NEW SYSTEMS FOR PRODUCING RECOMBINANT PROTEINS

FIELD OF THE INVENTION

The present invention is directed to new systems for the production of recombinant proteins in Streptomyces host strain.

The new system includes vectors and new recombinant host strains, in particular for the production of Actinoallomurus endopeptidases.

BACKGROUND

Recombinant DNA (rDNA) technology offers a very potent set of technical platforms for the controlled and scalable production of polypeptides of interest by relatively inexpensive procedures. Recombinant proteins are typically obtained through recombinant DNA technology in Escherichia coli , Saccharomyces cerevisiae , in insect, hamster and mammalian cells. There is however a demand for improving the production of big quantities of recombinant proteins; furthermore, there are very strict requirements to be fulfilled when proteins are produced for human use, for instance for use as food supplements and/or as medicaments in the prevention and/or treatment of human diseases. Streptomycetes are regarded as a safe source of proteins for human alimentary use. Two examples of food enzymes sourced from Streptomyces spp are: glucose isomerases used for fructose syrup production (Anne, et al. Molecular Cell Research, 2014), and the widely exploited transglutaminase from S. mobaraensis , used in food industry for its properties in improving the texture and overall quality of final food products, such as processed meat and fish products, as well as diary and baked food (Kieliszek, et al. Folia Microbiologica, 2013).

S. lividans cells are known to be efficient host cells for the production of recombinant proteins, since recombinant proteins expressed by said cells can be directly secreted and released in the culture medium. However, different proteins are obtained at very different yields in S. lividans, this result being unpredictable (Anne, et al. Molecular Cell Research, 2014).

To improve the yield of heterologous proteins, a collection of derivative strains of S. lividans TK24 (TK24 Taxonomy ID: 457428) have been constructed by sequential deletion of known potentially interfering secondary metabolite gene clusters. Novakova et al. (Applied Microbiology and Biotechnology, 2018) disclose efficient production of mithramycin A, with yields close to 3 g/L, using this optimized collection of strains.

Still reproducibility of high yields with any polypeptide-encoding polynucleotide is not guaranteed; moreover, there is still room for further improvements in the provision of recombinant proteins production systems.

The present invention is aimed at providing improved systems for efficient manufacturing of recombinant proteins in Streptomyces, preferably Streptomyces lividans ( S . lividans ) host strains.

In particular, the system of the invention has been found to be particularly useful for the production of big quantities of a recombinant endopeptidase (endopeptidase 40 or E40) of the Actinoallomurus strain.

E40 native protein consists of 398 amino acid residues (see SEQ ID NO: 3); the N- terminal signal peptide has been identified between positions 1 and 27, and it has been predicted that the mature form of the protein (E40mat) is a 32.5 kDa polypeptide of sequence SEQ ID NO: 1, starting from position 74 of the native protein (see Fig. 1). “E40pre-pro” is hereafter used to identify the native pre-pro-endopeptidase, including its native signal peptide, consisting of sequence SEQ ID NO: 3, or derivatives thereof, such as tagged E40pre-pro having sequence SEQ ID NO:4 (his-tagged E40pre-pro); “E40pre” is hereafter used to identify E40 pro-enzyme, without the signal peptide, consisting of aminoacidic sequence SEQ ID NO: 9; “E40mat” is hereafter used to identify the mature endopeptidase of aminoacidic sequence consisting of SEQ ID NO: 1, or derivatives thereof, such as tagged E40mat having aminoacidic sequence of SEQ ID NO: 2 (E40Hismat).

Said endopeptidase has been first disclosed in WO2013083338 and it has shown to provide very rapid and efficient degradation of gluten peptides into non-toxic peptides, being active at the whole pH range of the gastric and intestinal environment (enzymatic activity is shown in the range of pH 3-6 with optimum at pH 5) and being moreover resistant to degradation by gastrointestinal endogenous enzymes. This makes said Actinoallomurus endopeptidases very suitable for being used in the treatment and/or prevention of Celiac Disease (CD) and CD-associated disorders. There is therefore a strong interest in developing efficient and inexpensive methods of manufacturing said Actinoallomurus endopeptidase.

WO2021013553 discloses a method for manufacturing recombinant Actinoallomurus endopeptidases in a S. lividans host cell, wherein expression of E40 is preferably driven in S. lividans TK24 strain by a high-copy replicative expression vector (pIJ86, SEQ ID NO: 7).

Several replicative plasmids have been successfully used, especially for their high-copy number, for overproduction of many biotechnologically relevant heterologous proteins in Streptomycetes. Replicative vectors have however some drawbacks; for instance, they can only be transferred to Streptomycetes by laborious protoplast transformation and they need a permanent antibiotic selection for stable maintenance in Streptomycetes. Integrating vectors containing a DNA segment encoding attachment/integration functions (Att/Int) for site-specific integration into specific sites of the Streptomyces genome (such as an attB site for specific integrase) have also been employed for expressing recombinant proteins in Streptomyces. Most of the site-specific integration systems are based on various actinomycete temperate bacteriophages (actinophages) identified in Streptomyces species. Temperate bacteriophages (and integration vectors prepared using their functional elements) are integrated into the host chromosome at a specific site by a recombination process that requires specialized attachment sites, attP in the phage (or in the integration vector) and attB in the host chromosome.

Despite several benefits, these Att/Int systems also have some limitations, such as the fact that they integrate the entire integration plasmid with the E. coli replicon, the integrase gene and the resistance marker gene. This can be a significant biotechnological obstacle, as the stability of the constructs can be affected. In fact, the instability of several Att/Int systems has been reported in several Streptomyces strains (Kormanec J. et ah, Applied Microbiology and Biotechnology 103:5463-5482, 2019). Therefore, these integrating vectors method have been considered unsuitable for the construction of stable biotechnological production strains.

Moreover, several other elements also participate in the efficiency of a recombinant protein production system, such as the regulatory elements in the expression cassettes cloned into the expression vector.

Therefore, the achievement of a satisfying yield of protein and the avoidance of undesired drawbacks is never an easy and clear-cut task in the field of recombinant proteins production.

The present invention provides a surprisingly improved system for producing recombinant proteins, and preferably recombinant Actinoallomurus endopeptidases, in Streptomyces, preferably S. lividans, host cells.

BRIEF DESCRIPTION OF THE INVENTION

The system of the invention for the production of recombinant proteins in Streptomyces host cells, preferably of S. lividans strains, includes new recombinant vectors bearing an expression cassette comprising a polynucleotide encoding for the recombinant protein of interest under the regulation of a strong promoter, which is an engineered kasO promoter ( kasOp *), of sequence SEQ ID NO: 10, and a regulatory element, which is a synthetic variant SR40 ribosome-binding site (RBS) based on PhiC31 capsid protein gene (Bai et al. 2015, Proc Natl Acad Sci USA 112, 12181-12186) of sequence SEQ ID NO: 11. The recombinant vectors of the invention are single-site integrating vectors based on the phage PhiBTl, preferably integrating at its attB site in Streptomyces genomes.

The polynucleotide encoding for the recombinant protein of interest encodes for a recombinant pre-protein that includes a signal peptide. In preferred aspects, said signal peptide is a heterologous signal peptide, more preferably signal peptide vsi of subtilisin inhibitor of Streptomyces venezuelae (Lammertyn et al. 1997 Appl Environ Microbiol 63, 1808- 1813), having sequence SEQ ID NO: 12.

Preferably, the recombinant protein of interest is an Actinoallomurus endopeptidase, preferably Actinoallomurus endopeptidases 40 (E40), a biologically active fragment, a variant, or a derivative thereof.

The systems of the invention also include new recombinant host strains comprising the new vectors. The present invention is also directed to the use of the new systems of the invention for the production of recombinant proteins by secretion of the same in the culture medium of the host cell, in particular for the production of Actinoallomurus endopeptidases, and to methods of production of the recombinant protein by means of the new systems of the invention.

Surprisingly, despite the use of a single copy vector, the system of the invention provides expression of recombinant protein that is stable and in high amounts.

BRIEF DESCRIPTION OF FIGURES

Figure 1: Sequence of native E40 pre-pro-enzyme (E40pre-pro). Its signal peptide is shown in bold and the mature enzyme is underlined.

Figure 2: Scheme of the prior art recombinant vector pIJ86/e40 containing the e40 gene encoding for E40pre endopeptidase (with and without 6xHis tag), inserted between BamHl and Hindlll sites of the cloning vector pIJ86. The sequence of the ermEp* promoter region (SEQ ID NO: 30) with -10 and -35 regions of promoters (bold and underlined), TSS (bold, underlined and highlighted), and the BamHl/ Bell fusion with e40 is indicated below the scheme of the plasmid. Amino acids of E40 are in the second position of each codon.

Figure 3: Scheme of the expression vector pMUls-kasOpSR40vsi3mRFPA. The sequence of vsi-mRFP fusion with inserted restriction sites (bold and underlined) is indicated below the scheme of the plasmid. Amino acids of Vsi signal peptide (in bold) and mRFP (red font) are in the second position of each codon.

Figure 4: 13.5% SDS-PAGE of 20 ul samples of medium after secretion of mRFP in S. lividans TK24 with pMUls-kasOpSR40vsi3mRFPA grown in TSB medium to various time points (two individual clones). Lanes: 1=LMW standard; 2-5=TK24 pMUls- kasOpSR40vsi3mRFPA grown for 24h, 48h, 72h, 146h respectively; 10=TK24 grown for 48h.

Figure 5: Scheme of the cloning vector pLit-kasOpSR40vsi3mRFP containing the strong kasOp* promoter, optimized strong SR40 RBS, and inserted single Ndel site in ATG codon of the vsi-mRFP reporter fusion gene.

Figure 6: Scheme of the recombinant plasmids pLit-e40 and pLit-e40His, containing the entire e40 gene with its original signal peptide sequence (with and without 6 x His tag, respectively) inserted between Ndel and AvrII sites of the cloning vector pLit kasOpSR40vsi3mRFP. The sequence of the kasOp* promoter with -10 and -35 regions of the promoter (bold and underlined), its TSS (bold, underlined and highlighted), RBS (bold and underlined), and Ndel fusion with e40 is indicated below the scheme of the plasmid. Amino acids of E40 are in the second position of each codon.

Figure 7: Scheme of the cloning expression vector pMUls-kasOpSR40gusA containing the strong kasOp * promoter, optimized strong SR40 RBS, and inserted single Ndel site in ATG codon of the gusA reporter gene. The sequence of this promoter and RBS region with -10 and -35 regions of the promoter (bold and underlined), its TSS (bold, underlined and -highlighted) and RBS (bold and underlined) is indicated below the scheme of the plasmid.

Figure 8: Scheme of the recombinant plasmids pLit-vsie40pre, pLit-e40Hispre, pLitvsie40HQHispre, pLit-vsie40mat, pLit-vsie40Hismat, containing the vsi-e40pre gene fusion of Vsi with pro enzyme E40pre and the vsi-e40mat gene fusion of Vsi with mature enzyme E40mat (with and without 6 x His tag, respectively), inserted between Nhel and Hindlll sites of the cloning vector pLit-kasOpSR40vsi3mRFP. The sequence of the kasOp* promoter with -10 and -35 regions of the promoter (bold and underlined), its TSS (bold, underlined and -highlighted), RBS (bold and underlined), Ndel and Nhel of the vsi- E40 fusion site is indicated below plasmid.

Figure 9: Schemes of the recombinant plasmids pMUls-e40, pMUls-e40His, pMUlsvsie40pre, pMU 1 s-vsie40Hispre, pMU 1 s-vsie40HQHispre, pMUls vsie40mat, pMUls-vsie40Hismat, containing all the forms of e40 gene fusions as Kpnl EcoKV DNA fragments from pLit plasmids (see Figs. 6, 8) inserted between Kpnl and EcoRV sites of the cloning vector pMU 1 s-kasOpSR40gusA (Fig. 7).

Figure 10: Schemes of the recombinant plasmids pIJ86-kasOpe40, pIJ86-kasOpe40His, pIJ86-vsie40pre, pIJ86-vsie40Hispre, pIJ86-vsie40HQHispre, pIJ86-vsie40mat, pIJ86- vsie40Hismat, containing all the forms of e40 gene fusions (as indicated in Fig. 6, 8) (with and without 6 x His tag, respectively) as Kpnl-EcoKV DNA fragments from pLit plasmids (Fig. 6, 8) inserted between Kpnl and Hindlll sites of the cloning vector pIJ86 (Fig. 2). Figure 11: Scheme of the recombinant plasmid pMUl s-ermEe40, containing ermEp*-e40His fusion from the plasmid pIJ86/e40His containing e40 gene with 6 x His tag.

Figure 12: E40 activity in wild-type and mutant S. lividans RedStrep 1.3 strain conjugated with high copy replicative plasmids of the prior art.

Figure 13: E40 activity in wild-type and mutant S. lividans RedStrep strains conjugated with single-site integrating plasmids expressing native E40 under the ermEp* promoter. Figure 14: E40 activity in wild-type S. lividans strains conjugated with single-site integrating plasmids expressing native E40 (A) or His-tagged E40 (B) under the kasOp* promoter and optimized strong SR40 RBS according to the invention.

Figure 15: E40 activity in wild-type S. lividans strains conjugated with high copy pIJ86 plasmids expressing E40 (A) or E40 His-tagged (B) under the kasOp * promoter and optimized strong SR40 RBS.

Figure 16: E40 activity in wild-type S. lividans strains conjugated with high copy pIJ86 plasmids pIJ86 comprising vsi-e40pre (A), His-tagged vsi-e40pre (B), vsi-e40mat (C), or His-tagged vsi-e40mat fusion genes (D), under the kasOp* promoter and optimized strong SR40 RBS.

Figure 17: E40 activity in wild-type S. lividans strains conjugated with single-site integrating plasmids comprising vsi-e40pre (A) or His-tagged vsi-e40pre (B), under the kasOp* promoter and optimized strong SR40 RBS.

Figure 18: E40 activity in wild-type or mutant S. lividans RedStrep strains conjugated with single-site integrating plasmids expressing native E40 (A) or native E40 His-tagged (B) under the kasOp * promoter and optimized strong SR40 RBS.

Figure 19: E40 activity in wild-type or mutant S. lividans RedStrep strains conjugated with single-site integrating plasmids expressing vsi-e40pre (A) or His-tagged vsi-e40pre (B), under the kasOp * promoter and optimized strong SR40 RBS.

DETAILED DESCRIPTION OF THE INVENTION

The present invention is first directed to a recombinant vector bearing an expression cassette for heterologous expression of a recombinant protein in a Streptomyces host cell, said cassette comprising: a promoter, a regulatory element down-stream said promoter, and a polynucleotide encoding a recombinant protein, down-stream said promoter and said regulatory element, and operably linked to the same.

The terms “vector”, “expression vector” and “plasmid” are used herein interchangeably. The expression vector for heterologous expression of a recombinant protein in a Streptomyces host cell of the invention is a single-site integrating vector containing the attP site and integrase gene from PhiBTl phage, more preferably a vector integrating at its attB site of Streptomyces , having sequence SEQ ID NO: 13.

Examples of single-site integrating vectors according to the present invention include those described in Kormanec J. et al., Applied Microbiology and Biotechnology (2019) 103:5463-5482.

In preferred embodiments, the single-site integrating vector is a vector having the backbone of pMUl vector (see Craney et al. 2007, Nucleic Acids Res 35, e46).

The promoter of said expression cassette is an engineered kasO promoter {kasOp*) of sequence SEQ ID NO: 10; the regulatory element of the expression cassette is a synthetic ribosome-binding site (SR40 RBS) of sequence SEQ ID NO: 11; and the polynucleotide encoding for the recombinant protein of interest is a polynucleotide encoding for a recombinant protein that includes the signal peptide. The expression cassette of the invention is particularly suitable for heterologous expression of recombinant proteins in Streptomyces host cells, wherein the recombinant protein is expressed by the host cell, cultured in a medium under suitable conditions for the growth of the host cell, and it is secreted in said culture medium. The signal peptide drives secretion of the protein in the medium.

Optionally the signal peptide is a heterologous signal peptide, more preferably Vsi signal peptide of subtilisin inhibitor of Streptomyces venezuelae having sequence SEQ ID NO: 12. Surprisingly, the use of a heterologous signal peptide fused to the protein of interest, according to the invention, provides secretion of the recombinant protein as good as the protein’s native signal peptide.

In preferred embodiments of the present invention, the recombinant protein encoded by the polynucleotide of the expression cassette is a recombinant Actinoallomurus endopeptidase with glutenase activity; more preferably said endopeptidase is endopeptidase 40 (E40) of sequence comprising SEQ ID NO: 1, a biologically active fragment of E40, a naturally occurring allelic variant of E40; or an endopeptidase of sequence having at least 60%, 70%, 80%, 90% or 95% of identity to SEQ ID NO: 1.

SEQ ID NO: 1 is the polypeptide sequence of the mature form of E40.

Therefore, preferably the expression cassette comprises a polynucleotide encoding for the endopeptidase E40 of sequence comprising SEQ ID NO: 1, for a biologically active fragment of E40, for a naturally occurring allelic variant of E40, or for an endopeptidase of sequence having at least 60%, 70%, 80%, 90% or 95% of identity to SEQ ID NO: 1. The term “biologically active fragment” of E40 refers to portions of the endopeptidase which maintain its specific glutenase activity. A polynucleotide encoding for a "biologically-active fragment” of E40 can be identified as disclosed by WO2021013553. The polynucleotide encoding for the recombinant protein of interest can have sequence that differs from the annotated nucleic acid sequence due to degeneracy of the genetic code and thus it encodes the same protein encoded by a polynucleotide having the annotated nucleic acid sequence.

The terms "identity" or “homology” when referred to a nucleotide or aminoacidic sequence are herein used interchangeably and refer to the degree to which two polynucleotide or polypeptide sequences are identical or homologous on a residue-by- residue basis over a particular region of comparison. The alignment and the percent identity or homology can be determined using any suitable software program known in the art, for example those described in Current Protocols in Molecular Biology (Ausubel F.M. et al., "Commercially Available Software", Current Protocols in Molecular, 1987, Supplement 30, Section 7.7.18, Table 7.7.1). Preferred programs include the GCGPileup program, FASTA (Pearson R. and Lipman D. J. "Improved Tools for Biological Sequence Analysis” Proc. Natl., Acad. Sci. USA, 1988, 85, 2444-2448), and BLAST (Altschul S.F., Gish W., Miller W., Myers E.W., Lipman D. J. "Basic local alignment search tool" J. Mol. Biol., 1990, 215, 403-410).

The term "allelic variant" denotes any of two or more alternative forms of a gene occupying the same chromosomal locus. Allelic variation arises naturally through mutation, and may result in phenotypic polymorphism within populations. Gene mutations can be silent (no change in the encoded polypeptide) or may encode polypeptides having altered aminoacidic sequence. The term allelic variant refers also to a protein encoded by an allelic variant of a gene.

The polynucleotide encoding for the recombinant protein of interest can encode for a protein that is operatively-fused to another polypeptide, for instance a tag, such as a histidine-tag. For instance, said polynucleotide can be a polynucleotide encoding for a tagged protein, such as for the tagged E40 of sequence comprising or consisting of SEQ ID NO: 2. In preferred embodiments, said polynucleotide encoding for the protein of interest is a polynucleotide of sequence comprising or consisting of sequence SEQ ID NO: 5, 6, 15, 16, 17, or 18 and the expression cassette is of sequence SEQ ID NO: 20, 21, 22 or 23.

Therefore, in preferred embodiment, the present invention is directed to single-site integrating vector, more preferably a vector integrating at attB site for PhiBTl phage of Streptomyces , bearing an expression cassette for the expression in Streptomyces host cells, preferably of S. lividans strains, of the Actinoallomurus endopeptidase, preferably of the Actinoallomurus endopeptidase 40 (E40), a biologically active fragment, a variant, or a derivative thereof, under the control of an engineered kasO promoter ( kasOp *) of sequence SEQ ID NO: 10 and a ribosome-binding site (RBS) of sequence SEQ ID NO: 11 (SR40 RBS). Optionally the recombinant protein is the Actinoallomurus endopeptidase whose signal peptide is substituted with a Vsi signal peptide.

More preferably the single-site integrating vector bearing an expression cassette for the expression of the Actinoallomurus endopeptidase 40 (E40) is a pMUl vector of sequence SEQ ID NO: 25, 26, 27 or 28.

