGTCATCGTTCCAACTATCAAGCT TATTATTAATAGT
TGTTATTGAGTTAGGTAGCATTATATTTTTCATATTATTAGAATAATTATCAACGCT TTCGATATAATCG
ATATTTATAATACTAGGAATATCTTTTTCCTTTTCAATATAAAACTTATTAAATGTA CGATCTAATGAAT
AATTTAATAATGATCCGATATATTGAAGCTCAATGAAAGAAGAAGTAACCTTACTTT TAAATATTGCTT
TGGTTAATGGAAATTTAACAGATTTTCCATCAGTATTAAAATTAACTTTAATACTAT TAAATAAATCAA
CTGATTTAGGAAGATTTAATTTCCATTCTACATTATTACTATCATAGATATATAAAT CAATTCCATCACT
AGCACGATAGCGAATTGTAGGGTTTGTTTTTGTATTTCGACTAAAAGGAATAACCAT GTTTGACCAACC
ATCATAAGAACCATTATCATTACTTTCTTCATTAATCGTAAAGGTAGCTTTAATACT ATTCCGAGTTTC
ATCATCAGTAGATTTCACTTCAATAATTTCAGAAATACTATTCGGAGAACTCTCTGC AATATATAATGA
TTCTTCAGGAAGATTAAAATTATCCCAGATTACTTCACGGTAATCTTTTAACATTTC AGGAGTCAATCG
ATATTTATTAAATTCATTATCTTTTACATTCGTCTTATAGAATCCAATATTATGATC TTTATCTTCAATA ATAAATTTTAATACTTTATCATTATCGGTTTTAATTCTAGATTCTATATATGAAATATCT TTAAGCGTAA
ATAATTTATTTACGCCAAAATGAATATCTTGATTAATTGAGATTGAATTTAGTATAA CATTTCCATTAG
TATCATCACGATAAATTAATACAGAATCTGAACTATCTTTATTAATAAAAGAGCCAC TATCAGATAAT
GGATCCAAATTATTTATTTCAGAAGTGATCCATCTAGGTTTAATTGGCATATCTAAT ATAAATTTAATA
GTATCTTTTGTAATATCCCTTGCCCTCATCCATTTACTATTCGGTAAAATATCATAA AGATTACTATAAC
ATTCATAAGAAAGCAATAAACTTTCAATACTGCATATATTTTTATTAGGATCCAGAG TATGCCAATAAT
TTGTAGGATCATATTTCTGATTAGATTTAATAAAGTTATCATTATCTAATTGAGTAT ATACTAGTAATA
GCGTGCTGTTAACATCTTTATCTTCTAATACAATCCTTACAGTATTATCTTTACGGA TATAATACTCTTC
AATATCATAGCTTATACCTATAATATTAGAAGCCGGATTATTTTCATCACTTAATTT AGAACCAAAATC
TCTAACACTAAATAATTTTTTAAAATTGCTATCCGTACTAAAAATTGCAATACCATT AACAAATTCTGC
CGATTCATTCAATATTAATTTTTCAGAATTAAAGGGTTCCGATGCATTATATGTAAA ATGAGGAACCCA
TAAATTATCTTGAGAAAAACTAGTTGGAACATCATTTGGATATAAGGTATCAATGGT TGCATTCATCGT
AGATTCTATTAATTCTAAGGATATACTTACGCCAGAATTATACTGATATATAAGTGA ATTAATATATTG
AAACTGCGAAGTAGATGTTCCTGAATTAATATTAATATAATCAAATAAGTAATCTTC TTTTATATAATT
TAATCTAGACATTGAATTAAGATTTATAGATAATGGACTAGTGTTTTTTGTATTTGC ACTTACAAATTT
ATTATATTCAGATATCCATTTTCTAATATCTTTTAAATGAACATCTAATTTCTTTTC AGAAAGATATTTT
GTCAAATTTATCACCGCCATTCATATTATAACATTTTGTTTAATATCAATTTAACTT TTTACCCAACCTT
TAGTATTATTATATTTATATTTAACTGTAGTAATTTTAGTTTCATTAATAACTTTCT TAAGACCTAATCT
TAATACAAGTGAATCCCTATTAATAATATTCCGTGCAGAAACATATCTAACTTGTTT TGTAATGAATGG
AATTGTTCGTTGAACTGTAGAGAATGGACTACTTGAGTTGTCTCTACTCTTTGGTAA TCTTTGAAGATT
ATCAGAGTTAAGCGTAGATATTCGATTAAGACCAGTAGGATCGATCTTCCATTTTTT ACTTTTACCACC
AAGATTAACTTTTTGTCGCCACGTTGCAGATCCTCCACCATACTTAACGCTCGGGTT AGGTGAAAATCC
ATTAGACGATGTAGTAAATGTAGTTTTAGACGCAAATCCTGAAGGACTTTCATATAA TGGCATTAGTA
AATTAGATGGACTTCTAATGTATCCAATAGTATTTGCAGGACTGCTTGTTGTTCCAG TTAATGGCAATC
CTTCAAACATATCCCATGATAAATATCTATTCGATATTCTAGTTCCAGTAGTTTTAT TTACTTTATTATA
GAATCCTCGATAAAATACACCAGTACCTTCAGTAACACTATATTTTTCACGAGTTAG AGGATCAATTGC
CGAACCTTGATAGAACCAATCAGAAAATCTAGATCTTAATCCAACACAAGCATCTAC ATATTGGCTTT
CTGAAGTATAATTCGAACTAGAGTAGTTAAATAATCTTCGATCCCAACGACAATCAT ATGCAGTTTTTT
CATATGATACACTTTTTTGTAATTGCATTGTTCCTGAAAAACTTCCCATTTTAATTA ATTTCTGATTTAC
TTCATCCATAAGTGTTTTAATATTATTCCATATCTGTAATAATTCAGTATTCTTACT ATTCGCATCATTA
CTAAATGCTTCAGTCAATGAATTATTACTAAGGTTATTGAATATATCAATCTGACTT TGTATTAAGTCA
TTATATTGTCCTAAGTCTAGTCCGTCTAATTGTAATGATATATCACCTAATTGGTTT ACATTATTCTTAC
TTATTTTACCTAGATATACTGTTTTGAGTCGGGCAGACTCCATATCAGAAAAAATAT CTAAACTTGTAT
CAAATATTTCTTCTTGTTTATTATATATTTCATTATATATATTATATAAATTATTAA TCTTTCCAGGTATT
ACATTCTTTCTTAATTTTATACCTTCCATATCATTCTCTAGGAAATCAATAATATTT TCTCTAAGAACTT
TAGTAATTGGTATTGGTAAGTTAATACCTTCCTCTGTAACGTATATGTCATGTTCTA CTAGATCAACTA
ATAACTCTCCAGTCTTCAGAGTATTAAAATATTTTTGAAGATAGTCTTGATACGACA TTGGTATATAAA TATATCTTGACATTAAAATTACACCACCATTATTATATAATATGTTTAAATGTTATTGAT TTAACCTTTT
TATTACTTATCTTCCCTTTAGTCTTATTTACTAATGAAGTTACCCATGAATCATATG TTGATTGAAATGC
ACGAGAATCTACATTTTTCTCAACAGTAGTATATCTTGATCTCATATTAGTTAAATC AGTTCCAGTTTTA
GTCTTATAACCTTTTATAAAGTTGTATAGATATGTTAATTCAGATAATCTTCTTTGT ATTGAAAATATTC
CAGGAAGCTTTTCTACTACTTTTGGAATAATTGTTGCGATAATATCTACAAAACTCC ATATATCTACGG
TATTTTGTCTGATTTGATTTTCCAATGTATTTAATATTGCAATGATCTGAGCTAATA ATTCTTTAAGACC
GTTCATTCGATTATATAAATCATTTGTTTCAGATAATTTTGTCTGATAGAGTGCTTC CAAATTAGATATC
TCTGTTTCTAATAGAGTAATAATGCTCTTAAGAGTAGAGACTAGGTACTTCTGTGAA AATAACTCACCT
TCAATATCCTTTGTAGCTGATTGATCATTAACAATTAAATGACCAGTACGAGTATTT ACTAAAAGTTCT
GAATCTTTCGATTCCAGTTTAGTTTTTTCAGTTAATGGCTGAACGTACAATCTATAT GTCATAACTTATT
ATCACTTCCATATCATTTTTAAATTTAAGTTAGCAGTTGATATATTAATTATACCAA CTGCTAACTATAT
TAGAAACTTGTAATAATATTTACAAGCTTAGTATAGAATCCTTCATGTTTATCTTTG AATGCATTATATT
TAGTTGTTAATATCTTTTTATTAGCTTCGATTTCAACGCTTCGTAGATTGTAATAGT TTCTACCAAGATT
ATCAATTACTGTAGTATATAGATCGGCATAATCTAATAAATCATTTCTTAATTTAGT AATATTAGTACT
TAGATTCATTAGCTTATTATAGTTTGTTAAGAAAGACCCATCTACATTATTTGTAAT ACTTGTTATCTTA
TTACGAATATCAGTAATATCGGAAGTAGTTTTATCAACTTCAGCTTTTAATGCATCA ACCTGAGTTTTT
AAATTATTTATTCCACCAACAACTGCGTCTACAAAAGGTTTTAATAGATCATTATTA CTGTCAATTTCA
GATAAATTATCTCTTAACCAAGATAATTGATTTTTATATAGATTTGTTACTTTAAAT ATATCATATATAA
CTGTTGAGTTTAATGATAATAAGTTATTTAATTCTTTTGTAATTTCAATAATTTCAT AACTACCAGTATC
AGAATTTTTCGTATTAGATACAACGGATATATTTCCAGTATGTTCATCAATAATCAG TTCTCCAGGAAA
TCTAAATAGATCATTTTCTCGACTAAACGGAATTAATACATTTCGATCAAGATCTAC TGGAAGATTATA
ATTCTCAGTAACATTATTATCATGATCAATAATTCCGCTAGAGTAATTATTTACATC AATATAATAATA
AGAACTATTATACATATTATTTGACTGTTTTCTAGCGGTAATGATTAGTCGATATAT ACCATTTACACT
ACTGATATTCTTTAATAATGGGTCACCTATATTGATGATTGAATTATTAAGTGAAGC AGTATATACAAC
TCCCGGTTCTTTATTAATAATATCCAATACAAAAGTTGAATCAATATTAATAATTTT TCCATGACTAAT
ATTCTTAGCAATTGGTTTTGAAGGAGGTATGGTATCAATAGTGATAGTTTTAGATGA AGATGAACTTTT
ACCATTTAACTTACTAGTAGCTTTTACATTTAATGTAAATTTTCTAATAGATTTAAC GTAATTATAGTTC
GTAATAGGATCACCTAGAGTATACGGTAAACCATTTATTGTAATTTCATAGGTACAC ATTGGGATTCTT
ACAATATTAGGAATGATCAAACTATTTGTAAGGTTTCCTGAATTATCTGGAATATTA ATTACTGGTAAG
TCTGGTACTGTAACATTTAACATGTCTGACGTAATTTCTAAATTATTTTCAAGAATC ATATCATTATCCA
TTATTTTTCTAGCAGTGATGATGCAGGGTTCAGTAATTATAAATGGACCAGTATACT CTTTCCAAGAAT
TGTTAATAGAAGTCTTATACAGTTTACTTTTAATGTGTTCTCTTTCAGACTCAATAA ATACATATTCAAT
AGAAATATTATATGACTCGGAATAATATTTTTTATCATTATAATCTATTCTTGGTGG AGTATAAATATA
ATTCTTAACAATATTAAATTTAAATGTAGTATAACTTAACGTATAATTATGTCTATC TGTAAATACTGC
TAAGAATTCATGAGTCCCTCCCGAAGTGAATGTTGAACCAGAAGTATAATTGTTTCC ATCAATATAAC
AATTAAGCGTATAATTTGAATTATTATTCATTACAGTGATTGTTATATCATCAGCAC ACTGAGATATAT
CTGCAGAACTCACATCAAAAGGAGTTAATGGTTTAGATGATGATATTGATATTGACG GATTAACTGGA ACTGTAGTTTGATCCATTCCAGTAGTATTAATAGTCTGAGTTGCCATTAATTTATGTGAA GAATCAGAA
ACATTAGTGATATTACTTCCAGAAACTCCGCTAATCGTAACATCATCATGTAAATGG TTTCTCGTTGAT
GTAGCATATCTGTATAATTTAATAGTAGAATCAAAAAATATCGGCATATTATAGTTA GGCATAATAAA
TTTTTTCTTACCATTATAATCCATAACATACATACTATTATCTTTATCAATTTTACT ATCAGGCTTAAGA
ACAATATCATTAAATAATGGATTAGTATCACTAGATACTGAATCATGATATATAACA GTACTAATAAT
ATCTCCAACTTGTTCTGGTATAATAACTACGTTTACGGAAATCTGTACTACATCTGA ATCTACGCCATT
