TITLE OF THE INVENTION

Polysaccharide-oxidizing composition and uses thereof

FIELD OF THE INVENTION

The present invention relates to field of production of sugar products by enzyme oxidation and hydrolysis of polysaccharide-containing material, and especially ligno-cellulosic biomass.

BACKGROUND OF THE INVENTION

Lignocellulosic biomass is a renewable source for the production of bio fuels and platform molecules for the industry. Its conversion into valuable products requires the combined action of a variety of enzymes, most of which are obtained from fungal sources. In particular, the efficient conversion of cellulose to small molecules is carried out by the synergistic action of cellulases, i.e. endoglucanases (EG), cellobiohydrolases (CBH) and β- glucosidases. EG cleave β-1,4 linkages randomly within cellulose chains, thereby releasing new ends for the action of cellobiohydrolases (CBH) which in turn release cellobiose units. β-glucosidases produce glucose molecules from cellobiose, thereby alleviating the inhibiting effect of cellobiose on CBH. These enzymes are classified in various glycoside hydrolase (GH) families of the carbohydrate-active enzyme database (also termed CAZy; described notably at the internet address www.cazy.org, and by Lombard et al, 2014, Nucleic Acids Res, Vol. 42 : 490-495). More recently, the contribution of lytic polysaccharide monooxygenase (LPMOs) to cellulose degradation has been demonstrated (Vaaje-Kolstad et al. 2010, Science, Vol. 330 : 219-222; Harris et al. 2010, Biochemistry, Vol. 49 : 3305-3316; Quinlan et al. 2011, Proc Acad Natl Sci USA, Vol. 108 : 15079- 15084). In industry, addition of LPMOs to cellulolytic cocktails leads to the reduction of enzyme loading required for efficient saccharification of cellulosic biomass (Harris et al. 2010, Biochemistry, Vol. 49 : 3305-3316; Johansen et al, 2016, Biochem Soc Trans, Vol. 44 ; 143-149).

In spite of much research effort, there remains a need for improved cellulose enzyme mixtures for the hydrolysis of cellulose in a pretreated lignocellulosic feedstock. The absence of such an enzyme mixture represents a large hurdle in the commercialization of cellulose conversion to soluble sugars including glucose for the production of ethanol and other products.

SUMMARY OF THE INVENTION

This invention provides for novel compositions comprising one or more specific polysaccharide-oxidizing enzymes.

The present invention relates to a polysaccharide-oxidizing composition comprising a polysaccharide-oxidizing enzyme wherein, when the said polysaccharide- oxidizing enzyme is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less.

In some embodiments of the composition, the said polysaccharide-oxidizing enzyme has at least 30% amino acid identity with a polypeptide selected in a group comprising the polypeptides of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO. 3 3.

In some embodiments of the composition, the said polysaccharide-oxidizing enzyme is encoded by a nucleic acid having at least 90% nucleotide identity with a nucleic acid selected in a group comprising the nucleic acids of SEQ ID NO. 4, SEQ ID NO. 5 and SEQ ID NO. 6.

In some embodiments, the said composition further comprises one or more lytic polysaccharide monooxygenases.

In some embodiments, the said composition further comprises one or more polysaccharide-degrading enzymes, selected in a group comprising cellulases, hemicellulases, ligninases, and carbohydrate oxidases. In some embodiments, the cellulases are selected in a group comprising exoglucanases, endoglucanases, cellobiohydrolases, cellulose phosphorylases, pectinases, pectate lyases, polygalacturonase, pectin esterases, cellobiose dehydrogenases, beta mannanases, arabinofuranosidases, feruoyl esterases, arabinofuranosidases, fructofuranosidases, alpha galactosidases, beta galactosidases, alpha amylases, acetylxylan esterases, chitin deacetylases, chitinases, and beta glucosidases. In some of these embodiments, the lytic polysaccharide monooxygenase is selected in a group comprising AA9, AAIO, AAl l and In some embodiments, the said one or more other polysaccharide degrading enzymes are comprised in an enzyme preparation containing the said one or more other polysaccharide degrading enzymes. In some embodiments, the said enzyme preparation comprises one or more enzymes originating from one or more fungus organisms or one or more bacterial organisms.

In some embodiments of the polysaccharide-oxidizing composition, one or more of the said other polysaccharide degrading enzymes are recombinant proteins.

This invention also pertains to a yeast cell recombinantly expressing a polysaccharide-oxidizing enzyme as defined in the present specification.

This invention also concerns a method for oxidizing a polysaccharide comprising a step of contacting one or more polysaccharides with a polysaccharide- oxidizing enzyme as defined in the present specification, or with a composition comprising the said polysaccharide-oxidizing enzyme. In some embodiments, the said one or more polysaccharides are contained in a lignocellulosic-containing material.

The present invention further relates to a method for the preparation of a sugar product from a polysaccharide-containing material comprising a step of treating the said polysaccharide-containing material in the presence of a polysaccharide degrading composition as described in the present specification. In some embodiments, the said method which comprises the steps of :

a) providing a polysaccharide-containing material,

b) subjecting the said polysaccharide-containing material to hydrolysis in the presence of a polysaccharide-degrading composition as defined herein, and

c) collecting the sugar product obtained at the end of step b).

This invention also provides for a method for the preparation of a fermentation product from a polysaccharide-containing material comprising the steps of :

a) providing a polysaccharide-containing material,

b) subjecting the said polysaccharide-containing material to hydrolysis in the presence of a polysaccharide-degrading composition as defined herein, whereby a sugar product is obtained, and

c) fermenting the sugar product collected at step c), whereby a fermentation product is obtained. DESCRIPTION OF THE FIGURES

Figure 1 illustrates a photograph of the gel electrophoresis on SDS-PAGE of the recombinant proteins of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO. 3 produced in Pichia pastoris. Lane 1 : 10 μ§ of the purified protein of SEQ ID NO. 3. Lane 2 : 10 μg of protein of SEQ ID NO. 1. Lane 3 : 10 μg of protein of SEQ ID NO. 2. Lane 4: molecular weight protein markers.

Figure 2 illustrates the effect of enzyme concentration on H2O2 production, (i) Upper curve with symbol□ : protein of SEQ ID NO. 1, (ii) Lower curve with symbol Δ : protein of SEQ ID NO.2. (iii) Medium curve with symbol X : protein of SEQ ID NO.3. (iv) symbol O: Control containing the reaction mixture without proteins of SEQ ID NO. 1, SEQ ID NO. 2 or SEQ ID NO. 3, and shows the background level of H2O2 production (without enzyme). Abscissa : Concentration of protein, as expressed in micromolar. Ordinate : slope of hydrogen peroxide production, as expressed in Arbitrary Units.

Figure 3 illustrates the results of a saccharification process in the presence of SEQ ID NO. 1 or SEQ ID NO.2. Supplementation of T. reesei enzymatic cocktail with SEQ ID NO. 1 (Figure 3A) or SEQID NO. 2 (Figure 3B) for the saccharification of pretreated poplar (filled bars), birchwood fibres (dashed bars), cellulose (dotted bars). Quantification of glucose release was monitored by ionic chromatography, the measured values being expressed as Arbitrary Units of glucose peak area. The synergistic effect of SEQ ID NO. l or SEQ ID NO.2 with T. reesei cellulases is compared with the control (T. reesei cellulases only)

Figure 4 illustrates the results of a saccharification process in the presence of T. reesei cellulase cocktail supplemented with increasing amounts of either SEQ ID NO. 1 or SEQ ID NO.2 by measuring the release of glucose by ionic chromatography. Figure 4A : Graph of the measured glucose peak area for increasing amounts of SEQ ID NO. 1 . Figure 4B : Graph of the measured glucose peak area for increasing amounts of the protein of SEQ ID NO. 2. Ordinate : chromatography signal as expressed in Arbitrary Units. Abscissa of Figure 4A: bars from the left side to the right side of the figure : 1. absence of protein of SEQ ID NO. 1 or SEQ ID NO.2; 2. Final concentration in the assay of 0.22 μΜ of protein mixture of SEQ ID NO. 1 and SEQ ID NO.2; 3. Final concentration in the assay of 1.1 μΜ of a protein mixture of SEQ ID NO. 1 and SEQ ID NO.2 ; 4. Final concentration in the assay of 2.2 μΜ of a protein mixture of SEQ ID NO. 1 and SEQ ID NO.2 Abscissa of Figure 4B: bars from the left side to the right side of the figure : 1. absence of protein of SEQ ID NO. 1 or SEQ ID NO. 2, 2. Final concentration in the assay of 0.22 μΜ of protein mixture of SEQ ID NO. 2; 3. Final concentration in the assay of 1.1 μΜ of a protein mixture of SEQ ID NO. 2; 4. Final concentration in the assay of 2.2 μΜ of a protein mixture of SEQ ID NO. 2

Figure 5 illustrates the results of a saccharification process in the presence of T. reesei enzymatic cocktail supplemented by a AA9 lytic polysaccharide monooxygenase and protein of SEQ ID NO. l, by measuring the release of glucose by ionic chromatography. Abscissa : bars from the left side to the right side of the figure : 1. absence of protein of SEQ ID NO. 1 or AA9, 2. 2.2 μΜ of protein of SEQ ID NO. 1, 3. 2.2 μΜ of AA9, 4. 1.1 μΜ of a protein of SEQ ID NO. 1 and 1.1 μ M of AA9.

Figure 6: Phylogenetic tree of the AAxx family showing that the AAxx family members strongly cluster together and are very distant from AA9, AAIO, AAl l and AA13 sequences respectively.

Figure 7: Line diagram of PcAAxx LPMO active site.

Figure 8A-8B: Consensus sequence logo based on alignment of 283 sequences belonging to the catalytic module of AAxx family revealing the first Histidine as a conserved residue amongst the family.

Figure 9: Contribution of PcAAxx enzymes to the saccharification of woody biomass. Glucose release upon saccharification of pretreated pine and poplar by the CL847 Trichoderma reesei enzyme cocktail (18) in the presence of 1 μΜ of PcAAxxA or PcAAxxB and 1 mM ascorbic acid. Glucose was quantified using ionic chromatography. Error bars indicate standard deviations from triplicate independent experiments.

Figure 10: Contribution of PcAAxx enzymes to the saccharification of woody biomass in the presence and in the absence of Ascorbate. Saccharification assays in the presence and absence of ascorbate on pine (A), and poplar (B). PcAAxxA (of SEQ ID N°l) and PcAAxxB (of SEQ ID N°2) were added to a concentration of 1 μΜ. Error bars indicate standard deviations from triplicate independent experiments.

DETAILED DESCRIPTION OF THE INVENTION

Any citation mentioned herein is incorporated by reference. Throughout the present specification and the accompanying claims, the words "comprise" and "include" and variations such as "comprises", "comprising", "includes" and "including" are to be interpreted inclusively. That is, these words are intended to convey the possible inclusion of other elements or integers not specifically recited, where the context allows. The articles "a" and "an" are used herein to refer to one or to more than one (i.e. to one or at least one) of the grammatical object of the article. By way of example, "an element" may mean one element or more than one element.

The inventors have identified a family of proteins endowed with a polysaccharide-degrading activity that may be used in processes requiring the production of sugar products from starting polysaccharide materials, in particular polysaccharide biomass, and especially in processes requiring the production of sugar products from starting lignocellulosic materials, such as highly refractory xylan-coated cellulose fibers.

Further, the inventors have shown herein that the said protein family members have the ability to substantially increase the rate or the level of polysaccharide hydrolysis, in an amount-dependent manner. The members of the said family of proteins that has been identified herein has the property of producing hydrogen peroxide in the presence of oxygen and of an electron donor such as ascorbic acid. This is why these proteins which are described in the present application may also be encompassed by the term "polysaccharide-oxidizing enzyme" herein.

This novel family of polysaccharide-oxidizing enzymes is also referred herein as the "AAxx" family of proteins. The inventors have further characterized structurally the reference protein PcAAxxB (Genbank #KY769370) from P.coccineus, by solving the crystallographic structure of its catalytic module at a resolution of 3 A, thus providing a structural template for identifying all the relevant members of this AAxx family of enzymes, in complement to a sequence alignment of more than 300 proteins with significant similarity to PcAAxxB.

In particular, the polysaccharide-oxidizing enzymes of the invention are characterized by the presence of a conserved copper-binding active site, also referred herein as a copper-binding "histidine brace active site", formed by two Histidine residues and a Tyrosine, one of those two Histidine residues being the N-terminal histidine after cleavage of the signal peptide. Even more particularly, the inventors have shown herein that a plurality of proteins belonging to this novel AAxx family can be distinguished from other lytic polysaccharide monooxygenases in that they do not harbor a carbohydrate-binding module (CBM).

Illustratively, the examples herein show that the said protein family members substantially increase the level of polysaccharide degradation caused by a polysaccharide- degrading enzyme mixture. Notably, the examples herein show that protein members of the family of polysaccharide-oxidizing enzymes identified by the inventors substantially increase the level of glucose release caused by the action of an enzyme mixture originating from T. reesei on a cellulose-containing material, which encompasses a lignocellulosic material.

Still further, the inventors have shown that a polysaccharide-oxidizing protein that has been newly identified herein may act in synergy with known other polysaccharide- oxidizing enzymes such as lytic polysaccharide monooxygenases (which are also commonly termed LPMOs) for enhancing the polysaccharide hydrolysis caused by a polysaccharide-degrading enzyme mixture, and especially for enhancing the hydrolysis of a lignocellulosic material caused by an enzyme mixture comprising cellulases.

These further experimental evidences described herein show that the polysaccharide-oxidizing enzymes identified by the inventors may target distinct sugar units constitutive of a polysaccharide (e.g. cellulose, hemicellulose or lignocellulose), or alternatively distinct chemical groups of same sugar units, as compared to the sugar units, or the chemical groups, which are targeted by the known LPMOs, such as AA9 (also termed GH61), AA10, AA11 and AA13.

Thus, it has been unexpectedly found by the inventors that the polysaccharide- oxidizing enzymes identified herein may synergize with cellulases for degrading polysaccharide-containing material, such as cellulose-containing material like lignocellulose.

It has also been unexpectedly found herein that the polysaccharide-oxidizing enzymes identified herein may synergize with LPMOs for degrading polysaccharide- containing material, such as cellulose-containing material like lignocellulose.

Without wishing to be bound by the theory, there inventors are of the opinion that AAxx enzymes of the invention may act preferably on the xylans that are bound to cellulose, especially xylans that have a rigidity and a conformation similar to that of the underlying cellulose chains.

Accordingly, the polysaccharide-oxidizing enzymes of the invention can be considered either alone, or in combination with other polysaccharide-oxidizing and/or polysaccharide-degrading enzymes, and mixtures thereof.

Thus, the inventors have identified a novel class of polysaccharide-oxidizing enzymes that may be used in a large variety of processes for degrading polysaccharide- containing material, and especially in a large variety of processes for degrading lignocellulosic material.

The present invention provides for a novel class of polysaccharide-oxidizing enzymes which, when a polysaccharide-oxidizing enzyme thereof is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison result for the said polysaccharide-oxidizing enzyme comprises an E-value of 10 e ^-3 or less.

In particular, the inventors have identified a crystallographic structure of a polypeptide of sequence SEQ ID NO. 2. Thus the present invention also relates to polysaccharide-oxidizing enzymes which, when a polysaccharide-oxidizing enzyme thereof is compared to the reference polypeptide of SEQ ID NO. 2 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison result for the said polysaccharide-oxidizing enzyme comprises an E-value of 10 e ^-3 or less.

BLAST-P method (also termed Protein Basic Local Alignment Search Tool method) is well known from the one skilled in the art. BLAST-P method is notably described by Altschul et al. (1990, J Mol Biol, Vol. 215 (n°3) :403-410), Altschul et al.

(1997, Nucleic Acids Res. Vol. 25:3389-3402) and Altschul et al. (2005, FEBS J. Vol.

272:5101-5109). BLAST-P method may be performed by using the NCBI tool that is available on-line (internet address: http://blast.ncbi.nlm.nih.gov/Blast.cgi7P AGE= Proteins).

When used herein, the BLAST-P method shall preferably be used with the following parameters : (i) Expected threshold : 10; (ii) Word Size : 6; (iii) Max Matches in a Query range : 0; (iv) Matrix : BLOSSUM62; (v) Gap costs : Existence 11, Extension 1 ; (vi) Compositional Adjustments : Conditional compositional score matrix adjustment, (vii) No filter; (viii) No mask.

As it is well known, the score of an alignment, S, is calculated as the sum of substitution and gap scores. Substitution scores are given by a look-up table (see PAM, BLOSUM hereunder). Gap scores are typically calculated as the sum of G, the gap opening penalty and L, the gap extension penalty. For a gap of length n, the gap cost would be G+Ln. The choice of gap costs, G and L is empirical, but it is customary to choose a high value for G (10-15) and a low value for L (1-2).

An optimal alignment means an alignment of two sequences with the highest possible score.

The amino acid identity means the extent to which two amino acid sequences have the same residues at the same positions in an alignment, often expressed as a percentage.

A Blocks Substitution Matrix (BLOSSUM) is a substitution scoring matrix in which scores for each position are derived from observations of the frequencies of substitutions in blocks of local alignments in related proteins. Each matrix is tailored to a particular evolutionary distance. In the BLOSUM62 matrix, for example, the alignment from which scores were derived was created using sequences sharing no more than 62% identity. Sequences more identical than 62% are represented by a single sequence in the alignment so as to avoid over-weighting closely related family members.

As used herein, an "E-value" (also termed Expect Value") is a parameter calculated when using the BLAST-P method, the said parameter representing the number of different alignments with scores equivalent to or better than S that is expected to occur in a database search by chance. The lower the E value, the more significant the score and the alignment.

The inventors have identified more than 300 polypeptides that display significant comparison scores over their entire sequence length, when these polypeptides are compared to the polypeptide of SEQ ID NO. 1 by using the BLAST-P method.

Accordingly, the inventors have identified more than 300 polypeptides wherein, when any one of these polypeptides is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said member possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less.

Illustratively, there is described herein the polysaccharide-oxidizing enzyme of SEQ ID NO. 2, which possesses an amino acid identity of 66 % with the reference polypeptide of SEQ ID NO. 1 and has an E-value of 4 e ^-133 , when using the BLAST-P comparison method.

As shown in the examples herein, the polysaccharide-oxidizing enzyme of SEQ ID NO. 2, like the polysaccharide-oxidizing enzyme of SEQ ID NO. 1, has the ability to produce H2O2 in the presence of oxygen and an electron donor compound. Further, the polysaccharide-oxidizing enzyme of SEQ ID NO. 2, possesses polysaccharide degrading activity, as shown herein in a sequential lignocellulose degradation assay.

Still illustratively, there is described herein the polysaccharide-oxidizing enzyme of SEQ ID NO. 3, which possesses an amino acid identity of 34 % with the reference polypeptide of SEQ ID NO. 1 and has an E-value of 2 e ^-40 , when using the BLAST-P comparison method.

As shown in the examples herein, the polysaccharide-oxidizing enzyme of SEQ ID NO. 2, like the polysaccharide-oxidizing enzyme of SEQ ID NO. 1, has the ability to produce H2O2 in the presence of oxygen and an electron donor compound, like the polysaccharide-oxidizing enzyme of SEQ ID NO. 2 and SEQ ID NO. 3.

Analyses of the sequence alignment by the inventors revealed that a conserved histidine residue is always present at the N-terminal position of each of these polypeptide sequences.