The present invention is also directed to a host cell for heterologous expression of a recombinant protein comprising an expression vector according to the invention, preferably being a recombinant Streptomyces host cell, more preferably a S. lividans host cell. The host cell can be a wild-type S. lividans host cell or a mutant S. lividans host cell, such as a S. lividans host cell of strain S. lividans RedStrep 1.3 (Aact, Ared, Acda), S. lividans RedStrep 1.6 (Aact, Ared, Acda, Amel), or S. lividans RedStrep 1.9 (Aact, Ared, Acda, Amel, AmatAB) (Novakova et al., 2018).

Preferably, said host cell is a cell of strain DSM 33930 (S. lividans 1.3 conjugated with pMUls-e40His) DSM 33931 (S. lividans 1.9 conjugated with pMUls-e40His), deposited on 24 June 2021 with the Leibniz Institute DSMZ-German Collection of Microorganisms and Cell Cultures GmbH, InhoffenstraBe 7B 38124 Braunschweig - GERMANY, under the provision of the Budapest Treaty.

The present invention is then directed also the use of the recombinant vectors or of the host cells of the invention for the production of a recombinant protein, which is secreted in the culture medium of the host cell.

Advantageously, the system of the invention provides production of the protein of interest, which is stable and in high amounts. Moreover, the protein is easily recoverable from the host cell culture medium wherein it is secreted.

In fact, the systems of the invention is also directed to a method for producing a recombinant protein in a Streptomyces host cell, comprising in series: culturing a recombinant Streptomyces host cell, preferably a S. lividans host cell, more preferably of the TK24 strain, in a culture medium under fermentation conditions, said recombinant host cell comprising a recombinant expression vector according to the invention; recovering the supernatant of the culture medium and purifying from said supernatant a preparation comprising the recombinant protein.

For “fermentation conditions” it is meant conditions of cultivation of the host cell strain (medium composition, stirring parameters, aeration and temperature) suitable for the strain to grow and to produce the compound of interest (the recombinant endopeptidase). Suitable fermentation conditions can be for instance those described in WO2021013553 or those described in the following examples.

It should be understood that all the possible combinations of the preferred aspects of the present invention s are also described, and therefore similarly preferred.

Examples of embodiments of the present invention are given below, provided for illustrative and non-limiting purposes.

EXAMPLES

Plasmids

Plasmids that have been prepared in the following examples 1-6 are summarized in Table 1. The promoter, RBS, signal peptide, gene and vector’s backbone are reported for each plasmid.

Table 1

Host cells

S. lividans wild-type strain TK24 (Taxonomy ID: 457428) and S. lividans mutant strains RedStrep 1.3, 1.6, 1.9 (Novakova et al. 2018) have been employed in examples 7-14 to test production of recombinant protein with different plasmids.

Example 1 pIJ86/e40 and pIJ86/e40His (Fig. 2) are pIJ86 high copy replicative plasmids of the prior art (see WO2021013553), including the gene encoding for e40 (pre-proe40) under the ermEp* promoter (comprised of weaker ermEp2 and stronger mutated ermEpl*). These have been obtained from Fondazione Istituto Insubrico di Ricerche per la Vita (FIIRV).

Example 2 pMUls-kasOpSR40gusA (Fig. 7) is a PhiBTl-based integrative vector pMUls (Craney et al. 2007, Nucleic Acids Res 35, e46), bearing an expression cassette comprising gusA reporter gene (Myronovskyi et al. 2011, Appl Environ Microbiol 77, 5370-5383) under the control of the strong kasOp* promoter and with optimized synthetic strong SR40 RBS (Bai et al. 2015, Proc Natl Acad Sci USA 112, 12181-12186). Activity of this combination was 1897 U/g of GUS, 47-fold higher than the same expression cassette under ermEp* promoter.

Example 3

A polynucleotide encoding for a fusion polypeptide of vsi signal peptide sequence with red fluorescent protein (mRFP) reporter gene, with Nhel site inserted between the signal peptide sequence and mRFP, was prepared. The whole vsi-mRFP cassette, as an 800-bp Ndel-Notl DNA fragment, was used to replace gusA in pMUls-kasOpSR40gusA of Example 2, resulting in pMUls-kasOpSR40vsi3mRFPA vector (Fig. 3). It similarly contained the strong kasOp* promoter, optimized synthetic strong SR40 RBS and Vsi signal peptide. This construct had strong secretion of mRFP (27 886 FU). SDS-PAGE revealed correct band of secreted mRFP in rich TSB medium (Fig. 4).

Example 4

A 900-bp Kpnl-Notl expression cassette, containing the kasOp* promoter, optimized SR40 RBS, with inserted single Ndel site in ATG codon of the vsi-mRFP reporter fusion gene, was cloned in the standard E. coli cloning vector pBluescript II SK (Stratagene) digested with the same enzymes, resulting in pBS-kasOpSR40vsi3mRFP. This fragment was subsequently cloned from this plasmid as a 900-bp Kpnl-Sacl fragment in the standard E. coli cloning vector LITMUS 28 (New England BioLabs) digested with the same enzymes, resulting in pLit-kasOpSR40vsi3mRFP (Fig. 5). The plasmid was verified by nucleotide sequencing and used as a vector for cloning of all e40 genes into vectors according to the invention. The entire e40 gene from its ATG initiation codon together with its signal peptide sequence (e40 pre-pro), with and without C-terminally located 6 x His tag, was PCR amplified from pIJ86/e40His plasmid, inserting an Ndel site in ATG initiation codon, and Spel and Hindlll sites after e40 stop codon. The PCR amplified and purified 1200-bp DNA fragments were digested with Ndel and Spel and cloned in pLit-kasOpSR40vsi3mRFP digested with AvrII and Ndel, resulting in pLit-e40 or pLit-e40His, respectively (Fig. 6). Several positive clones were analyzed by restriction mapping and subsequently verified by nucleotide sequencing.

To prepare a vsi-e40pre gene fusion containing fusion of Vsi with a pro enzyme E40pre, we PCR amplified the e40pre gene (with and without C-terminally located 6 xHis tag), with pIJ86/e40His plasmid as a template and proof-reading Pfu DNA polymerase, using primers inserting an Nhel site in Ala34 codon, and Spel and Hindlll sites after e40 stop codon. The PCR amplified and purified 1100-bp DNA fragments were digested with Nhel and Hindlll and cloned in pLitkasOpSR40vsi3mRFP digested with Nhel and Hindlll, resulting in pLit-vsie40pre or pLit-vsi40Hispre, respectively (Fig. 8). Several positive clones were analyzed by restriction mapping and subsequently verified by nucleotide sequencing. Sequencing of the clones revealed one clone where synthesized primer produced mutation replacing the His38 CAC codon to the Gln38 CAA codon. The plasmid was also taken for further analysis and labelled as pLitvsi40HQHispre.

To prepare a vsi-e40mat gene fusion containing fusion of Vsi with a mature enzyme E40mat, we PCR amplified the e40mat gene (with and without C-terminally located 6 x His tag), with pIJ86/e40His plasmid as a template and proof-reading Pfu DNA polymerase, using primers that inserted an Nhel site in Ala73 codon with changing further Ala74 codon to Ser, and Spel and Hindlll sites after e40 stop codon. The PCR amplified and purified 1000-bp DNA fragments were digested with Nhel and Hindlll and cloned in pLit-kasOpSR40vsi3mRFP digested with Nhel and Hindlll, resulting in pLit-vsie40mat or pLit-vsi40Hismat, respectively (Fig. 8). Several positive clones were analyzed by restriction mapping and subsequently verified by nucleotide sequencing.

All the cassettes containing the kasOp * promoter, RBS, and e40 (with its original signal peptide or under Vsi signal peptide, with and without 6 x His tag at the end), have been cloned as 1400-bp Kpnl-EcoKY DNA fragments from pLit-e40, pLit-e40His, pLit- vsie40pre, pLit-e40Hispre, pLitvsie40HQHispre, pLit-vsie40mat, pLit-vsie40Hismat (Fig. 6, 8) into pMUlskasOpSR40gusA (Fig. 7), digested with Kpnl and EcoRV, resulting in pMUls-e40, pMUls-e40His, pMUls-vsie40pre, pMUls-vsie40Hispre, pMUls-vsie40HQHispre, pMUls-vsie40mat, pMUls-vsie40Hismat vectors (Fig. 9). Several positive clones were analyzed by restriction mapping and subsequently verified by nucleotide sequencing. All the constructs can integrate into a single position of the chromosome of S. lividans TK24 using the phage PhiBTl-based integrative system after conjugation of the plasmids into S. lividans TK24 with apramycin resistance (AprR) selection. The final constructs are stable and no AprR selection is required.

All the cassettes containing the kasOp * promoter, RBS, and e40 (with its original signal peptide or under Vsi signal peptide, with and without 6 x His tag at the end), have been cloned as 1400-bp Kpnl-EcoKY DNA fragments from pLit-e40, pLit-e40His, pLit- vsie40pre, pLit-e40Hispre, pLitvsie40HQHispre, pLit-vsie40mat, pLit-vsie40Hismat (Fig. 6, 8) to pIJ86, digested with Kpnl and Hindlll, resulting in pIJ86-kasOpe40, pIJ86- kasOpe40His, pIJ86-vsie40pre, pIJ86-vsie40Hispre, pIJ86-vsie40HQHispre, pIJ86- vsie40mat, pIJ86-vsie40Hismat vectors (Fig. 10). Several positive clones were analyzed by restriction mapping and subsequently verified by nucleotide sequencing. All the constructs can replicate in S. lividans TK24 in high-copy number (about 100-300 copies) after conjugation of the plasmids into S. lividans TK24 with AprR selection. However, permanent AprR selection is required and some instability has been reported.

Last, a 1500-bp Xbal (filled with Klenow) - Hindlll fragment from the high-copy number shuttle plasmid pIJ86/e40His was cloned into pMUl s-vsiRFPB vector cut with EcoRV and Hindlll, resulting in pMUls-ermEe40 (Fig. 11). The plasmid was verified by sequencing. Example 7

E40 activity with the prior art strain S. lividans/ pIJ86/e40His was determined. First, we prepared a spore stock after its sporulation on solid Bennet and Apramycin (Apr) medium. Mixed spores and spores from five independent sporulated colonies were tested for stability. Spore suspension from 1 x 1 cm sporulated region from confluent mixed spores (or whole 5 large single sporulated colonies) were inoculated in Erlenmeyer flasks (100 ml) containing 10 ml of Medium V (glucose 20 g/L, yeast extract Difco 5 g/L, soy peptone Sigma Aldrich 10 g/L, NaCl 1.5 g/L), with Apr added to final 50 ug/ml and incubated on a rotatory shaker at 200 rpm at 30°C for 1 day. 5 beads (3.5 mm) were added, then cultivation continued for another day. 2 ml of such seed culture was inoculated in Erlenmeyer flask (100 ml) containing 20 ml of the Medium P (Sucrose 340 g/L, Glucose 10 g/L, Yeast extract 3 g/L, Soy peptone 5 g/L, Malt extract 3 g/L), with Apr added to final 50 pg/ml, and incubated in the same conditions. At 2d, 5d, 6d, 7d, 8d, 1 ml of culture into Eppendorf tube was taken, centrifuged (10 min at 13000 rpm), supernatant transferred into new tube and stored at - 20 °C. E40 activity was measured by SSA protocol (Standard Activity Assay, SSA, performed in 96 wells transparent microtiter plates and measured in Biotec Microplate reader at A405) with 40 x dilution of the samples. Comparable E40 activities of about 20 AU/ml was determined in all five independent colonies and mixed culture. Samples were also analyzed by SDS-PAGE, all showing the E40 38 kE)a band (not shown).

E40 activity was tested with two S. lividans strains, wild-type TK24 and mutant S. lividans RedStrep 1.3, conjugated with the prior art plasmids pIJ86, pIJ86/e40, and pIJ86/e40His. The sporulated culture was inoculated in Erlenmeyer flasks (100 ml) containing 10 ml Niedercorn medium (3% sucrose, 2% com steep liquor, 0.2% ammonium sulfate, 0.7% CaC03, pH 7, in distilled water), with Apr to final 50 ug/ml and incubated on a rotatory shaker at 200 rpm at 30°C for 2 days.

2 ml of such seed culture was inoculated in Erlenmeyer flask (100 ml) containing 20 ml of the Medium P. E40 activity was measured by SSA protocol as above with 40 x dilution of samples consisting of the supernatant of cultures taken at 3, 4, 5, 6, 7 days. In the case of vector pIJ86 alone, only low background protease activity was shown in both strains. With both constructs pIJ86/e40 and pIJ86/e40His E40 activity was of about 15 AU/ml in TK24 strain and of about 20 AU/ml in RedStrep 1.3 strain (Fig. 12)

E40 activity was measured in wild-type S. lividans TK24 strain and in three mutant strains, S. lividans RedStrep 1.3; 1.6; 1.9 using the control plasmid pMUl s-ermEe40 (Fig. 11). Cultures were prepared as in Example 8.

With single copy chromosomally-integrated construct pMUl s-ermEe40, E40 activity was much lower compared to the activity with high copy number pIJ86 vectors of Example 8: 1.13 AU/ml with pMUl s-ermEe40 in wild-type S. lividans TK24 and about 3 -fold higher in RedStrep 1.6 and 1.9 strains (Fig. 13)

E40 activity was measured in wild-type S. lividans TK24 strain conjugated with four clones of the single-site integrating plasmids pMUls-e40 and pMUls-e40His, containing the kasOp* promoter, strong SR40 RBS, and e40 with its original signal peptide (without and with C-terminal x His tag). Cultures were prepared as in Example 8.

In three clones (No. 1, 2, 3) with the plasmid pMUls-e40, there was comparable E40 activity of about 55 AU/ml, however, in the clone No.4, the activity was much higher (260 AU/ml) (Fig. 14 A). Similarly, in three clones (No. 1, 2, 4) with the plasmid pMUls- e40His, there was comparable E40 activity of about 45 AU/ml, however, in the clone No.3, the activity was much higher (180 AU/ml) (Fig. 14B). Based on the comparison of the three similar clones with the single-copy integrative plasmid pMUl s-ermEe40 of Example 6, pMUls-e40 and pMUls-e40His show about 50-fold and 40-fold increase of the E40 activity, respectively.

Example 11

E40 activity was analyzed in four independent clones from the wild-type S. lividans TK24 strain conjugated with high copy vector pIJ86 containing the kasOp* promoter, strong SR40 RBS, and e40 with its original signal peptide or with vsi signal peptide, without and with a C-terminal His tag (pIJ86-kasOpe40, pIJ86-kasOpe40His, pIJ86-vsie40pre, pIJ86-vsie40Hispre, pIJ86-vsie40HQHispre, pIJ86-vsie40mat, pIJ86-vsie40Hismat). The results indicated high instability of this high-copy number vector containing cloned cassettes kasOp* promoter, strong SR40 RBS and e40, either with its original signal peptide (Fig. 15) or fused to Vsi signal peptide (Fig. 16), without and with C-terminal x His tag. In fact, in the case of four clones of pIJ86-kasOpe40, one out of four clones had quite high E40 activity (150 AU/ml), one had E40 activity of 40 AU/ml and two other clones had zero activity (Fig. 15 A). Similarly, in the case of four clones of pIJ86- kasOpe40His, one clone had quite high E40 activity (51 AU/ml), another clone had E40 activity of 38 AU/ml and two other clones had zero activity (Fig. 15 B).

Similarly, in the case of four clones of plasmids pIJ86-vsie40pre, pIJ86- vsie40Hispre, pIJ86-vsie40HQHispre, pIJ86-vsie40mat, pIJ86-vsie40Hismat in S. lividans TK24, the E40 activities were very low (between 0.5 and 2.5 AU/ml) in all the clones tested (Fig. 16 A-D). These results were surprising, since their single copy chromosomally integrated counterparts, pMUls-e40 and pMUls-e40His, had stable and high E40 activity (Fig. 14). Example 12

High E40 activity was found in all four clones with the plasmids pMUls-vsie40pre and pMUls-vsie40Hispre, containing the kasOp * promoter, strong SR40 RBS, and pro enzyme part of e40 fused to Vsi signal peptide (Fig. 17). In the case of the plasmid pMUls-vsie40pre, there was E40 activity of about 50 AU/ml, and up to 85 AU/ml in one clone (Fig. 17A). Similarly, with the plasmid pMUls-vsie40Hispre, there was comparable E40 activity of about 30 AU/ml in three clones, and 84 AU/ml in one clone (Fig. 17B). Based on the comparison of these E40 activities to the ones of E40 from cells conjugated with control single-copy integrative plasmid pMUl s-ermEe40 of Example 9, there is about 45-fold increase of the E40 activity for the construct pMU 1 s-vsie40pre (75- fold in the highest activity clone) and about 26- fold increase of the E40 activity for the construct pMUl s-vsie40Hispre (even 75-fold in the highest activity clone). Comparing these clones to the clones with high-copy number plasmid pIJ86/e40His in TK24, the two best clones show a 5.6-fold higher E40 activity. Moreover, these clones show high stability.

Plasmid pMUl s-vsie40HisHQpre, containing the kasOp* promoter, strong RBS, and pro enzyme part of e40 with 38His/Gln mutation fused to Vsi signal peptide showed E40 activity partially decreased compared to its wild-type variant (about 27 AU/ml) pMUls-e40 and pMUls-e40His were conjugated in the S. lividans mutant strains RedStrepl.3, 1.6 and 1.9. E40 activity was analyzed in four independent clones together with the four previously analyzed clones of example 10 in the wild-type S. lividans TK24 strain. In the case of pMUls-e40, the E40 activities were clearly higher in RedStrep 1.3 (75 ± 13 AU/ml) than in TK24 (56 ± 7 AU/ml). The E40 activities were also higher in RedStrep 1.6 (67 ± 24 AU/ml), but the E40 activities in RedStrep 1.9 were similar to TK24 (52 ± 7 AU/ml) (Fig. 18 A). In the case of pMUls-e40His E40 activities were similar in all four strains; in WT TK24 (33 ± 7 AU/ml), in RedStrep 1.3 (29 ± 6 AU/ml), in RedStrep 1.6 (31 ± 7 AU/ml) and in RedStrep 1.9 (31 ± 7 AU/ml) (Fig. 18B) pMUls-vsie40pre and pMUls-vsie40Hispre (containing the kasOp* promoter, strong SR40 RBS, and pro-enzyme part of e40 fused to Vsi signal peptide), were conjugated into RedStrepl.3, 1.6 and 1.9 mutant strains and E40 activity was analyzed in four independent clones together with the four previously analyzed clones of example 12 in the wild-type S. lividans TK24 strain. Recombinant cells were grown as in example 8.

In the case of pMUls-vsie40pre vector, E40 activities were higher in RedStrep 1.3 (40 ± 13.3 AU/ml) than in TK24 (28.75 ± 6.2 AU/ml). TheE40 activities in RedStrep 1.6 (29.75 ± 3.8 AU/ml) were similar to WT TK24 strain. (Fig. 19A). In the case of pMUls- vsie40Hispre vector, E40 activities were again higher in RedStrep 1.3 (30 ± 3.5 AU/ml), and similar in RedStrep 1.6 (24.75 ± 0.9 AU/ml), in RedStrep 1.6 (31 ± 7 AU/ml), but lower in RedStrep 1.9 (22 ± 2.9 AU/ml) (Fig. 19B). The experimental data show that integrative vectors based on PhiBTl phage integrase (pMUls-e40, pMUls-e40His, pMUls-vsie40pre, pM ls-vsie40Hispre, pMUls-vsie40HQHispre, pMUls-vsie40mat, pMUls-vsie40Hismat) according to the invention provide stable and high production of E40. pMUls-e40 and pM ls-e40His vectors, containing the kasOp* promoter, optimal strong SR40 RBS, original signal peptide sequence followed by original e40 or e40His are the best vectors, producing on average 50 AU/ml or 35 AU/ml of enzyme, respectively. Moreover, the best host cell strain for E40 production is S. lividans RedStrep 1.3.