GCTAACATTAATATCTAGATTATAATCTCCTTCATCTTTAAATGATAATTTTAGTTT TGGATCATTCGTA
TTAGTGTCTAATGGTGTAGCGGTATATGTTTTTGAAGGATCATCAGTATCTGTAACA CTATAGGTATAC
GATGAATCTTTTTCAATATGAATTATAATATCAATTGATCCATCCCCATTAGTAATA CTATCTACTATA
GGTAAGATTAATGTTGCATTATCATCAGCAATAACTGAGAAAATTAAATCTTCAGGG GGATTAATCGT
ATTTATAAAATTAACAATCATTAATTCGTCTGAATTGAATAGTTTATTTATATCGAT TTTTCGATAAATA
TTAATCTCAGTATCAGTCTCATATAGCCCTAGATATGTGAGCATTGTATCTGAAACG TAATCGTTAACC
TCTATAACGTCACCATCATCATTAGTTACCGTTATATTAGTAGATTCCTGTAAGTCA TTTACTAATTCAT
TCACATATACTTTAAACGTATACTGATCGGTACCTTTAGTTAGTTTAATATATACGT CATTATCTTCTGC
AATTGTTATTGAAGTTGGTAATGATATACTAAACATGTTATAATTATTTGAGTCTAT TGTAATGTCATT
ATCAGTACCATTAATATTTAGTTTACCATTATAAATTCCAGTACCTTCAACGTGATA TACTCCAGTAAT
ATTAGAATCGCCAATATTAAATGTATCAATAGATAATTGTATATTTTCACTTCTAAC TACTAGTACTTT
CTGATTATCTGCAACTAATATACCCTTTGAGTTGTATATCTTAAATGATATCTCATC CGTATCTGAAGA
TATTCCTGTACTAGATGTTATTTTCATCATTTTATCATTTTTCGTATTACTAAATTT AGTAACAGTTGAT
GTAGTTTCAACACCATTAATATACATAATAATATTATCTAATTCACCCTTATACTTA GCAATAATCTCA
GTTGGATTATTTCCATTAAAGAAGAAAGGATAAAAGTCTACTGCAGTATAATCAATA TTTATTGCAAC
CTTATCATTAAATGTATCTACACTGTCTGGATCATCTGAGTCTTTTGGTATAGAGGG TTCATATGTGTC
ACTATATTTTACAATAGGATCTATAAAGTTGGTATATAATCCTGCAATTGAATCATT CTTGACAATAGG
TATATTTTCATTTCTGATTGATGTGTATGTTGATGGAATATCTACTCTATAAACATC AATATTAGTACCA
TACGCAGAAGTATGTCTAATCGAGTCTGAATTGTAAAGATATTTATTAATATTCGAT TTATCGATATAT
CCACTGAAAACATATATATCTGAAAATTCATCCATATTGAGAGTATATTCCGTTACC GTATCACTAATA
AAATCTTCATCTTCTGATATTGATTGAAATGATTCAATTAAGCTTTCTTGAAGATCA TTAATAAAATCT
TCGTTAGATAGATCATCGTCATCGCCAATAGTTGAAGCACTTAACATAGTGATATTA TTCTTACCAATA
GAACCTTTTACAACTGAACCATTACCTCCGCCAATAATCTGCGATATATTATTATTT ACATTAAATGAT
AAATTACTTACATCTTTTGGTAATCTAATTGCTTTATATAGGAAATTATCATTTATT CCTTGAGTTAGTA
TAAATAGTTGATATAATATACTAGAATCATCAGAATAATCAGAAGTTCCTCCAAAAT CATTTTCAATA
ATAACCCTAAATTTCAGTTGAGTTAATCCATTATACGCATTTGTACTATTATTAAAA TCTTCGTCTCCAG
TAATAAATCTTACTCTACTACCGTTACCGCCTGTGGGTGCTGTACTTTGTAATGTAA AGACTTTATTGG
TAGTACTCCAATTACTCCATTGATCCGATCTTTCATCTTTAACCGAATATTCTAGAT ATACTTTGTTAGC
CCCAAATGATGGAATTGAACTTATAAAATCTTTATAATACTTTCCATAATTACTAAA GTATGTTATATC
TGCAGGTCTAGAATATAATGGATTAATACCGTTATCAATAAAGAAAGGATTTACATT ATCTATCTTAAT
TGGATTTGGTTTAATCCCTTTCATATCATAATTCATTTTAAAATAAAATTTACGTGG ATCAACTAATGA TTTATTAGTTAAATCGTTAAACGCTTCTATTGTTAATTCAAATACTTTATTATGATAATT ATTATATACT
GCGTTTGGATTATCGCTTGCCAATGACAAAGTATATCCTGACGTATTCTCTTTATAA AACTTCTTAAGA
TCTGGATTATTAAGTGCTTTTATATTATATCGATAAATTACTGGTCGACCAGTTGAA TCATTTACCCCTG
AAAAACTAAAGGTATAATTAAGCTTATTTGCTTCACTAGTGTTTGCAGGAATCACTG TAGGATTATTTG
GATCATTACTCATAAATGTTAAAAATGATCGATCTTCATTTAACATACTAGCAGTAG TAACTATCCCCG
GTGCGCTCTTACTAATATTTATTACGTTTGGCATATTAGAAAGATTATTAAACACTT CAGTATTATCCG
GATCAATATTATCACTATATGATAGTACTGTATTAATTTTAGTTTCATCTGAAAAAT AAAATGGATCAA
TATCAAGATAATATAAATCTCCAACTTTAGTATCATAGTTATCTTTAGATAATCTAA ATTCGTGTAAAC
TACTCTGCGTTGTTACTTGGAAAATAATATCGACAAAAGCAGAATCTTCCGTACCAT TAATATTTTTAT
TTTCTAATTTTCCAAAAATAGAGAAACCGTTCTGATCTCCAACTATAGACTCATTTC CTTCCGTACCGG
ACTCAACTTCTATATTTGTGTATGTTAATGCTTCTCCATATGGATTCTCTACAAAGA ATGTTCTAGCAAT
TCCATAATCTGCAGGAGTCCAACTTTGTATGAATTGTATTAATTGTTCTCTAGTATG TGCTATTACTGTC
AAGAAATTTCACCACCTATATTTATAACTTCTTATAATTAATAGTTTAAAAATCCAT ACTAAGAAATAT
TTAATTCCTTAGTATGGACGATATTTTTATATTATCGGATCAATAATATCCGCTTCA GGATCATAGATTT
TTTGAGGATTCATATCCAAAATAATATTCTGACTAATATATTTGTTATTTATTTCTT CAGAATCTAATGA
AATATCCCAACTTAATAGATCATTATTATTACAATTAATAATAGTTTTTCCACGTTG ACGCATATAGTC
CATTAGAATTAATTTCCGGATACTACCTCTAGAATTATCATTTGTTATTCCAGTCAA TATATCAAAATT
ACTAGTTTGTCTTACGTTATAGTATGAATGATAGTAATTATCGTTTAAATTCATTTT ATCATACTTATAC
CAATCTAATATTAATTTAAGTTGAGTATGATCATCGTAGCTAAATCTAATCATTACA TTTATTAATGGA
TCAGCATAATCAATAATTTGAATACTTTTACCATTAAGTATTTTTACTTTACTAGAA TCTATTCTTAAAT
TATTAACGTAAACTGTAAATGTGCCTTTAATAAATATTACTGAATCGTCATCTAAAC TGAATACATCTG
TTGTTCCTTCAGCCGGCTTACTAAAAGTTCTTATATAGTTGGAGTTTTCATTAAGAA GATTTATTTCGAT
AGTAGATGTTTTAGGTACAATGCTTTTAAAAACAATTAATGACGGAATAGATTCAAA GTCAGGATCAA
TAATGGTATAATCAATTCCAGGATATAATGTTAATCCATCGATATTAATATCGATAT CTTCAGGATTAC
TATTAATGTTTGTAAAAATATTTGAATCATCATCTAACGTAGCAAATGGTAAACAAT CAATATCATATT
CATTTAAGTCTAATTGATTGTAGTATAACGAGCCACTATTTGTACCACTAGTCAAAA GATGTATTTCGG
TACCTTCATCCATATAAGATGAACCATATACGATAAGTCTTACTGTATTATATTCAG GTTCAATCTTAA
TATAATAATTGTATGGGTTAATTCTTCTAAAGAAATTCCAAGTTTTCTTCTTAATAA AGACTCTTAATTG
TGAAGGAGTAATTCCCGTTGGTAATGCAACATCCGTTAATAGTATACCAGTAGTTCC TAACATATTAGT
TTGATCTTCAAACGTATTATCAATTATATGAGTCTTAATTGTTTTCTCGGATTCAAC AATCTTACGTTTA
TTACCAGAGACAATTACTTCATATTTATCCGGAAGACTAGAATTCCCATCTAAAACA TCATTAGCATCA
TTCACATCAATATATTCTTTAATAAATCTTGAAGGCATGTATGCATATATTTTTCCA TCTAAACTATCTT
GTTGCTTAATCGATTTACGGAAAATATGTTTACCATTAATAAATATATCAGATATTA ATGAATTTTGTT
TCTTTTCATATGAACCATATTCCGAAGTAAAATCAATATAACCATACTGAGATTCAT CATTAATAAAAT
TATTTATAAACGGATCTTTTGTAACTTTTATTTTAGAGTTATCCAACTTAGTTTCAA ATGAATTATGTCC
CATTGTCTCTATAAATAATGTTTTATTACCTTGTTCTAATTCATTAACTAATGATTT TTCAATCATCCGA
ATATCATTGTCTGTATTCTTATATAAGATATCAGTAACATTTCTTGGATCAATATCC ATTTGGAATGTTT TAGTCTCTATAAGTTGTTCTGAATTAGTATTAAATATACTAAAGGTTATATCTTTATTGG GGGTGAAAT
TAAGTTCATCAATCTGTAATCGATAGTACTTTTCTTCTAATTCTGGAAGATCGTCTG GTTTATAATATAC
ACGTTGATAATTATCATTACCAATGATATTAATTAAGTCGCTTGAAACATCATCATT ACTCTCAGAAGA
AGAGAATATCATATTTTTAATCTTTACAGTAAGCTTATAATAATCTTCGATTCTTTT AAAATTATTAATG
ATGATAGTCTTTCCATCAATAGTTATTGTCATTATATATTCGGATGATAATAAATAT CTTAGTCTAAAA
TAGATTGATCCGTTCAGATAGTATGCATTCTTATATAGAATTTTATATATAATGTCT TCTGGAGTGGCTT
GAATATTTTTATTAGAATATCTAACATCTAAATCTTCATTAAGAACAGTATATCTAA TCATATCATTTC
CTAAAGGTAGCATTAATTCTGATAATACTGTTTCTTTATCATCAAAAGGAATATACA TATTGGCACTTT
GGTTTGCTTCAGGAAATATCCTACTAATAGAGTTCGATCTATAGTTTAGAGAAACAT TATAGTTACTTT
TATCTACAATATCTAAACTATGCATTAAATTAACATGAACATTTAAGAAAAATTTAC TATTTGTACTAT
TATTAAAACTGCGTTTTTCTATCCATGTATAATCAATACTTAAATCAGGAAGATATT CTAATTTATAGA
ATGTGGTATCTCTACTAGAATTATTAACAATAACAAATAGATTGGTTGCTACAATAT TTTCTGGATAGT
TATCTAACTGAATATTTTCAATAATATTTCGCTTAGTATTAATTAATACTAATTGAT TCATACTATCCAT
AAGAATAATATAATTTTTAACCAGTACTACTTTATCAATATTATTTCTAACGTTTGC TAACCATGTTTTA
TTCGTCAAGTTATTATTAGCATACTTAAAACTATATATATTTCCACTATATGATGAT ACGTATAATGTA
GATTTATCACTATCATATATCATAAAATTATTTGTCGATAATATTTTATCATTATAA TCTGTCTGACTTA
ATGATACTTTTTCTACAATAGAGTTATCTACAGACTTAATAATATTAATATTAAAAC TATCTTTTAATTC
TAGTCCTATAAATATTGTAAAGTCGATATTATTCGATTCAGGAATGATTTCAAAACC AGAAATAAAAT
ATGAAGCGGTATACAACACTTTTGTTGTATTCGTTATAGTATTTACTAGTATAATAT GTTGATACGTGG
AGTAGTATATAAAATCATTAACAATCCTTAATTGATTTACTAATTCATACTCATATG GAGAAGTATTAG
TTATTTTATTTATAGTTCCTGAGATATTATACATTCCAGTAGTTGTATTTCTACTAA AAGATACATAACT
GATACCATTCTTATGAAACATATATATCTTATTATCGATAACTGTAAAATCGATTAC TTCCTCATTAAT