In particular, the polysaccharide-oxidizing enzymes of the invention are characterized by the presence of a conserved copper-binding active site, also referred herein as a copper-binding "histidine brace active site", formed by two Histidine residues and a Tyrosine, one of those two Histidine residues being the N-terminal histidine.

According to another (non-mutually exclusive) embodiment, the polysaccharide-oxidizing enzymes of the invention may be N- and or O-glycosylated.

For reference, a polysaccharide-oxidinzing enzyme of SEQ ID NO.2 may be N-glycosylated on at least one Asparagine (Asn) residue, selected from Asn 13, Asn76, Asnl33, Asnl83 and Asn217. As used herein, a N-glycosylation on at least one Asparagine residue, may include one residue, two, three, four or five of said Asn residues; or if applicable all of Asn residues.

As used herein, a "polysaccharide-oxidizing enzyme" encompasses a polypeptide having the following properties :

- the said polypeptide produces hydrogen peroxide in the presence of oxygen and an electron donor compound, such as ascorbate,

- the said polypeptide increases in a dose-dependent manner, in the presence or in the absence of an electron donor, the degradation of a polysaccharide-containing material, such as lignocellulose, caused by cellulases and/or xylanases.

- the said polypeptide increases in a dose-dependent manner, in the presence or in the absence of an electron donor, the degradation of a polysaccharide-containing material, such as lignocellulose, caused by cellulases, in the presence of one or more LPMOs, such as LPMOs selected in a group comprising AA9, AAIO, AAl 1 and AA13.

In particular, a "polysaccharide-oxidizing enzyme" of the invention has been shown to be particularly efficient in oxidizing xylans, especially xylans that are absorbed onto cellulose.

The term "electron donor" is used herein in its usual meaning for the one skilled in the art. Thus, an electron donor compound is a chemical entity that donates electrons to another compound. An electron donor compound is a reducing agent by virtue of its donating electrons and is itself oxidized when donating electrons to another chemical entity. An electron donor, as specified above for the polysaccharide-oxidizing properties, encompasses, in a non-exhaustive manner, ascorbate and cellobiose dehydrogenase (CDH).

In the absence of a reductant, such as ascorbate, the reducing agent may advantageously be provided by the biomass (e.g. lignin), which could act as an electron donor.

The present invention also provides for uses of the said class of polysaccharide-oxidizing enzymes in various polysaccharide degradation processes, including in processes for degrading lignocellulosic material.

The present invention also provides for compositions comprising one or more of the said polysaccharide-oxidizing enzymes, and optionally polysaccharide degrading enzymes such as cellulases or lytic polysaccharide monooxygenases (LPMOs). The present invention provides for a polysaccharide-oxidizing composition comprising a polysaccharide-oxidizing enzyme wherein, when the said polysaccharide- oxidizing enzyme is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less.

In some embodiments, a polysaccharide-oxidizing enzyme wherein, when the said polysaccharide-oxidizing enzyme is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less consists of the polypeptide of SEQ ID NO. 2. As already specified elsewhere herein, the polypeptide of SEQ ID NO. 2 has 66% amino acid identity with SEQ ID NO. 1 and an E value of 4 e ^-133 .

As specified herein a polypeptide comprising SEQ ID N°2 may comprise, or consist of, a polypeptide of SEQ ID N°7.

In some other embodiments, a polysaccharide-oxidizing enzyme wherein, when the said polysaccharide-oxidizing enzyme is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide- oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less consists of the polypeptide of SEQ ID NO. 3. As already specified elsewhere herein, the polypeptide of SEQ ID NO. 3 has 34% amino acid identity with SEQ ID NO. 1 and an E value of 2 e ^-40 .

Further, the polypeptide of SEQ ID NO. 3 has 37% amino acid identity with

SEQ ID NO. 2 and an E value of 5 e ^-44 .

This invention also pertains to such compositions, wherein the said polysaccharide-oxidizing enzyme is encoded by a nucleic acid having at least 20% nucleotide identity with a nucleic acid selected in a group comprising the nucleic acids of SEQ ID NO. 4, SEQ ID NO. 5 and SEQ ID NO. 6.

This invention also pertains to such compositions, wherein the said polysaccharide-oxidizing enzyme is encoded by a nucleic acid having at least 20% nucleotide identity with a nucleic acid selected in a group comprising nucleic acids encoding a polypeptide of SEQ ID NO. 7.

Within the scope of the present invention, the "percentage identity" between two polypeptides means the percentage of identical amino acids residues between the two polypeptide sequences to be compared, obtained after optimal alignment, this percentage being purely statistical and the differences between the two polypeptide sequences being distributed randomly along their length. The comparison of two polypeptide sequences is traditionally carried out by comparing the sequences after having optimally aligned them, said comparison being able to be conducted by segment or by using an "alignment window". Optimal alignment of the sequences for comparison is carried out, by using the comparison software BLAST-P).

In its principle, the percentage identity between two amino acid sequences is determined by comparing the two optimally-aligned sequences in which the nucleic acid sequence to compare can have additions or deletions compared to the reference sequence for optimal alignment between the two polypeptide sequences. Percentage identity is calculated by determining the number of positions at which the amino acid residue is identical between the two sequences, preferably between the two complete sequences, dividing the number of identical positions by the total number of positions in the alignment window and multiplying the result by 100 to obtain the percentage identity between the two sequences.

As intended herein, polypeptide sequences having at least 20% amino acid identity with a reference sequence encompass those having at least 21%, 22%, 23%, 24%, 25%, 26%, 27%, 28%, 29%, 30%, 31%, 32%, 33%, 34%, 35%, 36%, 37%, 38%, 39%, 40%, 41%, 42%, 43%, 44%, 45%, 46%, 47%, 48%, 49%, 50%, 51%, 52%, 53%, 54%, 55%, 56%, 57%, 28%, 59%, 60%, 61%, 62%, 63%, 64%, 65%, 66%, 67%, 68%, 69%, 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% and 99% amino acid identity with the said reference sequence.

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 30% amino acid identity with a polypeptide selected in a group comprising the polypeptides of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO. 3. Particularly, the polysaccharide-oxidizing enzymes encompass those having at least 30% amino acid identity with the polypeptide of SEQ ID NO. 1

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 60% amino acid identity with a polypeptide selected in a group comprising the polypeptides of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO. 3. Particularly, the polysaccharide-oxidizing enzymes encompass those having at least 60% amino acid identity with the polypeptide of SEQ ID NO. 1

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 90% amino acid identity with a polypeptide selected in a group comprising the polypeptides of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO. 3. Particularly, the polysaccharide-oxidizing enzymes encompass those having at least 90% amino acid identity with the polypeptide of SEQ ID NO. 1.

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 30% amino acid identity with a polypeptide of SEQ ID NO. 3.

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 60% amino acid identity with a polypeptide of SEQ ID NO. 3.

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 90% amino acid identity with a polypeptide of SEQ ID NO. 3.

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme is encoded by a nucleic acid having at least 90% nucleotide identity with a nucleic acid selected in a group comprising the nucleic acids of SEQ ID NO. 4, SEQ ID NO. 5 and SEQ ID NO. 6.

In some embodiments of a composition described herein, the said polysaccharide-oxidizing enzyme has at least 20% (or even 30%) amino acid identity with a polypeptide of sequence SEQ ID N°7. Particularly, the polysaccharide-oxidizing enzymes encompass those having at least 60% or even 90% amino acid identity with a polypeptide of SEQ ID NO. 7.

Similarly, the "percentage identity" between two sequences of nucleic acids means the percentage of identical nucleotide residues between the two nucleic acid sequences to be compared, obtained after optimal alignment, this percentage being purely statistical and the differences between the two sequences being distributed randomly along their length. The comparison of two nucleic acid sequences is traditionally carried out by comparing the sequences after having optimally aligned them, said comparison being able to be conducted by segment or by using an "alignment window". Optimal alignment of the sequences for comparison is carried out, by using the comparison software BLAST-N).

In its principle, the percentage identity between two nucleic acid sequences is determined by comparing the two optimally-aligned sequences in which the nucleic acid sequence to compare can have additions or deletions compared to the reference sequence for optimal alignment between the two sequences. Percentage identity is calculated by determining the number of positions at which the nucleotide residue is identical between the two sequences, preferably between the two complete sequences, dividing the number of identical positions by the total number of positions in the alignment window and multiplying the result by 100 to obtain the percentage identity between the two sequences.

As intended herein, nucleotide sequences having at least 20% nucleotide identity with a reference sequence encompass those having at least 21%, 22%, 23%, 24%, 25%, 26%, 27%, 28%, 29%, 30%, 31%, 32%, 33%, 34%, 35%, 36%, 37%, 38%, 39%, 40%, 41%, 42%, 43%, 44%, 45%, 46%, 47%, 48%, 49%, 50%, 51%, 52%, 53%, 54%, 55%, 56%, 57%, 28%, 59%, 60%, 61%, 62%, 63%, 64%, 65%, 66%, 67%, 68%, 69%, 70%, 71%, 72%, 73%, 74%, 75%, 76%, 77%, 78%, 79%, 80%, 81%, 82%, 83%, 84%, 85%, 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% and 99% nucleotide identity with the said reference sequence.

As used herein, an E-value of 10 e ^-3 or less encompasses E-values of 1 e ^-3 or less, 1 e ^-4 or less ,1 e ^-5 or less, 1 e ^-6 or less, 1 e ^-7 or less, 1 e ^~8 or less, 1 e ^-9 or less, 1 e ^-10 or less, 1 e ^-20 or less, 1 e ^-30 or less, 1 e ^-40 or less, 1 e ^-50 or less, 1 e ^-60 or less, 1 e ^-70 or less, 1 e ^~80 or less, 1 e ^-90 or less and 1 e ^-100 or less.

Illustratively, as already specified elsewhere herein, when the polysaccharide- oxidizing enzyme of SEQ ID NO. 2 is compared to the reference polypeptide of SEQ ID NO. 1 by using the comparison method BLAST-P, (i) the said polysaccharide-oxidizing enzyme of SEQ ID NO. 2 possesses an amino acid identity of 66% with the reference polypeptide of SEQ ID NO. 1 and (ii) the BLAST-P comparison method results in an E- value of 4 e ^-133 . Still llustratively, as already specified elsewhere herein, when the polysaccharide-oxidizing enzyme of SEQ ID NO. 3 is compared to the reference polypeptide of SEQ ID NO. 1 by using the comparison method BLAST-P, (i) the said polysaccharide-oxidizing enzyme of SEQ ID NO. 3 possesses an amino acid identity of 34% with the reference polypeptide of SEQ ID NO. 1 and (ii) the BLAST-P comparison method results in an E-value of 2 e ^-40 .

In preferred embodiments, the said polysaccharide-oxidizing enzyme is selected in a group comprising the polypeptides having the following GenBank reference

_

In preferred embodiments, the said polysaccharide-oxidizing enzyme consists of a recombinant protein. In some of these preferred embodiments, the said recombinant protein is produced by a yeast cell that has been genetically transformed so as to express the said recombinant polysaccharide-oxidizing enzyme.

In some embodiments, the said polysaccharide-oxidizing composition comprises only one polysaccharide-oxidizing enzyme described herein, and especially only one polysaccharide-oxidizing enzyme having an amino acid sequence selected in a group comprising SEQ ID NO. 1, SEQ ID N0.2, SEQ ID NO. 3, and the polysaccharide- oxidizing enzymes identified by their GenBank reference number herein.

In some embodiments, the said polysaccharide-oxidizing composition comprises only one polysaccharide-oxidizing enzyme encoded by a nucleic acid having a nucleic acid sequence selected in a group comprising SEQ ID NO. 4, SEQ ID NO. 5 and SEQ ID NO. 6.

In some other embodiments, the polysaccharide-oxidizing composition according to the invention comprises more than one polysaccharide-oxidizing enzyme described herein, and especially more than one polysaccharide-oxidizing enzyme having an amino acid sequence selected in a group comprising SEQ ID NO. 1, SEQ ID NO.2, SEQ ID NO. 3 and the polysaccharide-oxidizing enzymes identified by their respective GenBank reference number herein. In some of these embodiments, the polysaccharide- oxidizing composition according to the invention comprises the polysaccharide-oxidizing enzymes of SEQ ID NO; 1, of SEQ ID NO. 2 and of SEQ ID NO. 3. In some other embodiments, the polysaccharide-oxidizing composition according to the invention comprises more than one polysaccharide-oxidizing enzyme encoded by a nucleic acid having a nucleic acid sequence selected in a group comprising SEQ ID NO. 4, SEQ ID NO. 5, SEQ ID NO. 6 and the nucleic acid sequences encoding the polysaccharide-oxidizing enzymes identified by their respective GenBank reference number herein. In some of these other embodiments, the polysaccharide-oxidizing composition according to the invention comprises the polysaccharide-oxidizing enzymes encoded by nucleic acids having the nucleic acid sequences of SEQ ID NO. 4, of SEQ ID NO. 5 and of SEQ ID NO. 6.

According to some of these other embodiments, the polysaccharide-oxidizing composition comprises from 2 to 10 distinct polysaccharide-oxidizing enzymes having an amino acid sequence selected in a group comprising SEQ ID NO. 1, SEQ ID NO.2, SEQ ID NO. 3 and the polysaccharide-oxidizing enzymes identified by their respective GenBank reference number herein.

According to some of these other embodiments, the polysaccharide-oxidizing composition comprises from 2 to 10 distinct polysaccharide-oxidizing enzymes having an amino acid sequence selected in a group comprising SEQ ID NO. 1, SEQ ID NO.2 and SEQ ID NO. 3 and the polysaccharide-oxidizing enzymes identified by their respective GenBank reference number herein.

According to some of these other embodiments, the polysaccharide-oxidizing composition comprises from 2 to 10 distinct polysaccharide-oxidizing enzymes encoded by a nucleic acid having a nucleic acid sequence selected in a group comprising SEQ ID NO. 4, SEQ ID NO. 5, SEQ ID NO. 6 and the nucleic acids encoding the polysaccharide- oxidizing enzymes identified by their respective GenBank reference number herein.

According to these other embodiments, the polysaccharide-oxidizing composition comprises 2, 3, 4, 5, 6, 7, 8, 9 or 10 distinct polysaccharide-oxidizing enzymes as described herein.

In some further embodiments, a polysaccharide-oxidizing composition according to the invention further comprises one or more other polysaccharide-oxidizing enzymes, which other polysaccharide-oxidizing enzymes are preferably selected among lytic polysaccharide monooxygenases, which encompasses other polysaccharide-oxidizing enzymes selected in a group comprising AA9, AAIO, AAl 1 and AA13 LPMOs. In some embodiments, a polysaccharide-oxidizing composition described herein may be used as a ready-to-use composition for degrading a polysaccharide- containing material, which encompasses a ready-to-use composition for degrading a lignocellulosic material.

In other embodiments, a polysaccharide-oxidizing composition as described herein may consist of an auxiliary composition that may be used in combination with one or more distinct polysaccharide degrading enzymes in a process for degrading a polysaccharide-containing material. According to these other embodiments, the said one or more other polysaccharide degrading enzymes may be contained as an enzyme mixture in a polysaccharide-degrading composition. As it will be further described in the present specification, a variety of such polysaccharide-degrading enzyme mixtures are known in the art, which encompasses enzyme mixtures comprising cellulases, such as enzyme mixtures comprising fungus-derived cellulases.

As shown herein, a polysaccharide-oxidizing composition as described in the present specification, when used in combination with known polysaccharide-degrading enzymes, and especially when used in combination with a mixture of polysaccharide- degrading enzymes, allows a more easier and a more complete sugar product release from a polysaccharide-containing starting material. In particular, a polysaccharide-oxidizing composition as described in the present specification, when used in combination with known polysaccharide-degrading enzymes, and especially when used in combination with a mixture of polysaccharide-degrading enzymes, allows a more easier and a more complete glucose release from a cellulose-containing starting material, which includes a more easier and a more complete release of glucose from a lignocellulosic starting material.

As already specified herein, there is generally provided compositions comprising a polysaccharide-oxidizing enzyme selected in a group comprising SEQ ID NO. 1, SEQ ID NO.2, SEQ ID NO. 3 and the polysaccharide-oxidizing enzymes identified by their respective GenBank reference number herein, as well as polysaccharide-oxidizing enzymes encoded by a nucleic acid having a nucleic acid sequence selected in a group comprising SEQ ID NO. 4, SEQ ID NO. 5, SEQ ID NO. 6 and the nucleic acids encoding the polysaccharide-oxidizing enzymes identified by their respective GenBank reference number herein. According to one embodiment, the invention further provides a method for preparing a polysaccharide-oxidizing enzyme comprising the steps of:

a) providing a composition comprising an enzyme polypeptide wherein, when the said polypeptide is compared to a reference polypeptide selected in a group comprising SEQ ID NO. 1, SEQ ID NO.2 and SEQ ID NO. 3, by using the BLAST-P comparison method, wherein (i) the said enzyme polypeptide possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less;

b) incubating said enzyme polypeptide with a copper-containing composition, thereby preparing a polysaccharide-oxidizing enzyme.

The said copper-containing composition may be selected from a composition containing one or more copper salts, such as sulphate or acetate copper salts.

Optionally, the said method may further comprise a step c) of removing an excess amount of copper (or salts thereof) from said composition comprising said enzyme polypeptide.

Methods for identifying polypeptides belonging to the AAxx protein family

The inventors disclose herein a crystallographic structure of the PcAAxxB (JGI

ID 1372210; GenBank ID #KY769370) catalytic module. They also disclose herein an extensive set of polysaccharide-oxidizing enzymes belonging to this novel enzyme family, along with reference protein sequences SEQ ID N°l, SEQ ID N°2 and SEQ ID N°3

For reference, SEQ ID N°3 corresponds to SEQ ID N°9 after peptide signal clevage; and SEQ ID N°8 corresponds to the cleaved peptide signal.

Accordingly, by combining the available structural information and the general consensus sequence derivable from said set of polysaccharide-oxidizing enzymes, it is thus also possible to determine any variant thereof having the desired polysaccharide-oxidizing activity.

In a non- limitative manner, program-implemented methods for determining a given set of engineered or native polypeptides belonging to a given family of polypeptides can be undergone in silico by homology or comparative modeling of protein three- dimensional structures based on an alignment of sequences and a given set of known related structures. Examples of programs suitable for homology and comparative modeling include:

- MODELLER© V.9.18 (see B. Webb, A. Sali. Comparative Protein Structure Modeling Using Modeller. Current Protocols in Bio informatics, John Wiley & Sons, Inc., 5.6.1-5.6.32, 2014) ;

- I-TASSER V.5.1 (See J Yang, R Yan, A Roy, D Xu, J Poisson, Y Zhang. The I- TASSER Suite: Protein structure and function prediction. Nature Methods, 12: 7-8 (2015)) and

- the SWISS-MODEL homology-modelling server (see Biasini M, Bienert S, Waterhouse A, Arnold K, Studer G, Schmidt T, Kiefer F, Cassarino TG, Bertoni M,

Bordoli L, Schwede T (2014). SWISS-MODEL: modelling protein tertiary and quaternary structure using evolutionary information {Nucleic Acids Research 2014 (1 July 2014) 42 (Wl): W252-W258).