SEQUENCE LISTING

SEQ ID NO: 1

AAPSGLSPANLQSAYKLPSSTAGSGQTVAIVDAYDAPTAEADLNVYRSQFGLGACTT ANGCFKKVDQNGG TSYPRKDGGWAQEISLDLDMVSAVCPNCKIVLVEAKTNSFANLGTAENTAASLANVISNS YGGSDASDAS YGSYYNHPGKAITVSSGDAGYGVEYPASSHYVTAVGGTSLRTASTSRGWSETAWSGAGSG CSAYNTALSG QSGLTGCSRRAVADVSAVADPATGVAVYDSTAYQGQSGWMVFGGTSVAAPIIGGVYGLAA NAASIDNNYP YAHTSSLFDVTSGSNGTCTTTKWCTAGTGWDGPTGLGTPNGTGAF

SEQ ID NO: 2

AAPSGLSPANLQSAYKLPSSTAGSGQTVAIVDAYDAPTAEADLNVYRSQFGLGACTT ANGCFKKVDQNGG TSYPRKDGGWAQEISLDLDMVSAVCPNCKIVLVEAKTNSFANLGTAENTAASLANVISNS YGGSDASDAS YGSYYNHPGKAITVSSGDAGYGVEYPASSHYVTAVGGTSLRTASTSRGWSETAWSGAGSG CSAYNTALSG QSGLTGCSRRAVADVSAVADPATGVAVYDSTAYQGQSGWMVFGGTSVAAPIIGGVYGLAA NAASIDNNYP YAHTSSLFDVTSGSNGTCTTTKWCTAGTGWDGPTGLGTPNGTGAFGHHHHHH

SEQ ID NO: 3

MSRRVTGTILGGLILAMVPFLSTAANAAPQAAPASVSHPFHHSCATVKPGRASCNAL VRSDIAQSAATLA HQAAAPSGLSPANLQSAYKLPSSTAGSGQTVAIVDAYDAPTAEADLNVYRSQFGLGACTT ANGCFKKVDQ NGGTSYPRKDGGWAQEISLDLDMVSAVCPNCKIVLVEAKTNSFANLGTAENTAASLANVI SNSYGGSDAS DASYGSYYNHPGKAITVSSGDAGYGVEYPASSHYVTAVGGTSLRTASTSRGWSETAWSGA GSGCSAYNTA LSGQSGLTGCSRRAVADVSAVADPATGVAVYDSTAYQGQSGWMVFGGTSVAAPIIGGVYG LAANAASIDN NYPYAHTSSLFDVTSGSNGTCTTTKWCTAGTGWDGPTGLGTPNGTGAF

SEQ ID NO: 4

MSRRVTGTILGGLILAMVPFLSTAANAAPQAAPASVSHPFHHSCATVKPGRASCNAL VRSDIAQSAATLA HQAAAPSGLSPANLQSAYKLPSSTAGSGQTVAIVDAYDAPTAEADLNVYRSQFGLGACTT ANGCFKKVDQ NGGTSYPRKDGGWAQEISLDLDMVSAVCPNCKIVLVEAKTNSFANLGTAENTAASLANVI SNSYGGSDAS DASYGSYYNHPGKAITVSSGDAGYGVEYPASSHYVTAVGGTSLRTASTSRGWSETAWSGA GSGCSAYNTA LSGQSGLTGCSRRAVADVSAVADPATGVAVYDSTAYQGQSGWMVFGGTSVAAPIIGGVYG LAANAASIDN NYPYAHTSSLFDVTSGSNGTCTTTKWCTAGTGWDGPTGLGTPNGTGAFGHHHHHH

SEQ ID NO: 5 atgtcacgac gcgtgaccgg gaccatactg ggcgggttga tcctcgccat ggtccccttc ctttccaccg cggccaacgc cgcaccccag gccgcgccgg cttccgtctc ccacccgttc caccactcct gcgccacggt gaagccgggt cgggcgagct gcaatgccct cgtacgcagc gacatcgccc agagcgcggc gaccctcgcg caccaagcgg ccgccccatc cgggctctcg ccggccaacc tgcagagcgc ctacaagctg ccgtcctcca cggccggatc cggccagacc gtcgcgatcg tcgacgccta tgacgccccg accgccgaag cggacttgaa cgtgtaccga agccagttcg gactcggcgc gtgcacgacc gccaacggct gtttcaagaa ggtcgaccag aacggcggca cgtcctatcc gaggaaggac ggcggctggg cgcaggagat ctccctggac ctcgacatgg tctccgcggt ctgccccaac tgcaagatcg ttctcgtcga ggcgaagacc aactcgttcg ccaacctggg taccgccgag aacaccgcgg cgagtctcgc gaacgtcatc agcaacagct acggcggctc ggacgcctct gacgcgagct atggctcgta ctacaaccac ccgggcaagg ccatcacggt cagctccggc gacgccggct acggcgtgga gtacccggcc tcgtcccact acgtgaccgc cgtcggcggc acctcgctgc gcaccgcgag caccagccgc ggctggagcg agaccgcgtg gagcggcgcg ggcagtggct gctcggccta caacaccgcg ctgtccggcc agtccggcct caccggctgc tcccggcgcg ccgtcgccga cgtctccgcc gtggccgacc cggccaccgg cgtcgccgtc tacgacagca cggcctacca gggccagagc ggctggatgg tcttcggcgg caccagcgtc gccgcaccga tcatcggtgg cgtgtacggc ctcgccgcca acgccgcgag catcgacaac aactacccct acgcccacac cagctcgctc ttcgacgtca cgtcgggcag caacggcacc tgcaccacca ccaagtggtg caccgccggc accggctggg acggccccac cggcctcgga acgccgaacg gcaccggagc cttctga

SEQ ID NO: 6 atgtcacgac gcgtgaccgg gaccatactg ggcgggttga tcctcgccat ggtccccttc ctttccaccg cggccaacgc cgcaccccag gccgcgccgg cttccgtctc ccacccgttc caccactcct gcgccacggt gaagccgggt cgggcgagct gcaatgccct cgtacgcagc gacatcgccc agagcgcggc gaccctcgcg caccaagcgg ccgccccatc cgggctctcg ccggccaacc tgcagagcgc ctacaagctg ccgtcctcca cggccggatc cggccagacc gtcgcgatcg tcgacgccta tgacgccccg accgccgaag cggacttgaa cgtgtaccga agccagttcg gactcggcgc gtgcacgacc gccaacggct gtttcaagaa ggtcgaccag aacggcggca cgtcctatcc gaggaaggac ggcggctggg cgcaggagat ctccctggac ctcgacatgg tctccgcggt ctgccccaac tgcaagatcg ttctcgtcga ggcgaagacc aactcgttcg ccaacctggg taccgccgag aacaccgcgg cgagtctcgc gaacgtcatc agcaacagct acggcggctc ggacgcctct gacgcgagct atggctcgta ctacaaccac ccgggcaagg ccatcacggt cagctccggc gacgccggct acggcgtgga gtacccggcc tcgtcccact acgtgaccgc cgtcggcggc acctcgctgc gcaccgcgag caccagccgc ggctggagcg agaccgcgtg gagcggcgcg ggcagtggct gctcggccta caacaccgcg ctgtccggcc agtccggcct caccggctgc tcccggcgcg ccgtcgccga cgtctccgcc gtggccgacc cggccaccgg cgtcgccgtc tacgacagca cggcctacca gggccagagc ggctggatgg tcttcggcgg caccagcgtc gccgcaccga tcatcggtgg cgtgtacggc ctcgccgcca acgccgcgag catcgacaac aactacccct acgcccacac cagctcgctc ttcgacgtca cgtcgggcag caacggcacc tgcaccacca ccaagtggtg caccgccggc accggctggg acggccccac cggcctcgga acgccgaacg gcaccggagc cttcggacac caccaccacc accactga

SEQ ID NO: 7 gccagcctcg cagagcagga ttcccgttga gcaccgccag gtgcgaataa gggacagtga agaaggaaca cccgctcgcg ggtgggccta cttcacctat cctgcccggc tgacgccgtt ggatacacca aggaaagtct acacgaaccc tttggcaaaa tcctgtatat cgtgcgaaaa aggatggata taccgaaaaa atcgctataa tgaccccgaa gcagggttat gcagcggaaa agatccgtcg acctgcaggt cgactctaga ggatctgggg aattcgagct cggtaccagc ccgacccgag cacgcgccgg cacgcctggt cgatgtcgga ccggagttcg aggtacgcgg cttgcaggtc caggaagggg acgtccatgc gagtgtccgt tcgagtggcg gcttgcgccc gatgctagtc gcggttgatc ggcgatcgca ggtgcacgcg gtcgatcttg acggctggcg agaggtgcgg ggaggatctg accgacgcgg tccacacgtg gcaccgcgat gctgttgtgg gcacaatcgt gccggttggt aggatcctct agagtcgacc ggcatgcaag cttggctgca gatctgatcc gcggggcgcc ggcacttcgt gctggcgccc cgcccccacc caccaggaga ccgaccatga ccgacttcga cggacgcctg accgagggga ccgtgaacct ggtccaggac cccaacggcg gtggctggtc cgcccactgc gctgagcccg gttgcgactg ggccgacttc gccggaccgc tcggcttcca gggcctcgtg gccatcgctc gccgacacac gcactgaccg cacgtcaaag ccccgccgga tcaccggcgg ggctctcttc ggccctccaa gtcacaccag ccccaagggg cgtcgggagt ggcggaggga acctctggcc cgattggtgc caggattccc accagaccaa agagcaacgg gccggacttc gcacctccga cccgtccgct cccagactcg cgccccttag ccgggcgaga caggaacgtt gctcgtgccc agagtacgga gcgatgccga ggcattgcca gatcggcccg ccgggccccg ctgccactgc gggaccgcaa ttgcccacac accgggcaaa cggccgcgta tctactgctc agaccgctgc cggatggcag cgaagcgggc gatcgcgcgt gtgacgcgag atgccgcccg aggcaaaagc gaacaccttg ggaaagaaac aacagagttt cccgcacccc tccgacctgc ggtttctccg gacggggtgg atggggagag cccgagaggc gacagcctct gggaagtagg aagcacgtcg cggaccgagg ctgcccgact gcggaaagcc gcccggtaca gccgccgccg gacgctgtgg cggatcagcg gggacgccgc gtgcaagggc tgcggccgcg ccctgatgga ccctgcctcc ggcgtgatcg tcgcccagac ggcggccgga acgtccgtgg tcctgggcct gatgcggtgc gggcggatct ggctctgccc ggtctgcgcc gccacgatcc ggcacaagcg ggccgaggag atcaccgccg ccgtggtcga gtggatcaag cgcgggggga ccgcctacct ggtcaccttc acggcccgcc atgggcacac ggaccggctc gcggacctca tggacgccct ccagggcacc cggaagacgc cggacagccc ccggcggccg ggcgcctacc agcgactgat cacgggcggc acgtgggccg gacgccgggc caaggacggg caccgggccg ccgaccgcga gggcatccga gaccggatcg ggtacgtcgg catgatccgc gcgaccgaag tcaccgtggg gcagatcaac ggctggcacc cgcacatcca cgcgatcgtc ctggtcggcg gccggaccga gggggagcgg tccgcgaagc agatcgtcgc caccttcgag ccgaccggcg ccgcgctcga cgagtggcag gggcactggc ggtccgtgtg gaccgccgcc ctgcgcaagg tcaaccccgc cttcacgccc gacgaccggc acggcgtcga cttcaagcgg ctggagaccg agcgcgacgc caacgacctc gccgagtaca tcgccaagac ccaggacggg aaggcgcccg ccctcgaact cgcccgcgcc gacctcaaga cggcgaccgg cgggaacgtc gccccgttcg aactcctcgg acggatcggg gacctgaccg gcggcatgac cgaggacgac gccgccgggg tcggctcgct ggagtggaac ctctcgcgct ggcacgagta cgagcgggca acccggggac gccgggccat cgaatggacc cgctacctgc ggcagatgct cgggctcgac ggcggcgaca ccgaggccga cgacctcgat ctgctcctgg cggccgacgc cgacggcggg gagctgcggg ccggggtcgc cgtgaccgag gacggatggc acgcggtcac ccgccgcgcc ctcgacctcg aggcgacccg ggccgccgaa ggcaaggacg gcaacgagnn nncggcggcc gtgggcgaac gggtgcggga ggtcctggcg ctggccgacg cggccgacac agtggtggtg ctcacggcgg gggaggtggc cgaggcgtac gccgacatgc tcgccgccct cgcccagcgc cgcgaggaag caactgcacg ccgacggcga gagcaggacg acgaccagga cgacgacgcc gacgaccgcc aggagcgggc cgcccggcac atcgcccggc tcgcaagtgg gcccacttcg cactaactcg ctcccccccg ccgtacgtca tcccggtgac gtacggcggg ggtcggtgac gtacgcggcg acggcggccg gggtcgaagc cgcggccgcg cgcgatatcg aattcgtaat catggtcata gctgtttcct gtgtgaaatt gttatccgct cacaattcca cacaacatac gagccggaag cataaagtgt aaagcctggg gtgcctaatg agtgagctaa ctcacattaa ttgcgttgcg ctcactgccc gctttccagt cgggaaacct gtcgtgccag ctgcattaat gaatcggcca acgcgcgggg agaggcggtt tgcgtattgg gcgctcttcc gcttcctcgc tcactgactc gctgcgctcg gtcgttcggc tgcggcgagc ggtatcagct cactcaaagg cggtaatacg gttatccaca gaatcagggg ataacgcagg aaagaacatg tgagcaaaag gccagcaaaa ggccaggaac cgtaaaaagg ccgcgttgct ggcgtttttc cataggctcc gcccccctga cgagcatcac aaaaatcgac gctcaagtca gaggtggcga aacccgacag gactataaag ataccaggcg tttccccctg gaagctccct cgtgcgctct cctgttccga ccctgccgct taccggatac ctgtccgcct ttctcccttc gggaagcgtg gcgctttctc atagctcacg ctgtaggtat ctcagttcgg tgtaggtcgt tcgctccaag ctgggctgtg tgcacgaacc ccccgttcag cccgaccgct gcgccttatc cggtaactat cgtcttgagt ccaacccggt aagacacgac ttatcgccac tggcagcagc cactggtaac aggattagca gagcgaggta tgtaggcggt gctacagagt tcttgaagtg gtggcctaac tacggctaca ctagaagaac agtatttggt atctgcgctc tgctgaagcc agttaccttc ggaaaaagag ttggtagctc ttgatccggc aaacaaacca ccgctggtag cggtggtttt tttgtttgca agcagcagat tacgcgcaga aaaaaaggat ctcaagaaga tcctttgatc ttttctacgg ggtctgacgc tcagtggaac gaaaactcac gttaagggat tttggtcatg agattatcaa aaaggatctt cacctagatc cttttggttc atgtgcagct ccatcagcaa aaggggatga taagtttatc accaccgact atttgcaaca gcgccggtga tcgtgctatg atcgactgat gtcatcagcg gtggagtgca atgtcgtgca atacgaatgg cgaaaagccg agctcatcgg tcagcttctc aaccttgggg ttacccccgg cggtgtgctg ctggtccaca gctccttccg tagcgtccgg cccctcgaag atgggccact tggactgatc gaggccctgc gtgctgcgct gggtccggga gggacgctcg tcatgccctc gtggtcaggt ctggacgacg agccgttcga tcctgccacg tcgcccgtta caccggacct tggagttgtc tctgacacat tctggcgcct gccaaatgta aagcgcagcg cccatccatt tgcctttgcg gcagcggggc cacaggcaga gcagatcatc tctgatccat tgcccctgcc acctcactcg cctgcaagcc cggtcgcccg tgtccatgaa ctcgatgggc aggtacttct cctcggcgtg ggacacgatg ccaacacgac gctgcatctt gccgagttga tggcaaaggt tccctatggg gtgccgagac actgcaccat tcttcaggat ggcaagttgg tacgcgtcga ttatctcgag aatgaccact gctgtgagcg ctttgccttg gcggacaggt ggctcaagga gaagagcctt cagaaggaag gtccagtcgg tcatgccttt gctcggttga tccgctcccg cgacattgtg gcgacagccc tgggtcaact gggccgagat ccgttgatct tcctgcatcc gccagaggcg ggatgcgaag aatgcgatgc cgctcgccag tcgattggct gagctcatga gcggagaacg agatgacgtt ggaggggcaa ggtcgcgctg attgctgggg caacacgtgg agcggatcgg ggattgtctt tcttcagctc gctgatgata tgctgacgct caatgccgtt tggcctccga ctaacgaaaa tcccgcattt ggacggctga tccgattggc acggcggacg gcgaatggcg gagcagacgc tcgtccgggg gcaatgagat atgaaaaagc ctgaactcac cgcgacgtat cgggccctgg ccagctagct agagtcgacc tgcaggtccc cggggatcgg tcttgccttg ctcgtcggtg atgtacttca ccagcttcgc gaagtcgctc ttcttgatgg agcgcatggg gacgtgcttg gcaatcacgc gcaccccccg gccgttttag cggctaaaaa agtcatggct ctgccctcgg gcggaccacg cccatcatga ccttgccaag ctcgtcctgc ttctcttcga tcttcgccag cagggcgagg atcgtggcat caccgaaccg cgccgtgcgc gggtcgtcgg tgagccagag tttcagcagg ccgcccaggc ggcccaggtc gccattgatg cgggccagct cgcggacgtg ctcatagtcc acgacgcccg tgattttgta gccctggccg acggccagca ggtaggccga caggctcatg ccggccgccg ccgccttttc ctcaatcgct cttcgttcgt ctggaaggca gtacaccttg ataggtgggc tgcccttcct ggttggcttg gtttcatcag ccatccgctt gccctcatct gttacgccgg cggtagccg