ATCAAATGAACCTACTTTTTCTCCAGTACCAAAGTCTTTTATAATATCAATTCGATT CTTAATAGAACC
GGTAGGATATTTATATAATCTGAATAGTTCTTCTAAATATATACACATTGCAGGCAT ATATCCTGAATT
AGCATATGATATAGAATGAAATAAGTCTAACCTATTACGTTTTTGATATTTATCTAA TATATTCCCATT
CAATGTTATAGTCAATACTTTCACCATCTTTCTTTTACAATTATAAGGAATCGAGAA TAAAATATCCCG
ATTCCCAATTTATTTAAATAAGACTTGAAAAACTTGTAAATGTTTTTAGAGAGAATT TACCTAATGTAT
TTTCGATAATTGCTTCTCGATTAAGGTTAGCGCTTATAGATGATGACATTACCATAT GCATAAATGCAG
GAAGGTAATCAATAGCTAATACAGTAGAGTCTCCATACATTCTTACATAATTCTCTA AATAAGAGCGT
ACTTGTAATTTCTCTAAACCTTTTATTTTCTTGAGGTTATCAAAAAGTGTAAAGATG TCTTTATATAGTT
CCTTCTCGCTTAGATTAAATCCTTCTTCCATTTCTTTAATTAAAGATAATGAAGAAC CATTAAAGCAAG
CTTTATAGGCAATATCGTCTATTGTATTATTATAATTCTTTTTAGCCATTGCTAATA GATAAAACTTTGA
TAGAATAAAGGATACAAAGTCTGATTTAAAATCATTTAGGTTTAATGAAAACATTTT ATCAAATATCTT
TGAACCTAGTCTAGAATATGCAATAGATGAATTTTTCATTAATTCAGTATTACTTGT AAATCGATTCCA
ATTTCCATTTAATTCATAAGTAATCATTGCTTGTTGCATTAGTCCGAATAATGTTTT TGGTTGGATTTCT
CCACCTGCATTAGTGTATCGTGAAACATCAACTAATACGTCACGTTGATTGTTATAT CTTCTTTCAAAT
ACAATCAAGTATGATGGAAATTTATTTGATTTATTTGATATAGGAATGATTTTTCCA GAGTTATATAAC CCAACAACTTTATTTTTAGTAGGATAATTAATTCGTCTATTAATAATATTTATATTTTGA TCTAATACAT
CTTTAGATAAAACATCTTTACTAGTGTTTATTTTATTAAGTTTTATTTTAAGATCAT GCTGAAAATTAGA
TGTATTGAAAATGGCGGAATCACTTAATTGTACCATTATTTCACTTTCCCTTCAATT AATTTATATGATA
TTAATTTGTTCAATATATTAACATTTTTTACATTTATATATTATAAATTCGTATAAT GGAAATATAATAA
AATTTTCAGTTTATCGGTTAAAATATTATTATATTATAAAATAAATGTGATAAGGAT GGATTATATTAT
GAGTGATAAAAAAATGCTTAAAGTAGGATTTCTTAGCCCAAATGATGATAGGATTCG TTTTAAAGAAG
TAGATTTTTCGAATAGTGAATCTTATGATAAAGAAATTGTGAGTGTTATTAGTCCTA CCGGAAATATTG
ATGCAGGAATCATGAATCTTAATGAAGATTTAGAAATTCGTAACTTCTTAATTTTAT TTGATAATGAAA
TGTCAACAAATAAAGGAGAATATAATTTTACACATTCAATTAGTCCTCTTTTTGGTG AAGTTGCTTTTG
TAAAATTCGGTTATACTGGGGATAATATGGAACCAGTAAGCATGTTAGATGATGAAG CTGAGGTTCTC
AGTGATATTATTTATCAAGAAAAAACTTCTGATCGAGCAATTGAATTTAAAGAAAAA ATTCTTGAAGA
AGTAAGAATTTACGGTAAAGATGGATTTTTACGTAAATATAATGAAAGTATTGAAGA GGCGCAAAAA
ATGTATGAAGATAATTTTTCAGAAGAAGAAGAAAAATAATTAAGAATGGATGGTGGA TTATAATTGTC
TAATATAAACGTAGTTAGTATTGCAGATTTACATTTTGGTAAGAAAGATGATAGTCG ACTAATGAATG
AATTAACAACAATATTTATTCCACAGATTAAGAATATTCATGAATCTGATAAAATTG ATTTGATTGTTA
TTGCTGGAGATCTATTTGACCGTATTCTTAAGTTTGATGAAGTTGGTGGAAAATTAG TATTGAATTTTA
TGCAAGAACTTATTGAATGGACAAATAAAAATAATATTTATTTTCGAATTATTCAGG GAACTAAAACT
CATGACTATAATCAATTAGCTGTGTTTAGAAAAGCAGAAGTTGATAATTATAATTTT AAAATTTATGAA
ACGGTATATAATGAAAAATTGACTATCAATGAAAAAGAATTTAATATTTTATATTTA CCTGAAGAATA
TCCTGAAGATATGAATGATTATTATAAAGAATTCTTTGATGTTCAAGAAAATACGTA TGATATGATTTT
CGGTCATGGAATGATCGATTTTGTAGCTTTCACTGGTTATGAAGATGATACTGAAAA AATTGTAAAGA
AAGCACCAGTATTTGTTGCGGATGACTTAATTAAAATTACAAAAGGACCAATATGTT TTGGACATATT
CACGACTATCATGAATATAAAAAACAAATATATTATTCAGGTTCATTCTCCAGATAT TCTCATGGCGAT
ACTATGGATAAAGGATATTTATATATTAAGTTAAACAGTGAAGATACTTCTGAATAT GAAATTAGTTTC
TATGTTAATGAATTAGCTCCAACATATGCCACTATTGATTTAGATAAAATCAAATAT GATAATATGGA
AGATTTAGCATCATTAATTAATGATATTCGTGAAGAATATGACTTCATTCGAATTAA ATCAACAAATA
ATAATGATAGTTCTATTGTAAGAAAAGTTATTGAAAATAGTCCTAATATTAAAGTTA CTTTAAAGAAT
AAGAATAACGAAGAACAACAAGTTGATTCTAAATGGAACTTCATTCTTGATAGAGAG CTTGATACTGA
CGACTCTATAAAGAAATTTATTAAAATTAAATATGATAAAGATATCGATATTAGTAA GATTAAAGCAA
TTCTTAATCCAGAGATTGAAGATATTGATGATATTATTAAGAATATTTATGATAAGA AAAAATAATTA
ATAATCTTTATTAAGAAGTGAATTATGAAAGGAATGTTTCATTGTGCCATTTATGGA TAATAGCGAAC
GTACAAGAGTCTTTAGATCTAGAATGGATGAATCTTCTCAACAAGAATTTCCATTAA AGATTTCCGTAT
CATACTTATTTAGTTTAGCAAGATATGTGGTATATCCAAGTAAACTTATCACTAGAA CTAATTTACGGA
ATTTAGATACATTATTATCAGCAGTCGATATTGATAGATCTTATTTAGAAAATGAAG TAATGGAAAAG
AATGCATTTATATTCTTAAGAGAAATTAACCGTGTATTATTACATCAACAATCAACA ATAGAAACATT
GTTTGATTATATTGATGATGAATTAAAAGATAGAGAAATCTCTGAAGATGCTCTTCA AGAATGTGTAA
ACAATATTGCAATGGTGTTTGATGATAATTTCATTCTTGATGATAGTGAAATATTAA GCTTAACAAACT ATGTAGAATCCAGATTAAAGATTATGGCACTATATCGTCAACGTGATAGAATGGAAGGTA TTTTAGAA
TTAATCAAAATGAATAAATCTCCAAACGAAATTAATACTGAATTTAAAGATTTTGTT ACGCAGAATGC
ATTACAATTAAGAAAGATTGAAACGAATAATCGAAGTTCAATGGACGATATTATGTT TAGCAGAGATA
ATGATCGATCAGTAGATTCACTAGACTCTACTATTAGACAATTAAGAAGTCCTAGTA ATAAATTATTA
ACAGGATATAGTAAGTTTAATGAAATGATTAATGGTGGTTTAGAGGATGGTCGACTT TATTTACTCTTC
GGCGTTCCTAAATCATTTAAGTCTGGTGTTATGTTAAATATTGGAATGTCAGTATGT CATAATAACGCA
GGATTTAAGACAAAAGATCCTAATAAAGAACCAACCGTTGTTTATTTATCTCAAGAA AATACAATTAT
AGAAACAGTAGAACGATTATATGAATATATTACTGGTACTAGTATTAATGAATCACA AGCTACTACGC
AAGATGTTTTAGAATTAATCATGCAATATACGTATGATTGTACTGGTATTTATTTAA AAATTATGTATA
GACCAAATAAAAGTATTGATACAAGTTATCTATATAATATTTATGATGAGCTTAATG AAGAAGGTAAA
GAATGCATCTTTATGATTCAAGATTATACTCGAAGAATTAGACCTTCTGAAGGGCAA AATCAAGATAT
TCGGATACAACTCGGTAATATATCTGATGAGTTCTGTACGTTTGCTAAGGAAAAAGG TATCCCTGTAAT
GTCGGCGGGACAATTAAACCGTAATGCAAATGAAATTGTAGAGGATGCTCTTGTTAA GAATCGTTCAG
ACTTTATTAATAAGTTAGGTCGCCATCATATTGCAGAGTCTGCAATGTTACTTGAAA ATGCTGATTATG
GAATTATCATTGGTCGACAAGATTATCTTCCAGAGGGTGAAGACGAAATTAATCGCA AAAGTTATATG
TCATTTAAACTTATTGCTTCTCGTGGGAAAAATAAGGATAAAGATAGCAATATGTTC TCTCAACCTTTT
GAAAATGGATTTAAAATTGCAGAAGATATTAATCTAGCTGAACCATTAGCAAAATTA AGAATTAATGA
ACAACAGTCTCAACAAGATATGGAAAATAGTGCTGACGAAGTAATTACTTCAAGAAC TCCTAGATATA
ACAGTACTAGTAAATCTAGTAGTATAGTTCCGGGAATCAATACTGGTAAGAGACGAA CAAATCTTTCA
TCAACAGCATTATTACAAGAAGATGATATTCCGTTCTAAATAATATTAATAACCTAA CATCCTTTTTTA
TAGGGATGTTAGGTTAATTTTTTTTTTTTAGATAGATTCGGCTTTTTGACGTAATTT ACTAAAATCGATA
TTAAACATTTTAAGTGTATTCATACTTTCTAGTATAGTATAAGATATAATAGATTCT ACAATTGTCATTT
CTGCAATATCTTCTTTTTTAGATTCTGATAGATCCATATTTTCCATTACGTATGATA AGCGTTCTTCACT
AATTTTCATATATAATGATTTTTCATCTTTAACTTCTACATTATTTTCATTGCATTT ATCAACAAAGTTTT
TGTATTTCTTCTCATAATCAATTACATTGATAACTTTATCTTCAATTACGTTTACTG CAGATTCAATTAA
TGATTTCTCCTCATCATGGATAGAAGATACAATATCTCCAACTTGGTCAAATGATAA TTTCTCTTCATTT
ACATAATGACTGACTTTTGTCTTAACAAGACTTAATAAGTCACCAAAGGCACCATGC TCTTGAATATTG
ATTGATTTATTTTCTACAATAGTATTAAAAGCATTAATACATTCATTATAAATATAA TCAACATTCCCTT
GTTTTTGAACTTCATCAATAGGAATAGCTCGGTATACAATACTTCCAAATAATGT TGGAGCTACTTCTT
CAGCATGTTCATTAATTCGATTTTCCTTTTGAACCATCTTTTCACGTTCTTCAGCTT CACGCTGAACCGT
AATAGACGTTGTTCGTAGTAATTTACTCTTGTTTTCCATATCTAAATTTTCTTGTAA TGCTTTTTCTTCTT
CTTTCTTTTTACGGAAATATTCAGTACGTGCATTATTTTCTTCTCTAAGATTTCTTG AACTTTCACCAAA
GATACTAAGTCTTGACATTAATTTTCACTCTCCTATAATTTTTGCTATATTAATTTG TTTGATAAGTTAT
ATTAGCTACATGCTCATATTTTTTACCTAGATTGATAGTAGTGACTTTACCATTACT ATCTGTCGTTTCT
ACAATATTATCAGAAAGTGTTTTCTTAATATTGATATATTCAGGAACATATTCAATG ATTTCTTGTTTTG
AGAGATCATTAATATTTCTTGCATTGTTAAGGATTTTTTGATATTTATTAGATATCT TTTCATCATAATT
ACCACTTAAACCGTTATATTCAATATAGCTAATGATCGCAAATTCTTCTTCTAACAA TCTTAATAGATT AGATATAGGTACGATTCCATCAGTATTACAGGCTTCAATAAAGTCGGAAATAAATTTCTT AATTGATA
AGTCATCATTATCATTAACGGCTTCATATGTGTGAATAGTTAAATCAATTAGCATGT CAATGCGAGTAA