Thus, according to one embodiment, the invention relates to a method for identifying polysaccharide-oxidizing enzymes, which comprises the steps of:

al) providing one or more candidate polypeptides which may possess a polysaccharide-oxidizing activity;

a2) providing experimental coordinates of a reference polypeptide backbone and/or side chain, wherein said reference polypeptide backbone and/or side chain is a polypeptide comprising SEQ ID NO. 2 or SEQ ID NO 7, or a fragment thereof having a polysaccharide-oxidizing activity;

a3) providing a sequence alignment of the one or more candidate polypeptide with a reference polypeptide sequence possessing an amino acid identity of 20 % or more with SEQ ID NO. 1, SEQ ID NO. 2, SEQ ID NO 3 or SEQ ID NO 7 by using the BLAST- P comparison method, characterized in that the said one or more candidate polypeptides possesses an E-value of 10 e ^-3 or less;

b) determining from al), a2) and a3) the theorical coordinates of the one or more candidate polypeptide;

c) determining the root-mean-square deviation (RMSD) of the said theorical coordinates with the experimental coordinates of the reference polypeptide; wherein an increased RMSD of the theorical coordinates, compared to the experimental coordinates, above a reference threshold indicates a lower probability of having a polysaccharide-oxidizing activity;

wherein a decreased RMSD of the theorical coordinates, compared to the experimental coordinates, below a reference threshold indicates a higher probability of having a polysaccharide-oxidizing activity.

d) optionally selecting the one or more candidate polypeptides of which the theorical coordinates define a copper-binding "histidine brace active site", formed by two Histidine residues and a Tyrosine, one of those two Histidine residues being a N-terminal Histidine.

This invention also pertains to more complete compositions wherein the said compositions further comprise other enzymes contributing to the degradation of a polysaccharide-containing material, notably enzymes contributing to the degradation of a cellulose-containing material, and especially enzymes contributing to the degradation of lignocellulose-containing material.

In some embodiments of a polysaccharide-degrading composition as described herein, the said composition further comprises one or more polysaccharide-degrading enzymes selected in a group comprising cellulases, hemicellulases, ligninases, and carbohydrate oxidases.

Cellulases encompass endoglucanases and cellobiohydrolases and beta- glucosidases.

Hemicellulases encompass xylanases, mannanases, xylosidases, mannosidases, arabinofuranosidaes and esterases.

Ligninases encompass peroxidases, copper radical oxidases (e.g. laccases). Carbohydrate oxidases encompass lytic polysaccharide monooxygenases and

GMC oxidoreductases (e.g. glucose dehydrogenases, cellobiose dehydrogenases, ...).

According to some of these embodiments, the one or more cellulases comprised in a polysaccharide-degrading composition are selected in a group comprising exo-glucanases, endo-glucanases, cellobiohydrolases, cellulose phosphorylases, pectinases, pectate lyases, polygalacturonase, pectin esterases, cellobiose dehydrogenases, mannanases, arabinofuranosidases, feruoyl esterases, arabinofuranosidases, fructofuranosidases, galactosidases, galactosidases, amylases, acetylxylan esterases, chitin deacetylases, chitinases, and glucosidases.

According to some of these embodiments, the one or more lytic polysaccharide monooxygenases comprised in a polysaccharide-degrading composition are selected in a group comprising AA9, AA10, AA11 and AA13.

According to some of these embodiments, wherein the said one or more other polysaccharide degrading enzymes are comprised in an enzyme preparation containing the said one or more other polysaccharide degrading enzymes.

According to some of these embodiments, the said enzyme preparation comprises one or more enzymes originating from one or more fungus organisms or one or more bacterial organisms.

According to some of these other embodiments, the said one or more fungus organism is selected in a group comprising fungi of the genus, but not limited to Achlya, Acremonium, Aspergillus, Cephalosporium, Chrysosporium, Cochliobolus, Endothia, Fusarium, Gliocladium, Humicola, Hypocrea, Myceliophthora, Mucor, Neurospora, Penicillium, Pyricularia, Thielavia, Tolypocladium, Trichoderma, Podospora, Pycnoporus, Fusarium, Thermonospora, Hypocrea, Humicola, Penicillium, Myceliophthora and Aspergillus.

According to some of these other embodiments, the said enzyme preparation comprises an enzyme extract from one or more fungus organisms or from one or more bacterial organisms.

According to some of these other embodiments, one or more of the said other polysaccharide-degrading enzymes are recombinant proteins.

The polysaccharide-oxidizing enzymes of the invention are further considered in the form of a kit, especially a kit for preparing a polysaccharide-oxidizing composition or a polysaccharide-degrading composition.

According to one embodiment, the invention relates to a kit for:

- preparing a polysaccharide-oxidizing or polysaccharide-degrading composition;

- oxidizing a polysaccharide;

- preparing a sugar product from a polysaccharide-containing material

- preparing a fermentation product from a polysaccharide-containing material;

characterized in that it contains at least (i) a polysaccharide-oxidizing enzyme wherein, when the said polysaccharide- oxidizing enzyme is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less; and

(ii) at least another distinct enzyme selected from the group consisting of a polysaccharide-oxidizing or polysaccharide-degrading enzyme, as previously defined, which may thus include cellulases, hemicellulases, ligninases, and carbohydrate oxidases, which may thus include one or more lytic polysaccharide monooxygenases (LPMOs).

Said enzymes may also be in the form of polysaccharide-oxidizing or polysaccharide-degrading composition, as previously defined.

Alternatively, a kit of the invention may also comprise one or more yeast cells expressing a polysaccharide-oxidizing or polysaccharide-degrading enzyme, as previously defined.

Polysaccharide-containing material

As used herein, a polysaccharide containing material encompasses a substance or a composition comprising polysaccharide molecules.

The term "polysaccharide" is used in its conventional meaning, and designates polymeric carbohydrate molecules composed of long chains of mnonosaccharide units bound together by glycosidic linkages. On hydrolysis, polysaccharides release the constitutive monosaccharides or oligosaccharides.

Preferred polysaccharides according to the invention are plant-derived polysaccharides, and especially cellulose, such as cellulose contained in lignocellulose.

Other plant-derived polysaccharides which are particularly considered including xylans. Xylans belong to the group of hemicelluloses, and are polysaccharides made from units of xylose.

According to one embodiment, the polysaccharide-containing material is a material that comprises at least one (or a plurality of) polysaccharides selected from the group of cellulose, hemicellulose and lignin ; which includes for instance any polysaccharide-containing material which contains at least 30 wt.% of cellulose and hemicellulose. For example, the polysaccharide-containing material may be a material such as birchwood cellulosic fibers, consisting of about 79% cellulose and about 21% xylan, as substrate.

The term "lignocellulose-containing material" used herein refers to material that primarily consists of cellulose, hemicellulose, and lignin. The term is synonymous with "lignocellulosic material". Such material is often referred to as "bio mass".

Any lignocellulose-containing material is contemplated according to the present invention. The lignocellulose-containing material may be any material containing lignocellulose. In a preferred embodiment the lignocellulose-containing material contains at least 30 wt. %, preferably at least 50 wt. %, more preferably at least 70 wt. %, even more preferably at least 90 wt. % lignocellulose. It is to be understood that the lignocellulose-containing material may also comprise other constituents such as proteinaceous material, starch, sugars, such as fermentable sugars and/or un-fermentable sugars.

Lignocellulose-containing material is generally found, for example, in the stems, leaves, hulls, husks, and cobs of plants or leaves, branches, and wood of trees. Lignocellulose- containing material can also be, but is not limited to, herbaceous material, agricultural residues, forestry residues, municipal solid wastes, waste paper, and pulp and paper mill residues. It is understood herein that lignocellulose-containing material may be in the form of plant cell wall material containing lignin, cellulose, and hemi-cellulose in a mixed matrix.

In some particular embodiments, the lignocellulosic-containing material is a lignocellulosic biomass selected from the group consisting of grass, switch grass, cord grass, rye grass, reed canary grass, miscanthus, sugar-processing residues, sugarcane bagasse, agricultural wastes, rice straw, rice hulls, barley straw, corn cobs, cereal straw, wheat straw, canola straw, oat straw, oat hulls, corn fiber, stover, soybean stover, corn stover, forestry wastes, recycled wood pulp fiber, paper sludge, sawdust, hardwood, softwood, Agave, and combinations thereof. In a preferred embodiment the lignocellulose- containing material comprises one or more of corn stover, corn fiber, rice straw, pine wood, wood chips, poplar, bagasse, paper and pulp processing waste.

Preferably, the lignocellulosic-containing material is a lignocellulosic woody biomass. Other examples of lignocellulose-containing material include hardwood, such as poplar and birch, softwood, cereal straw, such as wheat straw, switchgrass, municipal solid waste, industrial organic waste, office paper, or mixtures thereof.

According to exemplary embodiments, the lignocellulosic-containing material is selected from pine, poplar and wheat straw.

Other enzymes

As already specified herein, a polysaccharide-oxidizing composition according to the invention may comprise, in addition to one or more polysaccharide-oxidizing enzyme belonging to the enzyme family specifically identified by the inventors, also one or more other polysaccharide-oxidizing enzyme, such as one or more lytic polysaccharide monooxygenases (LPMOs).

As also already specified herein, a polysaccharide-degrading composition according to the invention may comprise, in addition to one or more polysaccharide- oxidizing enzyme belonging to the enzyme family specifically identified by the inventors, also one or more polysaccharide degrading enzyme, notably cellulo lytic enzymes, which are also commonly termed cellulases.

The other enzymes may be simply combined or alternatively they may be contained in an enzyme mixture, such as a fungus-derived or a bacteria-derived enzyme mixture, for example a commercial fungus-derived enzyme mixture.

Cellulases that may be used in a polysaccharide degrading composition as described herein encompass exoglucanases, endoglucanases, cellobiohydrolases, cellulose phosphorylases, pectinases, pectate lyases, polygalacturonase, pectin esterases, ceelobiose dehydrogenases, beta mannanases, arabonisidases, feruoyl esterases, arabinofuranosidases, fructofuranosidases, alpha galactosidases, beta galactosidases, alpha amylases, acetylxylan esterases, chitin deacetylases, chitinases, and beta glucosidases.

In order to be efficient, degradation of cellulose may require several types of enzymes acting cooperatively. At least three categories of enzymes are often needed to convert cellulose into glucose: endoglucanases (EC 3.2.1.4) that cut the cellulose chains at random; cellobiohydrolases (EC 3.2.1.91) which cleave cellobiosyl units from the cellulose chain ends and beta-glucosidases (EC 3.2.1.21) that convert cellobiose and soluble cellodextrins into glucose. Among these three categories of enzymes involved in the biodegradation of cellulose, cellobiohydrolases are the key enzymes for the degradation of native crystalline cellulose. The term "cellobiohydrolase I" is defined herein as a cellulose 1,4-beta-cellobiosidase (also referred to as Exo-glucanase, Exo-cello bio hydrolase or 1,4- beta-cello bio hydrolase) activity, as defined in the enzyme class EC 3.2.1.91 , which catalyzes the hydrolysis of 1 ,4-beta-D-glucosidic linkages in cellulose and cellotetraose, by the release of cellobiose from the non-reducing ends of the chains. The definition of the term "cellobiohydrolase II activity" is identical, except that cellobiohydrolase II attacks from the reducing ends of the chains.

Cellulases preparation may further comprise a beta-glucosidase, such as a beta- glucosidase derived from a strain of the genus, but not limited to Humicola, Trichoderma, Podospora, Pycnoporus, Fusarium, Thermonospora, Hypocrea, Chrysosporium and Aspergillus.

Cellulases may be comprised in an enzyme mixture, which encompasses an enzyme mixture derived from Trichoderma reesei.

Thus, cellulases which may be used in a polysaccharide-degrading composition as described herein may be derived from a fungal source, such as a strain of the genus Trichoderma, preferably a strain of Trichoderma reesei; or a strain of the genus Humicola, such as a strain of Humicola insolens; or a strain of Chrysosporium

Other useful enzymes encompass alpha-amylases; glucoamylases or another carbohydrate-source generating enzymes, such as beta-amylases, maltogenic amylases and/or alpha-glucosidases; proteases; or mixtures of two of more thereof.

Other useful enzymes are the lytic polysaccharide monoxygenases (LPMOs), and especially those LPMOs selected in a group comprising AA9, AA10, AA11 and AA13, which are described notably by Busk et al. (2015, BMC Genomics, Vol. 16 : 368) and by Hemsworth et al. (2015, Trends in Biotechnology, Vol. 33 (12) : 747-761).

Recombinant yeast expressing a polysaccharide-oxidizing enzyme

In some embodiments of a polysaccharide-oxidizing composition or of a polysaccharide degrading composition as described herein, a polysaccharide-oxidizing enzyme belonging to the enzyme family specifically identified by the inventors may consist of a recombinant polypeptide, which encompasses a recombinant polypeptide produced in a yeast organism, as it is shown in the examples herein. Thus, this invention also relates to a recombinant yeast cell expressing a polysaccharide-oxidizing enzyme as described in the present specification.

This invention concerns a recombinant yeast cell expressing a polysaccharide- oxidizing enzyme wherein, when the said polysaccharide-oxidizing enzyme is compared to the reference polypeptide of SEQ ID NO. 1 by using the BLAST-P comparison method, (i) the said polysaccharide-oxidizing enzyme possesses an amino acid identity of 20 % or more with the said reference polypeptide and (ii) the BLAST-P comparison method results in an E-value of 10 e ^-3 or less. These polysaccharide-oxidizing enzymes are those which are described in the present specification.

In some embodiments, the yeast organism is selected in a group of yeast organisms comprising Saccharomyces, Kluyveromyces, Candida, Pichia, Schizosaccharomyces, Hansenula, Kloeckera, Schwanniomyces, and Yarrowia. Yeast species as host cells may include, for example, S. cerevisiae, S. bulderi, S. barnetti, S. exiguus, S. uvarum, S. diastaticus, K. lactis, K. marxianus, or K. fragilis. In some embodiments, the yeast is selected from the group consisting of Saccharomyces cerevisiae, Schizzosaccharomyces pombe, Issatchenkia orientalis, Candida albicans, Candida mexicana, Pichia pastoris, Pichia mississippiensis, Pichia mexicana, Pichia stipitis, Pichia farinosa, Clavispora opuntiae, Clavispora lusitaniae, Yarrowia lipolytica, Hansenula polymorpha, Phaffia rhodozyma, Candida utilis,Arxula adeninivorans, Debaryomyces hansenii, Debaryomyces polymorphus, Schizosaccharomyces pombe, Hansenula polymorpha, and Schwanniomyces occ dentalis.

A nucleic acid allowing the expression of a polysaccharide-oxidizing enzyme of interest is introduced in the genome of the selected yeast organism or is introduced as a non-integrated vector according to genetic engineering methods that are well known from the one skilled in the art.

A "vector," e.g., a "plasmid" or "YAC" (yeast artificial chromosome) refers to an extrachromosomal element often carrying one or more genes that are not part of the central metabolism of the cell, and is usually in the form of a circular double-stranded DNA molecule. Such elements may be autonomously replicating sequences, genome integrating sequences, phage or nucleotide sequences, linear, circular, or supercoiled, of a single- or double-stranded DNA or RNA, derived from any source, in which a number of nucleotide sequences have been joined or recombined into a unique construction which is capable of introducing a promoter fragment and DNA sequence for a selected gene product along with appropriate 3' untranslated sequence into a cell. Preferably, the plasmids or vectors of the present invention are stable and self-replicating.

An "expression vector" is a vector that is capable of directing the expression of genes to which it is operably associated.

Promoter" refers to a DNA fragment capable of controlling the expression of a coding sequence or functional RNA. In general, a coding region is located 3' to a promoter. Promoters may be derived in their entirety from a native gene, or be composed of different elements derived from different promoters found in nature, or even comprise synthetic DNA segments. It is understood by those skilled in the art that different promoters may direct the expression of a gene in different tissues or cell types, or at different stages of development, or in response to different environmental or physiological conditions.

A coding region is "under the control" of transcriptional and translational control elements in a cell when RNA polymerase transcribes the coding region into mRNA, which is then trans-RNA spliced (if the coding region contains introns) and translated into the protein encoded by the coding region.

The present invention also relates to vectors which include a nucleic acid encoding a polysaccharide-oxidizing enzyme belonging to the family of enzymes specifically identified by the inventors, host cells, most preferably yeast host cells, which are genetically engineered with vectors of the invention and the production of the polysaccharide-oxidizing enzymes described herein by recombinant techniques.

Host cells, most preferably yeast host cells, are genetically engineered (transduced or transformed or transfected) with the vectors described above which may be, for example, a cloning vector or an expression vector. The vector may be, for example, in the form of a plasmid, a viral particle, a phage, etc. The engineered host cells can be cultured in conventional nutrient media modified as appropriate for activating promoters, selecting transformants or amplifying the genes of the present invention. The culture conditions, such as temperature, pH and the like, are those previously used with the host cell selected for expression, and will be apparent to the ordinarily skilled artisan.

The appropriate nucleic acid may be inserted into the vector by a variety of procedures. In general, the nucleic acid is inserted into an appropriate restriction endonuclease site(s) by procedures known in the art. Such procedures and others are deemed to be within the scope of those skilled in the art.

The nucleic acid is inserted in the expression vector is operatively associated with an appropriate expression control sequence(s) (promoter) to direct mRNA synthesis. Representative examples of such promoters are as follows:

The expression vector may also contain a ribosome binding site for translation initiation and/or a transcription terminator. The vector may also include appropriate sequences for amplifying expression, or may include additional regulatory regions.

The vector containing the appropriate nucleic acid, as well as an appropriate promoter or control sequence, may be employed to transform an appropriate host to permit the host to express the protein.

According to one embodiment, a yeast expressing a polysaccharide-oxidizing enzyme as previously defined may further express at least one additional enzyme selected from the group consisting of a polysaccharide-oxidizing or polysaccharide-degrading enzyme.

Methods of producing industrial substances from polysaccharide-containing material

The present invention also relates to a method for oxidizing a polysaccharide comprising a step of contacting one or more polysaccharides with a polysaccharide- oxidizing enzyme as described herein, or with a composition comprising the said polysaccharide-oxidizing enzyme.

In some embodiments of this method, the said one or more polysaccharides are comprised in a polysaccharide-containing biomass.

In some embodiments of this method, the said one or more polysaccharides are contained in a lignocellulosic-containing material.

This invention also pertains to methods for obtaining a sugar product from a polysaccharide-containing material, wherein the said methods comprise a step of hydro lyzing a polysaccharide-containing material by using a polysaccharide-oxidizing enzyme composition according to the invention, which includes by using an polysaccharide degrading composition as described in the present specification.

Thus, the present invention also concerns a method for oxidizing a polysaccharide comprising a step of contacting one or more polysaccharides with a polysaccharide-oxidizing enzyme as described in the present specification, or with a composition comprising the said polysaccharide-oxidizing enzyme.

This invention also relates to a method for the preparation of a sugar product from a polysaccharide-containing material comprising a step of treating the said polysaccharide-containing material in the presence of a polysaccharide degrading composition described in the present specification.

In preferred embodiments of these methods, the polysaccharide-containing materiel consists of a cellulose-containing material, such as preferably a lignocellulosic material, which encompasses lignocellulose.

This invention also provides a method for the preparation of a sugar product from a polysaccharide-containing material comprising the steps of :

a) providing a polysaccharide-containing material,

b) subjecting the said polysaccharide-containing material to hydrolysis in the presence of a polysaccharide-degrading composition as described in the present specification, and

c) collecting the sugar product obtained at the end of step b).

General methods for the preparation of a sugar product from a polysaccharide- containing material which comprise a step of hydrolysing the said polysaccharide- containing material are already known in the art. More specifically, methods for the preparation of a sugar product, including glucose, from a lignocellulo sic-containing material are already known in the art.

In some embodiments of such methods, a lignocellulosic material is pretreated before the step of hydrolysis so as to increase the efficiency of the hydrolysis step.

Pre-treatment of lignocellulose

The structure of lignocellulose is not directly accessible to enzymatic hydrolysis.