SEQ ID NO: 8 gccagcctcg cagagcagga ttcccgttga gcaccgccag gtgcgaataa gggacagtga agaaggaaca cccgctcgcg ggtgggccta cttcacctat cctgcccggc tgacgccgtt ggatacacca aggaaagtct acacgaaccc tttggcaaaa tcctgtatat cgtgcgaaaa aggatggata taccgaaaaa atcgctataa tgaccccgaa gcagggttat gcagcggaaa agatccgtcg acctgcaggt cgactctaga ggatctgggg aattcgagct cggtaccagc ccgacccgag cacgcgccgg cacgcctggt cgatgtcgga ccggagttcg aggtacgcgg cttgcaggtc caggaagggg acgtccatgc gagtgtccgt tcgagtggcg gcttgcgccc gatgctagtc gcggttgatc ggcgatcgca ggtgcacgcg gtcgatcttg acggctggcg agaggtgcgg ggaggatctg accgacgcgg tccacacgtg gcaccgcgat gctgttgtgg gcacaatcgt gccggttggt aggatcaatg tcacgacgcg tgaccgggac catactgggc gggttgatcc tcgccatggt ccccttcctt tccaccgcgg ccaacgccgc accccaggcc gcgccggctt ccgtctccca cccgttccac cactcctgcg ccacggtgaa gccgggtcgg gcgagctgca atgccctcgt acgcagcgac atcgcccaga gcgcggcgac cctcgcgcac caagcggccg ccccatccgg gctctcgccg gccaacctgc agagcgccta caagctgccg tcctccacgg ccggatccgg ccagaccgtc gcgatcgtcg acgcctatga cgccccgacc gccgaagcgg acttgaacgt gtaccgaagc cagttcggac tcggcgcgtg cacgaccgcc aacggctgtt tcaagaaggt cgaccagaac ggcggcacgt cctatccgag gaaggacggc ggctgggcgc aggagatctc cctggacctc gacatggtct ccgcggtctg ccccaactgc aagatcgttc tcgtcgaggc gaagaccaac tcgttcgcca acctgggtac cgccgagaac accgcggcga gtctcgcgaa cgtcatcagc aacagctacg gcggctcgga cgcctctgac gcgagctatg gctcgtacta caaccacccg ggcaaggcca tcacggtcag ctccggcgac gccggctacg gcgtggagta cccggcctcg tcccactacg tgaccgccgt cggcggcacc tcgctgcgca ccgcgagcac cagccgcggc tggagcgaga ccgcgtggag cggcgcgggc agtggctgct cggcctacaa caccgcgctg tccggccagt ccggcctcac cggctgctcc cggcgcgccg tcgccgacgt ctccgccgtg gccgacccgg ccaccggcgt cgccgtctac gacagcacgg cctaccaggg ccagagcggc tggatggtct tcggcggcac cagcgtcgcc gcaccgatca tcggtggcgt gtacggcctc gccgccaacg ccgcgagcat cgacaacaac tacccctacg cccacaccag ctcgctcttc gacgtcacgt cgggcagcaa cggcacctgc accaccacca agtggtgcac cgccggcacc ggctgggacg gccccaccgg cctcggaacg ccgaacggca ccggagcctt cggacaccac caccaccacc actgaagctt ggctgcagat ctgatccgcg gggcgccggc acttcgtgct ggcgccccgc ccccacccac caggagaccg accatgaccg acttcgacgg acgcctgacc gaggggaccg tgaacctggt ccaggacccc aacggcggtg gctggtccgc ccactgcgct gagcccggtt gcgactgggc cgacttcgcc ggaccgctcg gcttccaggg cctcgtggcc atcgctcgcc gacacacgca ctgaccgcac gtcaaagccc cgccggatca ccggcggggc tctcttcggc cctccaagtc acaccagccc caaggggcgt cgggagtggc ggagggaacc tctggcccga ttggtgccag gattcccacc agaccaaaga gcaacgggcc ggacttcgca cctccgaccc gtccgctccc agactcgcgc cccttagccg ggcgagacag gaacgttgct cgtgcccaga gtacggagcg atgccgaggc attgccagat cggcccgccg ggccccgctg ccactgcggg accgcaattg cccacacacc gggcaaacgg ccgcgtatct actgctcaga ccgctgccgg atggcagcga agcgggcgat cgcgcgtgtg acgcgagatg ccgcccgagg caaaagcgaa caccttggga aagaaacaac agagtttccc gcacccctcc gacctgcggt ttctccggac ggggtggatg gggagagccc gagaggcgac agcctctggg aagtaggaag cacgtcgcgg accgaggctg cccgactgcg gaaagccgcc cggtacagcc gccgccggac gctgtggcgg atcagcgggg acgccgcgtg caagggctgc ggccgcgccc tgatggaccc tgcctccggc gtgatcgtcg cccagacggc ggccggaacg tccgtggtcc tgggcctgat gcggtgcggg cggatctggc tctgcccggt ctgcgccgcc acgatccggc acaagcgggc cgaggagatc accgccgccg tggtcgagtg gatcaagcgc ggggggaccg cctacctggt caccttcacg gcccgccatg ggcacacgga ccggctcgcg gacctcatgg acgccctcca gggcacccgg aagacgccgg acagcccccg gcggccgggc gcctaccagc gactgatcac gggcggcacg tgggccggac gccgggccaa ggacgggcac cgggccgccg accgcgaggg catccgagac cggatcgggt acgtcggcat gatccgcgcg accgaagtca ccgtggggca gatcaacggc tggcacccgc acatccacgc gatcgtcctg gtcggcggcc ggaccgaggg ggagcggtcc gcgaagcaga tcgtcgccac cttcgagccg accggcgccg cgctcgacga gtggcagggg cactggcggt ccgtgtggac cgccgccctg cgcaaggtca accccgcctt cacgcccgac gaccggcacg gcgtcgactt caagcggctg gagaccgagc gcgacgccaa cgacctcgcc gagtacatcg ccaagaccca ggacgggaag gcgcccgccc tcgaactcgc ccgcgccgac ctcaagacgg cgaccggcgg gaacgtcgcc ccgttcgaac tcctcggacg gatcggggac ctgaccggcg gcatgaccga ggacgacgcc gccggggtcg gctcgctgga gtggaacctc tcgcgctggc acgagtacga gcgggcaacc cggggacgcc gggccatcga atggacccgc tacctgcggc agatgctcgg gctcgacggc ggcgacaccg aggccgacga cctcgatctg ctcctggcgg ccgacgccga cggcggggag ctgcgggccg gggtcgccgt gaccgaggac ggatggcacg cggtcacccg ccgcgccctc gacctcgagg cgacccgggc cgccgaaggc aaggacggca acgagnnnnc ggcggccgtg ggcgaacggg tgcgggaggt cctggcgctg gccgacgcgg ccgacacagt ggtggtgctc acggcggggg aggtggccga ggcgtacgcc gacatgctcg ccgccctcgc ccagcgccgc gaggaagcaa ctgcacgccg acggcgagag caggacgacg accaggacga cgacgccgac gaccgccagg agcgggccgc ccggcacatc gcccggctcg caagtgggcc cacttcgcac taactcgctc ccccccgccg tacgtcatcc cggtgacgta cggcgggggt cggtgacgta cgcggcgacg gcggccgggg tcgaagccgc ggccgcgcgc gatatcgaat tcgtaatcat ggtcatagct gtttcctgtg tgaaattgtt atccgctcac aattccacac aacatacgag ccggaagcat aaagtgtaaa gcctggggtg cctaatgagt gagctaactc acattaattg cgttgcgctc actgcccgct ttccagtcgg gaaacctgtc gtgccagctg cattaatgaa tcggccaacg cgcggggaga ggcggtttgc gtattgggcg ctcttccgct tcctcgctca ctgactcgct gcgctcggtc gttcggctgc ggcgagcggt atcagctcac tcaaaggcgg taatacggtt atccacagaa tcaggggata acgcaggaaa gaacatgtga gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc gtttttccat aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag gtggcgaaac ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt gcgctctcct gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg aagcgtggcg ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg ctccaagctg ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg taactatcgt cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac tggtaacagg attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg gcctaactac ggctacacta gaagaacagt atttggtatc tgcgctctgc tgaagccagt taccttcgga aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg tggttttttt gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc tttgatcttt tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt ggtcatgaga ttatcaaaaa ggatcttcac ctagatcctt ttggttcatg tgcagctcca tcagcaaaag gggatgataa gtttatcacc accgactatt tgcaacagcg ccggtgatcg tgctatgatc gactgatgtc atcagcggtg gagtgcaatg tcgtgcaata cgaatggcga aaagccgagc tcatcggtca gcttctcaac cttggggtta cccccggcgg tgtgctgctg gtccacagct ccttccgtag cgtccggccc ctcgaagatg ggccacttgg actgatcgag gccctgcgtg ctgcgctggg tccgggaggg acgctcgtca tgccctcgtg gtcaggtctg gacgacgagc cgttcgatcc tgccacgtcg cccgttacac cggaccttgg agttgtctct gacacattct ggcgcctgcc aaatgtaaag cgcagcgccc atccatttgc ctttgcggca gcggggccac aggcagagca gatcatctct gatccattgc ccctgccacc tcactcgcct gcaagcccgg tcgcccgtgt ccatgaactc gatgggcagg tacttctcct cggcgtggga cacgatgcca acacgacgct gcatcttgcc gagttgatgg caaaggttcc ctatggggtg ccgagacact gcaccattct tcaggatggc aagttggtac gcgtcgatta tctcgagaat gaccactgct gtgagcgctt tgccttggcg gacaggtggc tcaaggagaa gagccttcag aaggaaggtc cagtcggtca tgcctttgct cggttgatcc gctcccgcga cattgtggcg acagccctgg gtcaactggg ccgagatccg ttgatcttcc tgcatccgcc agaggcggga tgcgaagaat gcgatgccgc tcgccagtcg attggctgag ctcatgagcg gagaacgaga tgacgttgga ggggcaaggt cgcgctgatt gctggggcaa cacgtggagc ggatcgggga ttgtctttct tcagctcgct gatgatatgc tgacgctcaa tgccgtttgg cctccgacta acgaaaatcc cgcatttgga cggctgatcc gattggcacg gcggacggcg aatggcggag cagacgctcg tccgggggca atgagatatg aaaaagcctg aactcaccgc gacgtatcgg gccctggcca gctagctaga gtcgacctgc aggtccccgg ggatcggtct tgccttgctc gtcggtgatg tacttcacca gcttcgcgaa gtcgctcttc ttgatggagc gcatggggac gtgcttggca atcacgcgca ccccccggcc gttttagcgg ctaaaaaagt catggctctg ccctcgggcg gaccacgccc atcatgacct tgccaagctc gtcctgcttc tcttcgatct tcgccagcag ggcgaggatc gtggcatcac cgaaccgcgc cgtgcgcggg tcgtcggtga gccagagttt cagcaggccg cccaggcggc ccaggtcgcc attgatgcgg gccagctcgc ggacgtgctc atagtccacg acgcccgtga ttttgtagcc ctggccgacg gccagcaggt aggccgacag gctcatgccg gccgccgccg ccttttcctc aatcgctctt cgttcgtctg gaaggcagta caccttgata ggtgggctgc ccttcctggt tggcttggtt tcatcagcca tccgcttgcc ctcatctgtt acgccggcgg tagccg

SEQ ID NO: 9

APQAAPASVSHPFHHSCATVKPGRASCNALVRSDIAQSAATLAHQAAAPSGLSPANL QSAYKLPSSTAGS GQTVAIVDAYDAPTAEADLNVYRSQFGLGACTTANGCFKKVDQNGGTSYPRKDGGWAQEI SLDLDMVSAV CPNCKIVLVEAKTNSFANLGTAENTAASLANVISNSYGGSDASDASYGSYYNHPGKAITV SSGDAGYGVE YPASSHYVTAVGGTSLRTASTSRGWSETAWSGAGSGCSAYNTALSGQSGLTGCSRRAVAD VSAVADPATG VAVYDSTAYQGQSGWMVFGGTSVAAPIIGGVYGLAANAASIDNNYPYAHTSSLFDVTSGS NGTCTTTKWC TAGTGWDGPTGLGTPNGTGAF

SEQ ID NO: 10 gtctctgctt tgacaacatg ctgtgcggtg ttgtaaagtc tggtgta

SEQ ID NO: 11 cttgtcaaag gagtgtccat

SEQ ID NO: 12 atgcgtcgca ccctcaaggc cgtgggagca gccgcggcgg cggccacctg cgtcctcgcc gcgacggcag gcaccgcgca ggccgag

SEQ ID NO: 13 tcagacgttt cgggtgctgg gttgttgtct ctggacagtg atccatggga aactactcag caccaccaat gttcccaaaa gaaag

SEQ ID NO: 14 tggcgccgga cggggcttca gacgtttcgg gtgctgggtt gttgtctctg gacagtgatc catgggaaac tactcagcac caccaatgtt cccaaaagaa agcgcaggtc agcgcccatg agccaagatc taggcatgtc gcccttcatc gctcccgacg tccctgagca ccttctagac actgttcgcg tcttcctgta cgcgcgtcag tctaagggcc ggtccgacgg ctcagacgtg tcgaccgaag cacagctagc ggccggtcgt gcgttggtcg cgtctcgcaa cgcccagggg ggtgcgcgct gggtcgtggc aggtgagttc gtggacgtcg ggcgctccgg ctgggacccg aacgtgaccc gtgccgactt cgagcgcatg atgggcgaag tccgcgccgg cgaaggtgac gttgtcgttg tgaatgagct ttcccggctc actcgcaagg gcgcccatga cgcgctcgaa atcgacaacg aattgaagaa gcacggcgtg cgcttcatgt cggttcttga gccgttcctt gacacgtcta cccctatcgg cgtcgccatt ttcgcgctga tcgctgccct tgcgaaacag gacagtgacc tgaaggcgga gcgcctgaag ggtgcgaaag acgagattgc cgcgctgggt ggcgttcact cgtcttccgc cccgttcgga atgcgcgccg tgcgcaagaa ggtcgataat ctcgtgatct ccgttcttga gccggacgaa gacaacccgg atcacgtcga gctagttgag cgcatggcga aaatgtcgtt cgaaggcgtg tccgacaacg ccattgcaac gaccttcgag aaggaaaaga tcccgtcgcc cggaatggct gagagacgcg ccacggaaaa gcgtcttgcg tccgtcaagg cacgtcgcct gaacggcgct gaaaagccga tcatgtggcg cgctcaaacg gtccgatgga ttctcaacca tcccgcaatc ggcggtttcg cattcgagcg tgtgaagcac ggtaaggcgc acatcaacgt catacggcgc gaccccggcg gcaagccgct aacgccccac acgggcattc tcagcggctc gaagtggctt gagcttcaag agaagcgttc cgggaagaat ctcagcgacc ggaagcctgg ggccgaagtc gaaccgacgc ttctgagcgg gtggcgtttc ctggggtgcc gaatctgcgg cggctcaatg ggtcagtccc agggtggccg taagcgcaac ggcgaccttg ccgaaggcaa ttacatgtgc gccaacccga aggggcacgg cggcttgtcg gtcaagcgca gcgaactgga cgaattcgtt gcttcgaagg tgtgggcacg gctccgcaca gccgacatgg aagatgaaca cgatcaggca tggattgccg ccgctgcgga gcgcttcgcc cttcagcacg acctagcggg ggtggccgat gagcggcgcg aacaacaggc gcacctagac aacgtgcggc gctccatcaa ggaccttcag gcggaccgta agcccggtct gtacgtcggg cgtgaagagc tggaaacgtg gcgctcaacg gtgctgcaat accggtccta cgaagcggag tgcacgaccc gactcgctga gcttgacgag aagatgaacg gcagcacccg cgttccgtct gagtggttca gcggcgaaga cccgacggcc gaagggggca tctgggcaag ctgggacgtg tacgagcgtc gggagttcct gagcttcttc cttgactccg tcatggtcga ccgggggcgc caccctgaga cgaagaaata catccccctg aaggaccgtg tgacgctcaa gtgggcggag ctgctgaagg aggaagacga agcgagcgaa gccactgagc gggagcttgc ggcgctgtag cgcacagcgg gaggggtcga gccggcggac ggttcggccc cttttttggc cttgaaatcg ttagttaggc taactagggt accgtctctg ctttgacaac atgctgtgcg gtgttgtaaa gtctggtgta ggagaatacg acagcttgtc aaaggagtgt ccatatggga tccagatatc ctgcaggaat tcctcgagcc gatatccctc tagaccgcgg ccgcccggct gcagcccgta cctctagtag agtcgagggg gaacccggcc gcgtccggcg cccccgccgc cttcgacgag atcccgcaaa agcggccttt gactccctgc aagcctcagc gaccgaatat atcggttatg cgtgggcgat ggttgttgtc attgtcggcg caactatcgg tatcaagctg tttaagaaat tcacctcgaa agcaagctga taaaccgata caattaaagg ctccttttgg agcctttttt tttggagatt ttcaacgtga aaaaattatt attcgcaatt cctttagttg ttcctttcta ttctcactcc gctgaaactg ttgaaagttg tttagcaaaa cctcatacag aaaattcatt tactaacgtc tggaaagacg acaaaacttt agatcctcta gctagagtcg accggcatgc aatcgaattc gtaatcatgt catagctgtt tcctgtgtga aattgttatc cgctcacaat tccacacaac atacgagccg gaagcataaa gtgtaaagcc tggggtgcct aatgagtgag ctaactcaca ttaattgcgt tgcgctcact gcccgctttc cagtcgggaa acctgtcgtg ccagctgcat taatgaatcg gccaacgcgc ggggagaggc ggtttgcgta ttgggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg ccactggcag cagccactgg taacaggatt agcagagcga ggtatgtagg cggtgctaca gagttcttga agtggtggcc taactacggc tacactagaa gaacagtatt tggtatctgc gctctgctga agccagttac cttcggaaaa agagttggta gctcttgatc cggcaaacaa accaccgctg gtagcggtgg tttttttgtt tgcaagcagc agattacgcg cagaaaaaaa ggatctcaag aagatccttt gatcttttct acggggtctg acgctcagtg gaacgaaaac tcacgttaag ggattttggt catgagatta tcaaaaagga tcttcaccta gatccttttg gttcatgtgc agctccatca gcaaaagggg atgataagtt tatcaccacc gactatttgc aacagtgccg ttgatcgtgc tatgatcgac tgatgtcatc agcggtggag tgcaatgtcg tgcaatacga atggcgaaaa gccgagctca tcggtcagct tctcaacctt ggggttaccc ccggcggtgt gctgctggtc cacagctcct tccgtagcgt ccggcccctc gaagatgggc cacttggact gatcgaggcc ctgcgtgctg cgctgggtcc gggagggacg ctcgtcatgc cctcgtggtc aggtctggac gacgagccgt tcgatcctgc cacgtcgccc gttacaccgg accttggagt tgtctctgac acattctggc gcctgccaaa tgtaaagcgc agcgcccatc catttgcctt tgcggcagcg gggccacagg cagagcagat catctctgat ccattgcccc tgccacctca ctcgcctgca agcccggtcg cccgtgtcca tgaactcgat gggcaggtac ttctcctcgg cgtgggacac gatgccaaca cgacgctgca tcttgccgag ttgatggcaa aggttcccta tggggtgccg agacactgca ccattcttca ggatggcaag ttggtacgcg tcgattatct cgagaatgac cactgctgtg agcgctttgc cttggcggac aggtggctca aggagaagag ccttcagaag gaaggtccag tcggtcatgc ctttgctcgg ttgatccgct cccgcgacat tgtggcgaca gccctgggtc aactgggccg agatccgttg atcttcctgc atccgccaga ggcgggatgc gaagaatgcg atgccgctcg ccagtcgatt ggctgagctc atgagcggag aacgagatga cgttggaggg gcaaggtcgc gctgattgct ggggcaacac gtggagcgga tcggggattg tctttcttca gctcgctgat gatatgctga cgctcaatgc cgtttggcct ccgactaacg aaaatcccgc atttggacgg ctgatccgat tggcacggcg gacggcgaat ggcggagcag acgctcgtcc gggggcaatg agatatgaaa aagcctgaac tcaccgcgac gtatcgggcc ctggccagct agctagagtc gacctgcagg tccccgggga tcggtcttgc cttgctcgtc ggtgatgtac ttcaccagct ccgcgaagtc gctcttcttg atggagcgca tggggacgtg cttggcaatc acgcgcaccc cccggccgtt ttagcggcta aaaaagtcat ggctctgccc tcgggcggac cacgcccatc atgaccttgc caagctcgtc ctgcttctct tcgatcttcg ccagcagggc gaggatcgtg gcatcaccga accgcgccgt gcgcgggtcg tcggtgagcc agagtttcag caggccgccc aggcggccca ggtcgccatt gatgcgggcc agctcgcgga cgtgctcata gtccacgacg cccgtgattt tgtagccctg gccgacggcc agcaggtagg ccgacaggct catgccggcc gccgccgcct tttcctcaat cgctcttcgt tcgtctggaa ggcagtacac cttgataggt gggctgccct tcctggttgg cttggtttca tcagccatcc gcttgccctc atctgttacg ccggcggtag ccggccagcc tcgcagagca ggattcccgt tgagcaccgc caggtgcgaa taagggacag tgaagaagga acacccgctc gcgggtgggc ctacttcacc tatcctgccc ggctgacgcc gttggataca ccaaggaaag tctacacgaa ccctttggca aaatcctgta tatcgtgcga aaaaggatgg atataccgaa aaaatcgcta taatgacccc gaagcagggt tatgcagcgg aaaagatccg tcgacctgca ggcatgc SEQ ID NO: 15 atgcgtcgca ccctcaaggc cgtgggagca gccgcggcgg cggccacctg cgtcctcgcc gcgacggcag gcaccgcgca ggccgaggct agcgtctccc acccgttcca ccactcctgc gccacggtga agccgggtcg ggcgagctgc aatgccctcg tacgcagcga catcgcccag agcgcggcga ccctcgcgca ccaagcggcc gccccatccg ggctctcgcc ggccaacctg cagagcgcct acaagctgcc gtcctccacg gccggatccg gccagaccgt cgcgatcgtc gacgcctatg acgccccgac cgccgaagcg gacttgaacg tgtaccgaag ccagttcgga ctcggcgcgt gcacgaccgc caacggctgt ttcaagaagg tcgaccagaa cggcggcacg tcctatccga ggaaggacgg cggctgggcg caggagatct ccctggacct cgacatggtc tccgcggtct gccccaactg caagatcgtt ctcgtcgagg cgaagaccaa ctcgttcgcc aacctgggta ccgccgagaa caccgcggcg agtctcgcga acgtcatcag caacagctac ggcggctcgg acgcctctga cgcgagctat ggctcgtact acaaccaccc gggcaaggcc atcacggtca gctccggcga cgccggctac ggcgtggagt acccggcctc gtcccactac gtgaccgccg tcggcggcac ctcgctgcgc accgcgagca ccagccgcgg ctggagcgag accgcgtgga gcggcgcggg cagtggctgc tcggcctaca acaccgcgct gtccggccag tccggcctca ccggctgctc ccggcgcgcc gtcgccgacg tctccgccgt ggccgacccg gccaccggcg tcgccgtcta cgacagcacg gcctaccagg gccagagcgg ctggatggtc ttcggcggca ccagcgtcgc cgcaccgatc atcggtggcg tgtacggcct cgccgccaac gccgcgagca tcgacaacaa ctacccctac gcccacacca gctcgctctt cgacgtcacg tcgggcagca acggcacctg caccaccacc aagtggtgca ccgccggcac cggctgggac ggccccaccg gcctcggaac gccgaacggc accggagcct tctga