TAAGATCATACTTAACACTATCTCCATCCACTTCAGTATTTAAGTAATAATATTTAG ATGGTCCCCAAC
TATTATAAAATTTCATATCAATTGTAGTATTATTTTCCAGTTTAGGAATAACATTGC TTAATATAGTGAT
ATACGATTCAATTAATGTATATAAATAACTATATTCATATATAAAATATTGTAAACT AATGAGCGGTAT
CATTTCAACTTTAAAATCCTTATTTGCGTCACTAACGTTTGAAGCACCTACTCTAGT TACTGTACTTGTC
ATAATACTAGAAAGATTACGATATAACTTTACGGTAGAATTAGTAGTTACTGATAAT GCCAATACATA
ATTATCAATATTTCTATTAGCATCTGGAAACTCATCATCAAACAATTCAATTTCATT ATTATTCTTTGTA
CCAACAGTCTTATATGAATTATCTTTATAAAGAATTCCGATCTTAATATATAGATCT TCATCAATAAAT
ACATTATCTAGAACATCACCATTTTCATCATATAGCGAGTTTGATAATGATAATAAT CCTTTATTAAAT
TTACGATTAGTTGATAATTTTGCAGTATAAGTAGACTCTGCTTGTTCTGGATTTTCA CGTTCAAATTCAA
AGTAACCATACTTCTTATTAGAGTTTTTTGACATTAAGATACCTCGTACGCAAATAC GTTTATCTAAGT
CGCCTATCGTTTCATTACTGTTTAGATCAAACTTAATAGTATACGTATCGGAATCCA AAGTAGATTCAA
AATCATGAATTTTTGTTATATTAAGTTTATTGATAATCATTGTTGTAGGAATTAAGT TATTAAGATAAC
TGTATGATGTATCGAATGTTTCATCAATATCCAGTTTATAATATTTAGCACTTAATA CAGGATCAATAT
CTATTTTAACTAAGAATGGATTAGTATATACAAGCGTATTTTTATCATTAATAGATT TTTTAATATCATC
AGTATATCCATCGGGAAGATGTTTATATTTTTTATCAATATAATCATACTGAATTAA TGAATGTTCCGG
AATTACATATCCATTAATATCGTCACCTAACAGTTGATCTGTAAAATATTTCTTAGA GAAAGTTACACT
ACTTGCAGTATTTGTAGGAATAACCTTTTTATCATTATCACGTAATAATAAAAATGC ATTATATAAACG
CTGAAGAACATCATTTCGCTTTTTCATAAAGTTTATTGATGAGTCATTTAAGCTTGA TGCTCGATCAAT
ATTTCGGAAATAGATATCTAAGTCAGTATCCATAATTAAATTATCTCTACCGAGAGC AGTTTCAATAAT
TTTGTCTTTCATACCGCTAGTACTTAGTTTATCATTACCTCCTGAAGCAGAGGTAAT AGGAACTACTGT
TGTGAGCATCTTTGAAAAGTTATTACTTGCTGAATTAGTAAAGTTAAATAATACTTC TCCATCAAAAGT
AAAGTTTCCTTCAGAACCTTTTGTAGTTAATATCTCAATGGTTATCTTACTATTATA TCTAGGTCTAAAG
TTATTAACTAATGAAGAAAAAGATATCTGTAATTTATTATCATCAACAAACGTATAA TAACAGAATTT
CTCATCAGGATTAGAAGGATTAAAGGTATTATTAAAGTATGCGTTTAATTTTACTTT TTCGCCCATATA
CGTATAATATATATTGAATCCTGCCAATTGATCGTCAAACTCTGCAGTATAGAATAA ATTATCACTAAT
ATCTTCAGACAATATATCAAAGTCAAAAGAACTACTTTGAACTTGGTAAATATCTAA ATTTAGATACA
TATACTTTTCACCATCAAAGATAGATTGATAAACTTTTATCTCAGGAGTACTAAGTT CAATATATGGGA
ATGTACTTACTTCATCAATAAGATATCTAGCTGTAATCGTATAATCATTATTCTGAT TTTGTTTCATTAA
TATTTGTACGTCATAAGGTAACTGGAATTTAAATTTACCCACAGAAAATTCAAATTC TCGATCTAATAT
GATCTGATAAGTTTTAAGAGCTTTAACTTCGATATATTGATCTTCGATAATTTCTTC CCTTAATGGAGA
ATTTATTAAATCCTCTTTACGTATAACCATATTAACTAACATATGAGAAGGGTTTGA TAGTACTAATGG
TACGTTATATAATTTTGCATAATTGAAGATACTATCTGGGAATGATGCACTATTTAA GAAGTGTTCATC
ATACAGTACATTACGATGATATACCGAGTTTTTAACCTCATGGGCTGCAATTTCATT AAAGTATCCAAA
GAAACCAGTTTTTAATAAGTTTAATGCAGCATTATTTCCTTCAGAACCAGTAGCAAT ATTTGTATCATC
AATATTAAAATATGTGCTTGCCATTTTAAGCCAATGTTCATGTACGTCATATGACGT TTGATTTACTTTA ACTACTGAACTTGTATCTTCTTTAGCATTCTTCATAAAAGAAGGTACATCTGTTATATCG TTTGGATTAT
TTTTATTTGCCATTTATTCTCACGCCCAATCACTATTTAATTATCCAATACAAATTT GAGTTTATATTTTT
TCTTTTCATTATCACCATAGTTTTCAAGAACTACTGCAGGTCTATCTAATTTTGTTA GGTCTAAGTCTGT
AAAAAAGTCATTATATTTCTTAGCAGATCCCGGAGAAGTACTATATATAATACTTTC TGAATCTTTACT
AGACGCTAATACTGGAGAGTCTAATGATACTGAATTAAAGTCCATTAATATTGCGGG ATCCATATCTT
CTTTATATGAATACGCATAGTTAAAACTTAACTGAGCGATATCTTTTGAACCTCCAA TATCACTATTCA
TTACGTCATATGGAACATTTGTTGGTGAACATCCAGTGTATTTAGTATAGTATAATA TCGTTTCCATAT
CAAAATCTAATAAAAAGTAATATATGGAACTTGTATAATCAATATATCGATTCATAA ATACTTGTGGA
TTAGGTTTCATTTGTCCTCTAGATACTGCTTCAATATAGTCAGTCCATAATTTATGA ATCTGTAGTATTG
TACTATTTTTATCTTCTTCAAAAGTTACGCTAGTTTCATCAGCTACTACACTATTAA TAAATGGTCCAGG
AAGTAATTGCTTGTGACCATAAAACGTTTCATTAACTTCTTTAGTAATAGTAGATAT TCCTTTAAGTGA
CATGTTAATAAATCTATTAGTTAACGGTTTTATGAAAGAACTATTTGAACCATATAT AGATCCTCCGCC
AGTCTTACTGGTTGCGTTCCCACCATAATTAAGCATATTTAATATTTCAGGGCGATT ATCCCTCATATA
TTGAAAAAAAGAATTCACATTTATATTTTCATCCGTTAAGTTAAGTTTTGGAGTAGT AACAAATACCAT
AGGGAATGCTTTAACCATCGGTTCATTTCTTAAGCTATTTTCCAATCTATATGGATT AAAATATTTATTC
TCATTTATATTATAATTCCCTATAATCTTTTTTCTAATTTCGTCTGACTTTGACAAA AGTTTTCACCAAC
TTTCATATTAAGATCCTAGTATGTTATAAATTATTGTTAATGTATGCATGAAAATAT TAATTTATATTTT
ATTTATATATTATAAATTCGTAATAGATATAGTGATCATCCTTATAGAGTAAGTTTA ATAATTAATATT
AAGAAAAATGATTTATATTACTGTCCATATTAAATAAAATATGACCTCACACCAGTA ATATAAATTCT
GTAAAATTATTTGGCTTAACTCTATCAGCGCTATATAAATTGAAATCATGCATATCG GAGAATATTAAA
TAATTCTTAGGGTTAGTCGATACAGTGAGAAACTATATCTATTAAAAAATATTATTG TCTTACATGGGG
GCGTTCTTATGTGCTATATGATTGAATAAAAAGAAAAAATATGATTTAGAAAAAACA GTAATAATACT
TCTTAGTATTATTAATAAGATCCTATACTGAATAAAATTGAGGTATATGAAAGCGCT CATAGGATTATT
TATTAAAGATTATTAGAGTCACATTTCATTAATTGATCTGTGACTCTAATAATCTTT ATTTAATTTTTTT
TTTTTATAACGCTTCCTATGATAAAACAATAAAATATAAAGTAATATTAATTAGGTC ATCTAAATTGAA
AAGGAGAGAGCGTAAATGTCAAAAAGCGTATTGCTAAATTTGACTTCACTCTTTGGT GAAGTAGTTCT
TAGTAAAAAAGGACAATCTGAATTAGATAAAAGTTATAAAGAATTAGTTAAAAATAA ATCTGCTCGTA
ATAGTTATCTAAATACAATTAAAGGAAAAGCAGAATCTGCTATTATGCAATTTCCTT TAGTAATTTCTA
ATAATATATCTATCGGAGTTTTAGATGGTATTCGTAGAAATATTGAAATTGAACGTG CTACGGAGTTCG
GATTAGTATTGTCTAACGAACCAGTACAAAATGTTACAACTAATGCGGAATTCATGA ATAAATATCAC
ACTAACTTTAGTCTTGGAGAAGATATTTCTTCAGCACATAATGAATTCAATCAAGAG TCTAAATATATG
GAAGAAAAATTAGAAATGCGTTCACTTAATGATTTTACAAGATCTCGTCAATATCTT AGAGAAGAAGG
CGAACAAGATTTTGTTAATGCTAAGATTGATAAGGATAAAGAAGAAATGAGTAGAGT TGAAAGAAGA
ATTCAGAATTCTCGTATAGTTTCTGATCGAAATGCAATCTCTCCATTAATTGTAAAC AGTCCTATTACTT
ATAGTATTTCTAAAGTCTTTAATAATGATGGAAAAGAAATTAAGGTTGATCCTCCAA AAATTATTGAA
GGTCAAATTCGTTTTGGAATTAAAGCGGTATCTCATTTAGTTAATAGCGAAGATATT GTATTTTATCTT
GGCGATGCCGCTAGACGTAGTAATTTCTTAGCAAAAGTAGTTCGGTTTACTTCTGGC GAGCTTAAGTTT GGTAAGGATTTAATTCTAGCAAGCGAACGTAATAAACGTTTAGTACATGACCGTAAAGGT TCTGGTGC
TATTTGGAGAAACATGAATTATATTTCTGAACTGAATAATATTCGTGCCAATGTAGG CAATGTAAATA
AAATGCAAGTACCTACTATTACTTTAGCAATTAGTAAAGAAGAAGTAGATTCTATTG CAGAAAAGACA
GGAATCAATTTTATCGATAATCCTAACGCTACAGAACGTTTGTTTAAAGAATTTTAC TTATTAGACTTC
ATGATCATTGATGAACTAAATGAAGTAGCATACAAATTTAATCGTACTGGAAAAACA TATGACCGTTT
TAGCCTACGTTCTTTAGAGATTTCAGGATCTACTGAAAGTCAGTTAAAGAAACCTAT GGAATTCAGTC
AATTAAATAAAATGATTAACTCTATGAGAAAATAAGAAAGGATAGGTGAATAATTCA ATGCGTGGATT
TAATAATCGTTTAAAAAATAAACCAACATCTTCTAAAGATGCCTTACAACAGTTATT AGTTGAGAGTG
GCGGATTAGAAATGAATAAATATAAATTACTTTCTGAAGAAGGTAAAATTGGTATTA GTGACCGAGTG
TTAATTACTCTTATGAAATCAATTAAACCAAAATTAGAAAAACCGGTATTTAAGGAT ATTACTAAGTCT
AAAGGTGATATTACTAAATATAAAGCTTATGATGATCTAGAAAAAGTATTAAATAAA GTTCGTTCCGT
TATTTCAAACAGTTCTAAACCTGTAGATAAAGACGTTAAAGAAAATATGTCAAGCTT AGATACTGTTT
ATGATTTTGTTATTCGTGAAAAAGATGCATTTATGCGTGGATTTAGTAATAAAGATT CTTTAGTAATGT
CATTATATGTATCTTGTGTTTCGGTTATTGCAGAAGGATCATTAGTAATGTTTACAG ATGCTTTAGAAC
CTACTTCCGATAACTTTGGAAATATTACAATTAATGTTAAAGATCGTCCGAAATCAA TGAATAAGAGT
TTATTTATTGGACTAAGACAATTTTCTGATATGGTTAATGCTAAAAAATTAAAAGAT ATTATTAAAGGT
GGACAAATTAACTTAGAAGAAGAACTAGGTGAAAGCTTTGTTGGATCTCTTTCAGTA TTGGGTAAATT
CTTTAATAAAGTAGCAGATAGTATGGATGATGCTAAAGAAAAAGCCCATGATGATGC AGATTCTCCAA