Therefore, the lignocellulose-containing material has preferably to be pretreated, e.g., by acid hydrolysis under adequate conditions of pressure and temperature, in order to break the lignin seal and disrupt the crystalline structure of cellulose. This causes solubilization of the hemicellulose and cellulose fractions. The cellulose and hemicellulose can then be hydro lyzed enzymatically such as described in the present specification, to convert the carbohydrate polymers into fermentable sugars

A pre-treatment step enhances the digestibility of lignocellulose and thus increases the efficiency of the hydrolysis step.

Methods for pretreating lignocellulose are well known in the art, which includes steps of chemical pretreatment, mechanical pretreatment and biological pretreatment.

When lignocellulose-containing material is pre-treated, degradation products that may inhibit enzymes and/or may be toxic to fermenting organisms are produced. These degradation products severely decrease both the hydrolysis and fermentation rate.

Methods for pre-treating lignocellulose-containing material are well known in the art. The pre-treated lignocellulose degradation products include lignin degradation products, cellulose degradation products and hemicellulose degradation products. The pre- treated lignin degradation products may be phenolics in nature.

The lignocellulose-containing material may be pre-treated in any suitable way.

Pre- treatment may be carried out before and/or during hydrolysis and/or fermentation. In a preferred embodiment the pre-treated material is hydrolyzed, preferably enzymatically, before and/or during fermentation. The goal of pre-treatment is to separate and/or release cellulose; hemicellulose and/or lignin and this way improve the rate of hydrolysis. Pre- treatment methods such as wet-oxidation and alkaline pre-treatment targets lignin, while dilute acid and auto- hydrolysis targets hemicellulose. Steam explosion is an example of a pre-treatment that targets cellulose.

According to the invention the pre-treatment applied in step (a) may be a conventional pre-treatment step using techniques well known in the art.

The lignocellulose-containing material may according to the invention be chemically, mechanically and/or biologically pre-treated before hydrolysis and/or fermentation. Mechanical treatment (often referred to as physical treatment) may be used alone or in combination with subsequent or simultaneous hydrolysis, especially enzymatic hydrolysis.

Preferably, chemical, mechanical and/or biological pre-treatment is carried out prior to the hydrolysis and/or fermentation. Alternatively, the chemical, mechanical and/or biological pre- treatment may be carried out simultaneously with hydrolysis, such as simultaneously with addition of one or more cellulase enzymes (cellulo lytic enzymes), or other enzyme activities mentioned below, to release, e.g., fermentable sugars, such as glucose and/or maltose.

In an embodiment of the invention the pre-treated lignocellulose-containing material may be washed. However, washing is not mandatory and is in a preferred embodiment eliminated.

The term "chemical treatment" refers to any chemical pre-treatment which promotes the separation and/or release of cellulose, hemicellulose and/or lignin. Examples of suitable chemical pre-treatments include treatment with; for example, dilute acid, lime, alkaline, organic solvent, ammonia, sulfur dioxide, carbon dioxide. Further, wet oxidation and pH-controlled hydrothermo lysis are also considered chemical pre-treatment. Pretreatment methods using ammonia are notably described in the PCT applications WO 2006/110891, WO 2006/110899, WO 2006/110900, and WO 2006/110901.

Other examples of suitable pre-treatment methods are described by Schell et al, 2003, Appl. Biochem and Biotechn. Vol. 105-108: 69-85, and Mosier et al, 2005, Bioresource Technology 96: 673-686, and U.S. Publication No. 2002/0164730.

The term "mechanical pre-treatment" refers to any mechanical (or physical) treatment which promotes the separation and/or release of cellulose, hemicellulose and/or lignin from lignocellulose-containing material. For example, mechanical pre-treatment includes various types of milling, irradiation, steaming/steam explosion, and hydrothermo lysis .

Mechanical pre-treatment includes comminution (mechanical reduction of the size). Comminution includes dry milling, wet milling and vibratory ball milling. Mechanical pre- treatment may involve high pressure and/or high temperature (steam explosion).

In some embodiments of a pretreatment step, the said step may combine chemical and mechanical pretreatment.

As used in the present invention the term "biological pre-treatment" refers to any biological pre-treatment which promotes the separation and/or release of cellulose, hemicellulose, and/or lignin from the lignocellulose-containing material. Biological pretreatment techniques can involve applying lignin- so lubilizing microorganisms (see, for example, Hsu, 1996, Pretreatment of biomass, in Handbook on Bioethanol: Production and Utilization, Wyman, ed., Taylor & Francis, Washington, DC, 179-212; Ghosh and Singh, 1993, Physicochemical and biological treatments for enzymatic/microbial conversion of lignocellulosic biomass, Adv. Appl. Microbiol. 39: 295-333; McMillan, 1994, Pretreating lignocellulosic biomass: a review, in Enzymatic Conversion of Biomass for Fuels Production, Himmel, Baker, and Overend, eds., ACS Symposium Series 566, American Chemical Society, Washington, DC, chapter 15; Gong, Cao, Du, and Tsao, 1999, Ethanol production from renewable resources, in Advances in Biochemical Engineering/Biotechnology, Scheper, ed., Springer- Verlag Berlin Heidelberg, Germany, 65: 207-241 ; Olsson and Hahn-Hagerdal, 1996, Fermentation of lignocellulosic hydrolysates for ethanol production, Enz. Microb. Tech. 18: 312-331 ; and Vallander and Eriksson, 1990, Production of ethanol from lignocellulosic materials: State of the art, Adv. Biochem. Eng J Biotechnol. 42: 63-95).

Enzyme hydrolysis

General methods of enzyme hydrolysis of a polysaccharide-containing material, including a cellulose-containing material, such as a lignocellulosic material, are well known for the one skilled in the art. Some of these methods are notably disclosed in the PCT applications WO 2015/165954, WO 2010/080407, WO 2009/026722, WO 2008/025165 and WO 2009/135898, as well as by Mohanram et al. (2013, Sustainable Chemical Processes, Vol. 1 : 15-26), Van Dyk et al. (2012, Biotechnology Advances, Vol. 30 : 1458-1480), Debeire et al. (2014, FEMS Microbiol Lett, Vol. 355, : 116-123), Liao et al, 2011, Biotechnol J, Vol. 6 : 1-9), Kumar et al. (2012, Final Technical Report, DSM Innovation, for the US Department of Energy under Award Number DE-FG36- 08GO18079), Tucer et al, 2009, Turk J Biol, Vol. 33 : 291-300).

Methods described herein comprise an enzymatic hydrolysis step. The enzymatic hydrolysis includes, but is not limited to, hydrolysis for the purpose of liquefaction of the feedstock and hydrolysis for the purpose of releasing sugar from the feedstock or both. In this step optionally pretreated and optionally washed lignocellulosic material is brought into contact with the enzyme composition according to the invention. Depending on the lignocellulosic material and the pretreatment, the different reaction conditions, e.g. temperature, enzyme dosage, hydrolysis reaction time and dry matter concentration, may be adapted by the skilled person in order to achieve a desired conversion of lignocellulose to sugar. Some indications are given hereafter.

In an embodiment the enzymatic hydrolysis comprises at least a liquefaction step wherein the lignocellulosic material is hydrolyzed in at least a first container, and a saccharification step wherein the liquefied lignocellulosic material is hydrolyzed in the at least first container and/or in at least a second container. Saccharification can be done in the same container as the liquefaction (i.e. the at least first container), it can also be done in a separate container (i.e. the at least second container). So, in the enzymatic hydrolysis of the processes according to the present invention liquefaction and saccharification may be combined. Alternatively, the liquefaction and saccharification may be separate steps. Liquefaction and saccharification may be performed at different temperatures, but may also be performed at a single temperature. In an embodiment the temperature of the liquefaction is higher than the temperature of the saccharification.

In some embodiments, liquefaction may be carried out at a temperature of 60 - 75 °C and saccharification may be carried out at a temperature of 50 - 65 °C.

The enzymes used in the enzymatic hydrolysis may be added before and/or during the enzymatic hydrolysis. In case the enzymatic hydrolysis comprises a liquefaction step and saccharification step, additional enzymes may be added during and/or after the liquefaction step. The additional enzymes may be added before and/or during the saccharification step. Additional enzymes may also be added after the saccharification step.

In some embodiments the hydrolysis is conducted at a temperature of 45°C or more, 50°C or more, 55°C or more, 60°C or more, 65°C or more, or 70°C or more. The high temperature during hydrolysis has many advantages, which include working at the optimum temperature of the enzyme composition, the reduction of risk of (bacterial) contamination, reduced viscosity, smaller amount of cooling water required, use of cooling water with a higher temperature, re-use of the enzymes and more.

For performing the step of hydrolysis, the total amount of enzymes added (herein also called enzyme dosage or enzyme load) is low. In an embodiment the amount of enzyme is 30 mg protein / g dry matter weight or lower, 20 mg protein / g dry matter or lower, 15 mg protein / g dry matter or lower, 10 mg protein / g dry matter or lower, or 5 mg protein / g dry matter or lower (expressed as protein in mg protein / g dry matter). In an embodiment, the amount of polysaccharide-oxidizing enzyme added is 15 mg polysaccharide-oxidizing enzyme / g dry matter weight or lower, 10 mg polysaccharide-oxidizing enzyme / g dry matter weight or lower, 5 mg polysaccharide- oxidizing enzyme / g dry matter weight or lower or 1 mg enzyme / g dry matter weight or lower (expressed as total of polysaccharide-oxidizing enzymes in mg enzyme / g dry matter). Low enzyme dosage is possible, since because of the activity and stability of the enzymes, it is possible to increase the hydrolysis reaction time.

In a further aspect of the invention, the hydrolysis reaction time is 5 hours or more, 10 hours or more, 20 hours or more, 40 hours or more, 50 hours or more, 60 hours or more, 70 hours or more, 80 hours or more, 90 hours or more, 100 hours or more, 120 hours or more, 130 h or more. In another aspect, the hydrolysis reaction time is 5 to 150 hours, 40 to 130 hours, 50 to 120 hours, 60 to 120 hours, 60 to 1 10 hours, 60 to 100 hours, 70 to 100 hours, 70 to 90 hours or 70 to 80 hours. Due to the stability of the enzyme composition longer hydrolysis reaction times are possible with corresponding higher sugar yields.

The pH during hydrolysis may be chosen by the skilled person. In a further aspect of the invention, the pH during the hydrolysis may be 3.0 to 6.4. The stable enzymes of the invention may have a broad pH range of up to 2 pH units, up to 3 pH units, up to 5 pH units. The optimum pH may lie within the limits of pH 2.0 to 8.0, 3.0 to 8.0, 3.5 to 7.0, 3.5 to 6.0, 3.5 to 5.0, 3.5 to 4.5, 4.0 to 4.5 or is about 4.2.

In a further aspect of the invention the hydrolysis step is conducted until 70% or more, 80% or more, 85% or more, 90% or more, 92% or more, 95% or more of available sugar in the lignocellulosic material is released.

In preferred embodiments, the hydrolysis step is performed in the presence of an electron donor compound and of oxygen.

An electron donor is a chemical entity, compound or composition that donates directly or indirectly electrons to another compound. It is a reducing agent that, by virtue of its donating electrons capacity, is itself oxidized in the process. Examples of electron donors are vitamin C (ascorbate), gallic acid, quinones, reduced glutathione, cysteine, low molecular weight lignin, high molecular weight lignin, ferulic acid, 3 -hydroxy anthranilic acid, plant photosystem, cellobiose dehydrogenase, GMC oxidoreductase

So, electron donors are chemical entities which are involved in an oxidation reaction to generate or donate electrons. For the electron donor vitamin C, 1 molecule vitamin C donates 2 electrons. Some electron donors deliver only 1 electron per molecule. Therefore, an electron donor used in the process of the invention is quantified in vitamin C (Vit C) equivalents on basis of the electrons that will be delivered. Production of industrially useful compounds

As it is readily understood by the one skilled in the art, a sugar product which is obtained by hydrolysis of a polysaccharide-containing material as described herein may be further processed for producing a variety of industrially useful compounds through well-known methods. Industrially useful compounds encompass ethanol and methanol.

Thus, this invention also pertains to a method for the preparation of a sugar product from a polysaccharide-containing material comprising a step of treating the said polysaccharide-containing material in the presence of a polysaccharide-oxidizing composition described in the present specification.

The use of a sugar product obtained by a method comprising a step of hydro lyzing a polysaccharide-containing material, such as a cellulose-containing material like lignocellulose are well known in the art. These methods most frequently comprises a step of fermenting the said sugar product, including fermenting glucose, so as to convert it into one or more industrially useful compounds, like ethanol or methanol.

Classically, a fermentation step is performed by using a fermenting organism, e.g. a yeast, may be fermented into a desired fermentation product, such as ethanol. Optionally the fermentation product may be recovered, e.g., by distillation.

Thus, in some embodiments, a lignocellulose-containing material is fermented by at least one fermenting organism capable of fermenting fermentable sugars, such as glucose, xylose, mannose, and galactose directly or indirectly into a desired fermentation product, according to any fermentation method which is well known from the one skilled in the art.

Subsequent to fermentation the fermentation product may be separated from the fermentation medium/broth. The medium/broth may be distilled to extract the fermentation product or the fermentation product may be extracted from the fermentation medium/broth by micro or membrane filtration techniques. Alternatively the fermentation product may be recovered by stripping. Recovery methods are well known in the art. Such methods comprising a step of hydro lysing a lignocellulosic material and a step of fermenting the sugar product issued from hydrolysis may be used for producing any fermentation product.

Fermentation products encompass alcohols (e.g., ethanol, methanol, butanol); organic acids (e.g., citric acid, acetic acid, itaconic acid, lactic acid, gluconic acid); ketones (e.g., acetone); amino acids (e.g., glutamic acid); gases (e.g., H2 and C02); antibiotics (e.g., penicillin and tetracycline); enzymes; vitamins (e.g., riboflavin, B12, beta-carotene); and hormones.

Thus, the present invention also concerns a method for the preparation of a fermentation product from a polysaccharide-containing material comprising the steps of : a) providing a polysaccharide-containing material,

b) subjecting the said polysaccharide-containing material to hydrolysis in the presence of a polysaccharide-degrading composition as described in the present specification, whereby a sugar product is obtained, and

c) fermenting the sugar product collected at step c), whereby a fermentation product is obtained,

In preferred embodiments of the method, the polysaccharide-containing material is a lignocellulosic material.

Fermentation methods are notably described by Gupta et al. (2016, Trends in Biochemical Sciences, Vol. 41 (7) : 633-645).

This invention is further illustrated, without in any way being limited to, the examples below.

EXAMPLES

A. Materials and Methods

A.1. Cloning and production of genes

The nucleotide sequence was synthesized with codon optimization for P. pastoris (GenScript, Piscataway, USA) and further inserted with the native signal sequence into a pPICZaA vector (Invitrogen, Cergy-Pontoise, France) using BstBl and Xbal restriction sites, in frame with the (His) ₆ tag sequence at the C-terminus. P. pastoris strain X33 and the pPICZaA vector are components of the P. pastoris Easy Select Expression System (Invitrogen), all media and protocols are described in the manufacturer's manual (Invitrogen).

Transformation of competent P. pastoris X33 was performed by electroporation with Pmel-linearized pPICZaA recombinant plasmids as described in Bennati-Granier et al Biotechnol. Bio fuels 8, 90 (2015)). Zeocin-resistant P. pastoris transformants were then screened for protein production. The best-producing transformant was grown in 2 1 of BMGY containing 1 ml.T ¹ Pichia trace minerals 4 (PTM4) salts (2

in shaken flasks at 30 °C in an orbital shaker (200 rpm) to an OD ₆ oo of 2 to 6. Cells were then transferred to 400 ml of BMMY containing 1 ml.T ¹ of PTM4 salts at 20 °C in an orbital shaker (200 rpm) for 3 days, with supplementation with 3 % (v/v) methanol every day. Purification was carried out as described in Bennati-Granier et al (2015) and concentrated protein was dialyzed against sodium acetate buffer, pH 5.2 and stored at 4°C.

A.2. Biochemical analysis

10 μg of recombinant protein samples were loaded onto 10 % SDS-PAGE gels (Thermo Fisher Scientific) and were detected by staining the gel with Coomassie Blue. The molecular mass under denaturating conditions was determined with reference standard proteins (PageRuler Prestained Protein Ladder, Thermo Fisher Scientific). Protein concentration was determined by using the Bradford assay (Bio-Rad, Marnes-la-Coquette, France). A3. Amplex red method

A fluorimetric assay to assess the reactivity of the copper-containing proteins based on Amplex Red and horseradish peroxidase was used as described previously (Isaksen et al, Kittl et al, Bennati-Granier et al). Briefly, 10 μΜ to 40 μΜ of protein were incubated in 50 mM sodium acetate buffer pH 6.0 containing 50 μΜ Amplex Red (Sigma- Aldrich, Saint-Quentin Fallavier, France), 7.1 U.mr ¹ horseradish peroxidase and 50 μΜ ascorbate as reductant in a final volume of 100 μΐ. The reaction was carried out at 30°C for 30 minutes and fluorescence was detected using an excitation wavelength of 560 nm and an emission wavelength of 595 nm in a Tecan Infinite M200 plate reader (Tecan, Mannedorf, Switzerland).

A.4. Saccharification assays

Cleavage assays were performed using pretreated poplar (steam explosion under acidic conditions), Avicel and birchwood cellulose fibres. Assays were carried out in 1 ml final volume containing 5 mg poplar or 0.5% cellulose, 2.2 μΜ protein with 1 mM ascorbate in 50 mM sodium acetate buffer pH 5.2. The enzyme reactions were performed in 2-ml tubes and incubated in a thermomixer (Eppendorf, Montesson, France) at 45°C and 800 rpm for 48hours. At that time, 1 to 10 μg of T. reesei cocktail TR3012 was added to the mixture and samples were further incubated at 45 °C and 800 rpm. Samples were recovered at various time points, boiled at 100°C for 10 min to stop the enzymatic reaction and then centrifuged at 14,000 rpm for 15 min at 4 °C to separate the soluble fraction from the remaining insoluble fraction before carbohydrate determination. The AA9 LPMO used in saccharification assays originated from Podospora anserina (i¾LPM09E). It was recombinantly expressed in P. pastoris as described in Bennati-Granier et al.

A.5. Analysis of oxidized and non-oxidized oligosaccharides

After saccharification, soluble sugar profiles were analysed using high- performance anion-exchange chromatography (HPAEC) coupled with pulsed amperometric detection (PAD) (ICS 3000; Dionex, Sunnyvale, USA) equipped with a carboPac PA-1 analytical column (250 ^x 2 mm) and guard column. Samples and standards were injected into the HPAEC system and elution was carried out using a multi-step gradient following the protocol described in Westereng et al. Briefly, the eluents were 0.1 M NaOH (eluent A) and 1 M NaOAc in 0.1 M NaOH (eluent B). Elution was performed at a constant flow rate of 0.25 ml/min at room temperature, using a linear gradient of 0-10 % eluent B over 10 min, 10-30 % eluent B over 25 min, and an exponential gradient of 30- 100 % eluent B in 5 min. The initial condition (100 % eluent A) was then restored in 1 min and maintained for 9 min to recondition the column.