SEQ ID NO: 16 atgcgtcgca ccctcaaggc cgtgggagca gccgcggcgg cggccacctg cgtcctcgcc gcgacggcag gcaccgcgca ggccgaggct agcgtctccc acccgttcca ccactcctgc gccacggtga agccgggtcg ggcgagctgc aatgccctcg tacgcagcga catcgcccag agcgcggcga ccctcgcgca ccaagcggcc gccccatccg ggctctcgcc ggccaacctg cagagcgcct acaagctgcc gtcctccacg gccggatccg gccagaccgt cgcgatcgtc gacgcctatg acgccccgac cgccgaagcg gacttgaacg tgtaccgaag ccagttcgga ctcggcgcgt gcacgaccgc caacggctgt ttcaagaagg tcgaccagaa cggcggcacg tcctatccga ggaaggacgg cggctgggcg caggagatct ccctggacct cgacatggtc tccgcggtct gccccaactg caagatcgtt ctcgtcgagg cgaagaccaa ctcgttcgcc aacctgggta ccgccgagaa caccgcggcg agtctcgcga acgtcatcag caacagctac ggcggctcgg acgcctctga cgcgagctat ggctcgtact acaaccaccc gggcaaggcc atcacggtca gctccggcga cgccggctac ggcgtggagt acccggcctc gtcccactac gtgaccgccg tcggcggcac ctcgctgcgc accgcgagca ccagccgcgg ctggagcgag accgcgtgga gcggcgcggg cagtggctgc tcggcctaca acaccgcgct gtccggccag tccggcctca ccggctgctc ccggcgcgcc gtcgccgacg tctccgccgt ggccgacccg gccaccggcg tcgccgtcta cgacagcacg gcctaccagg gccagagcgg ctggatggtc ttcggcggca ccagcgtcgc cgcaccgatc atcggtggcg tgtacggcct cgccgccaac gccgcgagca tcgacaacaa ctacccctac gcccacacca gctcgctctt cgacgtcacg tcgggcagca acggcacctg caccaccacc aagtggtgca ccgccggcac cggctgggac ggccccaccg gcctcggaac gccgaacggc accggagcct tcggacacca ccaccaccac cactga

SEQ ID NO: 17 gccgccccat ccgggctctc gccggccaac ctgcagagcg cctacaagct gccgtcctcc acggccggat ccggccagac cgtcgcgatc gtcgacgcct atgacgcccc gaccgccgaa gcggacttga acgtgtaccg aagccagttc ggactcggcg cgtgcacgac cgccaacggc tgtttcaaga aggtcgacca gaacggcggc acgtcctatc cgaggaagga cggcggctgg gcgcaggaga tctccctgga cctcgacatg gtctccgcgg tctgccccaa ctgcaagatc gttctcgtcg aggcgaagac caactcgttc gccaacctgg gtaccgccga gaacaccgcg gcgagtctcg cgaacgtcat cagcaacagc tacggcggct cggacgcctc tgacgcgagc tatggctcgt actacaacca cccgggcaag gccatcacgg tcagctccgg cgacgccggc tacggcgtgg agtacccggc ctcgtcccac tacgtgaccg ccgtcggcgg cacctcgctg cgcaccgcga gcaccagccg cggctggagc gagaccgcgt ggagcggcgc gggcagtggc tgctcggcct acaacaccgc gctgtccggc cagtccggcc tcaccggctg ctcccggcgc gccgtcgccg acgtctccgc cgtggccgac ccggccaccg gcgtcgccgt ctacgacagc acggcctacc agggccagag cggctggatg gtcttcggcg gcaccagcgt cgccgcaccg atcatcggtg gcgtgtacgg cctcgccgcc aacgccgcga gcatcgacaa caactacccc tacgcccaca ccagctcgct cttcgacgtc acgtcgggca gcaacggcac ctgcaccacc accaagtggt gcaccgccgg caccggctgg gacggcccca ccggcctcgg aacgccgaac ggcaccggag ccttctga

SEQ ID NO: 18 gccgccccat ccgggctctc gccggccaac ctgcagagcg cctacaagct gccgtcctcc acggccggat ccggccagac cgtcgcgatc gtcgacgcct atgacgcccc gaccgccgaa gcggacttga acgtgtaccg aagccagttc ggactcggcg cgtgcacgac cgccaacggc tgtttcaaga aggtcgacca gaacggcggc acgtcctatc cgaggaagga cggcggctgg gcgcaggaga tctccctgga cctcgacatg gtctccgcgg tctgccccaa ctgcaagatc gttctcgtcg aggcgaagac caactcgttc gccaacctgg gtaccgccga gaacaccgcg gcgagtctcg cgaacgtcat cagcaacagc tacggcggct cggacgcctc tgacgcgagc tatggctcgt actacaacca cccgggcaag gccatcacgg tcagctccgg cgacgccggc tacggcgtgg agtacccggc ctcgtcccac tacgtgaccg ccgtcggcgg cacctcgctg cgcaccgcga gcaccagccg cggctggagc gagaccgcgt ggagcggcgc gggcagtggc tgctcggcct acaacaccgc gctgtccggc cagtccggcc tcaccggctg ctcccggcgc gccgtcgccg acgtctccgc cgtggccgac ccggccaccg gcgtcgccgt ctacgacagc acggcctacc agggccagag cggctggatg gtcttcggcg gcaccagcgt cgccgcaccg atcatcggtg gcgtgtacgg cctcgccgcc aacgccgcga gcatcgacaa caactacccc tacgcccaca ccagctcgct cttcgacgtc acgtcgggca gcaacggcac ctgcaccacc accaagtggt gcaccgccgg caccggctgg gacggcccca ccggcctcgg aacgccgaac ggcaccggag ccttcggaca ccaccaccac caccactga

SEQ ID NO: 19 atgctgcggc ccgtcgaaac cccgacccgc gagatcaaga agctggacgg cctgtgggcg ttcagcctcg accgggagaa ctgcggtatc gaccagcggt ggtgggagag cgccctccag gagtcgcgcg ccatcgccgt ccccggcagc ttcaacgacc agttcgcgga cgcggacatc cgcaactacg cggggaacgt ctggtatcag cgggaggtgt tcatccccaa gggctgggcc ggtcagcgca tcgtgctgcg cttcgacgcc gtgacccact acggcaaggt ctgggtcaac aaccaggaag tgatggagca ccagggcggc tacacgccct tcgaggcgga cgtgaccccg tacgtcatcg ccggcaagtc ggtccgcatc acggtctgcg tcaacaacga gctcaactgg cagaccatcc cgcccggcat ggtgatcacg gacgagaacg gcaagaagaa gcagagctac ttccacgact tcttcaacta cgccggcatc caccgctcgg tcatgctgta cacgacgccg aacacctggg tcgacgacat cacggtggtc acccacgtgg cccaggactg caaccacgcg tccgtggact ggcaggtcgt cgccaacggc gacgtgagcg tggagctccg cgacgccgag cagcaggtcg tggcgaccgg gcagggcacc tcggggaccc tccaggtcgt gaacccccac ctctggcagc cgggtgaggg ctacctgtac gagctgtgcg tgacggcgaa gagccagacc gagtgcgaca tctaccccct gcgcgtcggc atccggtccg tggcggtcaa gggcgagcag ttcctgatca accacaagcc gttctacttc acgggcttcg gtcggcacga ggacgccgac ctccgcggca agggcttcga caacgtcctg atggtccacg accacgccct gatggactgg atcggcgcca actcgtaccg gacctcgcac tacccgtacg cggaagagat gctggactgg gcggacgagc acgggatcgt cgtcatcgac gaaaccgccg cggtgggctt caacctgtcc ctcggcatcg gcttcgaggc cggcaacaag ccgaaagagc tctactccga agaggccgtc aacggcgaaa cccagcaggc ccacctccag gcgatcaaag agctcatcgc ccgcgacaag aaccacccgt ccgtcgtgat gtggtcgatc gccaacgagc cggacacccg gccgcagggt gcccgggagt acttcgcccc gctggccgag gccacccgga agctcgaccc cacccggccc atcacctgcg tgaacgtgat gttctgcgac gcccacacgg acaccatctc cgacctcttc gacgtcctgt gcctgaaccg ctactacggc tggtacgtgc agtccgggga cctggaaacg gccgagaagg tcctggagaa agagctgctg gcgtggcagg agaagctgca ccagccgatc atcatcaccg agtacggcgt ggacacgctg gccggtctgc actccatgta caccgacatg tggtccgaag agtaccagtg cgcgtggctg gacatgtacc accgcgtgtt cgaccgcgtc agcgcggtcg tcggcgagca ggtgtggaac ttcgccgact tcgccacctc ccagggcatc ctccgcgtcg ggggcaacaa gaagggcatc ttcacccggg accgcaagcc caagtcggcg gcgttcctgc tccagaagcg gtggaccggg atgaacttcg gggagaagcc gcagcagggc gggaagcagt g

SEQ ID NO: 20 gtctctgctt tgacaacatg ctgtgcggtg ttgtaaagtc tggtgtagga gaatacgaca gcttgtcaaa ggagtgtcca tatgtcacga cgcgtgaccg ggaccatact gggcgggttg atcctcgcca tggtcccctt cctttccacc gcggccaacg ccgcacccca ggccgcgccg gcttccgtct cccacccgtt ccaccactcc tgcgccacgg tgaagccggg tcgggcgagc tgcaatgccc tcgtacgcag cgacatcgcc cagagcgcgg cgaccctcgc gcaccaagcg gccgccccat ccgggctctc gccggccaac ctgcagagcg cctacaagct gccgtcctcc acggccggat ccggccagac cgtcgcgatc gtcgacgcct atgacgcccc gaccgccgaa gcggacttga acgtgtaccg aagccagttc ggactcggcg cgtgcacgac cgccaacggc tgtttcaaga aggtcgacca gaacggcggc acgtcctatc cgaggaagga cggcggctgg gcgcaggaga tctccctgga cctcgacatg gtctccgcgg tctgccccaa ctgcaagatc gttctcgtcg aggcgaagac caactcgttc gccaacctgg gtaccgccga gaacaccgcg gcgagtctcg cgaacgtcat cagcaacagc tacggcggct cggacgcctc tgacgcgagc tatggctcgt actacaacca cccgggcaag gccatcacgg tcagctccgg cgacgccggc tacggcgtgg agtacccggc ctcgtcccac tacgtgaccg ccgtcggcgg cacctcgctg cgcaccgcga gcaccagccg cggctggagc gagaccgcgt ggagcggcgc gggcagtggc tgctcggcct acaacaccgc gctgtccggc cagtccggcc tcaccggctg ctcccggcgc gccgtcgccg acgtctccgc cgtggccgac ccggccaccg gcgtcgccgt ctacgacagc acggcctacc agggccagag cggctggatg gtcttcggcg gcaccagcgt cgccgcaccg atcatcggtg gcgtgtacgg cctcgccgcc aacgccgcga gcatcgacaa caactacccc tacgcccaca ccagctcgct cttcgacgtc acgtcgggca gcaacggcac ctgcaccacc accaagtggt gcaccgccgg caccggctgg gacggcccca ccggcctcgg aacgccgaac ggcaccggag ccttctga

SEQ ID NO: 21 gtctctgctt tgacaacatg ctgtgcggtg ttgtaaagtc tggtgtagga gaatacgaca gcttgtcaaa ggagtgtcca tatgtcacga cgcgtgaccg ggaccatact gggcgggttg atcctcgcca tggtcccctt cctttccacc gcggccaacg ccgcacccca ggccgcgccg gcttccgtct cccacccgtt ccaccactcc tgcgccacgg tgaagccggg tcgggcgagc tgcaatgccc tcgtacgcag cgacatcgcc cagagcgcgg cgaccctcgc gcaccaagcg gccgccccat ccgggctctc gccggccaac ctgcagagcg cctacaagct gccgtcctcc acggccggat ccggccagac cgtcgcgatc gtcgacgcct atgacgcccc gaccgccgaa gcggacttga acgtgtaccg aagccagttc ggactcggcg cgtgcacgac cgccaacggc tgtttcaaga aggtcgacca gaacggcggc acgtcctatc cgaggaagga cggcggctgg gcgcaggaga tctccctgga cctcgacatg gtctccgcgg tctgccccaa ctgcaagatc gttctcgtcg aggcgaagac caactcgttc gccaacctgg gtaccgccga gaacaccgcg gcgagtctcg cgaacgtcat cagcaacagc tacggcggct cggacgcctc tgacgcgagc tatggctcgt actacaacca cccgggcaag gccatcacgg tcagctccgg cgacgccggc tacggcgtgg agtacccggc ctcgtcccac tacgtgaccg ccgtcggcgg cacctcgctg cgcaccgcga gcaccagccg cggctggagc gagaccgcgt ggagcggcgc gggcagtggc tgctcggcct acaacaccgc gctgtccggc cagtccggcc tcaccggctg ctcccggcgc gccgtcgccg acgtctccgc cgtggccgac ccggccaccg gcgtcgccgt ctacgacagc acggcctacc agggccagag cggctggatg gtcttcggcg gcaccagcgt cgccgcaccg atcatcggtg gcgtgtacgg cctcgccgcc aacgccgcga gcatcgacaa caactacccc tacgcccaca ccagctcgct cttcgacgtc acgtcgggca gcaacggcac ctgcaccacc accaagtggt gcaccgccgg caccggctgg gacggcccca ccggcctcgg aacgccgaac ggcaccggag ccttcggaca ccaccaccac caccactga

SEQ ID NO: 22 gtctctgctt tgacaacatg ctgtgcggtg ttgtaaagtc tggtgtagga gaatacgaca gcttgtcaaa ggagtgtcca tatgcgtcgc accctcaagg ccgtgggagc agccgcggcg gcggccacct gcgtcctcgc cgcgacggca ggcaccgcgc aggccgaggc tagcgtctcc cacccgttcc accactcctg cgccacggtg aagccgggtc gggcgagctg caatgccctc gtacgcagcg acatcgccca gagcgcggcg accctcgcgc accaagcggc cgccccatcc gggctctcgc cggccaacct gcagagcgcc tacaagctgc cgtcctccac ggccggatcc ggccagaccg tcgcgatcgt cgacgcctat gacgccccga ccgccgaagc ggacttgaac gtgtaccgaa gccagttcgg actcggcgcg tgcacgaccg ccaacggctg tttcaagaag gtcgaccaga acggcggcac gtcctatccg aggaaggacg gcggctgggc gcaggagatc tccctggacc tcgacatggt ctccgcggtc tgccccaact gcaagatcgt tctcgtcgag gcgaagacca actcgttcgc caacctgggt accgccgaga acaccgcggc gagtctcgcg aacgtcatca gcaacagcta cggcggctcg gacgcctctg acgcgagcta tggctcgtac tacaaccacc cgggcaaggc catcacggtc agctccggcg acgccggcta cggcgtggag tacccggcct cgtcccacta cgtgaccgcc gtcggcggca cctcgctgcg caccgcgagc accagccgcg gctggagcga gaccgcgtgg agcggcgcgg gcagtggctg ctcggcctac aacaccgcgc tgtccggcca gtccggcctc accggctgct cccggcgcgc cgtcgccgac gtctccgccg tggccgaccc ggccaccggc gtcgccgtct acgacagcac ggcctaccag ggccagagcg gctggatggt cttcggcggc accagcgtcg ccgcaccgat catcggtggc gtgtacggcc tcgccgccaa cgccgcgagc atcgacaaca actaccccta cgcccacacc agctcgctct tcgacgtcac gtcgggcagc aacggcacct gcaccaccac caagtggtgc accgccggca ccggctggga cggccccacc ggcctcggaa cgccgaacgg caccggagcc ttctga

SEQ ID NO: 23 gtctctgctt tgacaacatg ctgtgcggtg ttgtaaagtc tggtgtagga gaatacgaca gcttgtcaaa ggagtgtcca tatgcgtcgc accctcaagg ccgtgggagc agccgcggcg gcggccacct gcgtcctcgc cgcgacggca ggcaccgcgc aggccgaggc tagcgtctcc cacccgttcc accactcctg cgccacggtg aagccgggtc gggcgagctg caatgccctc gtacgcagcg acatcgccca gagcgcggcg accctcgcgc accaagcggc cgccccatcc gggctctcgc cggccaacct gcagagcgcc tacaagctgc cgtcctccac ggccggatcc ggccagaccg tcgcgatcgt cgacgcctat gacgccccga ccgccgaagc ggacttgaac gtgtaccgaa gccagttcgg actcggcgcg tgcacgaccg ccaacggctg tttcaagaag gtcgaccaga acggcggcac gtcctatccg aggaaggacg gcggctgggc gcaggagatc tccctggacc tcgacatggt ctccgcggtc tgccccaact gcaagatcgt tctcgtcgag gcgaagacca actcgttcgc caacctgggt accgccgaga acaccgcggc gagtctcgcg aacgtcatca gcaacagcta cggcggctcg gacgcctctg acgcgagcta tggctcgtac tacaaccacc cgggcaaggc catcacggtc agctccggcg acgccggcta cggcgtggag tacccggcct cgtcccacta cgtgaccgcc gtcggcggca cctcgctgcg caccgcgagc accagccgcg gctggagcga gaccgcgtgg agcggcgcgg gcagtggctg ctcggcctac aacaccgcgc tgtccggcca gtccggcctc accggctgct cccggcgcgc cgtcgccgac gtctccgccg tggccgaccc ggccaccggc gtcgccgtct acgacagcac ggcctaccag ggccagagcg gctggatggt cttcggcggc accagcgtcg ccgcaccgat catcggtggc gtgtacggcc tcgccgccaa cgccgcgagc atcgacaaca actaccccta cgcccacacc agctcgctct tcgacgtcac gtcgggcagc aacggcacct gcaccaccac caagtggtgc accgccggca ccggctggga cggccccacc ggcctcggaa cgccgaacgg caccggagcc ttcggacacc accaccacca ccactga

SEQ ID NO: 24 gtctctgctt tgacaacatg ctgtgcggtg ttgtaaagtc tggtgtagga gaatacgaca gcttgtcaaa ggagtgtcca tatgctgcgg cccgtcgaaa ccccgacccg cgagatcaag aagctggacg gcctgtgggc gttcagcctc gaccgggaga actgcggtat cgaccagcgg tggtgggaga gcgccctcca ggagtcgcgc gccatcgccg tccccggcag cttcaacgac cagttcgcgg acgcggacat ccgcaactac gcggggaacg tctggtatca gcgggaggtg ttcatcccca agggctgggc cggtcagcgc atcgtgctgc gcttcgacgc cgtgacccac tacggcaagg tctgggtcaa caaccaggaa gtgatggagc accagggcgg ctacacgccc ttcgaggcgg acgtgacccc gtacgtcatc gccggcaagt cggtccgcat cacggtctgc gtcaacaacg agctcaactg gcagaccatc ccgcccggca tggtgatcac ggacgagaac ggcaagaaga agcagagcta cttccacgac ttcttcaact acgccggcat ccaccgctcg gtcatgctgt acacgacgcc gaacacctgg gtcgacgaca tcacggtggt cacccacgtg gcccaggact gcaaccacgc gtccgtggac tggcaggtcg tcgccaacgg cgacgtgagc gtggagctcc gcgacgccga gcagcaggtc gtggcgaccg ggcagggcac ctcggggacc ctccaggtcg tgaaccccca cctctggcag ccgggtgagg gctacctgta cgagctgtgc gtgacggcga agagccagac cgagtgcgac atctaccccc tgcgcgtcgg catccggtcc gtggcggtca agggcgagca gttcctgatc aaccacaagc cgttctactt cacgggcttc ggtcggcacg aggacgccga cctccgcggc aagggcttcg acaacgtcct gatggtccac gaccacgccc tgatggactg gatcggcgcc aactcgtacc ggacctcgca ctacccgtac gcggaagaga tgctggactg ggcggacgag cacgggatcg tcgtcatcga cgaaaccgcc gcggtgggct tcaacctgtc cctcggcatc ggcttcgagg ccggcaacaa gccgaaagag ctctactccg aagaggccgt caacggcgaa acccagcagg cccacctcca ggcgatcaaa gagctcatcg cccgcgacaa gaaccacccg tccgtcgtga tgtggtcgat cgccaacgag ccggacaccc ggccgcaggg tgcccgggag tacttcgccc cgctggccga ggccacccgg aagctcgacc ccacccggcc catcacctgc gtgaacgtga tgttctgcga cgcccacacg gacaccatct ccgacctctt cgacgtcctg tgcctgaacc gctactacgg ctggtacgtg cagtccgggg acctggaaac ggccgagaag gtcctggaga aagagctgct ggcgtggcag gagaagctgc accagccgat catcatcacc gagtacggcg tggacacgct ggccggtctg cactccatgt acaccgacat gtggtccgaa gagtaccagt gcgcgtggct ggacatgtac caccgcgtgt tcgaccgcgt cagcgcggtc gtcggcgagc aggtgtggaa cttcgccgac ttcgccacct cccagggcat cctccgcgtc gggggcaaca agaagggcat cttcacccgg gaccgcaagc ccaagtcggc ggcgttcctg ctccagaagc ggtggaccgg gatgaacttc ggggagaagc cgcagcaggg cgggaagcag tga