AAGGTGAAGATAGTGCAATGATTCGATTCTTCAAATCAAATAAATTTGATAAAGCAT CGGACGTTACT
CGTAAGATTGGTACTCGAGTAATTCTACCGATTGTTGCATTATTATTAGTATGTATG TTTATTCGCCTTG
TAGTATTTATTATTTATCGTACTCGTGTAAACGTTGCAGACAATCTTCGTAGTGCTG CTGAAGTTATTG
ATGAGAACTCTATTCGAATTCAAGATAAAAATGTACGTGAACGACAAGAAAAGTCTG CTAAACTATTC
CGTAAACTAGCGGATAAAGTAGATGTAGACTTTAATGTGGCAGACTCTGGTGCTGAT AAGGATATTCG
TCAACAAGATGAATTAATGGCTAAAGGTGCAGATGATATGATTAGTTCATATCAAAA TAATGCTAACG
AGTTTGGTATCTAAAAAAAAATATCCCTATACATTCTAAAATTGAATGTATAGGGAT ATATATTATGA
AATTTTACGTAATATAATTTGACCACCATTATCAGTAGTATTATTACTTTTAGTTGA AAATATTTCCGTC
ATTTTAAGAACCTGATAATCACCATTATATTTATTATAATATTCAGAATCAAACGTT ATAGTGAATTTT
TTAAAACAGTCATCGATATTTATATCCATATTATTAAAACTAAATCTTAGTATGGTA TTATTTTCAGTTA
TTCGTTTAGTATATTCCTGTAGATTTTTATTATCATATTTATTTTCATATACAATTG TTTTATTAATAGTA
CCATTTCTATCCTTAATACTATCTATTTGATAACTGTCTTTTTCTAAACCTATCATG TCACGATTAAAAA
TAATATTATTTGTACCATATAATTCTGCATACAACTCAGTCTGATCCATAATAACAA CACTATTAATCT
TAGTATTAATATACTTATCAGTTATTCCATTTAATTGATTAGTTTCACTATAAGTAC CCATGATATTCTG
GTCTTCAGGATTAGCATTAACTGGTATTTTAACGTCTATACGTATATTTCCGGACTC AACTATTTCCATA
GAAGACATTGGAGTAATTACTAATTTATTATATGACATAAACACTTTTAGACTATCA TTATATATTCCG
TAAGCATTATTAATGTGGCTAATATTAGTTAGAATATTTCCGGGTATTAAGGCTAAT TGATCGTATATT
TTTTGATTGTCTGGAGAAGATAGATATGTTCTTACTGGAAGAAGAGTTAATAATCTA GTAATGACTTCA
GTAACATTAGTATTTGAATATATACCGCTAGTATTATATTTATTAATAGATAGACAT ATTTCAGGGACG CATAAACATTCAAATTCTTCATACTGGTAATTTGTATCTGTTGTATCTTGGGTTAATCTA TCACTAATAT
TAATCGCCCTCTTATCAATAATAAGCGGCTTTAGAATAATATCTCCGAGAAATATAT CATTAATATATG
AGTTGGTAGTATCCGCATCAATGGATGAAGCTCCTAAACTTACTACAAATTTCTCAG AATCTTCTTGTA
AACTTACCATAACAGATACTGGTAATTTATAGACTAATGATATCAGTGGCATTTTAT AATTTTGAAAAT
CAATATCGATTTTAGTTAATCGAATATATTCAGAAGCATCAAACATATTTCCATCTG AGAATAAGAACT
TACTACGTAGATTAAAAGTTTTTTTAGTTATACGAGAATAATCCATTTATTATTTTT CACATCCATTTCA
TTCATTCAATATAGTAATATGTTTATTTATTAAAATAAATTTATAAGAATATATTAT AATAATAGATTA
TAATATATTTAGGGAGTTGTTTATATGGATTACGGAAATTATTTTGGCTATGATACA GAAAATATCGAA
AAGATTATGAACTCAAAGAAAGTTAAATATACAAAACTCATGTCAATGGTAAAGAAT TATGTAACGA
GGGAATCTATTGGCAAGAATGTAAATATCTATATTGATATGAATACTATTTTAAAGC AGATATATAAT
AAGGATAATATTGAAATCTTTAATCATTTAAAGAGTGATAAACGTTTATTTATTACT GCTGAAATTATA
AATATTATTGGTCACTATAGACATTTCTTTTCTTCAAGATTGAAAATGTATACTACG TTTTATTTATTTA
CTTCTTTTGAAAAATCATCATATCATACAAATATATATCCTGATTATCGTAAAGAAT ATTACGAAAAAA
GATTGGGTGATAGAGATTTTGTTTTTTCAAATATTAATAAGATTATTAAGGATAATA TGAATATCGTTA
AGAAGATTTTAAAGTATGTACCAAACGCATATTTGATTAATACAAAAGATAATGATC CTTCATTAGTA
CCTACTTATTTATTAAATGATAATCGTTTTACTTTAGATACCGACTTGAATATTATT ATTAGCAATGATA
AACTTTTCAGACAAGATTTATTATATAGGGATAATACGCTTATCTTAGAAATTAAAG GAAAAGATAAT
AAACGACTTATCGCTTATGAGGACGTTATCAATACTATTGTAGATAGTACTAAAGGT AAAAGGGTTTA
TTCAGACTATAACTTATTAACAGAATCCATTACACTTCTGGATCCTCTTGTAAAGAA TAAAGAATATAA
TATTAATTCAATTAAACGAACTAGTGAAATGAAAGCACTAGACATTATTGAAAAAGG TATTAATGATA
ATATTATTTCTTCACAAAGCTATTATGACGTAGATGAAGCATATAATGATTTAGCTT TTTATCTTGGTG
AAAATAATGAGGATGAATTTAAAAGAAATATGTCAATCGTTAATCATAAAATTGCAA TGTCACATACT
TTTAAAGATTTAGAACACGTTATACTTTCCCAAATAATTGATCTAGAGGATGATAGA GGATTAATGGA
ATTGAATGATAAGTTCTTTTCAAAATATCCTATTGTTATGGACTATCTTGGTGAAAG TTTCTATGATCC
GAGATAAAAAAAAAAATATCCCTAATGCTAATATTACTTAGCATTAGGGACTTATTA TATACTTATTTT
TTTTTTTTAGACTGATTTAATAAATTCAATAATTTCCATTGACATTAAAACTTTA TCCATATCTTCGATA
AATACTTCATTATCATTTTCATCAATATACATAAAATCATAATTATATGAGGTTGAT AATGACATGATA
AAGTTTTCACGTTGAACTAGATCAATAATACTGTCATACTCAGTAAGAACTTCTCCA TAGCTTTCTGAT
GTTACGATCTTATTATTAATCTTATTACTAATGCGATTTCTTTTTCCAGAAGGAATA GTTTTACTTAGTA
GAACTTTGGGTAAAAGTTTATAGTTATTCTTTTCAAGTTCTCTAATCATCGCAACTA GTAATACTAGTA
CTCTGGGTTCACGGAAGTTCTTAATGGCAAATCTTTTTGCAAAGTACATATTCATAA GTGAAATTTGGA
ATTCGTTTAAATGTTTAACATTACTACTTAAACGTACAATTTCTTCATTAGTAATAT TATATTTTTCGAT
AGAGTCTCTCACATACTTATCGATAGATGCATCATTAATAACGCTTGACATTTCATT ATGTTTATGGTA
CTGAATTAAAGAAAATTTATCATTCTCATCTAGATCGTCATCTGAACTAGAAATCTT GATTACTTTGAA
TTGTAGTGCATAATTAGAACGGAAAGCATATTCAATCTTTCTTTTAATAACTACGTC TAAATACGATAT
TGATGATTTATTAATAGAAAGTTTGCATATAATTGTACGTATAATTTCATCGGTAAT TTTTTGGTTTAAT
ATGTCTTCATCTACAGATATATTTTGCAAGAAGTACCAGATAACTTTATCTTTGTAT AACGTCTTTTTAA TACGTGGTTCAACAATTTTGCTAATCTTAGTAAGAATATTAATCCCTTTTTGATTACTAA AATAGCGAT
TAATTAATTTAAAAGTCTTTAAGAATAGTTGTTCATTGTAAGGCTTATTTTTAGCAT TACCTGAAGTAA
TAAGATATTCACATATAGTAGGAATTAACAAACGTTGCATGATTGCAGAACGGATTA GTACTTTATTT
GATTCATCAGTTACTTGTAGTTCAGGAACAATTTTATCAGAGTTAGTTCTACTATAA TCATCTAATGAA
ATCGTATATGTAGAATCAACTACTGCATCAATAGCTTGTAATAACTTATCAAATTTA ATAAAATCTTCG
AAATCTTCAATAAATTTACTTTCAGTATAATCTTCATCCATAAACATGTTTACTTTA AAATTTAATAGTT
TATAGGCAATTTCAGGAACTTCATTTAAAAAGTAGTTTAAATCATTGTAAATAATAT GATAGATATTTG
AATAAATTGCTTGATGAATATTATATTCAAATAACTTTTCTTTACCCTCTAAATTAG CATTCTCTAAAAT
AGAAGCAAAGTCTACAACCATCTTTTTGGGATGAGCATAGTTATCTTCTGTAATATA AGTTGTAATGTC
TTTACGATGTTCAACTTTTTCAATAGTTACCATTTCGTTTGGATCATTCTCACTTTT AGGTAAAGATACA
GTTACTTCTTTTAATCCTTCAATAGATATATACTTATTTTTTAACTTAAACTCTTCC TTCACACTATTACC
CCTAACTTTTGTGTTATCAGACGTTATTGTCACTCAAAAACACCAACCATTCTCTTT TTATTTTTATTAA
TAATATAATTGGGATGAGATTAATTTTTCATCATATACATATCAACCTTTCTTATTT ATATATACTATAC
CACACTTATATATAATATATAATTGAAAAGTTATTAACGTTTATTAATAGATGTTCT ACGAGATTTAGA
TTTTTTATTACGATCAAAGATACTTTGTTTCTTAGGTTTATCGATATTTTTATTT TTAGGTTTTCCTTTAC
TTCTAATATCTTTTATCTTCTTGTTATGAAGTCTTCTATTCTTATAACGCTCAATTT CAACAAGCTTTCTT
TCTGAAGCGGGTATATTTCTAGATACTTGTATTTTGTCAATAGGTTTTAATCTTTCT AATGAGGGAAAT
GTTAATAGATTATTCTTTTCTAGATATATAAGGGCAAAATAAACACTTTTTTCAAAT CCATAAATTTGG
TTTGGGTTTCTTACTTTAGGTTCATCTACTAAAGATTTAATACTCATTTTATTCTTA AGCCAATCAATAA
TCAAACCATCTCGATTATAAATATATCCATACGTAAACATAAAGTTAGGATTATTAC TATAGAAACTG
ATATGCGAGTTTAGAATAGAAACGTTTGTATTATTTTTGTCTATTTTAATTACTACG TCATAAACCATTT
TTTCTTCAATATACGTTTCAGAAGGAATTTTAAATACATAGTACAAACTATCTTCAT CTTTAAATACTTC
TACACTAAACAATCTTTTAGCTTTTTTATACAGAGTATTAAATCGGTCATACATATT GGCGATAATCAT
ATCCCGCCTAGCTAATCCTGCAGAACCTTTTCCTGAAGGGTTTTGCATAAACTGTTT TACAGTGATCAT
TTCTAATATACACCCCCTATTTATTAATTATAACATAATTTTTTGTTAAATTTAAAA TAAACTTTTTTAT
TTTAAAAAATTATTAACCCCTAACGTGAATGATAACTATCACGTTAGGGTCAACTTT ATTATAAGCTAA
TTCGAATATATTGATTACTTGTAACCAGTAATCCAATTACTGAAAATGATGCTCTCA TAATCTGAATAT
CCGTCATTACCGAGTTGATAATCTTTGTTTCAGAGTCAGGAACATATTTCTTTTCTT TAAGATCATAAAT
CATTTTATTGTTAATACAACTCTCAACAGTTTCATATACTTCTTCATCGCTAAATAA TTGAGAGTTCTTT
AATACAATTGCATATGTTTCTTTAAATGCAGAATATACTAGTTGTAACAATACTTTA TCTACTTCAGTT
AAACTTTCTTCATTATCAATAATATCTTTAATTACTTTTGGAATTGAAATATTTCCT CCCGGAATATAAC
CGTAATCTAAAGCAGATCTACATGCAAAGATAGAATCTTCCAAGAGATATTTACGAG TATCACGTTCC
AATTCAGATTTACCACCAATAAATAACGTAGCTACTTTAGAAAGTAATCTAGCTTTA CGATTCTCTAAT
TTAAAGATTTCAGAATCTACACCTTTTTGATATACGTCTAAATTCTTTAAATCTTGA ATATTAAGGTCA
ATTAATTCAATTCGAGCATCTAATTCTTCTTGATGATACTCTCCCTTAATAAATTGA GTTGATCCACCA