A.6. Production of P.coccineus AAxx LPMOs Bioreactor production of the best-producing transformant was carried out in 1.3-L New Brunswick BioFlo ^® l 15 fermentors (Eppendorf, Hamburg, Germany) following the P. pastoris fermentation process guidelines (Invitrogen) with some modifications. First, preculture was performed in 500 mL shake flask containing 100 mL of BMGY medium inoculated with a single colony from YPD agar (20 g.L-1 peptone, 10 g.L-1 yeast extract, 20 g.L-1 glucose, 20 g.L-1 agar) plate. Cells were grown for 16-18 h at 30°C in a rotary shaker at 200 rpm which resulted in an OD 600 between 4 and 6. A 10% (v/v) inoculum was used to inoculate the bioreactor. The first phase consisted in a batch culture using 400 mL of basal salts medium composed of 40 g.L-1 glycerol; 26.7 mL.L-1 H 3 P04 ; 14.9 g.L-1 MgS04 .7H20; 0.93 g.L-1 CaS04 .2H20; 7.7 g.L-1 KC1; 4.13 g.L-1 KOH; 4.35 mL.L-1 PTM 1 salt solution (6 g.L-1 CuS04 .5H 2 O, 0.08 g.L-1 Nal, 3 g.L-lMnS04 .H 2 O, 0.2 g.L-1 Na2Mo04 .2H20, 0.02 g.L-1 H3BO 3 , 0.5 g.L-1 CoC12 , 20 g.L-1 ZnC1 2 .7H20, 0.2 g.L-lbiotin, 5 mL.L-1 H2SO 4 , 65 g.L-1 FeS04 .7H 2 O). Batch phase was performed at 30°C, 400 rpm and pH was controlled at 5.0 with ammonium hydroxide (28% v/v). Dissolved oxygen was controlled at 20% with oxygen enrichment cascade (0-50%) using a gas flow rate at 0.5 v.v.m. As an antifoaming agent, 200 μΐ of Pluriol 8100 (BASF, Ludwigshafen, Germany) were added. After 20-24 h, phase 2 consisted of the simultaneous addition of 50 g of sorbitol and 0.5% of methanol (v/v) to the bioreactor until the yeast cells switched to methanol metabolism (i.e., 5 h later). During this phase, agitation was increased to 500 rpm and pH was slowly increased to pH 6 by addition of ammonium hydroxide (28% v/v). Finally, the induction phase (phase 3) was performed by adding a solution of methanol containing 12 mL.L-1 of PTM 1 salts (containing copper) by a fed-batch mode. The initial feed rate was 1.47 mL.h-1 and was increased after about 14h of growth at a rate of 2.94mL.h-l .The induction phase was carried out at 20°C. Dissolved oxygen was maintained to 20% via an agitation (400- 800 rpm), gas flow (0.2-1 v.v.m.) and oxygen (0-50%) cascade. The induction phase was carried out for 144 h.

A.7. Purification of PcAAxx LPMOs

The culture supematants were recovered by pelleting the cells by centrifugation at 2,700 g for 5 min, 4°C and filtered on 0.45 μιη filters (Millipore, Molsheim, France) to remove any remaining cells. For (His) 6 -tagged enzymes, the pH was adjusted to 7.8 and the supematants were filtered once more on 0.2 μιη filters and loaded onto 5 ml His Trap HP columns (GE healthcare, Buc, France) connected to an Akta Xpress system (GE healthcare). Prior to loading, the columns were equilibrated in Tris HC1 50 mM pH 7.8; NaCl 150 mM (buffer A). The loaded columns were then washed with 5 column volumes (CV) of 10 mM imidazole in buffer A, before the elution step with 5 CV of 150 mM imidazole in buffer A. Fractions containing the protein were pooled and concentrated onto a 3-kDa vivaspin concentrator (Sartorius, Palaiseau, France) before loading onto a HiLoad 16/600 Superdex 75 Prep Grade column (GE Helthcare) and separated in acetate buffer 50 mM pH 5.2. Gel filtration analysis showed that both PcAAxx proteins are monomeric in solution even after copper loading. For enzymes without (His) 6 -tag, salts contained in the culture media were diluted ten-fold in Tris-HCl 20 mM pH 8, then culture supematants were concentrated onto a Pellicon-2 10-kDa cutoff cassette (Millipore) to a volume of approx. 200 mL and loaded onto a 20-mL High Prep DEAE column (GE Helthcare). Proteins were eluted using a linear gradient of 1 M NaCl (0 to 700 mM in 200 mL). Fractions were then analyzed by SDS PAGE and those containing the recombinant protein were pooled and concentrated. The concentrated proteins were then incubated with one-fold molar equivalent of CuS04 overnight before separation on a HiLoad 16/600 Superdex 75 Prep Grade column in acetate buffer 50 mM pH 5.2. Protein-containing fractions were pooled and concentrated onto a 3-kDa vivaspin concentrator (Sartorius).

A.8. Deglycosylation Assays

To remove N-linked glycans, purified enzymes were treated with peptide EndoHf (New England Biolabs, Ipswich, MA) under denaturing conditions according to the manufacturer's instructions. Briefly, 10 μg of protein were incubated in 0.5% SDS and 40 mM DTT and heated for 10 min at 100°C for complete denaturation. Denaturated samples were subsequently incubated with 1,500 units of peptide EndoHf in 50 mM sodium acetate pH 6.0 for 1 h at 37°C. Deglycosylated and control samples were analyzed by SDS-PAGE. A.9. Crystallization of purified PcAAxxB protein

Purified PcAAxxB protein (JGI ID 1372210; GenBank ID #KY769370) was concentrated using 10-kDa polyethersulfone Vivaspin concentrators (Sartorius). The concentration was determined by measuring the A 280nm using a NanoDrop ND-2000 instrument (Wilmington, Delaware, USA). All crystallization experiments were carried out at 20°C by the sitting-drop vapour-diffusion method using 96-well crystallization plates (Swissci) and a mosquito® Crystal (TTP labtech) crystallization robot. Reservoirs consisted of 40 μΐ, of commercial screens and crystallization drops were prepared by mixing 100 nL reservoir solution with 100, 200 and 300 nL of protein solution. An initial hit was obtained after 1 week from a condition of the AmSO 4 screen (Qiagen) consisting of 2.4 M (NH4 ) 2 S04 and 0.1 M citric acid pH 4.0. This condition was further optimized to obtain diffraction-grade crystals by mixing protein solution at 28 mg.mL-1 with precipitant solution consisting of 2.4 M (NH 4 ) 2 S04 and 0.1 M citric acid pH 4.4 at a volume ratio of 3: 1. PcAAxxB crystals grew to dimensions of 0.15x0.15x0.05 mm in one week. Crystals belong to space group P41212 with cell axes 204x204x 110 A and two molecules per asymmetric unit. A.10. Data collection, structure determination and refinement

Crystals of PcAAxxB were soaked for 5 min in a solution where 2.4 M (NH4 )2S04 of the mother liquor was replaced by 2.4 M Li2S04 for the sake of cryoprotection prior to flash-cooling in liquid nitrogen. As X-ray fluorescence scans on native crystals did not reveal a significant presence of copper within the crystals, a heavy atom derivative was prepared by soaking the crystals in reservoir solution supplemented with 55 mM of the gadolinium complex gadoteridol prior to cryo-cooling. Native diffraction data were collected on beamline ID23-1, while a MAD dataset was collected on beamline ID30B at the European Synchrotron Radiation Facility (ESRF), Grenoble, France. Data were indexed and integrated in space group P41212 using XDS and subsequent processing steps were performed with the CCP4 software suite. Determination of the Gd3+ substructure and subsequent phasing combined with solvent flattening were carried out with SHELXC/D/E , using the SAD data collected at the Gd edge and leading to a pseudo-free correlation coefficient of 71.8%. Starting from experimental phases, an initial model comprising 526 residues (out of 584), was automatically built with Buccaneer and manually completed with Coot (44). This initial model was used for rigid body refinement followed by restrained refinement against native data with the program Refmac. A random set of 5% of reflections was set aside for cross- validation purposes. Model quality was assessed with internal modules of Coot (44) and using the Molprobity server. Data collection and refinement statistics are summarized herebelow: Table 1: refinement statistics

A.ll. Bioinformatic analysis of AAxx LPMOs

P. coccineus AAxx sequences (Genbank ID KY769369 and KY769370) were compared to the NCBI non redundant sequences database using BlastP (29) in February 2016. Blast searches conducted with AAxx did not retrieve AA9s, AAlOs, AAl ls or AA13s with significant scores, and vice-versa. MUSCLE was used to perform multiple alignments. To avoid interference from the presence or absence of additional residues, the signal peptides and C-terminal extensions were removed. Bioinformatic analyses were performed on 286 fungal genomes sequenced and shared by JGI collaborators. Protein clusters are available thanks to the JGI (https://goo.gl/ZAa2NX) for each of these fungi. A phylogenetic tree has been inferred using 100 cleaned and merged alignment of proteins from selected clusters of proteins. Those clusters are present, as much as possible, in all fungi in 1 copy in order to maximize the score∑l/n (with n, the number of copy in the genome). Sequences from clusters were aligned with Mafft , trimed with Gblocks and a phylogenetic tree was built with concatenation of alignments with Fasttree . Tree is displayed with Dendroscope and Bio::phylo. See figure 6 for the phylogenetic tree and figures 8A & 8B, corresponding to a consensus sequence of the catalytic module. A.12. Copper-loading protocol

AAxx enzymes were copper loaded using copper salts (sulphate or acetate) during or after the purification. Proteins were incubated with ten molar equivalents of copper salts between two hours and overnight at 4°C and excess of copper was removed using diafiltration with a 3-kDa centricon or with a gel filtration chromatography step. The presence of copper can be assessed by inductively coupled plasma mass spectrometry (ICP-MS), as described here after.

A.13. ICP/MS Analysis

Prior to the analysis, samples are mineralized in a mixture containing 2/3 of nitric acid (Sigma- Aldrich, 65 % Purissime) and 1/3 of hydrochloric acid (Fluka, 37%, Trace Select), at 120°C. The residues are diluted in ultra-pure water (2 mL) before ICP/MS analysis. The ICP-MS instrument is an ICAP Q (ThermoElectron, Les Ullis, France), equipped with a collision cell. The calibration curve is obtained by dilution of a certified multi-element solution (Sigma- Aldrich). Copper concentrations are determined using Plasmalab software (Thermo-Electron), at a mass of interest m/z=63.

Example 1: Recombinant production of the protein of SEP ID NO. 1, SEP ID NO.2 and SEP ID NP. 3

Proteins of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO.3 were produced using the heterologous expression system P. pastoris. The native signal peptide of each of the two proteins was conserved allowing for the Histidine residue to be at the N-term position after signal peptide processing in SEQ ID N°l, SEQ ID N°2 and SEQ ID N°3. Electrophoretic analysis of the recombinant protein of SEQ ID NO. 1, the recombinant protein of SEQ ID NO. 2 and the recombinant protein of SEQ ID NO. 3 after purification revealed a single band (Figure 1).

Example 2 : Production of hydrogen peroxide by the proteins of SEP ID NP. 1, SEP ID NP. 2 and SEP ID NP.3

To assess the functionality of the proteins of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO.3, their capacity to produce H2O2 in the presence of oxygen and electron donor (ascorbate) was evaluated. Significant H2O2 production was detected (Figure 2,). H2O2 production was in the similar range as for LPMOs from other families described in the literature such as AA9 LPMOs from P. anserina (Bennati-Granier et al., 2015, Biotechnol. Bio fuels 8, 90). This assay reveals that the proteins of SEQ ID NO. 1, SEQ ID NO. 2 and SEQ ID NO.3 bears a copper ion at the catalytic center as described for LPMOs.

Example 3 : Polysaccharide-degrading activity of the proteins of SEQ ID NO. 1 and SEQ ID N0.2 in a sequential lignocellulose degradation assay

Degradation of lignocellulosic bio mass with proteins of SEQ ID NO. 1 or SEQ ID NO.2 and T. reesei cellulase cocktail were tested in sequential reactions. Pretreated poplar was first incubated with 2.2 μΜ (equivalent to 70 μg) protein of SEQ ID NO. 1 or 2.2 μΜ (equivalent to 70 μg) protein SEQ ID NO.2 for 48 hours after which 10 μg of T. reesei TR3012 cellulase cocktail was added. The reactions were further incubated for 24 hours. Analyses of soluble sugar release using several methodologies (DNS assay, RTU assay and HPAEC) showed an improvement of released glucose and cello-oligosaccharides (Figure 3). Addition of increasing amount of the proteins of SEQ ID NO. 1 or SEQ ID NO.2 resulted in proportional increase of glucose release (Figure 4).

Example 4 : Polysaccharide-degrading activity of the protein of SEQ ID NO. 1 and SEQ ID N0.2 in a sequential lignocellulose degradation assay in the presence of AA9 LPMO

Degradation of lignocellulosic bio mass with protein of SEQ ID NO. 1 and the AA9 LPMO was tested in sequential reactions. Pretreated poplar was first incubated with (i) Control medium, (ii) 2.2 μΜ (equivalent to 35 μg) protein of SEQ ID NO. 1, (iii) 2.2. μΜ of AA9 LPMO and (iv) 1.1 μΜ protein of SEQ ID NO. 1 and 1.1. μΜ of AA9 LPMO for 48 hours after which 10 μg of T. reesei TR3012 cellulase cocktail was added. The reactions were further incubated for 24 hours. Analyses of soluble sugar release using several methodologies (DNS assay, RTU assay and HPAEC) showed an improvement of released glucose and cello-oligosaccharides (Figure 5).

Example 5: A crystal structure of the PcAAxxB (JGI ID 1372210; GenBank ID #KY769370) catalytic module, refined at a 3.0 A resolution, reveals a folded core protein and an active site formed by a canonical histidine brace exposed at the surface.

PcAAxxB (#KY769370) was produced to high yield in Pichia pastoris and purified to homogeneity.

The structure of PcAAxxB was solved by multiple-wavelength anomalous dispersion data recorded at the gadolinium edge, and refined at 3.0 A resolution. The core of the protein folds into a largely antiparallel β-sandwich, a fold globally similar to that seen in LPMOs from other families.

The active site of PcAAxxB constituted by Hisl, His99 and Tyrl76 forming the canonical histidine brace is exposed at the surface (Fig. 2B).

In contrast to the flat substrate-binding surfaces observed in AA9 LPMOs, the PcAAxxB surface has a rippled shape with a clamp formed by two prominent surface loops. herein (see further herebelow) in a pdb (Protein Data Bank) format. Five N-glycans are attached in the crystal structure to PcAAxxB, through asparagine residues Asnl3, Asn76, Asnl33, Asnl83 and Asn217.

The crystal structure further provides evidence of 10 cysteine residues involved in five disulfure bonds, at the following coupled positions: Cys67 & Cys90; Cysl09 & Cysl36; Cysl53 & Cysl58; Cysl60 & Cysl82; Cys202 & Cys218.

The crystallized structure includes two molecules per assymetric unit. Chain A coordinates are disclosed herein (see further herebelow) in a pdb (Protein Data Bank) file format (see content of the crystal structure, further herebelow). Chain B, which is also part of the assymetric unit is not represented herein.

When viewed under PyMOL© Viewer 1.7.4.5 Edu (Schrodinger, LLC), boundaries of all the 6 β-sheets forming the core antiparallel β-sandwich consist of (by reference to SEQ ID N°2) :

The sequence SEQ ID N°7 corresponds to the minimal fragment of SEQ ID N°2 comprising the three amino acids which are involved in the copper-binding catalytic triade (which includes the N-terminal histidine residue); and further comprising the antiparallel β-sandwich, up to residue Thrl85.

The following residues comprised within SEQ ID N°2 can be further positioned in the consensus sequence derived from Figure 8 as follows:

Table 2A: Consensus Sequence and position in SEQ ID N°2

Table 2B: Consensus Sequence and position in SEQ ID N°2 (Cysteine Residues)

Example 6: saccharification assay on pretreated biomass including poplar, pine and wheat straw.

We performed saccharification assays on pretreated biomass including poplar and pine using a Trichoderma reesei CL847 cocktal mainly composed of cellulases and xylanases. A boost of glucose release from poplar and pine was observed upon addition of any of the AAxx enzymes to the cocktail (see figure 9).

When the reactions were conducted in the absence of a reductant the boost effect was also maintained, suggesting that one of the components from the biomass (e.g. lignin) may act as an electron donor. In a finding with important consequences for biorefmery use of woody biomass as feedstock, the T. reesei CL847 cocktail enriched in AA9 LPMO acting on cellulose was also boosted by PcAAxxA (of SEQ ID NO. 1), suggesting that AA9 and AAxx enzymes may act on different regions within the lignocellulosic matrix. Because native AAxx members do not harbor any CBM module, we artificially attached a fungal CBMl module targeting crystalline cellulose to PcAAxxAA. The resulting modular PcAAxxA-CBMI enzyme performed less efficiently than the catalytic module alone (data not shown), suggesting that AAxx enzymes do not require specific binding to the flat crystalline cellulose surface.

Overall, those experiments provide evidence that enzymes belonging to the AAxx family:

- remain efficient, as polysaccharide-oxidizing enzymes, for targeting a variety of material, and in particular a variety of lignocellulosic material; and

- when used in polysaccharide-degrading compositions in combination with other enzymes, they may provide a surprisingly synergic activity, for instance by having a distinct attack on a lignocellulosic substrate, and especially on a xylan-comprising lignocellulosic substrate.