SEQ ID NO: 25 tggcgccgga cggggcttca gacgtttcgg gtgctgggtt gttgtctctg gacagtgatc catgggaaac tactcagcac caccaatgtt cccaaaagaa agcgcaggtc agcgcccatg agccaagatc taggcatgtc gcccttcatc gctcccgacg tccctgagca ccttctagac actgttcgcg tcttcctgta cgcgcgtcag tctaagggcc ggtccgacgg ctcagacgtg tcgaccgaag cacagctagc ggccggtcgt gcgttggtcg cgtctcgcaa cgcccagggg ggtgcgcgct gggtcgtggc aggtgagttc gtggacgtcg ggcgctccgg ctgggacccg aacgtgaccc gtgccgactt cgagcgcatg atgggcgaag tccgcgccgg cgaaggtgac gttgtcgttg tgaatgagct ttcccggctc actcgcaagg gcgcccatga cgcgctcgaa atcgacaacg aattgaagaa gcacggcgtg cgcttcatgt cggttcttga gccgttcctt gacacgtcta cccctatcgg cgtcgccatt ttcgcgctga tcgctgccct tgcgaaacag gacagtgacc tgaaggcgga gcgcctgaag ggtgcgaaag acgagattgc cgcgctgggt ggcgttcact cgtcttccgc cccgttcgga atgcgcgccg tgcgcaagaa ggtcgataat ctcgtgatct ccgttcttga gccggacgaa gacaacccgg atcacgtcga gctagttgag cgcatggcga aaatgtcgtt cgaaggcgtg tccgacaacg ccattgcaac gaccttcgag aaggaaaaga tcccgtcgcc cggaatggct gagagacgcg ccacggaaaa gcgtcttgcg tccgtcaagg cacgtcgcct gaacggcgct gaaaagccga tcatgtggcg cgctcaaacg gtccgatgga ttctcaacca tcccgcaatc ggcggtttcg cattcgagcg tgtgaagcac ggtaaggcgc acatcaacgt catacggcgc gaccccggcg gcaagccgct aacgccccac acgggcattc tcagcggctc gaagtggctt gagcttcaag agaagcgttc cgggaagaat ctcagcgacc ggaagcctgg ggccgaagtc gaaccgacgc ttctgagcgg gtggcgtttc ctggggtgcc gaatctgcgg cggctcaatg ggtcagtccc agggtggccg taagcgcaac ggcgaccttg ccgaaggcaa ttacatgtgc gccaacccga aggggcacgg cggcttgtcg gtcaagcgca gcgaactgga cgaattcgtt gcttcgaagg tgtgggcacg gctccgcaca gccgacatgg aagatgaaca cgatcaggca tggattgccg ccgctgcgga gcgcttcgcc cttcagcacg acctagcggg ggtggccgat gagcggcgcg aacaacaggc gcacctagac aacgtgcggc gctccatcaa ggaccttcag gcggaccgta agcccggtct gtacgtcggg cgtgaagagc tggaaacgtg gcgctcaacg gtgctgcaat accggtccta cgaagcggag tgcacgaccc gactcgctga gcttgacgag aagatgaacg gcagcacccg cgttccgtct gagtggttca gcggcgaaga cccgacggcc gaagggggca tctgggcaag ctgggacgtg tacgagcgtc gggagttcct gagcttcttc cttgactccg tcatggtcga ccgggggcgc caccctgaga cgaagaaata catccccctg aaggaccgtg tgacgctcaa gtgggcggag ctgctgaagg aggaagacga agcgagcgaa gccactgagc gggagcttgc ggcgctgtag cgcacagcgg gaggggtcga gccggcggac ggttcggccc cttttttggc cttgaaatcg ttagttaggc taactagggt accgtctctg ctttgacaac atgctgtgcg gtgttgtaaa gtctggtgta ggagaatacg acagcttgtc aaaggagtgt ccatatgtca cgacgcgtga ccgggaccat actgggcggg ttgatcctcg ccatggtccc cttcctttcc accgcggcca acgccgcacc ccaggccgcg ccggcttccg tctcccaccc gttccaccac tcctgcgcca cggtgaagcc gggtcgggcg agctgcaatg ccctcgtacg cagcgacatc gcccagagcg cggcgaccct cgcgcaccaa gcggccgccc catccgggct ctcgccggcc aacctgcaga gcgcctacaa gctgccgtcc tccacggccg gatccggcca gaccgtcgcg atcgtcgacg cctatgacgc cccgaccgcc gaagcggact tgaacgtgta ccgaagccag ttcggactcg gcgcgtgcac gaccgccaac ggctgtttca agaaggtcga ccagaacggc ggcacgtcct atccgaggaa ggacggcggc tgggcgcagg agatctccct ggacctcgac atggtctccg cggtctgccc caactgcaag atcgttctcg tcgaggcgaa gaccaactcg ttcgccaacc tgggtaccgc cgagaacacc gcggcgagtc tcgcgaacgt catcagcaac agctacggcg gctcggacgc ctctgacgcg agctatggct cgtactacaa ccacccgggc aaggccatca cggtcagctc cggcgacgcc ggctacggcg tggagtaccc ggcctcgtcc cactacgtga ccgccgtcgg cggcacctcg ctgcgcaccg cgagcaccag ccgcggctgg agcgagaccg cgtggagcgg cgcgggcagt ggctgctcgg cctacaacac cgcgctgtcc ggccagtccg gcctcaccgg ctgctcccgg cgcgccgtcg ccgacgtctc cgccgtggcc gacccggcca ccggcgtcgc cgtctacgac agcacggcct accagggcca gagcggctgg atggtcttcg gcggcaccag cgtcgccgca ccgatcatcg gtggcgtgta cggcctcgcc gccaacgccg cgagcatcga caacaactac ccctacgccc acaccagctc gctcttcgac gtcacgtcgg gcagcaacgg cacctgcacc accaccaagt ggtgcaccgc cggcaccggc tgggacggcc ccaccggcct cggaacgccg aacggcaccg gagccttctg aagcttacta ggtatctaga accggtgacg tcaccatggg aagcttcgtg gatccagata tccctctaga ccgcggccgc ccggctgcag cccgtacctc tagtagagtc gagggggaac ccggccgcgt ccggcgcccc cgccgccttc gacgagatcc cgcaaaagcg gcctttgact ccctgcaagc ctcagcgacc gaatatatcg gttatgcgtg ggcgatggtt gttgtcattg tcggcgcaac tatcggtatc aagctgttta agaaattcac ctcgaaagca agctgataaa ccgatacaat taaaggctcc ttttggagcc tttttttttg gagattttca acgtgaaaaa attattattc gcaattcctt tagttgttcc tttctattct cactccgctg aaactgttga aagttgttta gcaaaacctc atacagaaaa ttcatttact aacgtctgga aagacgacaa aactttagat cctctagcta gagtcgaccg gcatgcaatc gaattcgtaa tcatgtcata gctgtttcct gtgtgaaatt gttatccgct cacaattcca cacaacatac gagccggaag cataaagtgt aaagcctggg gtgcctaatg agtgagctaa ctcacattaa ttgcgttgcg ctcactgccc gctttccagt cgggaaacct gtcgtgccag ctgcattaat gaatcggcca acgcgcgggg agaggcggtt tgcgtattgg gcgctcttcc gcttcctcgc tcactgactc gctgcgctcg gtcgttcggc tgcggcgagc ggtatcagct cactcaaagg cggtaatacg gttatccaca gaatcagggg ataacgcagg aaagaacatg tgagcaaaag gccagcaaaa ggccaggaac cgtaaaaagg ccgcgttgct ggcgtttttc cataggctcc gcccccctga cgagcatcac aaaaatcgac gctcaagtca gaggtggcga aacccgacag gactataaag ataccaggcg tttccccctg gaagctccct cgtgcgctct cctgttccga ccctgccgct taccggatac ctgtccgcct ttctcccttc gggaagcgtg gcgctttctc atagctcacg ctgtaggtat ctcagttcgg tgtaggtcgt tcgctccaag ctgggctgtg tgcacgaacc ccccgttcag cccgaccgct gcgccttatc cggtaactat cgtcttgagt ccaacccggt aagacacgac ttatcgccac tggcagcagc cactggtaac aggattagca gagcgaggta tgtaggcggt gctacagagt tcttgaagtg gtggcctaac tacggctaca ctagaagaac agtatttggt atctgcgctc tgctgaagcc agttaccttc ggaaaaagag ttggtagctc ttgatccggc aaacaaacca ccgctggtag cggtggtttt tttgtttgca agcagcagat tacgcgcaga aaaaaaggat ctcaagaaga tcctttgatc ttttctacgg ggtctgacgc tcagtggaac gaaaactcac gttaagggat tttggtcatg agattatcaa aaaggatctt cacctagatc cttttggttc atgtgcagct ccatcagcaa aaggggatga taagtttatc accaccgact atttgcaaca gtgccgttga tcgtgctatg atcgactgat gtcatcagcg gtggagtgca atgtcgtgca atacgaatgg cgaaaagccg agctcatcgg tcagcttctc aaccttgggg ttacccccgg cggtgtgctg ctggtccaca gctccttccg tagcgtccgg cccctcgaag atgggccact tggactgatc gaggccctgc gtgctgcgct gggtccggga gggacgctcg tcatgccctc gtggtcaggt ctggacgacg agccgttcga tcctgccacg tcgcccgtta caccggacct tggagttgtc tctgacacat tctggcgcct gccaaatgta aagcgcagcg cccatccatt tgcctttgcg gcagcggggc cacaggcaga gcagatcatc tctgatccat tgcccctgcc acctcactcg cctgcaagcc cggtcgcccg tgtccatgaa ctcgatgggc aggtacttct cctcggcgtg ggacacgatg ccaacacgac gctgcatctt gccgagttga tggcaaaggt tccctatggg gtgccgagac actgcaccat tcttcaggat ggcaagttgg tacgcgtcga ttatctcgag aatgaccact gctgtgagcg ctttgccttg gcggacaggt ggctcaagga gaagagcctt cagaaggaag gtccagtcgg tcatgccttt gctcggttga tccgctcccg cgacattgtg gcgacagccc tgggtcaact gggccgagat ccgttgatct tcctgcatcc gccagaggcg ggatgcgaag aatgcgatgc cgctcgccag tcgattggct gagctcatga gcggagaacg agatgacgtt ggaggggcaa ggtcgcgctg attgctgggg caacacgtgg agcggatcgg ggattgtctt tcttcagctc gctgatgata tgctgacgct caatgccgtt tggcctccga ctaacgaaaa tcccgcattt ggacggctga tccgattggc acggcggacg gcgaatggcg gagcagacgc tcgtccgggg gcaatgagat atgaaaaagc ctgaactcac cgcgacgtat cgggccctgg ccagctagct agagtcgacc tgcaggtccc cggggatcgg tcttgccttg ctcgtcggtg atgtacttca ccagctccgc gaagtcgctc ttcttgatgg agcgcatggg gacgtgcttg gcaatcacgc gcaccccccg gccgttttag cggctaaaaa agtcatggct ctgccctcgg gcggaccacg cccatcatga ccttgccaag ctcgtcctgc ttctcttcga tcttcgccag cagggcgagg atcgtggcat caccgaaccg cgccgtgcgc gggtcgtcgg tgagccagag tttcagcagg ccgcccaggc ggcccaggtc gccattgatg cgggccagct cgcggacgtg ctcatagtcc acgacgcccg tgattttgta gccctggccg acggccagca ggtaggccga caggctcatg ccggccgccg ccgccttttc ctcaatcgct cttcgttcgt ctggaaggca gtacaccttg ataggtgggc tgcccttcct ggttggcttg gtttcatcag ccatccgctt gccctcatct gttacgccgg cggtagccgg ccagcctcgc agagcaggat tcccgttgag caccgccagg tgcgaataag ggacagtgaa gaaggaacac ccgctcgcgg gtgggcctac ttcacctatc ctgcccggct gacgccgttg gatacaccaa ggaaagtcta cacgaaccct ttggcaaaat cctgtatatc gtgcgaaaaa ggatggatat accgaaaaaa tcgctataat gaccccgaag cagggttatg cagcggaaaa gatccgtcga cctgcaggca tgc

SEQ ID NO: 26 tggcgccgga cggggcttca gacgtttcgg gtgctgggtt gttgtctctg gacagtgatc catgggaaac tactcagcac caccaatgtt cccaaaagaa agcgcaggtc agcgcccatg agccaagatc taggcatgtc gcccttcatc gctcccgacg tccctgagca ccttctagac actgttcgcg tcttcctgta cgcgcgtcag tctaagggcc ggtccgacgg ctcagacgtg tcgaccgaag cacagctagc ggccggtcgt gcgttggtcg cgtctcgcaa cgcccagggg ggtgcgcgct gggtcgtggc aggtgagttc gtggacgtcg ggcgctccgg ctgggacccg aacgtgaccc gtgccgactt cgagcgcatg atgggcgaag tccgcgccgg cgaaggtgac gttgtcgttg tgaatgagct ttcccggctc actcgcaagg gcgcccatga cgcgctcgaa atcgacaacg aattgaagaa gcacggcgtg cgcttcatgt cggttcttga gccgttcctt gacacgtcta cccctatcgg cgtcgccatt ttcgcgctga tcgctgccct tgcgaaacag gacagtgacc tgaaggcgga gcgcctgaag ggtgcgaaag acgagattgc cgcgctgggt ggcgttcact cgtcttccgc cccgttcgga atgcgcgccg tgcgcaagaa ggtcgataat ctcgtgatct ccgttcttga gccggacgaa gacaacccgg atcacgtcga gctagttgag cgcatggcga aaatgtcgtt cgaaggcgtg tccgacaacg ccattgcaac gaccttcgag aaggaaaaga tcccgtcgcc cggaatggct gagagacgcg ccacggaaaa gcgtcttgcg tccgtcaagg cacgtcgcct gaacggcgct gaaaagccga tcatgtggcg cgctcaaacg gtccgatgga ttctcaacca tcccgcaatc ggcggtttcg cattcgagcg tgtgaagcac ggtaaggcgc acatcaacgt catacggcgc gaccccggcg gcaagccgct aacgccccac acgggcattc tcagcggctc gaagtggctt gagcttcaag agaagcgttc cgggaagaat ctcagcgacc ggaagcctgg ggccgaagtc gaaccgacgc ttctgagcgg gtggcgtttc ctggggtgcc gaatctgcgg cggctcaatg ggtcagtccc agggtggccg taagcgcaac ggcgaccttg ccgaaggcaa ttacatgtgc gccaacccga aggggcacgg cggcttgtcg gtcaagcgca gcgaactgga cgaattcgtt gcttcgaagg tgtgggcacg gctccgcaca gccgacatgg aagatgaaca cgatcaggca tggattgccg ccgctgcgga gcgcttcgcc cttcagcacg acctagcggg ggtggccgat gagcggcgcg aacaacaggc gcacctagac aacgtgcggc gctccatcaa ggaccttcag gcggaccgta agcccggtct gtacgtcggg cgtgaagagc tggaaacgtg gcgctcaacg gtgctgcaat accggtccta cgaagcggag tgcacgaccc gactcgctga gcttgacgag aagatgaacg gcagcacccg cgttccgtct gagtggttca gcggcgaaga cccgacggcc gaagggggca tctgggcaag ctgggacgtg tacgagcgtc gggagttcct gagcttcttc cttgactccg tcatggtcga ccgggggcgc caccctgaga cgaagaaata catccccctg aaggaccgtg tgacgctcaa gtgggcggag ctgctgaagg aggaagacga agcgagcgaa gccactgagc gggagcttgc ggcgctgtag cgcacagcgg gaggggtcga gccggcggac ggttcggccc cttttttggc cttgaaatcg ttagttaggc taactagggt accgtctctg ctttgacaac atgctgtgcg gtgttgtaaa gtctggtgta ggagaatacg acagcttgtc aaaggagtgt ccatatgtca cgacgcgtga ccgggaccat actgggcggg ttgatcctcg ccatggtccc cttcctttcc accgcggcca acgccgcacc ccaggccgcg ccggcttccg tctcccaccc gttccaccac tcctgcgcca cggtgaagcc gggtcgggcg agctgcaatg ccctcgtacg cagcgacatc gcccagagcg cggcgaccct cgcgcaccaa gcggccgccc catccgggct ctcgccggcc aacctgcaga gcgcctacaa gctgccgtcc tccacggccg gatccggcca gaccgtcgcg atcgtcgacg cctatgacgc cccgaccgcc gaagcggact tgaacgtgta ccgaagccag ttcggactcg gcgcgtgcac gaccgccaac ggctgtttca agaaggtcga ccagaacggc ggcacgtcct atccgaggaa ggacggcggc tgggcgcagg agatctccct ggacctcgac atggtctccg cggtctgccc caactgcaag atcgttctcg tcgaggcgaa gaccaactcg ttcgccaacc tgggtaccgc cgagaacacc gcggcgagtc tcgcgaacgt catcagcaac agctacggcg gctcggacgc ctctgacgcg agctatggct cgtactacaa ccacccgggc aaggccatca cggtcagctc cggcgacgcc ggctacggcg tggagtaccc ggcctcgtcc cactacgtga ccgccgtcgg cggcacctcg ctgcgcaccg cgagcaccag ccgcggctgg agcgagaccg cgtggagcgg cgcgggcagt ggctgctcgg cctacaacac cgcgctgtcc ggccagtccg gcctcaccgg ctgctcccgg cgcgccgtcg ccgacgtctc cgccgtggcc gacccggcca ccggcgtcgc cgtctacgac agcacggcct accagggcca gagcggctgg atggtcttcg gcggcaccag cgtcgccgca ccgatcatcg gtggcgtgta cggcctcgcc gccaacgccg cgagcatcga caacaactac ccctacgccc acaccagctc gctcttcgac gtcacgtcgg gcagcaacgg cacctgcacc accaccaagt ggtgcaccgc cggcaccggc tgggacggcc ccaccggcct cggaacgccg aacggcaccg gagccttcgg acaccaccac caccaccact gaagcttact aggtatctag aaccggtgac gtcaccatgg gaagcttcgt ggatccagat atccctctag accgcggccg cccggctgca gcccgtacct ctagtagagt cgagggggaa cccggccgcg tccggcgccc ccgccgcctt cgacgagatc ccgcaaaagc ggcctttgac tccctgcaag cctcagcgac cgaatatatc ggttatgcgt gggcgatggt tgttgtcatt gtcggcgcaa ctatcggtat caagctgttt aagaaattca cctcgaaagc aagctgataa accgatacaa ttaaaggctc cttttggagc cttttttttt ggagattttc aacgtgaaaa aattattatt cgcaattcct ttagttgttc ctttctattc tcactccgct gaaactgttg aaagttgttt agcaaaacct catacagaaa attcatttac taacgtctgg aaagacgaca aaactttaga tcctctagct agagtcgacc ggcatgcaat cgaattcgta atcatgtcat agctgtttcc tgtgtgaaat tgttatccgc tcacaattcc acacaacata cgagccggaa gcataaagtg taaagcctgg ggtgcctaat gagtgagcta actcacatta attgcgttgc gctcactgcc cgctttccag tcgggaaacc tgtcgtgcca gctgcattaa tgaatcggcc aacgcgcggg gagaggcggt ttgcgtattg ggcgctcttc cgcttcctcg ctcactgact cgctgcgctc ggtcgttcgg ctgcggcgag cggtatcagc tcactcaaag gcggtaatac ggttatccac agaatcaggg gataacgcag gaaagaacat gtgagcaaaa ggccagcaaa aggccaggaa ccgtaaaaag gccgcgttgc tggcgttttt ccataggctc cgcccccctg acgagcatca caaaaatcga cgctcaagtc agaggtggcg aaacccgaca ggactataaa gataccaggc gtttccccct ggaagctccc tcgtgcgctc tcctgttccg accctgccgc ttaccggata cctgtccgcc tttctccctt cgggaagcgt ggcgctttct catagctcac gctgtaggta tctcagttcg gtgtaggtcg ttcgctccaa gctgggctgt gtgcacgaac cccccgttca gcccgaccgc tgcgccttat ccggtaacta tcgtcttgag tccaacccgg taagacacga cttatcgcca ctggcagcag ccactggtaa caggattagc agagcgaggt atgtaggcgg tgctacagag ttcttgaagt ggtggcctaa ctacggctac actagaagaa cagtatttgg tatctgcgct ctgctgaagc cagttacctt cggaaaaaga gttggtagct cttgatccgg caaacaaacc accgctggta gcggtggttt ttttgtttgc aagcagcaga ttacgcgcag aaaaaaagga tctcaagaag atcctttgat cttttctacg gggtctgacg ctcagtggaa cgaaaactca cgttaaggga ttttggtcat gagattatca aaaaggatct tcacctagat ccttttggtt catgtgcagc tccatcagca aaaggggatg ataagtttat caccaccgac tatttgcaac agtgccgttg atcgtgctat gatcgactga tgtcatcagc ggtggagtgc aatgtcgtgc aatacgaatg gcgaaaagcc gagctcatcg gtcagcttct caaccttggg gttacccccg gcggtgtgct gctggtccac agctccttcc gtagcgtccg gcccctcgaa gatgggccac ttggactgat cgaggccctg cgtgctgcgc tgggtccggg agggacgctc gtcatgccct cgtggtcagg tctggacgac gagccgttcg atcctgccac gtcgcccgtt acaccggacc ttggagttgt ctctgacaca ttctggcgcc tgccaaatgt aaagcgcagc gcccatccat ttgcctttgc ggcagcgggg ccacaggcag agcagatcat ctctgatcca ttgcccctgc cacctcactc gcctgcaagc ccggtcgccc gtgtccatga actcgatggg caggtacttc tcctcggcgt gggacacgat gccaacacga cgctgcatct tgccgagttg atggcaaagg ttccctatgg ggtgccgaga cactgcacca ttcttcagga tggcaagttg gtacgcgtcg attatctcga gaatgaccac tgctgtgagc gctttgcctt ggcggacagg tggctcaagg agaagagcct tcagaaggaa ggtccagtcg gtcatgcctt tgctcggttg atccgctccc gcgacattgt ggcgacagcc ctgggtcaac tgggccgaga tccgttgatc ttcctgcatc cgccagaggc gggatgcgaa gaatgcgatg ccgctcgcca gtcgattggc tgagctcatg agcggagaac gagatgacgt tggaggggca aggtcgcgct gattgctggg gcaacacgtg gagcggatcg gggattgtct ttcttcagct cgctgatgat atgctgacgc tcaatgccgt ttggcctccg actaacgaaa atcccgcatt tggacggctg atccgattgg cacggcggac ggcgaatggc ggagcagacg ctcgtccggg ggcaatgaga tatgaaaaag cctgaactca ccgcgacgta tcgggccctg gccagctagc tagagtcgac ctgcaggtcc ccggggatcg gtcttgcctt gctcgtcggt gatgtacttc accagctccg cgaagtcgct cttcttgatg gagcgcatgg ggacgtgctt ggcaatcacg cgcacccccc ggccgtttta gcggctaaaa aagtcatggc tctgccctcg ggcggaccac gcccatcatg accttgccaa gctcgtcctg cttctcttcg atcttcgcca gcagggcgag gatcgtggca tcaccgaacc gcgccgtgcg cgggtcgtcg gtgagccaga gtttcagcag gccgcccagg cggcccaggt cgccattgat gcgggccagc tcgcggacgt gctcatagtc cacgacgccc gtgattttgt agccctggcc gacggccagc aggtaggccg acaggctcat gccggccgcc gccgcctttt cctcaatcgc tcttcgttcg tctggaaggc agtacacctt gataggtggg ctgcccttcc tggttggctt ggtttcatca gccatccgct tgccctcatc tgttacgccg gcggtagccg gccagcctcg cagagcagga ttcccgttga gcaccgccag gtgcgaataa gggacagtga agaaggaaca cccgctcgcg ggtgggccta cttcacctat cctgcccggc tgacgccgtt ggatacacca aggaaagtct acacgaaccc tttggcaaaa tcctgtatat cgtgcgaaaa aggatggata taccgaaaaa atcgctataa tgaccccgaa gcagggttat gcagcggaaa agatccgtcg acctgcaggc atgc