GTCATCGTTACTGTTTCACAACGACCAATATGTTCACCATAAAATTGAGCGTTATTT GTTTTACTTAAG
ATAAATAAGTCTTCAAAACCTTCTTTACCTTTTTTAGTATTAATCTGAGTTCCTAAG TATATTGCTAAGT CTTCGAATTCTTCTTTACGAGTTCTAGCGGGAAAGTCTGTAGCTGCAATTTCTAGGGATA CTCTGGTAT
TATTGATCTTTTGAATCTTCATAAAGTCAATAAATTCCGGTCTATATTCCTTCGCAA CAATAACTAGAC
TTTTACCATTACCGCATACCTGACCAATAAGATGGGCAAAGAAATCAATATCCGTCT TATCTAAACAT
GAATCAGTAATAAATACATAAGGTTCTTTGAACATTGCTTCAATCTTATTTGGTTTA TTTGCAAAGATA
GGGTCAACATACCCACGACTAGTTTCAATACCATTTACAATTTCAAATGTATCCTCT TCAGAAGTAGAT
TTATCTAAATAAATAAATCCTCGTTTACCAATTTGTTTATAGATATTATAAATAATA TTTCCGTCTTTTT
CATCATTGTTGTTAGATACGGTTGCAATATTACGGAGAATCTCAAAGTTATCTTCAT TAATAGGAATTG
ATTTTTCTTTTAATTTCTTTTCAATCAGTTCACCAACATTATTTAATGAATTAAT GATTTCTTTCTTAGGA
AGCTTACCTAAGAATTGTGAACGATCATTAACCATTGGTTCTAATTGATTATATAAT TCATTACTAACC
ACTACTGAAGAAGTTGATCCATCACCAACCTCTTGCACTAATGATCTTGAAATAGTC TTAATATTATTC
AGAAAAGTAGTACTAATAGTATTGTTAAAACGAATCTTGTCTAAAATTGTGAATCCA TCTTTAGAGAT
CTTAGAACCATATAAATTATCTTCTAGAATAGTTGTAGATCCATAATATCCTAAGGA TTTAGAAAGAAT
ATCACTAATACTATTAAGTGTTTCTTTAGCAATTTTTTGATATACTTCATCAGAAAT TACATTGCTTTCT
ACAATATCAATTTTTTCCTTAGGTTCAAGAATTCTTGAAATTTGATCTTTAATAATA TTGCTCATACACT
TTTCCACGCTGCTATATAAATTAGTGAATTTAATTTAATTCACAAGAATTTAATCAA CTTCGTCAACAA
GTTTCTTATAAATTCACAAAAAGTGAAAATACAGAGGAAAACTCTCTTAAGTTATAA TGGGTTTAGCC
AACCCTTTCTGCATATATTTTTAAATTACATGCAGAATTATAATCTCTATCCATCAC TTCATTACATTGA
TCACATGTATATAATCTATCCGAAAGTTTCATTTTTTTATCATTTTCTTTTTTATAT CCACAACAACTAC
AAATTTGAGTTGATGGAAACCATCTATCTGCAATAATTAAGGTATTTCCATATAAAA TACTTTTATATT
GTAATTGAACTTTAAAACGATAAAATAAAGACCGTGATATAGATTTAGATATTTTTC GGTTAGATAAC
ATTCCTTTAACATTTAAATCTTCTATACATATAGTGTGATAATTTTTAATAACGTAA GAAGTAAACTTA
TGCAGCCAATCATCTTGTATATTTTGTATTTTCAAATAAATATTTTGAAGTTTGATT TTCACTTTATTAT
ATTTATTCGAATTATTGACTTTTCTAGACAAGATTTTTTGGTATAAAGAAATTTTCT TATATAATGGAAT
TAAATTTTTTAAAGGACTATTAAATCGGTGATTTTCTTCACTTATATCAAAATGACC AATATTTGCATC
AATTCCAACTGTCGGAAGATTTTGATTTGAATGATACATACTATCATCAGTATCAAT ACAGAAAGAAG
CAAAATACTGATTTGCTCTTTTTGTAATTGTACATATTTTAATATCACCATTAAATC GTATCGATTCAGA
CATTTTTACACCATATTTAAATTTAGGTAAAAATAATCGATTATTAATAATCCTTAT TGTACTTTCGGCT
TTTCGATTAATCGTAAATGAACTTTTTGCTTTTCGTTTATTTTTGAATTTAGGTTTA CCTGAATTAGATG
TAAAAAATCTCTTCCAACCATATGCCATATTTTTACAAGCATTATCAAAAATATTTG GGGGAAAATTAT
CCCATTCAGGTTTCAATTTCCTTTTATATTCGTCTCGCACTTTTCGTTCATTAGGTT TATTGCCGTTAATG
TACATTTCATTCCATATATTCAAAGACACATTATATGAATATCTTGAATAATTGAAA AAATCTTTAAAT
TGTAACTGCATTGTTTTGTTAGGATAGATTCTGATTTTTTGACTTATTATCATCTAA ATCATCCCTTAAA
GTTTTTTTATATTTTCGTAATCCGTATAATCGGCTAGAAAATACATGAATAATTG TCATAAGATCATCA
ACTAGTTCTTTTTCAGGAGAAGAACTTTCTAAATTAATTACAGTTAGTGTTGTTCCA TTAACTTTACATC
TTTCTTCAATAAGTTCAAAACCAAAACGAGTTAGTCGATCTTTATATGTTATAATAA GTTCTGATACTT
CTTGGTTTTCTATCATGTCAATTAATTTTAAAAAATTCTTTCGTTTAAAATTAATTC CGGATGCAATATC
TGAAAGATAAATATTAACAGGTTTTCCACTATTAACTGAAAATGTTTCAATAGATTG TCGTTGGTTTTC AAGTTCTTTCTTTTGGTTACTAGTTGAAACTCGATAATATGCTACAATTTTTCTTTTTTC TTCAGGTTTG ATATTATTAGTTAGTTCAAAATAATCATCAACCATTTCGTCAGTATAATACTTTAGGCGT CCTTTTCGA ATAGGTTTAATTATTTTTTCCTTTTCTAATGTTTCTAGTTTTTTCTTTGATATACGTAAT TTCATTCTAAA TTCATCAGAACGCATAACCATTTAAAACACACTCCTTTTTAATTTATATTATATTGTTAC ATTAAAATAT AAATTAAAGTGAAAAAGAGTGAAACTAGATGATATTCATAATAAGTCGGCTAAATTAAAT TCTTATTA TAATTCCCAATTTTGTGTTTCCACATTGGTTAAATAGCAGGACTATATCATAACCTATAA TATTATAGG TCCCTCGTACTTCCCTTTCGGTACTCTACTTGCTTCGTATAGATATCTCAATCTATCTTA TTCACCATAT AGGTGTTACATTTATTATTTGCTTTCGATAGTCTCTGAACGTTCACCCATCAAGTGGGAG CTTCGCTGC TAGATTTTCCATTAGTCCACCCTTAGCACTACGTTTTCTAAGGTTCACATTATTACTTCA CTTAGACACT GATAGGTTTTATTTCAGCTTAGGTAATCTTAAAGAGTTTTTTCTGTCTTTCGACTGCATT CACGCTTACC GTTACCAGTTACGTTGTAGCCCTTTAAGCTTTAGGAGTTTACAAGCAATTCACAAGGTTT CGCATACAT CTTTACAGATATATGGGAGTTTTGAATACAGGTTAATTTAATTTATATTTTAAACTAAAC TCATTTAAA ATCAATTAAACCATTACTGCTTCTTTTCTCCACTTTTTTATTTTATTATAATTGAAAGTA CATTGTCATTT TCAATAATACAATCGAATTCTTCGATAAAGGTATACATCTTAATATAATCTTTACATGAA TCAAGATCA ATATAATTATTAAATTTTAAGGATACTTTTTTAAATTGTCTAATTTCTTCATCTTTGGAA GTATTGTTAA ATCCTTTGATGATATTAAATGAAAATTTCTCTTCAAGATCATATAGTAGTAAATTAAGCT TTAATCCGA ATTCAGAATGCTTAAGTGAATCATAATAATTGTCTTCATCATAATCCCCATTCTTTTCGG TAAGTTTATT ATAAAATTTAAAATTATCGGTATTAATATTCATTAAACTTTCACCACGCTTTCTTAATTT GCCATAATA ACTCAACTGGACTATTAGTATTTACCATTTATCGGACTTAGATATCCATGGTCTGGTTTA CCTGTTGTAT TTTCATTAGGAGAAGAAGAGGTTCCTCCATTATAGAGATTTCTCAGTTCAGCTTCTTGCC TTTTATGTTT TTCAGCAATATCCTCTTCTTTAACTTCTCTAAGTCCTAATAATAGATACATTTCAGTGTT CATGATATCG TTTAGACTTAATTTACCTTCAAATAACTCTAATAAATATAGTATATCTTTAGAATCATTC AATACTTTCT TTTCGATAATCATTGAACCACTACTATTTTTCTCATCTACTGCTGAAGCTCCAGTTGAGT T
Example 10. Determining the Host Range of LPJP1.NL
[0209] The inclusivity of LPJP1.NL was determined using several commercially available L. grayi strains. Overnight cultures of each strain were diluted in BHI media to either a high burden (ODeoo of 0.2) or a low burden (1000 CFU/mL). 100 pL of each dilution was added to a well of a 96-well plate and infected with 10 pL of LPJP1.NL at 1.2 x 10 7 pfu/mL. As done previously, infected wells were incubated for 4 h at 30 °C before the addition of 65 pL of luciferase detection solution. RLU values were obtained for each sample on the GloMax Navigator as described above. Samples were evaluated using a threshold of 190 RLU, which was approximately twice the signal from background (BHI media control). [0210] The exclusivity of LPJP1.NL was determined using both other Listeria species and a multitude of Gram -positive and Gram -negative genera. To assess the possibility of even minute signal production, a high bacterial burden was selected for testing. To this end, 100 pL of overnight culture was directly added to a 96-well plate and infected with 10 pL of LPJP1.NL at 1.2 x io 7 pfu/mL. As done previously, infected wells were incubated for 4 h at 30 °C before the addition of 65 pL of luciferase detection solution. Luminescence was measured and analyzed as described above for inclusivity assays.
Example 11. Inclusivity of LPJP1.NL Detection