SEQUENCE LISTING

SEP ID NP. 5

CRYSTAL STRUCTURE OF AAxx (PcAAxxB) of SEP ID N°2

MODRES NAG A 300 NAG-b- D RENAME

MODRES NAG A 301 NAG-b- D RENAME

MODRES NAG A 310 NAG-b- D RENAME

MODRES NAG A 311 NAG-b- D RENAME

MODRES MAN A 313 MAN-a- D RENAME

MODRES MAN A 314 MAN-a- D RENAME

MODRES MAN A 315 MAN-a- D RENAME

MODRES NAG A 320 NAG-b- D RENAME

MODRES NAG A 321 NAG-b- D RENAME

MODRES MAN A 323 MAN-a- D RENAME

MODRES MAN A 324 MAN-a- D RENAME

MODRES NAG A 330 NAG-b- D RENAME

MODRES NAG A 331 NAG-b- D RENAME

MODRES MAN A 333 MAN-a- D RENAME

MODRES NAG A 340 NAG-b- D RENAME

MODRES NAG A 341 NAG-b- D RENAME

MODRES MAN A 343 MAN-a- D RENAME

MODRES MAN A 344 MAN-a- D RENAME

MODRES MAN A 345 MAN-a- D RENAME

MODRES MAN A 346 MAN-a- D RENAME

SSBOND 1 CYS A 67 CYS ; A 90

SSBOND 2 CYS A 109 CYS ; A 136

SSBOND 3 CYS A 153 CYS ; A 158

SSBOND 4 CYS A 160 CYS ; A 182

SSBOND 5 CYS A 202 CYS ; A 218

LINKR CI NAG A 300 ND2 ASN A 13 NAG-ASN

LINKR CI NAG A 310 ND2 ASN A 76 NAG-ASN

LINKR CI NAG A 320 ND2 ASN A 133 NAG-ASN

LINKR CI NAG A 330 ND2 ASN A 183 NAG-ASN

LINKR CI NAG A 340 ND2 ASN A 217 NAG-ASN

LINKR NAG A 300 NAG A 301 BETA1-4

LINKR NAG A 301 BMA A 302 BETA1-4

LINKR NAG A 310 NAG A 311 BETA1-4

LINKR NAG A 311 BMA A 312 BETA1-4

LINKR BMA A 312 MAN A 313 ALPHA1-6

LINKR MAN A 313 MAN A 314 ALPHA1-3

LINKR BMA A 312 MAN A 315 ALPHA1-3

LINKR NAG A 320 NAG A 321 BETA1-4

LINKR NAG A 321 BMA A 322 BETA1-4

LINKR BMA A 322 MAN A 323 ALPHA1-3

LINKR BMA A 322 MAN A 324 ALPHA1-6

LINKR NAG A 330 NAG A 331 BETA1-4

LINKR NAG A 331 BMA A 332 BETA1-4

LINKR BMA A 332 MAN A 333 ALPHA1-3

LINKR NAG A 340 NAG A 341 BETA1-4

LINKR NAG A 341 BMA A 342 BETA1-4

LINKR BMA A 342 MAN A 343 ALPHA1-3

LINKR MAN A 343 MAN A 345 ALPHA1-2

LINKR BMA A 342 MAN A 344 ALPHA1-6

LINKR MAN A 343 MAN A 346 ALPHA1-6 CRYSTl 203.754 203.754 110.586 90.00 90.00 90.00 P 41 21 2

SCALE1 0.004908 0. 000000 0. 000000 0.00000

SCALE2 ^■ 0.000000 0. 004908 0.000000 0.00000

SCALE3 0.000000 -0. 000000 0.009043 0.00000

ATOM 1 N HIS A 1 84 207 23 , .023 6, .334 1 , .00 91 , .64 N

ATOM 2 CA HIS A 1 84 466 23 , .579 7 , .697 1 , .00 92 , .54 C

ATOM 3 CB HIS A 1 83 152 23 , .732 8 , .477 1 , .00 96, .32 C

ATOM 4 CG HIS A 1 82 286 24 , .858 7 , .994 1 , .00103 , .06 C

ATOM 5 ND1 HIS A 1 81 800 24 , .929 6, .705 1 , .00107 , .25 N

ATOM 6 CE1 HIS A 1 81 067 26, .021 6, .570 1 , .00107 , .65 C

ATOM 7 NE2 HIS A 1 81 051 26, .657 7 , .728 1 , .00107 , .39 N

ATOM 8 CD2 HIS A 1 81 802 25 , .948 8 , .636 1 , .00107 , .70 C

ATOM 9 C HIS A 1 85 475 22 , .714 8 , .468 1 , .00 89, .46 C

ATOM 10 O HIS A 1 85 099 21 , .813 9, .220 1 , .00 87 , .30 O

ATOM 11 N ILE A 2 86 758 22 , .994 8 , .247 1 , .00 85 , .02 N

ATOM 12 CA ILE A 2 87 864 22 , .287 8 , .897 1 , .00 82 , .47 C

ATOM 13 CB ILE A 2 88 504 21 , .243 7 , .951 1 , .00 82 , .74 C

ATOM 14 CGI ILE A 2 87 504 20 , .143 7 , .573 1 , .00 84 , .37 C

ATOM 15 CD1 ILE A 2 87 087 19, .238 8 , .714 1 , .00 84 , .11 C

ATOM 16 CG2 ILE A 2 89 744 20 , .610 8 , .573 1 , .00 82 , .26 C

ATOM 17 C ILE A 2 88 930 23 , .304 9, .288 1 , .00 82 , .66 C

ATOM 18 O ILE A 2 89 091 24 , .331 8 , .623 1 , .00 81 , .32 0

ATOM 19 N ALA A 3 89 659 23 , .015 10 , .364 1 , .00 83 , .36 N

ATOM 20 CA ALA A 3 90 744 23 , .883 10 , .810 1 , .00 83 , .72 C

ATOM 21 CB ALA A 3 90 229 24 , .884 11 , .825 1 , .00 85 , .46 C

ATOM 22 C ALA A 3 91 897 23 , .099 11 , .410 1 , .00 82 , .57 C

ATOM 23 O ALA A 3 91 711 22 , .006 11 , .943 1 , .00 82 , .43 O

ATOM 24 N PHE A 4 93 091 23 , .676 11 , .307 1 , .00 82 , .50 N

ATOM 25 CA PHE A 4 94 289 23 , .131 11 , .939 1 , .00 82 , .14 C

ATOM 26 CB PHE A 4 95 544 23 , .679 11 , .248 1 , .00 81 , .58 C

ATOM 27 CG PHE A 4 96 801 23 , .534 12 , .055 1 , .00 82 , .24 C

ATOM 28 CD1 PHE A 4 97 531 22 , .356 12 , .025 1 , .00 84 , .74 C

ATOM 29 CE1 PHE A 4 98 696 22 , .226 12 , .763 1 , .00 85 , .69 C

ATOM 30 CZ PHE A 4 99 145 23 , .281 13 , .536 1 , .00 86, .18 c

ATOM 31 CE2 PHE A 4 98 430 24 , .463 13 , .568 1 , .00 85 , .11 c

ATOM 32 CD2 PHE A 4 97 267 24 , .587 12 , .829 1 , .00 82 , .90 c

ATOM 33 C PHE A 4 94 243 23 , .540 13 , .408 1 , .00 79, .27 c

ATOM 34 O PHE A 4 94 223 24 , .733 13 , .713 1 , .00 78 , .92 0

ATOM 35 N TRP A 5 94 214 22 , .556 14 , .308 1 , .00 76, .19 N

ATOM 36 CA TRP A 5 94 078 22 , .815 15 , .748 1 , .00 73 , .59 C

ATOM 37 CB TRP A 5 92 972 21 , .947 16, .342 1 , .00 71 , .23 C

ATOM 38 CG TRP A 5 91 616 22 , .342 15 , .888 1 , .00 71 , .66 C

ATOM 39 CD1 TRP A 5 90 794 21 , .643 15 , .057 1 , .00 71 , .88 c

ATOM 40 NE1 TRP A 5 89 622 22 , .333 14 , .860 1 , .00 73 , .14 N

ATOM 41 CE2 TRP A 5 89 674 23 , .506 15 , .565 1 , .00 73 , .24 C

ATOM 42 CD2 TRP A 5 90 919 23 , .547 16, .223 1 , .00 72 , .48 C

ATOM 43 CE3 TRP A 5 91 226 24 , .656 17 , .018 1 , .00 72 , .79 C

ATOM 44 CZ3 TRP A 5 90 291 25 , .675 17 , .132 1 , .00 73 , .08 C

ATOM 45 CH2 TRP A 5 89 059 25 , .606 16, .466 1 , .00 74 , .22 c

ATOM 46 CZ2 TRP A 5 88 733 24 , .533 15 , .679 1 , .00 74 , .18 c

ATOM 47 C TRP A 5 95 360 22 , .586 16, .533 1 , .00 75 , .33 c

ATOM 48 O TRP A 5 95 922 21 , .491 16, .518 1 , .00 74 , .09 0

ATOM 49 N HIS A 6 95 804 23 , .632 17 , .227 1 , .00 80 , .24 N

ATOM 50 CA HIS A 6 96 984 23 , .570 18 , .089 1 , .00 80 , .86 C

ATOM 51 CB HIS A 6 98 257 23 , .467 17 , .251 1 , .00 78 , .51 C

ATOM 52 CG HIS A 6 99 432 22 , .941 18 , .008 1 , .00 76, .30 C

ATOM 53 ND1 HIS A 6 100 512 23 , .725 18 , .351 1 , .00 76, .28 N

ATOM 54 CE1 HIS A 6 101 395 22 , .993 19, .006 1 , .00 76, .89 C ATOM 55 NE2 HIS A 6 100 ,.923 21 ,.763 19,.104 1 ,.00 76,.64 N

ATOM 56 CD2 HIS A 6 99, .699 21 , .704 18 , .485 1 , .00 74 , .93 C

ATOM 57 C HIS A 6 97 , .027 24 , .823 18 , .964 1 , .00 83 , .70 C

ATOM 58 O HIS A 6 96, .542 25 , .872 18 , .553 1 , .00 87 , .03 O

ATOM 59 N ASN A 7 97 , .613 24 , .720 20 , .156 1 , .00 84 , .93 N

ATOM 60 CA ASN A 7 97 , .683 25 , .864 21 , .083 1 , .00 82 , .64 C

ATOM 61 CB ASN A 7 98 , .139 25 , .415 22 , .476 1 , .00 82 , .43 C

ATOM 62 CG ASN A 7 99, .559 24 , .883 22 , .488 1 , .00 85 , .12 C

ATOM 63 OD1 ASN A 7 100 , .174 24 , .686 21 , .440 1 , .00 88 , .15 O

ATOM 64 ND2 ASN A 7 100 , .089 24 , .647 23 , .682 1 , .00 87 , .40 N

ATOM 65 C ASN A 7 98 , .571 27 , .017 20 , .592 1 , .00 80 , .24 C

ATOM 66 O ASN A 7 98 , .520 28 , .120 21 , .138 1 , .00 81 , .89 O

ATOM 67 N SER A 8 99, .379 26, .753 19, .568 1 , .00 76, .92 N

ATOM 68 CA SER A 8 100 , .251 27 , .760 18 , .971 1 , .00 76, .31 C

ATOM 69 CB SER A 8 101 , .521 27 , .099 18 , .439 1 , .00 78 , .16 C

ATOM 70 OG SER A 8 101 , .219 26, .179 17 , .403 1 , .00 76, .69 O

ATOM 71 C SER A 8 99, .578 28 , .518 17 , .828 1 , .00 74 , .65 C

ATOM 72 O SER A 8 100 , .198 29, .385 17 , .213 1 , .00 74 , .69 O

ATOM 73 N MET A 9 98 , .324 28 , .191 17 , .536 1 , .00 73 , .77 N

ATOM 74 CA MET A 9 97 , .611 28 , .834 16, .441 1 , .00 74 , .84 C

ATOM 75 CB MET A 9 96, .458 27 , .949 15 , .954 1 , .00 74 , .96 C

ATOM 76 CG MET A 9 95 , .228 27 , .964 16, .847 1 , .00 74 , .10 C

ATOM 77 SD MET A 9 94 , .042 26, .680 16, .421 1 , .00 74 , .41 S

ATOM 78 CE MET A 9 93 , .364 27 , .372 14 , .914 1 , .00 77 , .74 C

ATOM 79 C MET A 9 97 , .063 30 , .188 16, .849 1 , .00 75 , .28 c

ATOM 80 O MET A 9 96, .799 30 , .440 18 , .024 1 , .00 83 , .04 0

ATOM 81 N TYR A 10 96, .888 31 , .053 15 , .859 1 , .00 74 , .31 N

ATOM 82 CA TYR A 10 96, .248 32 , .339 16, .074 1 , .00 74 , .32 C

ATOM 83 CB TYR A 10 96, .636 33 , .330 14 , .973 1 , .00 72 , .98 C

ATOM 84 CG TYR A 10 98 , .026 33 , .895 15 , .150 1 , .00 71 , .66 C

ATOM 85 CD1 TYR A 10 99, .150 33 , .108 14 , .941 1 , .00 72 , .01 C

ATOM 86 CE1 TYR A 10 100 , .426 33 , .619 15 , .115 1 , .00 72 , .90 c

ATOM 87 CZ TYR A 10 100 , .586 34 , .935 15 , .497 1 , .00 73 , .32 c

ATOM 88 OH TYR A 10 101 , .845 35 , .457 15 , .668 1 , .00 75 , .71 0

ATOM 89 CE2 TYR A 10 99, .486 35 , .738 15 , .707 1 , .00 73 , .41 c

ATOM 90 CD2 TYR A 10 98 , .216 35 , .216 15 , .535 1 , .00 73 , .15 c

ATOM 91 C TYR A 10 94 , .740 32 , .106 16, .111 1 , .00 75 , .52 c

ATOM 92 O TYR A 10 94 , .209 31 , .290 15 , .354 1 , .00 77 , .48 0

ATOM 93 N GLY A 11 94 , .059 32 , .813 17 , .004 1 , .00 76, .98 N

ATOM 94 CA GLY A 11 92 , .618 32 , .658 17 , .176 1 , .00 77 , .07 C

ATOM 95 C GLY A 11 92 , .251 31 , .299 17 , .739 1 , .00 77 , .32 c

ATOM 96 O GLY A 11 91 , .217 30 , .735 17 , .388 1 , .00 78 , .34 0

ATOM 97 N PHE A 12 93 , .100 30 , .779 18 , .620 1 , .00 76, .88 N

ATOM 98 CA PHE A 12 92 , .893 29, .466 19, .228 1 , .00 77 , .53 C

ATOM 99 CB PHE A 12 94 , .060 29, .150 20 , .169 1 , .00 79, .12 C

ATOM 100 CG PHE A 12 93 , .945 27 , .823 20 , .868 1 , .00 82 , .77 C

ATOM 101 CD1 PHE A 12 93 , .956 26, .638 20 , .146 1 , .00 83 , .25 C

ATOM 102 CE1 PHE A 12 93 , .863 25 , .415 20 , .785 1 , .00 83 , .58 c

ATOM 103 CZ PHE A 12 93 , .771 25 , .363 22 , .166 1 , .00 84 , .84 c

ATOM 104 CE2 PHE A 12 93 , .768 26, .534 22 , .900 1 , .00 85 , .08 c

ATOM 105 CD2 PHE A 12 93 , .861 27 , .755 22 , .253 1 , .00 85 , .04 c

ATOM 106 C PHE A 12 91 , .560 29, .370 19, .972 1 , .00 78 , .05 c

ATOM 107 O PHE A 12 90 , .881 28 , .343 19, .906 1 , .00 79, .95 0

ATOM 108 N ASN A 13 91 , .187 30 , .445 20 , .664 1 , .00 79, .85 N

ATOM 109 CA ASN A 13 89, .955 30 , .483 21 , .455 1 , .00 80 , .66 C

ATOM 110 CB ASN A 13 90 , .259 31 , .013 22 , .860 1 , .00 82 , .92 C

ATOM 111 CG ASN A 13 91 , .025 30 , .020 23 , .719 1 , .00 85 , .75 c

ATOM 112 OD1 ASN A 13 91 , .179 28 , .849 23 , .368 1 , .00 86, .69 0

ATOM 113 ND2 ASN A 13 91 , .509 30 , .497 24 , .869 1 , .00 88 , .38 N ATOM 114 C ASN A 13 88 ,.835 31 ,.321 20..839 1 ,.00 80 ,.10 C

ATOM 115 O ASN A 13 87 , .829 31 , .582 21. .499 1 , .00 79, .99 O

ATOM 116 N VAL A 14 88 , .996 31 , .732 19. .582 1 , .00 80 , .60 N

ATOM 117 CA VAL A 14 87 , .972 32 , .528 18. .898 1 , .00 79, .17 C

ATOM 118 CB VAL A 14 88 , .473 33 , .066 17. .539 1 , .00 78 , .29 C

ATOM 119 CGI VAL A 14 87 , .331 33 , .669 16. .731 1 , .00 78 , .86 C

ATOM 120 CG2 VAL A 14 89, .567 34 , .101 17. .751 1 , .00 79, .23 C

ATOM 121 C VAL A 14 86, .715 31 , .690 18. .685 1 , .00 79, .96 C

ATOM 122 O VAL A 14 86, .795 30 , .543 18. .244 1 , .00 82 , .35 O

ATOM 123 N THR A 15 85 , .562 32 , .271 19. .007 1 , .00 81 , .16 N

ATOM 124 CA THR A 15 84 , .278 31 , .594 18. .853 1 , .00 83 , .25 C

ATOM 125 CB THR A 15 83 , .560 31 , .430 20. .208 1 , .00 82 , .34 C

ATOM 126 OG1 THR A 15 83 , .185 32 , .715 20. .719 1 , .00 83 , .75 O

ATOM 127 CG2 THR A 15 84 , .461 30 , .721 21. .209 1 , .00 80 , .67 C

ATOM 128 C THR A 15 83 , .385 32 , .364 17. .880 1 , .00 86, .18 C

ATOM 129 O THR A 15 83 , .780 33 , .402 17. .344 1 , .00 86, .80 O

ATOM 130 N GLU A 16 82 , .185 31 , .839 17. .656 1 , .00 90 , .27 N

ATOM 131 CA GLU A 16 81 , .237 32 , .423 16. .714 1 , .00 95 , .92 C

ATOM 132 CB GLU A 16 79, .978 31 , .557 16. .663 1 , .00 99, .78 C

ATOM 133 CG GLU A 16 78 , .944 31 , .990 15. .636 1 , .00101 , .53 C

ATOM 134 CD GLU A 16 77 , .828 30 , .973 15. .465 1 , .00104 , .50 C

ATOM 135 OE1 GLU A 16 78 , .104 29, .755 15. .519 1 , .00106, .60 O

ATOM 136 OE2 GLU A 16 76, .670 31 , .390 15. .262 1 , .00104 , .82 0

ATOM 137 C GLU A 16 80 , .870 33 , .868 17. .052 1 , .00 98 , .70 c

ATOM 138 O GLU A 16 80 , .799 34 , .715 16. .159 1 , .00100 , .81 0

ATOM 139 N GLN A 17 80 , .660 34 , .144 18. .337 1 , .00101 , .15 N

ATOM 140 CA GLN A 17 80 , .240 35 , .477 18. .794 1 , .00101 , .61 C

ATOM 141 CB GLN A 17 79, .328 35 , .375 20. .035 1 , .00106, .37 C

ATOM 142 CG GLN A 17 79, .957 34 , .784 21. .301 1 , .00110 , .91 C

ATOM 143 CD GLN A 17 79, .913 33 , .260 21. .369 1 , .00112 , .06 C

ATOM 144 OE1 GLN A 17 79, .731 32 , .579 20. .358 1 , .00112 , .42 0

ATOM 145 NE2 GLN A 17 80 , .090 32 , .721 22. .571 1 , .00111 , .28 N

ATOM 146 C GLN A 17 81 , .395 36, .460 19. .063 1 , .00 95 , .82 C

ATOM 147 O GLN A 17 81 , .150 37 , .635 19. .333 1 , .00 91 , .71 O

ATOM 148 N THR A 18 82 , .639 35 , .990 18. .977 1 , .00 93 , .69 N

ATOM 149 CA THR A 18 83 , .815 36, .837 19. .228 1 , .00 91 , .59 C

ATOM 150 CB THR A 18 85 , .127 36, .039 19. .082 1 , .00 89, .62 C

ATOM 151 OG1 THR A 18 85 , .113 34 , .926 19. .982 1 , .00 91 , .84 O

ATOM 152 CG2 THR A 18 86, .335 36, .912 19. .388 1 , .00 88 , .68 C

ATOM 153 C THR A 18 83 , .873 38 , .056 18. .303 1 , .00 91 , .59 C

ATOM 154 O THR A 18 84 , .147 39, .165 18. .756 1 , .00 93 , .09 0

ATOM 155 N PHE A 19 83 , .631 37 , .838 17. .013 1 , .00 92 , .07 N

ATOM 156 CA PHE A 19 83 , .607 38 , .916 16. .022 1 , .00 91 , .00 C

ATOM 157 CB PHE A 19 84 , .372 38 , .500 14. .758 1 , .00 89, .62 C

ATOM 158 CG PHE A 19 85 , .861 38 , .393 14. .941 1 , .00 86, .57 C

ATOM 159 CD1 PHE A 19 86, .713 39, .338 14. .388 1 , .00 84 , .95 C

ATOM 160 CE1 PHE A 19 88 , .085 39, .234 14. .543 1 , .00 84 , .49 C

ATOM 161 CZ PHE A 19 88 , .621 38 , .176 15. .253 1 , .00 84 , .63 c

ATOM 162 CE2 PHE A 19 87 , .785 37 , .223 15. .802 1 , .00 85 , .95 c

ATOM 163 CD2 PHE A 19 86, .413 37 , .332 15. .643 1 , .00 86, .68 c

ATOM 164 C PHE A 19 82 , .154 39, .213 15. .652 1 , .00 91 , .80 c

ATOM 165 O PHE A 19 81 , .265 38 , .417 15. .966 1 , .00 92 , .30 0

ATOM 166 N PRO A 20 81 , .900 40 , .359 14. .985 1 , .00 92 , .36 N

ATOM 167 CA PRO A 20 80 , .544 40 , .650 14. .497 1 , .00 93 , .18 C

ATOM 168 CB PRO A 20 80 , .708 41 , .983 13. .761 1 , .00 93 , .72 C

ATOM 169 CG PRO A 20 81 , .914 42 , .610 14. .364 1 , .00 93 , .17 c

ATOM 170 CD PRO A 20 82 , .827 41 , .476 14. .724 1 , .00 92 , .10 c

ATOM 171 C PRO A 20 80 , .048 39, .579 13. .529 1 , .00 92 , .47 c

ATOM 172 O PRO A 20 78 , .861 39, .253 13. .516 1 , .00 94 , .83 0 ATOM 173 N TYR A 21 80 ,.973 39..050 12 ,.731 1 ,.00 89..94 N