SEQ ID NO: 27 tggcgccgga cggggcttca gacgtttcgg gtgctgggtt gttgtctctg gacagtgatc catgggaaac tactcagcac caccaatgtt cccaaaagaa agcgcaggtc agcgcccatg agccaagatc taggcatgtc gcccttcatc gctcccgacg tccctgagca ccttctagac actgttcgcg tcttcctgta cgcgcgtcag tctaagggcc ggtccgacgg ctcagacgtg tcgaccgaag cacagctagc ggccggtcgt gcgttggtcg cgtctcgcaa cgcccagggg ggtgcgcgct gggtcgtggc aggtgagttc gtggacgtcg ggcgctccgg ctgggacccg aacgtgaccc gtgccgactt cgagcgcatg atgggcgaag tccgcgccgg cgaaggtgac gttgtcgttg tgaatgagct ttcccggctc actcgcaagg gcgcccatga cgcgctcgaa atcgacaacg aattgaagaa gcacggcgtg cgcttcatgt cggttcttga gccgttcctt gacacgtcta cccctatcgg cgtcgccatt ttcgcgctga tcgctgccct tgcgaaacag gacagtgacc tgaaggcgga gcgcctgaag ggtgcgaaag acgagattgc cgcgctgggt ggcgttcact cgtcttccgc cccgttcgga atgcgcgccg tgcgcaagaa ggtcgataat ctcgtgatct ccgttcttga gccggacgaa gacaacccgg atcacgtcga gctagttgag cgcatggcga aaatgtcgtt cgaaggcgtg tccgacaacg ccattgcaac gaccttcgag aaggaaaaga tcccgtcgcc cggaatggct gagagacgcg ccacggaaaa gcgtcttgcg tccgtcaagg cacgtcgcct gaacggcgct gaaaagccga tcatgtggcg cgctcaaacg gtccgatgga ttctcaacca tcccgcaatc ggcggtttcg cattcgagcg tgtgaagcac ggtaaggcgc acatcaacgt catacggcgc gaccccggcg gcaagccgct aacgccccac acgggcattc tcagcggctc gaagtggctt gagcttcaag agaagcgttc cgggaagaat ctcagcgacc ggaagcctgg ggccgaagtc gaaccgacgc ttctgagcgg gtggcgtttc ctggggtgcc gaatctgcgg cggctcaatg ggtcagtccc agggtggccg taagcgcaac ggcgaccttg ccgaaggcaa ttacatgtgc gccaacccga aggggcacgg cggcttgtcg gtcaagcgca gcgaactgga cgaattcgtt gcttcgaagg tgtgggcacg gctccgcaca gccgacatgg aagatgaaca cgatcaggca tggattgccg ccgctgcgga gcgcttcgcc cttcagcacg acctagcggg ggtggccgat gagcggcgcg aacaacaggc gcacctagac aacgtgcggc gctccatcaa ggaccttcag gcggaccgta agcccggtct gtacgtcggg cgtgaagagc tggaaacgtg gcgctcaacg gtgctgcaat accggtccta cgaagcggag tgcacgaccc gactcgctga gcttgacgag aagatgaacg gcagcacccg cgttccgtct gagtggttca gcggcgaaga cccgacggcc gaagggggca tctgggcaag ctgggacgtg tacgagcgtc gggagttcct gagcttcttc cttgactccg tcatggtcga ccgggggcgc caccctgaga cgaagaaata catccccctg aaggaccgtg tgacgctcaa gtgggcggag ctgctgaagg aggaagacga agcgagcgaa gccactgagc gggagcttgc ggcgctgtag cgcacagcgg gaggggtcga gccggcggac ggttcggccc cttttttggc cttgaaatcg ttagttaggc taactagggt accgtctctg ctttgacaac atgctgtgcg gtgttgtaaa gtctggtgta ggagaatacg acagcttgtc aaaggagtgt ccatatgcgt cgcaccctca aggccgtggg agcagccgcg gcggcggcca cctgcgtcct cgccgcgacg gcaggcaccg cgcaggccga ggctagcgtc tcccacccgt tccaccactc ctgcgccacg gtgaagccgg gtcgggcgag ctgcaatgcc ctcgtacgca gcgacatcgc ccagagcgcg gcgaccctcg cgcaccaagc ggccgcccca tccgggctct cgccggccaa cctgcagagc gcctacaagc tgccgtcctc cacggccgga tccggccaga ccgtcgcgat cgtcgacgcc tatgacgccc cgaccgccga agcggacttg aacgtgtacc gaagccagtt cggactcggc gcgtgcacga ccgccaacgg ctgtttcaag aaggtcgacc agaacggcgg cacgtcctat ccgaggaagg acggcggctg ggcgcaggag atctccctgg acctcgacat ggtctccgcg gtctgcccca actgcaagat cgttctcgtc gaggcgaaga ccaactcgtt cgccaacctg ggtaccgccg agaacaccgc ggcgagtctc gcgaacgtca tcagcaacag ctacggcggc tcggacgcct ctgacgcgag ctatggctcg tactacaacc acccgggcaa ggccatcacg gtcagctccg gcgacgccgg ctacggcgtg gagtacccgg cctcgtccca ctacgtgacc gccgtcggcg gcacctcgct gcgcaccgcg agcaccagcc gcggctggag cgagaccgcg tggagcggcg cgggcagtgg ctgctcggcc tacaacaccg cgctgtccgg ccagtccggc ctcaccggct gctcccggcg cgccgtcgcc gacgtctccg ccgtggccga cccggccacc ggcgtcgccg tctacgacag cacggcctac cagggccaga gcggctggat ggtcttcggc ggcaccagcg tcgccgcacc gatcatcggt ggcgtgtacg gcctcgccgc caacgccgcg agcatcgaca acaactaccc ctacgcccac accagctcgc tcttcgacgt cacgtcgggc agcaacggca cctgcaccac caccaagtgg tgcaccgccg gcaccggctg ggacggcccc accggcctcg gaacgccgaa cggcaccgga gccttctgaa gcttactagg tatctagaac cggtgacgtc accatgggaa gcttcgtgga tccagatatc cctctagacc gcggccgccc ggctgcagcc cgtacctcta gtagagtcga gggggaaccc ggccgcgtcc ggcgcccccg ccgccttcga cgagatcccg caaaagcggc ctttgactcc ctgcaagcct cagcgaccga atatatcggt tatgcgtggg cgatggttgt tgtcattgtc ggcgcaacta tcggtatcaa gctgtttaag aaattcacct cgaaagcaag ctgataaacc gatacaatta aaggctcctt ttggagcctt tttttttgga gattttcaac gtgaaaaaat tattattcgc aattccttta gttgttcctt tctattctca ctccgctgaa actgttgaaa gttgtttagc aaaacctcat acagaaaatt catttactaa cgtctggaaa gacgacaaaa ctttagatcc tctagctaga gtcgaccggc atgcaatcga attcgtaatc atgtcatagc tgtttcctgt gtgaaattgt tatccgctca caattccaca caacatacga gccggaagca taaagtgtaa agcctggggt gcctaatgag tgagctaact cacattaatt gcgttgcgct cactgcccgc tttccagtcg ggaaacctgt cgtgccagct gcattaatga atcggccaac gcgcggggag aggcggtttg cgtattgggc gctcttccgc ttcctcgctc actgactcgc tgcgctcggt cgttcggctg cggcgagcgg tatcagctca ctcaaaggcg gtaatacggt tatccacaga atcaggggat aacgcaggaa agaacatgtg agcaaaaggc cagcaaaagg ccaggaaccg taaaaaggcc gcgttgctgg cgtttttcca taggctccgc ccccctgacg agcatcacaa aaatcgacgc tcaagtcaga ggtggcgaaa cccgacagga ctataaagat accaggcgtt tccccctgga agctccctcg tgcgctctcc tgttccgacc ctgccgctta ccggatacct gtccgccttt ctcccttcgg gaagcgtggc gctttctcat agctcacgct gtaggtatct cagttcggtg taggtcgttc gctccaagct gggctgtgtg cacgaacccc ccgttcagcc cgaccgctgc gccttatccg gtaactatcg tcttgagtcc aacccggtaa gacacgactt atcgccactg gcagcagcca ctggtaacag gattagcaga gcgaggtatg taggcggtgc tacagagttc ttgaagtggt ggcctaacta cggctacact agaagaacag tatttggtat ctgcgctctg ctgaagccag ttaccttcgg aaaaagagtt ggtagctctt gatccggcaa acaaaccacc gctggtagcg gtggtttttt tgtttgcaag cagcagatta cgcgcagaaa aaaaggatct caagaagatc ctttgatctt ttctacgggg tctgacgctc agtggaacga aaactcacgt taagggattt tggtcatgag attatcaaaa aggatcttca cctagatcct tttggttcat gtgcagctcc atcagcaaaa ggggatgata agtttatcac caccgactat ttgcaacagt gccgttgatc gtgctatgat cgactgatgt catcagcggt ggagtgcaat gtcgtgcaat acgaatggcg aaaagccgag ctcatcggtc agcttctcaa ccttggggtt acccccggcg gtgtgctgct ggtccacagc tccttccgta gcgtccggcc cctcgaagat gggccacttg gactgatcga ggccctgcgt gctgcgctgg gtccgggagg gacgctcgtc atgccctcgt ggtcaggtct ggacgacgag ccgttcgatc ctgccacgtc gcccgttaca ccggaccttg gagttgtctc tgacacattc tggcgcctgc caaatgtaaa gcgcagcgcc catccatttg cctttgcggc agcggggcca caggcagagc agatcatctc tgatccattg cccctgccac ctcactcgcc tgcaagcccg gtcgcccgtg tccatgaact cgatgggcag gtacttctcc tcggcgtggg acacgatgcc aacacgacgc tgcatcttgc cgagttgatg gcaaaggttc cctatggggt gccgagacac tgcaccattc ttcaggatgg caagttggta cgcgtcgatt atctcgagaa tgaccactgc tgtgagcgct ttgccttggc ggacaggtgg ctcaaggaga agagccttca gaaggaaggt ccagtcggtc atgcctttgc tcggttgatc cgctcccgcg acattgtggc gacagccctg ggtcaactgg gccgagatcc gttgatcttc ctgcatccgc cagaggcggg atgcgaagaa tgcgatgccg ctcgccagtc gattggctga gctcatgagc ggagaacgag atgacgttgg aggggcaagg tcgcgctgat tgctggggca acacgtggag cggatcgggg attgtctttc ttcagctcgc tgatgatatg ctgacgctca atgccgtttg gcctccgact aacgaaaatc ccgcatttgg acggctgatc cgattggcac ggcggacggc gaatggcgga gcagacgctc gtccgggggc aatgagatat gaaaaagcct gaactcaccg cgacgtatcg ggccctggcc agctagctag agtcgacctg caggtccccg gggatcggtc ttgccttgct cgtcggtgat gtacttcacc agctccgcga agtcgctctt cttgatggag cgcatgggga cgtgcttggc aatcacgcgc accccccggc cgttttagcg gctaaaaaag tcatggctct gccctcgggc ggaccacgcc catcatgacc ttgccaagct cgtcctgctt ctcttcgatc ttcgccagca gggcgaggat cgtggcatca ccgaaccgcg ccgtgcgcgg gtcgtcggtg agccagagtt tcagcaggcc gcccaggcgg cccaggtcgc cattgatgcg ggccagctcg cggacgtgct catagtccac gacgcccgtg attttgtagc cctggccgac ggccagcagg taggccgaca ggctcatgcc ggccgccgcc gccttttcct caatcgctct tcgttcgtct ggaaggcagt acaccttgat aggtgggctg cccttcctgg ttggcttggt ttcatcagcc atccgcttgc cctcatctgt tacgccggcg gtagccggcc agcctcgcag agcaggattc ccgttgagca ccgccaggtg cgaataaggg acagtgaaga aggaacaccc gctcgcgggt gggcctactt cacctatcct gcccggctga cgccgttgga tacaccaagg aaagtctaca cgaacccttt ggcaaaatcc tgtatatcgt gcgaaaaagg atggatatac cgaaaaaatc gctataatga ccccgaagca gggttatgca gcggaaaaga tccgtcgacc tgcaggcatg c