[0211] Based upon plaque formation and the limit of detection, LPJP1.NL was clearly capable of infecting the L. grayi subsp. grayi strain ATCC 19120. However, it was not known whether or not this bacteriophage could broadly infect other L. grayi strains. Although the number of strains commercially available for testing is limited, four additional strains of L. grayi were obtained, including members of the only other subspecies L. grayi subsp. murrayi. Cultures of each strain were diluted to a low burden (approximately 100 CFU) or a high burden (ODeoo of 0.2) and infected with LPJP1.NL for 4 h. A cutoff of 190 RLU, approximately two times background, was chosen to distinguish between positive and negative detection for all inclusivity and exclusivity testing. Using this method, all five L. grayi strains were successfully detected at both low and high burdens, indicating infection and subsequent NANOLUC® production (Table 4). As expected, the use of stationary phase bacterial cells resulted in reduced signal compared to the limit of detection assay results for 100 CFU. Despite this decrease, LPJP1.NL was capable of infecting and detecting low burdens of all tested L. grayi strains, including representatives of both known subspecies.
Table 4. Inclusivity of LPJP1.NL Detection
1 Strains were obtained from ATCC and each strains identification number is provided. 2 Stationary phase cultures of each strain were diluted to the indicated colony forming unit (CFU) or optical density (ODeoo) prior to a 4 h infection at 30 °C with LPJP1.NL. 3 Detected luminometer signal as relative light units (RLU). Positive (Pos.) and negative (Neg.) detection was determined for each sample using a threshold of 190 RLU, approximately twice media background.
Example 12. Specificity of LPJP1.NL Detection Across Other Listeria Species
[0212] Many large characterized Listeria phage of the Myoviridae family, such as Pl 00 and A511, are capable of infecting multiple Listeria species, dependent on serovar (Klumpp, J.; et al., Bacteriophage 2013, 3, e26861; Habann, M., et al., Mol Microbiol 2014, 92, 84-99). While LPJP1.NL had demonstrated coverage across several L. grayi strains, the ability of this phage to infect other Listeria species was of significant interest. An exclusivity panel of 150 Listeria strains was assembled, consisting of 14 species and 12 different serovars. Due to commercial availability and the public health importance of L. monocytogenes, 106 strains of this species were included. In order to assess exclusivity, overnight stationary phase cultures of each strain were directly infected with LPJP1.NL for 4 h. This was expected to represent a significant bacterial burden and allow detection of even limited infection. Despite this burden, no strain in this Listeria panel yielded a positive result for NANOLUC® production, as defined by the 190 RLU threshold (Table 5). RLU data and source of each strain are provided (Table 6). The lack of any substantial signal over background from these strains suggests that LPJP1.NL is incapable of infecting other Listeria species besides L. grayi.
Table 5. Exclusivity of LPJP1.NL in Listeria Species Besides L. grayi
Bacteria 1 Positives / Total Strains 2
Listeria aquatica 0/1
Listeria booriae 0/1
Listeria fleischmannii 0/1
Listeria floridensis 0/1
Listeria grandensis 0/1
Listeria innocua 0/21
Listeria ivanovii 0/6
Listeria marthii 0/2
Listeria monocytogenes 0/106
Listeria newyorkensis 0/1
Listeria riparia 0/1
Listeria seeligeri 0/4
Listeria welshimeri 0/4
Summary 0 / 150 1 Stationary phase overnight cultures were infected for 4 h at 30 °C with LPJP1.NL. 2 Positive detection was determined for each sample using a threshold of 190 relative light units (RLU). Individual RLU values and strain information are provided in (Table 6).
Table 6. RLU for Exclusivity of LPJP1.NL in Listeria Species Besides L. grayi
Bacteria Strain Source 1 Serovar 2 RLU 3
Listeria aquatica FSL S10-1188 FSL 64
Listeria booriae FSL A5-0281 FSL 125
Listeria fleischmannii FSL F6-1016 FSL 98
Listeria floridensis FSL S10-1187 FSL 166
Listeria grandensis FSL F6-0971 FSL 67
Listeria innocua 33090 ATCC 6a 69
Listeria innocua BAA-680 ATCC 6a 49
Listeria innocua 33091 ATCC 6b 78
Listeria innocua 43547 ATCC 6b 84
Listeria innocua 51742 ATCC 50
Listeria innocua BAA-349 ATCC 37
Listeria innocua 9 UGA 73
Listeria innocua 15 UGA 61
Listeria innocua 16 UGA 69
Listeria innocua 18 UGA 54
Listeria innocua 72 UGA 56
Listeria innocua 80 UGA 60
Listeria innocua 92 UGA 81
Listeria innocua Silliker 9 UGA 90
Listeria innocua Silliker 9 NAR UGA 85
Listeria innocua Silliker 16 UGA 61
Listeria innocua Silliker 16 NAR UGA 58
Listeria innocua Silliker 23 NAR UGA 90
Listeria innocua Silliker 24 UGA 63
Listeria innocua Silliker 24 NAR UGA 72
Listeria innocua Sillikerl06 NAR UGA 56
Listeria ivanovii 19119 ATCC 80
Listeria ivanovii 49953 ATCC 87
Listeria ivanovii BAA-678 ATCC 5 92
Listeria ivanovii BAA-753 ATCC 65
Listeria ivanovii 700402 ATCC 66
Listeria ivanovii 49954 ATCC 59
Listeria marthii FSL S4-120 FSL 58
Listeria marthii FSL S4-965 FSL 54
Listeria monocytogenes 19111 ATCC l/2a 35
Listeria monocytogenes 51772 ATCC l/2a 67
Listeria monocytogenes 51774 ATCC l/2a 71
Listeria monocytogenes 51775 ATCC l/2a 77
Listeria monocytogenes BAA-679 ATCC l/2a 70
Listeria monocytogenes BAA-2657 ATCC l/2a 52
Listeria monocytogenes BAA-2659 ATCC l/2a 55
1 Strains were obtained from either the American Type Culture Collection (ATCC, Manassas, VA, USA), the Food Safety Laboratory of Cornell University (FSL, Ithaca, NY, USA), the University of Georgia (UGA, Athens, GA, USA), or Q Laboratories (Q Labs, Cincinnati, OH, USA). 2 Serovar of each strain is indicated when provided by source. 3 RL
Example 13. Specificity of LPJP1.NL Detection Across Other Genera
[0213] To evaluate the specificity of LPJP1.NL for Listeria, an exclusivity panel of 26 Gramnegative and 19 Gram-positive strains was assembled. Representatives of 19 unique genera and 42 species were included. As done with Listeria species, overnight stationary phase cultures of each strain were infected with LPJP1.NL for 4 h. Unsurprisingly, no positive signal was detected from any of the 45 members of the exclusivity panel (Table 7). The absence of NANOLUC® production in these strains further supports the notion that LPJP1.NL is highly specific for L. grayi. LPJP1.NL was highly specific for L. grayi demonstrating no cross-reactivity with other Listeria species or bacterial genera (Tables 5,7). The narrow host range of LPJP1 may indicate a receptor unique to L. grayi.
Table 7. Exclusivity of LPJP1NANOLUC® in other Genera (non-Listeria)
1 Strains were obtained from ATCC and each strain’s identification number is provided. 2 Stationary phase overnight cultures were infected for 4 h at 30 °C with LPJP1.NL. Detected luminometer signal as relative light units (RLU). Positive (Pos.) and negative (Neg.) detection was determined for each sample using a threshold of 190 RLU, approximately twice media background.