ATOM 174 CA TYR A 21 80 , .694 37. .973 11 , .791 1 , .00 87. .48 C

ATOM 175 CB TYR A 21 81 , .251 38. .310 10 , .402 1 , .00 86. .87 C

ATOM 176 CG TYR A 21 82 , .767 38. .336 10 , .269 1 , .00 85. .77 C

ATOM 177 CD1 TYR A 21 83 , .520 39. .408 10 , .744 1 , .00 85. .72 C

ATOM 178 CE1 TYR A 21 84 , .900 39. .438 10 , .599 1 , .00 86. .03 C

ATOM 179 CZ TYR A 21 85 , .545 38. .393 9, .961 1 , .00 85. .88 C

ATOM 180 OH TYR A 21 86, .915 38. .409 9, .808 1 , .00 85. .79 0

ATOM 181 CE2 TYR A 21 84 , .817 37. .327 9, .472 1 , .00 86. .31 c

ATOM 182 CD2 TYR A 21 83 , .440 37. .305 9, .622 1 , .00 85. .97 c

ATOM 183 C TYR A 21 81 , .291 36. .676 12 , .326 1 , .00 85. .29 c

ATOM 184 O TYR A 21 82 , .034 36. .690 13 , .307 1 , .00 85. .15 0

ATOM 185 N ASP A 22 80 , .952 35. .556 11 , .695 1 , .00 84. .23 N

ATOM 186 CA ASP A 22 81 , .479 34. .259 12 , .112 1 , .00 81. .39 C

ATOM 187 CB ASP A 22 80 , .601 33. .118 11 , .595 1 , .00 79. .88 C

ATOM 188 CG ASP A 22 80 , .934 31. .781 12 , .235 1 , .00 80. .48 c

ATOM 189 OD1 ASP A 22 81 , .957 31. .686 12 , .950 1 , .00 80. .95 0

ATOM 190 OD2 ASP A 22 80 , .167 30. .817 12 , .025 1 , .00 77. .89 0

ATOM 191 C ASP A 22 82 , .899 34. .119 11 , .584 1 , .00 80. .14 c

ATOM 192 O ASP A 22 83 , .105 33. .974 10 , .377 1 , .00 83. .56 0

ATOM 193 N ASN A 23 83 , .871 34. .176 12 , .490 1 , .00 78. .77 N

ATOM 194 CA ASN A 23 85 , .278 34. .094 12 , .118 1 , .00 78. .72 C

ATOM 195 CB ASN A 23 85 , .956 35. .449 12 , .324 1 , .00 79. .93 C

ATOM 196 CG ASN A 23 87 , .323 35. .515 11 , .656 1 , .00 82. .32 c

ATOM 197 OD1 ASN A 23 88 , .345 35. .469 12 , .332 1 , .00 87. .78 0

ATOM 198 ND2 ASN A 23 87 , .349 35. .564 10 , .327 1 , .00 82. .73 N

ATOM 199 C ASN A 23 86, .021 33. .010 12 , .901 1 , .00 77. .85 C

ATOM 200 O ASN A 23 87 , .188 33. .174 13 , .256 1 , .00 76. .33 O

ATOM 201 N ARG A 24 85 , .346 31. .896 13 , .167 1 , .00 77. .43 N

ATOM 202 CA ARG A 24 85 , .985 30. .779 13 , .851 1 , .00 78. .84 C

ATOM 203 CB ARG A 24 84 , .961 29. .708 14 , .215 1 , .00 82. .46 C

ATOM 204 CG ARG A 24 83 , .948 30. .142 15 , .261 1 , .00 87. .00 C

ATOM 205 CD ARG A 24 82 , .841 29. .113 15 , .404 1 , .00 90. .70 C

ATOM 206 NE ARG A 24 81 , .997 29. .063 14 , .213 1 , .00 94. .41 N

ATOM 207 CZ ARG A 24 81 , .062 28. .146 13 , .978 1 , .00100. .00 C

ATOM 208 NH1 ARG A 24 80 , .832 27. .168 14 , .850 1 , .00102. .61 N

ATOM 209 NH2 ARG A 24 80 , .355 28. .203 12 , .855 1 , .00102. .93 N

ATOM 210 C ARG A 24 87 , .049 30. .181 12 , .936 1 , .00 77. .88 C

ATOM 211 O ARG A 24 86, .931 30. .270 11 , .715 1 , .00 79. .51 O

ATOM 212 N PRO A 25 88 , .092 29. .562 13 , .517 1 , .00 76. .89 N

ATOM 213 CA PRO A 25 89, .160 28. .944 12 , .722 1 , .00 76. .11 C

ATOM 214 CB PRO A 25 89, .920 28. .115 13 , .758 1 , .00 75. .95 C

ATOM 215 CG PRO A 25 89, .723 28. .849 15 , .034 1 , .00 75. .64 C

ATOM 216 CD PRO A 25 88 , .354 29. .457 14 , .964 1 , .00 75. .85 C

ATOM 217 C PRO A 25 88 , .683 28. .040 11 , .575 1 , .00 76. .14 C

ATOM 218 O PRO A 25 89, .365 27. .944 10 , .553 1 , .00 78. .16 O

ATOM 219 N VAL A 26 87 , .534 27. .386 11 , .750 1 , .00 74. .03 N

ATOM 220 CA VAL A 26 87 , .001 26. .463 10 , .742 1 , .00 74. .16 C

ATOM 221 CB VAL A 26 86, .097 25. .379 11 , .375 1 , .00 75. .02 C

ATOM 222 CGI VAL A 26 86, .876 24. .575 12 , .405 1 , .00 76. .87 C

ATOM 223 CG2 VAL A 26 84 , .841 25. .980 11 , .996 1 , .00 75. .97 C

ATOM 224 C VAL A 26 86, .235 27. .141 9, .608 1 , .00 76. .22 C

ATOM 225 O VAL A 26 85 , .985 26. .517 8 , .578 1 , .00 80. .23 0

ATOM 226 N VAL A 27 85 , .862 28. .405 9, .788 1 , .00 77. .19 N

ATOM 227 CA VAL A 27 85 , .106 29. .132 8 , .766 1 , .00 77. .16 C

ATOM 228 CB VAL A 27 84 , .644 30. .512 9, .286 1 , .00 78. .69 C

ATOM 229 CGI VAL A 27 84 , .097 31. .382 8 , .159 1 , .00 81. .69 C

ATOM 230 CG2 VAL A 27 83 , .600 30. .338 10 , .378 1 , .00 78. .01 C

ATOM 231 C VAL A 27 85 , .940 29. .305 7 , .493 1 , .00 75. .90 C ATOM 232 O VAL A 27 87 ,.110 29,.679 7 ,.569 1 ,.00 76,.15 O

ATOM 233 N PRO A 28 85 , .340 29, .026 6, .321 1 , .00 76, .46 N

ATOM 234 CA PRO A 28 86, .056 29, .172 5 , .053 1 , .00 77 , .60 C

ATOM 235 CB PRO A 28 85 , .147 28 , .453 4 , .056 1 , .00 76, .68 C

ATOM 236 CG PRO A 28 83 , .790 28 , .562 4 , .637 1 , .00 77 , .52 C

ATOM 237 CD PRO A 28 83 , .994 28 , .461 6, .119 1 , .00 78 , .17 C

ATOM 238 C PRO A 28 86, .248 30 , .626 4 , .631 1 , .00 78 , .58 C

ATOM 239 O PRO A 28 85 , .462 31 , .496 5 , .015 1 , .00 81 , .59 O

ATOM 240 N LEU A 29 87 , .292 30 , .865 3 , .841 1 , .00 77 , .97 N

ATOM 241 CA LEU A 29 87 , .631 32 , .196 3 , .347 1 , .00 79, .27 C

ATOM 242 CB LEU A 29 89, .133 32 , .447 3 , .503 1 , .00 77 , .54 C

ATOM 243 CG LEU A 29 89, .675 32 , .775 4 , .904 1 , .00 76, .54 C

ATOM 244 CD1 LEU A 29 91 , .176 32 , .541 4 , .937 1 , .00 75 , .32 C

ATOM 245 CD2 LEU A 29 89, .013 31 , .971 6, .011 1 , .00 76, .40 C

ATOM 246 C LEU A 29 87 , .228 32 , .296 1 , .880 1 , .00 82 , .98 C

ATOM 247 O LEU A 29 87 , .705 31 , .521 1 , .050 1 , .00 85 , .82 0

ATOM 248 N GLN A 30 86, .360 33 , .256 1 , .563 1 , .00 85 , .08 N

ATOM 249 CA GLN A 30 85 , .833 33 , .409 0 , .207 1 , .00 84 , .07 C

ATOM 250 CB GLN A 30 84 , .644 32 , .461 0 , .010 1 , .00 83 , .65 C

ATOM 251 CG GLN A 30 83 , .505 32 , .673 1 , .004 1 , .00 85 , .40 C

ATOM 252 CD GLN A 30 82 , .633 31 , .442 1 , .217 1 , .00 85 , .90 C

ATOM 253 OE1 GLN A 30 83 , .118 30 , .311 1 , .215 1 , .00 83 , .42 O

ATOM 254 NE2 GLN A 30 81 , .341 31 , .665 1 , .432 1 , .00 86, .12 N

ATOM 255 C GLN A 30 85 , .427 34 , .856 -0 , .081 1 , .00 85 , .69 C

ATOM 256 O GLN A 30 84 , .653 35 , .455 0 , .666 1 , .00 86, .01 O

ATOM 257 N TYR A 31 85 , .965 35 , .405 -1 , .167 1 , .00 89, .33 N

ATOM 258 CA TYR A 31 85 , .709 36, .788 -1 , .591 1 , .00 91 , .39 C

ATOM 259 CB TYR A 31 84 , .343 36, .903 -2 , .281 1 , .00 91 , .41 C

ATOM 260 CG TYR A 31 84 , .183 38 , .164 -3 , .108 1 , .00 92 , .21 C

ATOM 261 CD1 TYR A 31 85 , .077 38 , .463 -4 , .132 1 , .00 93 , .65 C

ATOM 262 CE1 TYR A 31 84 , .937 39, .607 -4 , .898 1 , .00 94 , .01 C

ATOM 263 CZ TYR A 31 83 , .888 40 , .466 -4 , .653 1 , .00 94 , .14 C

ATOM 264 OH TYR A 31 83 , .753 41 , .599 -5 , .418 1 , .00 94 , .67 0

ATOM 265 CE2 TYR A 31 82 , .982 40 , .191 -3 , .647 1 , .00 94 , .39 c

ATOM 266 CD2 TYR A 31 83 , .131 39, .043 -2 , .884 1 , .00 93 , .28 c

ATOM 267 C TYR A 31 85 , .835 37 , .782 -0 , .434 1 , .00 89, .84 c

ATOM 268 O TYR A 31 84 , .935 38 , .585 -0 , .175 1 , .00 91 , .00 0

ATOM 269 N MET A 32 86, .975 37 , .710 0 , .248 1 , .00 87 , .23 N

ATOM 270 CA MET A 32 87 , .272 38 , .560 1 , .394 1 , .00 84 , .81 C

ATOM 271 CB MET A 32 87 , .742 37 , .702 2 , .566 1 , .00 83 , .80 C

ATOM 272 CG MET A 32 86, .653 36, .922 3 , .268 1 , .00 84 , .29 c

ATOM 273 SD MET A 32 87 , .372 35 , .892 4 , .557 1 , .00 88 , .43 s

ATOM 274 CE MET A 32 85 , .911 35 , .425 5 , .482 1 , .00 88 , .00 c

ATOM 275 C MET A 32 88 , .370 39, .561 1 , .072 1 , .00 83 , .30 c

ATOM 276 O MET A 32 89, .194 39, .332 0 , .187 1 , .00 82 , .99 0

ATOM 277 N THR A 33 88 , .379 40 , .665 1 , .812 1 , .00 84 , .00 N

ATOM 278 CA THR A 33 89, .443 41 , .655 1 , .708 1 , .00 85 , .10 C

ATOM 279 CB THR A 33 89, .066 42 , .968 2 , .408 1 , .00 86, .62 C

ATOM 280 OG1 THR A 33 88 , .682 42 , .694 3 , .761 1 , .00 85 , .39 0

ATOM 281 CG2 THR A 33 87 , .911 43 , .640 1 , .687 1 , .00 88 , .78 c

ATOM 282 C THR A 33 90 , .679 41 , .072 2 , .374 1 , .00 84 , .97 c

ATOM 283 O THR A 33 90 , .570 40 , .134 3 , .167 1 , .00 84 , .64 0

ATOM 284 N PHE A 34 91 , .847 41 , .626 2 , .068 1 , .00 84 , .71 N

ATOM 285 CA PHE A 34 93 , .096 41 , .070 2 , .584 1 , .00 84 , .09 C

ATOM 286 CB PHE A 34 94 , .300 41 , .925 2 , .201 1 , .00 82 , .95 C

ATOM 287 CG PHE A 34 95 , .605 41 , .323 2 , .623 1 , .00 81 , .81 C

ATOM 288 CD1 PHE A 34 96, .087 40 , .193 1 , .984 1 , .00 81 , .66 c

ATOM 289 CE1 PHE A 34 97 , .283 39, .618 2 , .369 1 , .00 81 , .94 c

ATOM 290 CZ PHE A 34 98 , .014 40 , .170 3 , .406 1 , .00 80 , .79 c ATOM 291 CE2 PHE A 34 97 ,.540 41 ,.294 4 ,.057 1 ,.00 81 ,.75 C

ATOM 292 CD2 PHE A 34 96, .339 41 , .863 3 , .668 1 , .00 82 , .13 C

ATOM 293 C PHE A 34 93 , .078 40 , .861 4 , .094 1 , .00 85 , .55 C

ATOM 294 O PHE A 34 93 , .405 39, .779 4 , .571 1 , .00 83 , .63 O

ATOM 295 N GLN A 35 92 , .682 41 , .892 4 , .835 1 , .00 89, .59 N

ATOM 296 CA GLN A 35 92 , .652 41 , .828 6, .298 1 , .00 92 , .31 C

ATOM 297 CB GLN A 35 92 , .176 43 , .159 6, .884 1 , .00 97 , .58 C

ATOM 298 CG GLN A 35 92 , .242 43 , .228 8 , .401 1 , .00100 , .31 C

ATOM 299 CD GLN A 35 91 , .806 44 , .578 8 , .923 1 , .00104 , .73 C

ATOM 300 OE1 GLN A 35 90 , .700 45 , .025 8 , .633 1 , .00108 , .24 O

ATOM 301 NE2 GLN A 35 92 , .663 45 , .233 9, .703 1 , .00108 , .47 N

ATOM 302 C GLN A 35 91 , .768 40 , .698 6, .819 1 , .00 87 , .97 C

ATOM 303 O GLN A 35 92 , .081 40 , .082 7 , .840 1 , .00 88 , .49 O

ATOM 304 N GLU A 36 90 , .672 40 , .432 6, .115 1 , .00 83 , .87 N

ATOM 305 CA GLU A 36 89, .734 39, .383 6, .508 1 , .00 81 , .96 C

ATOM 306 CB GLU A 36 88 , .388 39, .590 5 , .809 1 , .00 82 , .61 C

ATOM 307 CG GLU A 36 87 , .670 40 , .854 6, .258 1 , .00 84 , .88 C

ATOM 308 CD GLU A 36 86, .424 41 , .172 5 , .449 1 , .00 85 , .92 C

ATOM 309 OE1 GLU A 36 86, .237 40 , .599 4 , .356 1 , .00 88 , .20 O

ATOM 310 OE2 GLU A 36 85 , .633 42 , .019 5 , .908 1 , .00 87 , .08 O

ATOM 311 C GLU A 36 90 , .264 37 , .969 6, .244 1 , .00 78 , .74 c

ATOM 312 O GLU A 36 90 , .151 37 , .099 7 , .110 1 , .00 79, .13 0

ATOM 313 N TRP A 37 90 , .850 37 , .739 5 , .068 1 , .00 74 , .66 N

ATOM 314 CA TRP A 37 91 , .333 36, .397 4 , .715 1 , .00 71 , .51 C

ATOM 315 CB TRP A 37 91 , .230 36, .128 3 , .192 1 , .00 70 , .80 C

ATOM 316 CG TRP A 37 92 , .341 36, .670 2 , .332 1 , .00 67 , .87 C

ATOM 317 CD1 TRP A 37 92 , .305 37 , .789 1 , .559 1 , .00 68 , .80 C

ATOM 318 NE1 TRP A 37 93 , .506 37 , .958 0 , .912 1 , .00 69, .34 N

ATOM 319 CE2 TRP A 37 94 , .342 36, .932 1 , .257 1 , .00 66, .64 C

ATOM 320 CD2 TRP A 37 93 , .638 36, .096 2 , .143 1 , .00 65 , .97 C

ATOM 321 CE3 TRP A 37 94 , .277 34 , .962 2 , .649 1 , .00 67 , .44 C

ATOM 322 CZ3 TRP A 37 95 , .578 34 , .702 2 , .256 1 , .00 68 , .15 C

ATOM 323 CH2 TRP A 37 96, .251 35 , .555 1 , .371 1 , .00 68 , .14 C

ATOM 324 CZ2 TRP A 37 95 , .650 36, .671 0 , .862 1 , .00 67 , .60 c

ATOM 325 C TRP A 37 92 , .741 36, .106 5 , .246 1 , .00 69, .80 c

ATOM 326 O TRP A 37 93 , .022 34 , .984 5 , .657 1 , .00 68 , .47 0

ATOM 327 N TRP A 38 93 , .619 37 , .105 5 , .240 1 , .00 72 , .07 N

ATOM 328 CA TRP A 38 95 , .006 36, .918 5 , .697 1 , .00 75 , .67 C

ATOM 329 CB TRP A 38 95 , .836 38 , .173 5 , .417 1 , .00 77 , .42 C

ATOM 330 CG TRP A 38 97 , .241 38 , .121 5 , .933 1 , .00 78 , .07 C

ATOM 331 CD1 TRP A 38 97 , .750 38 , .830 6, .979 1 , .00 79, .20 C

ATOM 332 NE1 TRP A 38 99, .078 38 , .532 7 , .153 1 , .00 79, .67 N

ATOM 333 CE2 TRP A 38 99, .453 37 , .612 6, .211 1 , .00 78 , .00 C

ATOM 334 CD2 TRP A 38 98 , .318 37 , .326 5 , .426 1 , .00 78 , .69 C

ATOM 335 CE3 TRP A 38 98 , .435 36, .401 4 , .383 1 , .00 81 , .00 C

ATOM 336 CZ3 TRP A 38 99, .666 35 , .795 4 , .164 1 , .00 80 , .23 C

ATOM 337 CH2 TRP A 38 100 , .773 36, .102 4 , .966 1 , .00 78 , .28 C

ATOM 338 CZ2 TRP A 38 100 , .686 37 , .002 5 , .992 1 , .00 77 , .56 c

ATOM 339 C TRP A 38 95 , .084 36, .554 7 , .184 1 , .00 76, .24 c

ATOM 340 O TRP A 38 94 , .643 37 , .316 8 , .046 1 , .00 72 , .52 0

ATOM 341 N PHE A 39 95 , .648 35 , .378 7 , .461 1 , .00 77 , .18 N

ATOM 342 CA PHE A 39 95 , .744 34 , .828 8 , .819 1 , .00 76, .64 C

ATOM 343 CB PHE A 39 96, .652 35 , .693 9, .705 1 , .00 77 , .48 C

ATOM 344 CG PHE A 39 98 , .059 35 , .181 9, .814 1 , .00 78 , .53 C

ATOM 345 CD1 PHE A 39 98 , .464 34 , .469 10 , .936 1 , .00 79, .16 C

ATOM 346 CE1 PHE A 39 99, .762 33 , .996 11 , .045 1 , .00 79, .01 c

ATOM 347 CZ PHE A 39 100 , .670 34 , .227 10 , .025 1 , .00 79, .14 c

ATOM 348 CE2 PHE A 39 100 , .278 34 , .935 8 , .902 1 , .00 78 , .45 c

ATOM 349 CD2 PHE A 39 98 , .978 35 , .407 8 , .801 1 , .00 78 , .90 c ATOM 350 C PHE A 39 94 ,.382 34..604 9..482 1 ,.00 76,.52 C