SEQ ID NO : 28 tggcgccgga cggggcttca gacgtttcgg gtgctgggtt gttgtctctg gacagtgatc catgggaaac tactcagcac caccaatgtt cccaaaagaa agcgcaggtc agcgcccatg agccaagatc taggcatgtc gcccttcatc gctcccgacg tccctgagca ccttctagac actgttcgcg tcttcctgta cgcgcgtcag tctaagggcc ggtccgacgg ctcagacgtg tcgaccgaag cacagctagc ggccggtcgt gcgttggtcg cgtctcgcaa cgcccagggg ggtgcgcgct gggtcgtggc aggtgagttc gtggacgtcg ggcgctccgg ctgggacccg aacgtgaccc gtgccgactt cgagcgcatg atgggcgaag tccgcgccgg cgaaggtgac gttgtcgttg tgaatgagct ttcccggctc actcgcaagg gcgcccatga cgcgctcgaa atcgacaacg aattgaagaa gcacggcgtg cgcttcatgt cggttcttga gccgttcctt gacacgtcta cccctatcgg cgtcgccatt ttcgcgctga tcgctgccct tgcgaaacag gacagtgacc tgaaggcgga gcgcctgaag ggtgcgaaag acgagattgc cgcgctgggt ggcgttcact cgtcttccgc cccgttcgga atgcgcgccg tgcgcaagaa ggtcgataat ctcgtgatct ccgttcttga gccggacgaa gacaacccgg atcacgtcga gctagttgag cgcatggcga aaatgtcgtt cgaaggcgtg tccgacaacg ccattgcaac gaccttcgag aaggaaaaga tcccgtcgcc cggaatggct gagagacgcg ccacggaaaa gcgtcttgcg tccgtcaagg cacgtcgcct gaacggcgct gaaaagccga tcatgtggcg cgctcaaacg gtccgatgga ttctcaacca tcccgcaatc ggcggtttcg cattcgagcg tgtgaagcac ggtaaggcgc acatcaacgt catacggcgc gaccccggcg gcaagccgct aacgccccac acgggcattc tcagcggctc gaagtggctt gagcttcaag agaagcgttc cgggaagaat ctcagcgacc ggaagcctgg ggccgaagtc gaaccgacgc ttctgagcgg gtggcgtttc ctggggtgcc gaatctgcgg cggctcaatg ggtcagtccc agggtggccg taagcgcaac ggcgaccttg ccgaaggcaa ttacatgtgc gccaacccga aggggcacgg cggcttgtcg gtcaagcgca gcgaactgga cgaattcgtt gcttcgaagg tgtgggcacg gctccgcaca gccgacatgg aagatgaaca cgatcaggca tggattgccg ccgctgcgga gcgcttcgcc cttcagcacg acctagcggg ggtggccgat gagcggcgcg aacaacaggc gcacctagac aacgtgcggc gctccatcaa ggaccttcag gcggaccgta agcccggtct gtacgtcggg cgtgaagagc tggaaacgtg gcgctcaacg gtgctgcaat accggtccta cgaagcggag tgcacgaccc gactcgctga gcttgacgag aagatgaacg gcagcacccg cgttccgtct gagtggttca gcggcgaaga cccgacggcc gaagggggca tctgggcaag ctgggacgtg tacgagcgtc gggagttcct gagcttcttc cttgactccg tcatggtcga ccgggggcgc caccctgaga cgaagaaata catccccctg aaggaccgtg tgacgctcaa gtgggcggag ctgctgaagg aggaagacga agcgagcgaa gccactgagc gggagcttgc ggcgctgtag cgcacagcgg gaggggtcga gccggcggac ggttcggccc cttttttggc cttgaaatcg ttagttaggc taactagggt accgtctctg ctttgacaac atgctgtgcg gtgttgtaaa gtctggtgta ggagaatacg acagcttgtc aaaggagtgt ccatatgcgt cgcaccctca aggccgtggg agcagccgcg gcggcggcca cctgcgtcct cgccgcgacg gcaggcaccg cgcaggccga ggctagcgtc tcccacccgt tccaccactc ctgcgccacg gtgaagccgg gtcgggcgag ctgcaatgcc ctcgtacgca gcgacatcgc ccagagcgcg gcgaccctcg cgcaccaagc ggccgcccca tccgggctct cgccggccaa cctgcagagc gcctacaagc tgccgtcctc cacggccgga tccggccaga ccgtcgcgat cgtcgacgcc tatgacgccc cgaccgccga agcggacttg aacgtgtacc gaagccagtt cggactcggc gcgtgcacga ccgccaacgg ctgtttcaag aaggtcgacc agaacggcgg cacgtcctat ccgaggaagg acggcggctg ggcgcaggag atctccctgg acctcgacat ggtctccgcg gtctgcccca actgcaagat cgttctcgtc gaggcgaaga ccaactcgtt cgccaacctg ggtaccgccg agaacaccgc ggcgagtctc gcgaacgtca tcagcaacag ctacggcggc tcggacgcct ctgacgcgag ctatggctcg tactacaacc acccgggcaa ggccatcacg gtcagctccg gcgacgccgg ctacggcgtg gagtacccgg cctcgtccca ctacgtgacc gccgtcggcg gcacctcgct gcgcaccgcg agcaccagcc gcggctggag cgagaccgcg tggagcggcg cgggcagtgg ctgctcggcc tacaacaccg cgctgtccgg ccagtccggc ctcaccggct gctcccggcg cgccgtcgcc gacgtctccg ccgtggccga cccggccacc ggcgtcgccg tctacgacag cacggcctac cagggccaga gcggctggat ggtcttcggc ggcaccagcg tcgccgcacc gatcatcggt ggcgtgtacg gcctcgccgc caacgccgcg agcatcgaca acaactaccc ctacgcccac accagctcgc tcttcgacgt cacgtcgggc agcaacggca cctgcaccac caccaagtgg tgcaccgccg gcaccggctg ggacggcccc accggcctcg gaacgccgaa cggcaccgga gccttcggac accaccacca ccaccactga agcttactag gtatctagaa ccggtgacgt caccatggga agcttcgtgg atccagatat ccctctagac cgcggccgcc cggctgcagc ccgtacctct agtagagtcg agggggaacc cggccgcgtc cggcgccccc gccgccttcg acgagatccc gcaaaagcgg cctttgactc cctgcaagcc tcagcgaccg aatatatcgg ttatgcgtgg gcgatggttg ttgtcattgt cggcgcaact atcggtatca agctgtttaa gaaattcacc tcgaaagcaa gctgataaac cgatacaatt aaaggctcct tttggagcct ttttttttgg agattttcaa cgtgaaaaaa ttattattcg caattccttt agttgttcct ttctattctc actccgctga aactgttgaa agttgtttag caaaacctca tacagaaaat tcatttacta acgtctggaa agacgacaaa actttagatc ctctagctag agtcgaccgg catgcaatcg aattcgtaat catgtcatag ctgtttcctg tgtgaaattg ttatccgctc acaattccac acaacatacg agccggaagc ataaagtgta aagcctgggg tgcctaatga gtgagctaac tcacattaat tgcgttgcgc tcactgcccg ctttccagtc gggaaacctg tcgtgccagc tgcattaatg aatcggccaa cgcgcgggga gaggcggttt gcgtattggg cgctcttccg cttcctcgct cactgactcg ctgcgctcgg tcgttcggct gcggcgagcg gtatcagctc actcaaaggc ggtaatacgg ttatccacag aatcagggga taacgcagga aagaacatgt gagcaaaagg ccagcaaaag gccaggaacc gtaaaaaggc cgcgttgctg gcgtttttcc ataggctccg cccccctgac gagcatcaca aaaatcgacg ctcaagtcag aggtggcgaa acccgacagg actataaaga taccaggcgt ttccccctgg aagctccctc gtgcgctctc ctgttccgac cctgccgctt accggatacc tgtccgcctt tctcccttcg ggaagcgtgg cgctttctca tagctcacgc tgtaggtatc tcagttcggt gtaggtcgtt cgctccaagc tgggctgtgt gcacgaaccc cccgttcagc ccgaccgctg cgccttatcc ggtaactatc gtcttgagtc caacccggta agacacgact tatcgccact ggcagcagcc actggtaaca ggattagcag agcgaggtat gtaggcggtg ctacagagtt cttgaagtgg tggcctaact acggctacac tagaagaaca gtatttggta tctgcgctct gctgaagcca gttaccttcg gaaaaagagt tggtagctct tgatccggca aacaaaccac cgctggtagc ggtggttttt ttgtttgcaa gcagcagatt acgcgcagaa aaaaaggatc tcaagaagat cctttgatct tttctacggg gtctgacgct cagtggaacg aaaactcacg ttaagggatt ttggtcatga gattatcaaa aaggatcttc acctagatcc ttttggttca tgtgcagctc catcagcaaa aggggatgat aagtttatca ccaccgacta tttgcaacag tgccgttgat cgtgctatga tcgactgatg tcatcagcgg tggagtgcaa tgtcgtgcaa tacgaatggc gaaaagccga gctcatcggt cagcttctca accttggggt tacccccggc ggtgtgctgc tggtccacag ctccttccgt agcgtccggc ccctcgaaga tgggccactt ggactgatcg aggccctgcg tgctgcgctg ggtccgggag ggacgctcgt catgccctcg tggtcaggtc tggacgacga gccgttcgat cctgccacgt cgcccgttac accggacctt ggagttgtct ctgacacatt ctggcgcctg ccaaatgtaa agcgcagcgc ccatccattt gcctttgcgg cagcggggcc acaggcagag cagatcatct ctgatccatt gcccctgcca cctcactcgc ctgcaagccc ggtcgcccgt gtccatgaac tcgatgggca ggtacttctc ctcggcgtgg gacacgatgc caacacgacg ctgcatcttg ccgagttgat ggcaaaggtt ccctatgggg tgccgagaca ctgcaccatt cttcaggatg gcaagttggt acgcgtcgat tatctcgaga atgaccactg ctgtgagcgc tttgccttgg cggacaggtg gctcaaggag aagagccttc agaaggaagg tccagtcggt catgcctttg ctcggttgat ccgctcccgc gacattgtgg cgacagccct gggtcaactg ggccgagatc cgttgatctt cctgcatccg ccagaggcgg gatgcgaaga atgcgatgcc gctcgccagt cgattggctg agctcatgag cggagaacga gatgacgttg gaggggcaag gtcgcgctga ttgctggggc aacacgtgga gcggatcggg gattgtcttt cttcagctcg ctgatgatat gctgacgctc aatgccgttt ggcctccgac taacgaaaat cccgcatttg gacggctgat ccgattggca cggcggacgg cgaatggcgg agcagacgct cgtccggggg caatgagata tgaaaaagcc tgaactcacc gcgacgtatc gggccctggc cagctagcta gagtcgacct gcaggtcccc ggggatcggt cttgccttgc tcgtcggtga tgtacttcac cagctccgcg aagtcgctct tcttgatgga gcgcatgggg acgtgcttgg caatcacgcg caccccccgg ccgttttagc ggctaaaaaa gtcatggctc tgccctcggg cggaccacgc ccatcatgac cttgccaagc tcgtcctgct tctcttcgat cttcgccagc agggcgagga tcgtggcatc accgaaccgc gccgtgcgcg ggtcgtcggt gagccagagt ttcagcaggc cgcccaggcg gcccaggtcg ccattgatgc gggccagctc gcggacgtgc tcatagtcca cgacgcccgt gattttgtag ccctggccga cggccagcag gtaggccgac aggctcatgc cggccgccgc cgccttttcc tcaatcgctc ttcgttcgtc tggaaggcag tacaccttga taggtgggct gcccttcctg gttggcttgg tttcatcagc catccgcttg ccctcatctg ttacgccggc ggtagccggc cagcctcgca gagcaggatt cccgttgagc accgccaggt gcgaataagg gacagtgaag aaggaacacc cgctcgcggg tgggcctact tcacctatcc tgcccggctg acgccgttgg atacaccaag gaaagtctac acgaaccctt tggcaaaatc ctgtatatcg tgcgaaaaag gatggatata ccgaaaaaat cgctataatg accccgaagc agggttatgc agcggaaaag atccgtcgac ctgcaggcat gc

SEQ ID NO : 29 tggcgccgga cggggcttca gacgtttcgg gtgctgggtt gttgtctctg gacagtgatc catgggaaac tactcagcac caccaatgtt cccaaaagaa agcgcaggtc agcgcccatg agccaagatc taggcatgtc gcccttcatc gctcccgacg tccctgagca ccttctagac actgttcgcg tcttcctgta cgcgcgtcag tctaagggcc ggtccgacgg ctcagacgtg tcgaccgaag cacagctagc ggccggtcgt gcgttggtcg cgtctcgcaa cgcccagggg ggtgcgcgct gggtcgtggc aggtgagttc gtggacgtcg ggcgctccgg ctgggacccg aacgtgaccc gtgccgactt cgagcgcatg atgggcgaag tccgcgccgg cgaaggtgac gttgtcgttg tgaatgagct ttcccggctc actcgcaagg gcgcccatga cgcgctcgaa atcgacaacg aattgaagaa gcacggcgtg cgcttcatgt cggttcttga gccgttcctt gacacgtcta cccctatcgg cgtcgccatt ttcgcgctga tcgctgccct tgcgaaacag gacagtgacc tgaaggcgga gcgcctgaag ggtgcgaaag acgagattgc cgcgctgggt ggcgttcact cgtcttccgc cccgttcgga atgcgcgccg tgcgcaagaa ggtcgataat ctcgtgatct ccgttcttga gccggacgaa gacaacccgg atcacgtcga gctagttgag cgcatggcga aaatgtcgtt cgaaggcgtg tccgacaacg ccattgcaac gaccttcgag aaggaaaaga tcccgtcgcc cggaatggct gagagacgcg ccacggaaaa gcgtcttgcg tccgtcaagg cacgtcgcct gaacggcgct gaaaagccga tcatgtggcg cgctcaaacg gtccgatgga ttctcaacca tcccgcaatc ggcggtttcg cattcgagcg tgtgaagcac ggtaaggcgc acatcaacgt catacggcgc gaccccggcg gcaagccgct aacgccccac acgggcattc tcagcggctc gaagtggctt gagcttcaag agaagcgttc cgggaagaat ctcagcgacc ggaagcctgg ggccgaagtc gaaccgacgc ttctgagcgg gtggcgtttc ctggggtgcc gaatctgcgg cggctcaatg ggtcagtccc agggtggccg taagcgcaac ggcgaccttg ccgaaggcaa ttacatgtgc gccaacccga aggggcacgg cggcttgtcg gtcaagcgca gcgaactgga cgaattcgtt gcttcgaagg tgtgggcacg gctccgcaca gccgacatgg aagatgaaca cgatcaggca tggattgccg ccgctgcgga gcgcttcgcc cttcagcacg acctagcggg ggtggccgat gagcggcgcg aacaacaggc gcacctagac aacgtgcggc gctccatcaa ggaccttcag gcggaccgta agcccggtct gtacgtcggg cgtgaagagc tggaaacgtg gcgctcaacg gtgctgcaat accggtccta cgaagcggag tgcacgaccc gactcgctga gcttgacgag aagatgaacg gcagcacccg cgttccgtct gagtggttca gcggcgaaga cccgacggcc gaagggggca tctgggcaag ctgggacgtg tacgagcgtc gggagttcct gagcttcttc cttgactccg tcatggtcga ccgggggcgc caccctgaga cgaagaaata catccccctg aaggaccgtg tgacgctcaa gtgggcggag ctgctgaagg aggaagacga agcgagcgaa gccactgagc gggagcttgc ggcgctgtag cgcacagcgg gaggggtcga gccggcggac ggttcggccc cttttttggc cttgaaatcg ttagttaggc taactagggt accgtctctg ctttgacaac atgctgtgcg gtgttgtaaa gtctggtgta ggagaatacg acagcttgtc aaaggagtgt ccatatgctg cggcccgtcg aaaccccgac ccgcgagatc aagaagctgg acggcctgtg ggcgttcagc ctcgaccggg agaactgcgg tatcgaccag cggtggtggg agagcgccct ccaggagtcg cgcgccatcg ccgtccccgg cagcttcaac gaccagttcg cggacgcgga catccgcaac tacgcgggga acgtctggta tcagcgggag gtgttcatcc ccaagggctg ggccggtcag cgcatcgtgc tgcgcttcga cgccgtgacc cactacggca aggtctgggt caacaaccag gaagtgatgg agcaccaggg cggctacacg cccttcgagg cggacgtgac cccgtacgtc atcgccggca agtcggtccg catcacggtc tgcgtcaaca acgagctcaa ctggcagacc atcccgcccg gcatggtgat cacggacgag aacggcaaga agaagcagag ctacttccac gacttcttca actacgccgg catccaccgc tcggtcatgc tgtacacgac gccgaacacc tgggtcgacg acatcacggt ggtcacccac gtggcccagg actgcaacca cgcgtccgtg gactggcagg tcgtcgccaa cggcgacgtg agcgtggagc tccgcgacgc cgagcagcag gtcgtggcga ccgggcaggg cacctcgggg accctccagg tcgtgaaccc ccacctctgg cagccgggtg agggctacct gtacgagctg tgcgtgacgg cgaagagcca gaccgagtgc gacatctacc ccctgcgcgt cggcatccgg tccgtggcgg tcaagggcga gcagttcctg atcaaccaca agccgttcta cttcacgggc ttcggtcggc acgaggacgc cgacctccgc ggcaagggct tcgacaacgt cctgatggtc cacgaccacg ccctgatgga ctggatcggc gccaactcgt accggacctc gcactacccg tacgcggaag agatgctgga ctgggcggac gagcacggga tcgtcgtcat cgacgaaacc gccgcggtgg gcttcaacct gtccctcggc atcggcttcg aggccggcaa caagccgaaa gagctctact ccgaagaggc cgtcaacggc gaaacccagc aggcccacct ccaggcgatc aaagagctca tcgcccgcga caagaaccac ccgtccgtcg tgatgtggtc gatcgccaac gagccggaca cccggccgca gggtgcccgg gagtacttcg ccccgctggc cgaggccacc cggaagctcg accccacccg gcccatcacc tgcgtgaacg tgatgttctg cgacgcccac acggacacca tctccgacct cttcgacgtc ctgtgcctga accgctacta cggctggtac gtgcagtccg gggacctgga aacggccgag aaggtcctgg agaaagagct gctggcgtgg caggagaagc tgcaccagcc gatcatcatc accgagtacg gcgtggacac gctggccggt ctgcactcca tgtacaccga catgtggtcc gaagagtacc agtgcgcgtg gctggacatg taccaccgcg tgttcgaccg cgtcagcgcg gtcgtcggcg agcaggtgtg gaacttcgcc gacttcgcca cctcccaggg catcctccgc gtcgggggca acaagaaggg catcttcacc cgggaccgca agcccaagtc ggcggcgttc ctgctccaga agcggtggac cgggatgaac ttcggggaga agccgcagca gggcgggaag cagtgataag cattacccgg atccagatat cctgcaggaa ttcctcgagc cgatatccct ctagaccgcg gccgcccggc tgcagcccgt acctctagta gagtcgaggg ggaacccggc cgcgtccggc gcccccgccg ccttcgacga gatcccgcaa aagcggcctt tgactccctg caagcctcag cgaccgaata tatcggttat gcgtgggcga tggttgttgt cattgtcggc gcaactatcg gtatcaagct gtttaagaaa ttcacctcga aagcaagctg ataaaccgat acaattaaag gctccttttg gagccttttt ttttggagat tttcaacgtg aaaaaattat tattcgcaat tcctttagtt gttcctttct attctcactc cgctgaaact gttgaaagtt gtttagcaaa acctcataca gaaaattcat ttactaacgt ctggaaagac gacaaaactt tagatcctct agctagagtc gaccggcatg caatcgaatt cgtaatcatg tcatagctgt ttcctgtgtg aaattgttat ccgctcacaa ttccacacaa catacgagcc ggaagcataa agtgtaaagc ctggggtgcc taatgagtga gctaactcac attaattgcg ttgcgctcac tgcccgcttt ccagtcggga aacctgtcgt gccagctgca ttaatgaatc ggccaacgcg cggggagagg cggtttgcgt attgggcgct cttccgcttc ctcgctcact gactcgctgc gctcggtcgt tcggctgcgg cgagcggtat cagctcactc aaaggcggta atacggttat ccacagaatc aggggataac gcaggaaaga acatgtgagc aaaaggccag caaaaggcca ggaaccgtaa aaaggccgcg ttgctggcgt ttttccatag gctccgcccc cctgacgagc atcacaaaaa tcgacgctca agtcagaggt ggcgaaaccc gacaggacta taaagatacc aggcgtttcc ccctggaagc tccctcgtgc gctctcctgt tccgaccctg ccgcttaccg gatacctgtc cgcctttctc ccttcgggaa gcgtggcgct ttctcatagc tcacgctgta ggtatctcag ttcggtgtag gtcgttcgct ccaagctggg ctgtgtgcac gaaccccccg ttcagcccga ccgctgcgcc ttatccggta actatcgtct tgagtccaac ccggtaagac acgacttatc gccactggca gcagccactg gtaacaggat tagcagagcg aggtatgtag gcggtgctac agagttcttg aagtggtggc ctaactacgg ctacactaga agaacagtat ttggtatctg cgctctgctg aagccagtta ccttcggaaa aagagttggt agctcttgat ccggcaaaca aaccaccgct ggtagcggtg gtttttttgt ttgcaagcag cagattacgc gcagaaaaaa aggatctcaa gaagatcctt tgatcttttc tacggggtct gacgctcagt ggaacgaaaa ctcacgttaa gggattttgg tcatgagatt atcaaaaagg atcttcacct agatcctttt ggttcatgtg cagctccatc agcaaaaggg gatgataagt ttatcaccac cgactatttg caacagtgcc gttgatcgtg ctatgatcga ctgatgtcat cagcggtgga gtgcaatgtc gtgcaatacg aatggcgaaa agccgagctc atcggtcagc ttctcaacct tggggttacc cccggcggtg tgctgctggt ccacagctcc ttccgtagcg tccggcccct cgaagatggg ccacttggac tgatcgaggc cctgcgtgct gcgctgggtc cgggagggac gctcgtcatg ccctcgtggt caggtctgga cgacgagccg ttcgatcctg ccacgtcgcc cgttacaccg gaccttggag ttgtctctga cacattctgg cgcctgccaa atgtaaagcg cagcgcccat ccatttgcct ttgcggcagc ggggccacag gcagagcaga tcatctctga tccattgccc ctgccacctc actcgcctgc aagcccggtc gcccgtgtcc atgaactcga tgggcaggta cttctcctcg gcgtgggaca cgatgccaac acgacgctgc atcttgccga gttgatggca aaggttccct atggggtgcc gagacactgc accattcttc aggatggcaa gttggtacgc gtcgattatc tcgagaatga ccactgctgt gagcgctttg ccttggcgga caggtggctc aaggagaaga gccttcagaa ggaaggtcca gtcggtcatg cctttgctcg gttgatccgc tcccgcgaca ttgtggcgac agccctgggt caactgggcc gagatccgtt gatcttcctg catccgccag aggcgggatg cgaagaatgc gatgccgctc gccagtcgat tggctgagct catgagcgga gaacgagatg acgttggagg ggcaaggtcg cgctgattgc tggggcaaca cgtggagcgg atcggggatt gtctttcttc agctcgctga tgatatgctg acgctcaatg ccgtttggcc tccgactaac gaaaatcccg catttggacg gctgatccga ttggcacggc ggacggcgaa tggcggagca gacgctcgtc cgggggcaat gagatatgaa aaagcctgaa ctcaccgcga cgtatcgggc cctggccagc tagctagagt cgacctgcag gtccccgggg atcggtcttg ccttgctcgt cggtgatgta cttcaccagc tccgcgaagt cgctcttctt gatggagcgc atggggacgt gcttggcaat cacgcgcacc ccccggccgt tttagcggct aaaaaagtca tggctctgcc ctcgggcgga ccacgcccat catgaccttg ccaagctcgt cctgcttctc ttcgatcttc gccagcaggg cgaggatcgt ggcatcaccg aaccgcgccg tgcgcgggtc gtcggtgagc cagagtttca gcaggccgcc caggcggccc aggtcgccat tgatgcgggc cagctcgcgg acgtgctcat agtccacgac gcccgtgatt ttgtagccct ggccgacggc cagcaggtag gccgacaggc tcatgccggc cgccgccgcc ttttcctcaa tcgctcttcg ttcgtctgga aggcagtaca ccttgatagg tgggctgccc ttcctggttg gcttggtttc atcagccatc cgcttgccct catctgttac gccggcggta gccggccagc ctcgcagagc aggattcccg ttgagcaccg ccaggtgcga ataagggaca gtgaagaagg aacacccgct cgcgggtggg cctacttcac ctatcctgcc cggctgacgc cgttggatac accaaggaaa gtctacacga accctttggc aaaatcctgt atatcgtgcg aaaaaggatg gatataccga aaaaatcgct ataatgaccc cgaagcaggg ttatgcagcg gaaaagatcc gtcgacctgc aggcatgc

SEQ ID NO : 30 gttgtgggca caatcgtgcc ggttggtagg atccagcg