Example 15. Specificity of Listeria-Specific Phages
[0214] The inclusivity of A511-3A, LMA8, LP-ES1, and LPJP1 for Listeria was assessed using several commercially available Listeria strains. Overnight cultures of each strain were diluted in BHI media to either a high burden (OD60 of ~0.2) or a low burden (1000 CFU/mL). 100 pL of each dilution was added to a well of a 96-well plate and infected with 10 pL of either LMA8.NL, LP-ESl.NL, A511-3A.NL, or LPJPl.NL at 1.2 x 107 pfu/mL. As done previously, infected wells were incubated for 4 h at 30 °C before the addition of 65 pL of luciferase detection solution. RLU values were obtained for each sample on the GloMax Navigator as described above. Samples were evaluated using a threshold of 190 RLU, which was approximately twice the signal from background (BHI media control). The inclusivity data for LMA8.NL is shown in Table 8. The inclusivity data for LP-ESl.NL is shown in Table 9. The inclusivity data for LMA8.NL A511-3A.NL is shown in Table 10. The inclusivity data for
LPJP1.NL is shown in Table 11.
TABLE 8. LMA8NANOLUC® Inclusivity
TABLE 9. LP-ES1NANOLUC® Inclusivity
TABLE 10. A511 -3 ANANOLUC® Inclusivity
TABLE 11. LPJP1NANOLUC® Inclusivity
Example 16. Specificity of Listeria-Specific Phage Cocktail [0215] To evaluate the specificity of a phage cocktail (A511-3A, LMA8, LP-ES1, JP1) for Listeria spp., an exclusivity panel of 26 Gram-negative and 19 Gram-positive strains was assembled. Representatives of 19 unique genera and 42 species were included. As done with Listeria species, overnight stationary phase cultures of each strain were infected with the phage cocktail for 4 h. The results from the exclusivity panel are shown in Tables 12 and 13. A cutoff of 190 RLU, approximately two times background, was chosen to distinguish between positive and negative detection for all inclusivity and exclusivity testing.
Table 12. Gram Negative Exclusivity
Table 13. Gram Positive Exclusivity
Example 17. Specificity of Listeria-Specific Phage Cocktail
[0216] The Listeria assay was validated for the detection of Listeria spp. on glaze ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) surfaces. The validation consisted of an inclusivity and exclusivity evaluation and a matrix study. The Listeria assay was compared to the 2017 U.S. Food and Drug Administration Bacteriological Analytical Manual, Chapter 10 “Detection of Listeria monocytogenes in Foods and Environmental samples, and Enumeration of Listeria monocytogenes in Foods’" using an unpaired study design for ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) surfaces. Final confirmation was obtained by Bruker MALDI Biotyper following AOAC OMA 2017.09. An alternate confirmation was also performed for all samples. This was performed by allowing the samples to continue enriching for a total of 24-28 hours at 35 ± 1 °C. The samples were thoroughly mixed and 100 pL of the sample was struck onto RAPID L. mono Agar and allowed to incubate for 24-28 hours at 37 ± 1 °C. The inclusivity and exclusivity evaluation evaluated two strains of Listeria seeligeri, two strains of Listeria welshimeri, one strain of Enterococcus faecalis, one strain of Enterococcus faecium, and one strain of Streptococcus pyogenes.
[0217] In the inclusivity study, four out of the four Listeria spp. strains evaluated were correctly detected, and all three exclusivity strains were correctly excluded. In the matrix study, the Listeria assay demonstrated no significant differences between presumptive and confirmed results or between candidate and reference method results for ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) surfaces. The Listeria assay allowed for fast, reliable detection of Listeria on ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) surfaces with instrument run time taking less than 10 minutes. [0218] No statistical difference was detected between the Listeria assay and the reference culture method in the U.S. Food and Drug Administration Bacteriological Analytical Manual Chapter 10 “Detection of Listeria monocytogenes in Foods and Environmental samples, and Enumeration of Listeria monocytogenes in Foods” (FDA/BAM Chapter 10) for ceramic (4” x 4”) and stainless steel (4” x 4”) surfaces (1).
Sample Preparation
[0219] Ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) environmental surfaces were swabbed with an EZ Reach Polyurethane Sponge Sample using firm and even pressure 10 times vertically and horizontally. The swabs were placed back into the sampler bag discarding the plastic handle and stored at room temperature (20 - 25 °C) for 2 hours. Following the 2 hour storage, the samples were enriched with 20 mL of pre-warmed (35 ± 1 °C) BLEB, massaged by hand for 10-20 seconds, and incubated at 35 ± 1 °C for 20 - 24 hours.
Sample Infection
[0220] Following incubation enriched samples were removed from the incubator and mixed thoroughly by massaging the sponge for 10 - 20 seconds. Using a single channel pipettor and clean tip for each sample, 150 pL of enriched sample was transferred into a well of the 96-well plate. One tube containing the recombinant phage solution was used for each 8 well strip. The tube was flicked or supun to collect all of the solution at the bottom of the tube. 10 pL of the recombinant phage solution was then added to each sample in the 96-well plate and mixed completely and gently by pipetting up and down. The plate was covered and sealed to prevent evaporation and placed in a 30 ± 1 °C incubator for 4 hours.
Sample Lysis and Signal Reading
[0221] The substrate solution was pprepared by transferring the entire contents of assay buffer (500 pL) and lysis buffer (150 pL) tubes to the substrate tube (10 pL) and mixing. 65 pL of freshly prepared lysis/ luciferase master mix solution to each sample well and mix thoroughly by pipetting up and down. Once all the samples received the lysis/ luciferase substrate master mix solution, the sample plate was placed in the luminometer and read.
Interpretation and Test Result Report [0222] Samples having a reading value of 300 RLU or greater were considered positive for detection of Listeria. For a negative Listeria result, the reading value was less than 300 RLU.
Confirmation
[0223] Confirmation was also performed for all samples. For each surface test portion, the samples were allowed to continue enriching for a total of 24-28 hours at 35 ± 1 °C. The samples were thoroughly mixed and 100 pL of the sample was struck onto RAPID L. mono Agar and allowed to incubate for 24-28 hours at 37 ± 1 °C.
Inclusivity and Exclusivity Data
[0224] The inclusivity and exclusivity study evaluated two strains of Listeria seeligeri, two strains of Listeria welshimeri, one strain of Enterococcus faecatis. and one strain of Enterococcus faecium. and one strain of Streptococcus pyogenes. All cultures evaluated were propagated from a stock culture stored at -70 °C to trypticase soy agar with 5% sheep blood (SB A) and incubated for 24 ± 2 hours at 35 ± 1°C. After incubation of the target organisms, a single colony from SB A was transferred to a 9 mL aliquot of BLEB for 20-24 hours at 35 ± 1 °C. After incubation, each Listeria spp. strain was then diluted to 100 times the LOD50 of the Listeria assay. After incubation of the exclusivity organisms, each strain was transferred to a non-selective media and incubated under conditions for optimal growth. After incubation, each exclusivity organism was analyzed undiluted. All inclusivity and exclusivity strains were blind coded, randomized and analyzed using the Listeria assay follow package instructions. Test results were decoded and reported as either positive or negative.
[0225] The matrix study consisted of evaluating a total of 30 unpaired sample replicates of ceramic (4” x 4”) and stainless steel (4” x 4”) surface test areas. Within each sample set, there were 5 uninoculated samples (0 CFU/test portion), 20 low level inoculated samples (0.2-2 CFU/test portion) targeted to obtain fractional results, and 5 high level inoculated samples (2-10 CFU/test portion). All samples were analyzed by the PhageDx Listeria Assay following enrichment with pre-warmed (35 ± 1 °C) BLEB and incubated for 20-24 hours at 35 ± 1 °C, analysis was conducted after 20 hours. Regardless of presumptive results, all samples were culturally confirmed by the FDA/BAM Chapter 10 reference method. In addition, all samples were confirmed following the alternative confirmation described previously in “Materials and Methods”, subsection “Confirmation”. Final confirmation for all samples were obtained by Bruker MALDI Biotyper following AO AC OMA 2017.10.
Organism Preparation and Inoculation
[0226] For ceramic surfaces, 4” x 4” areas were inoculated with 0.25 mL of diluted L. innocua ATCC 43547 culture and sampled using sampling sponges premoistened in letheen broth. For stainless steel surfaces, 4” x 4” areas were inoculated with 0.25 mL of diluted L. monocytogenes 4a CWD 1554. In addition to the L. monocytogenes culture, stainless steel surface was co-inoculated with a competitor organism, Enterococcus faecalis ATCC 29212, at 10 x the level of the target organism. All cultures utilized were propagated from a stock culture stored at -70 °C to SB A and incubated for 24 ± 2 hours at 35 ± 1°C. After incubation, a single colony from SB A was transferred to a 9 mL aliquot of BHI broth for 20-24 hours at 35 ± 1 °C. Each culture was then diluted to the target concentration by performing serial dilutions as 0.1% peptone water as the diluent. For the uninoculated test portions, sterile 0.1% peptone water was applied to the test area. Each surface was dried for 16-24 hours at room temperature (24 ± 2 oC) prior to sampling. To determine the inoculation level for the environmental surfaces, aliquots of each inoculum were plated onto Tryptic Soy agar (TSA) in triplicate.
[0227] For environmental samples, sponges were pre-moistened with 10 mL of DZE neutralizing broth. Following addition of DZE neutralizing broth surfaces were swabbed using firm and even pressure 10 times vertically and horizontally. All environmental samples were then stored at 22 ± 2 °C for 2 h ± 15 minutes. Swabs were enriched with 90 mL of BLEB, massaged by hand for 2 minutes and incubated at 30 ± 1 °C for 4 hours. Following 4 hours of incubation, selective supplements acriflavine (10 mg/L), sodium nalidixate (40 mg/L) and cycloheximide (50 mg/L) were added to each test portion and samples were re-incubated for 24- 48 hours.
[0228] After 24 hours of total incubation, the enriched samples were streaked to MOX agar plates and incubated at 35 ±1 °C for 24-48 hours. In addition to MOX, each enriched sample was streaked to the chromogenic selective agar Brilliance Listeria Agar (BLA) and incubated at 37 ± 1 °C for 24 ± 2 hours. The enriched samples were re-incubated for an additional 24 hours at 30 ± 1 °C and then streaked to a second MOX and BLA agar plate which was incubated for 24-48 hours at 35 ± loC and 37 ± 1 °C for 24 ± 2 hours, respectively. MOX and BLA agar plates were examined for suspect colonies, and if present, at least 5 colonies were streaked to Tryptic Soy Agar containing 0.6% yeast extract (TSA/YE). The TSA/YE plates were incubated at 35 ± 1°C for 24-48 hours and then examined for purity. Pure colonies were tested for catalase reactivity and a Gram stain was conducted. A pure Listeria monocytogenes colony was transferred to Trypticase Soy Broth containing 0.6% yeast extract (TSB/YE). The TSB/YE cultures were incubated at 25 ± 1 °C overnight, or until the broth was turbid, indicating sufficient growth. Catalase-positive organisms were stabbed into SB A plates and incubated at 35 ± 1°C for 24-48 hours. The TSB/YE tubes incubated at 25 ± 1 °C were used to prepare a wet mount slide to determine motility pattern. After incubation, the SBA plates were examined for hemolysis. Final confirmation was conducted using Bruker MALDI Biotyper following AO AC OMA 2017.10.
Listeria Assay
[0229] Ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) surfaces were enriched and incubated according to the protocol described above. Following incubation, all samples were analyzed using the Listeria assay following product instructions. All sample regardless of presumptive results were culturally confirmed by the FDA/BAM Chapter 10 reference method. Final confirmation for all samples was obtained by Bruker MALDI Biotyper following AOAC OMA 2017.09.
For the inclusivity and exclusivity study of the four strains of Listeria spp. tested, all seven were correctly included, and for the three exclusivity strains all three were correctly excluded. A summary of the inclusivity exclusivity results are presented in Table 14. For ceramic (4” x 4” test area) and stainless steel (4” x 4” test area) environmental samples the inoculum recovered for the target L. innocua and L. monocytogenes stains fell withing the targeted levels, while the competitor organism was at a level at least 10 times higher.
Table 14. Results of the Inclusivity and Exclusivity Study-Listeria Assay