ATOM 351 O PHE A 39 94 , .301 34. .448 10. .702 1 , .00 81 , .02 O

ATOM 352 N HIS A 40 93 , .327 34. .553 8. .669 1 , .00 74 , .90 N

ATOM 353 CA HIS A 40 91 , .956 34. .369 9. .146 1 , .00 74 , .06 C

ATOM 354 CB HIS A 40 91 , .817 33. .016 9. .857 1 , .00 69, .89 C

ATOM 355 CG HIS A 40 90 , .460 32. .401 9. .730 1 , .00 66, .79 C

ATOM 356 ND1 HIS A 40 89, .299 33. .085 10. .019 1 , .00 66, .58 N

ATOM 357 CE1 HIS A 40 88 , .262 32. .290 9. .821 1 , .00 65 , .80 C

ATOM 358 NE2 HIS A 40 88 , .709 31. .111 9. .428 1 , .00 65 , .20 N

ATOM 359 CD2 HIS A 40 90 , .081 31. .153 9. .365 1 , .00 65 , .32 C

ATOM 360 C HIS A 40 91 , .552 35. .513 10. .078 1 , .00 78 , .21 C

ATOM 361 O HIS A 40 90 , .708 35. .339 10. .959 1 , .00 79, .42 O

ATOM 362 N ASN A 41 92 , .157 36. .683 9. .867 1 , .00 82 , .14 N

ATOM 363 CA ASN A 41 91 , .928 37. .861 10. .703 1 , .00 82 , .77 C

ATOM 364 CB ASN A 41 90 , .579 38. .500 10. .345 1 , .00 80 , .83 C

ATOM 365 CG ASN A 41 90 , .473 39. .946 10. .794 1 , .00 79, .26 C

ATOM 366 OD1 ASN A 41 91 , .480 40. .641 10. .938 1 , .00 78 , .80 O

ATOM 367 ND2 ASN A 41 89, .246 40. .413 10. .996 1 , .00 79, .09 N

ATOM 368 C ASN A 41 92 , .010 37. .528 12. .198 1 , .00 84 , .66 C

ATOM 369 O ASN A 41 91 , .164 37. .952 12. .989 1 , .00 88 , .85 O

ATOM 370 N HIS A 42 93 , .030 36. .753 12. .568 1 , .00 84 , .35 N

ATOM 371 CA HIS A 42 93 , .252 36. .351 13. .959 1 , .00 84 , .97 C

ATOM 372 CB HIS A 42 93 , .240 34. .823 14. .093 1 , .00 83 , .97 C

ATOM 373 CG HIS A 42 91 , .890 34. .204 13. .916 1 , .00 83 , .92 C

ATOM 374 ND1 HIS A 42 91 , .717 32. .943 13. .387 1 , .00 86, .21 N

ATOM 375 CE1 HIS A 42 90 , .428 32. .654 13. .355 1 , .00 84 , .60 C

ATOM 376 NE2 HIS A 42 89, .759 33. .686 13. .838 1 , .00 82 , .81 N

ATOM 377 CD2 HIS A 42 90 , .650 34. .669 14. .195 1 , .00 82 , .87 C

ATOM 378 C HIS A 42 94 , .569 36. .885 14. .530 1 , .00 86, .81 C

ATOM 379 O HIS A 42 95 , .054 36. .371 15. .539 1 , .00 88 , .94 O

ATOM 380 N LEU A 43 95 , .141 37. .915 13. .906 1 , .00 87 , .62 N

ATOM 381 CA LEU A 43 96, .409 38. .480 14. .379 1 , .00 87 , .31 C

ATOM 382 CB LEU A 43 96, .950 39. .518 13. .390 1 , .00 85 , .45 C

ATOM 383 CG LEU A 43 97 , .366 38. .975 12. .018 1 , .00 84 , .56 C

ATOM 384 CD1 LEU A 43 97 , .778 40. .109 11. .092 1 , .00 84 , .45 C

ATOM 385 CD2 LEU A 43 98 , .489 37. .957 12. .145 1 , .00 84 , .05 C

ATOM 386 C LEU A 43 96, .285 39. .086 15. .781 1 , .00 90 , .04 c

ATOM 387 O LEU A 43 97 , .224 39. .010 16. .576 1 , .00 91 , .88 0

ATOM 388 N ASP A 44 95 , .122 39. .658 16. .089 1 , .00 90 , .94 N

ATOM 389 CA ASP A 44 94 , .872 40. .239 17. .413 1 , .00 90 , .81 C

ATOM 390 CB ASP A 44 93 , .751 41. .285 17. .342 1 , .00 91 , .78 C

ATOM 391 CG ASP A 44 94 , .126 42. .494 16. .497 1 , .00 93 , .05 C

ATOM 392 OD1 ASP A 44 95 , .329 42. .704 16. .227 1 , .00 93 , .42 O

ATOM 393 OD2 ASP A 44 93 , .210 43. .246 16. .105 1 , .00 95 , .74 0

ATOM 394 C ASP A 44 94 , .545 39. .189 18. .481 1 , .00 88 , .30 c

ATOM 395 O ASP A 44 94 , .294 39. .538 19. .634 1 , .00 92 , .18 0

ATOM 396 N TYR A 45 94 , .553 37. .912 18. .102 1 , .00 86, .07 N

ATOM 397 CA TYR A 45 94 , .333 36. .810 19. .038 1 , .00 86, .13 C

ATOM 398 CB TYR A 45 93 , .001 36. .116 18. .743 1 , .00 83 , .98 C

ATOM 399 CG TYR A 45 91 , .804 37. .000 18. .991 1 , .00 83 , .67 C

ATOM 400 CD1 TYR A 45 91 , .391 37. .924 18. .038 1 , .00 83 , .99 C

ATOM 401 CE1 TYR A 45 90 , .297 38. .743 18. .261 1 , .00 83 , .73 c

ATOM 402 CZ TYR A 45 89, .601 38. .644 19. .450 1 , .00 83 , .17 c

ATOM 403 OH TYR A 45 88 , .513 39. .457 19. .672 1 , .00 82 , .14 0

ATOM 404 CE2 TYR A 45 89, .992 37. .733 20. .414 1 , .00 83 , .17 c

ATOM 405 CD2 TYR A 45 91 , .089 36. .920 20. .182 1 , .00 82 , .66 c

ATOM 406 C TYR A 45 95 , .491 35. .818 18. .937 1 , .00 86, .55 c

ATOM 407 O TYR A 45 95 , .294 34. .660 18. .566 1 , .00 86, .50 0

ATOM 408 N PRO A 46 96, .709 36. .270 19. .281 1 , .00 88 , .41 N ATOM 409 CA PRO A 46 97 ,.863 35 ,.396 19..162 1 ,.00 88..47 C

ATOM 410 CB PRO A 46 99, .037 36, .370 19. .243 1 , .00 88. .57 C

ATOM 411 CG PRO A 46 98 , .546 37 , .474 20. .115 1 , .00 88. .79 C

ATOM 412 CD PRO A 46 97 , .045 37 , .515 19. .997 1 , .00 89. .40 C

ATOM 413 C PRO A 46 97 , .936 34 , .393 20. .304 1 , .00 89. .24 C

ATOM 414 O PRO A 46 97 , .334 34 , .616 21. .353 1 , .00 91. .06 O

ATOM 415 N PRO A 47 98 , .682 33 , .295 20. .108 1 , .00 89. .74 N

ATOM 416 CA PRO A 47 98 , .854 32 , .294 21. .153 1 , .00 89. .39 C

ATOM 417 CB PRO A 47 99, .518 31 , .142 20. .405 1 , .00 89. .86 C

ATOM 418 CG PRO A 47 100 , .352 31 , .832 19. .379 1 , .00 89. .43 C

ATOM 419 CD PRO A 47 99, .525 33 , .004 18. .932 1 , .00 89. .34 C

ATOM 420 C PRO A 47 99, .786 32 , .818 22. .235 1 , .00 90. .42 C

ATOM 421 O PRO A 47 100 , .293 33 , .936 22. .120 1 , .00 90. .12 O

ATOM 422 N HIS A 48 100 , .019 32 , .023 23. .273 1 , .00 93. .02 N

ATOM 423 CA HIS A 48 100 , .965 32 , .424 24. .307 1 , .00 94. .38 C

ATOM 424 CB HIS A 48 100 , .828 31 , .565 25. .564 1 , .00 95. .13 C

ATOM 425 CG HIS A 48 99, .486 31 , .671 26. .221 1 , .00 95. .66 C

ATOM 426 ND1 HIS A 48 98 , .803 32 , .864 26. .331 1 , .00 97. .19 N

ATOM 427 CE1 HIS A 48 97 , .659 32 , .658 26. .959 1 , .00 97. .52 C

ATOM 428 NE2 HIS A 48 97 , .581 31 , .377 27. .272 1 , .00 97. .13 N

ATOM 429 CD2 HIS A 48 98 , .713 30 , .738 26. .826 1 , .00 95. .64 C

ATOM 430 C HIS A 48 102 , .376 32 , .351 23. .718 1 , .00 96. .28 C

ATOM 431 O HIS A 48 102 , .644 31 , .505 22. .862 1 , .00 96. .29 O

ATOM 432 N PRO A 49 103 , .281 33 , .240 24. .166 1 , .00 97. .64 N

ATOM 433 CA PRO A 49 104 , .614 33 , .331 23. .557 1 , .00 98. .49 C

ATOM 434 CB PRO A 49 105 , .323 34 , .391 24. .414 1 , .00 99. .83 C

ATOM 435 CG PRO A 49 104 , .229 35 , .170 25. .054 1 , .00 98. .41 C

ATOM 436 CD PRO A 49 103 , .136 34 , .177 25. .295 1 , .00 97. .68 C

ATOM 437 C PRO A 49 105 , .431 32 , .036 23. .539 1 , .00 97. .48 C

ATOM 438 O PRO A 49 106, .244 31 , .849 22. .636 1 , .00 96. .07 0

ATOM 439 N GLY A 50 105 , .216 31 , .159 24. .519 1 , .00 97. .60 N

ATOM 440 CA GLY A 50 105 , .978 29, .912 24. .628 1 , .00 96. .66 C

ATOM 441 C GLY A 50 105 , .441 28 , .715 23. .858 1 , .00 94. .24 C

ATOM 442 O GLY A 50 106, .114 27 , .688 23. .777 1 , .00 96. .57 O

ATOM 443 N ASP A 51 104 , .238 28 , .835 23. .296 1 , .00 91. .17 N

ATOM 444 CA ASP A 51 103 , .607 27 , .733 22. .562 1 , .00 88. .43 C

ATOM 445 CB ASP A 51 102 , .084 27 , .821 22. .685 1 , .00 88. .07 C

ATOM 446 CG ASP A 51 101 , .602 27 , .681 24. .121 1 , .00 88. .98 C

ATOM 447 OD1 ASP A 51 102 , .338 27 , .107 24. .952 1 , .00 87. .99 O

ATOM 448 OD2 ASP A 51 100 , .477 28 , .141 24. .416 1 , .00 88. .52 O

ATOM 449 C ASP A 51 104 , .007 27 , .717 21. .081 1 , .00 87. .45 c

ATOM 450 O ASP A 51 103 , .668 28 , .632 20. .328 1 , .00 82. .48 0

ATOM 451 N PHE A 52 104 , .729 26, .669 20. .681 1 , .00 86. .67 N

ATOM 452 CA PHE A 52 105 , .177 26, .489 19. .299 1 , .00 86. .78 C

ATOM 453 CB PHE A 52 106, .681 26, .747 19. .178 1 , .00 88. .12 C

ATOM 454 CG PHE A 52 107 , .071 28 , .187 19. .330 1 , .00 89. .61 C

ATOM 455 CD1 PHE A 52 107 , .381 28 , .709 20. .577 1 , .00 90. .55 C

ATOM 456 CE1 PHE A 52 107 , .750 30 , .034 20. .716 1 , .00 91. .55 c

ATOM 457 CZ PHE A 52 107 , .815 30 , .856 19. .604 1 , .00 92. .08 c

ATOM 458 CE2 PHE A 52 107 , .513 30 , .347 18. .354 1 , .00 90. .65 c

ATOM 459 CD2 PHE A 52 107 , .148 29, .019 18. .222 1 , .00 90. .14 c

ATOM 460 C PHE A 52 104 , .900 25 , .073 18. .806 1 , .00 86. .43 c

ATOM 461 O PHE A 52 104 , .956 24 , .116 19. .580 1 , .00 89. .33 0

ATOM 462 N PHE A 53 104 , .608 24 , .955 17. .514 1 , .00 84. .53 N

ATOM 463 CA PHE A 53 104 , .450 23 , .658 16. .861 1 , .00 82. .72 C

ATOM 464 CB PHE A 53 103 , .408 23 , .744 15. .744 1 , .00 79. .11 C

ATOM 465 CG PHE A 53 103 , .052 22 , .415 15. .135 1 , .00 74. .50 c

ATOM 466 CD1 PHE A 53 101 , .884 21 , .762 15. .500 1 , .00 72. .03 c

ATOM 467 CE1 PHE A 53 101 , .551 20 , .539 14. .944 1 , .00 70. .56 c ATOM 468 CZ PHE A 53 102 ,.389 19,.954 14 ,.012 1 ,.00 71 ,.23 C

ATOM 469 CE2 PHE A 53 103 , .556 20 , .594 13 , .636 1 , .00 71 , .89 C

ATOM 470 CD2 PHE A 53 103 , .883 21 , .817 14 , .194 1 , .00 73 , .25 C

ATOM 471 C PHE A 53 105 , .820 23 , .292 16, .290 1 , .00 83 , .28 C

ATOM 472 O PHE A 53 106, .380 24 , .038 15 , .488 1 , .00 82 , .27 O

ATOM 473 N ASP A 54 106, .356 22 , .147 16, .700 1 , .00 84 , .85 N

ATOM 474 CA ASP A 54 107 , .699 21 , .737 16, .288 1 , .00 85 , .30 C

ATOM 475 CB ASP A 54 108 , .404 21 , .003 17 , .436 1 , .00 87 , .15 C

ATOM 476 CG ASP A 54 108 , .726 21 , .918 18 , .607 1 , .00 88 , .60 C

ATOM 477 OD1 ASP A 54 109, .024 23 , .113 18 , .382 1 , .00 87 , .90 O

ATOM 478 OD2 ASP A 54 108 , .698 21 , .435 19, .758 1 , .00 93 , .39 O

ATOM 479 C ASP A 54 107 , .708 20 , .870 15 , .029 1 , .00 83 , .18 C

ATOM 480 O ASP A 54 106, .981 19, .880 14 , .941 1 , .00 83 , .58 O

ATOM 481 N PHE A 55 108 , .541 21 , .258 14 , .065 1 , .00 80 , .53 N

ATOM 482 CA PHE A 55 108 , .739 20 , .499 12 , .832 1 , .00 78 , .93 C

ATOM 483 CB PHE A 55 108 , .573 21 , .403 11 , .604 1 , .00 79, .62 C

ATOM 484 CG PHE A 55 107 , .140 21 , .707 11 , .263 1 , .00 78 , .94 C

ATOM 485 CD1 PHE A 55 106, .328 20 , .729 10 , .701 1 , .00 78 , .40 C

ATOM 486 CE1 PHE A 55 105 , .009 20 , .997 10 , .388 1 , .00 76, .98 C

ATOM 487 CZ PHE A 55 104 , .486 22 , .254 10 , .624 1 , .00 77 , .19 C

ATOM 488 CE2 PHE A 55 105 , .283 23 , .242 11 , .175 1 , .00 77 , .28 c

ATOM 489 CD2 PHE A 55 106, .603 22 , .967 11 , .492 1 , .00 77 , .85 c

ATOM 490 C PHE A 55 110 , .137 19, .882 12 , .844 1 , .00 77 , .06 c

ATOM 491 O PHE A 55 111 , .126 20 , .594 12 , .670 1 , .00 76, .91 0

ATOM 492 N PRO A 56 110 , .228 18 , .556 13 , .051 1 , .00 75 , .75 N

ATOM 493 CA PRO A 56 111 , .536 17 , .916 13 , .097 1 , .00 77 , .64 C

ATOM 494 CB PRO A 56 111 , .263 16, .636 13 , .886 1 , .00 77 , .83 C

ATOM 495 CG PRO A 56 109, .837 16, .308 13 , .603 1 , .00 76, .68 C

ATOM 496 CD PRO A 56 109, .136 17 , .579 13 , .209 1 , .00 76, .19 c

ATOM 497 C PRO A 56 112 , .080 17 , .594 11 , .707 1 , .00 80 , .24 c

ATOM 498 O PRO A 56 111 , .481 16, .802 10 , .979 1 , .00 83 , .61 0

ATOM 499 N ALA A 57 113 , .214 18 , .200 11 , .359 1 , .00 80 , .81 N

ATOM 500 CA ALA A 57 113 , .845 17 , .992 10 , .058 1 , .00 79, .94 C

ATOM 501 CB ALA A 57 115 , .173 18 , .730 9, .993 1 , .00 79, .03 C

ATOM 502 C ALA A 57 114 , .053 16, .510 9, .766 1 , .00 81 , .02 C

ATOM 503 O ALA A 57 114 , .479 15 , .753 10 , .636 1 , .00 82 , .40 0

ATOM 504 N GLY A 58 113 , .730 16, .103 8 , .541 1 , .00 83 , .86 N

ATOM 505 CA GLY A 58 113 , .888 14 , .716 8 , .109 1 , .00 84 , .69 C

ATOM 506 C GLY A 58 112 , .937 13 , .736 8 , .771 1 , .00 84 , .18 C

ATOM 507 O GLY A 58 113 , .135 12 , .524 8 , .674 1 , .00 85 , .98 O

ATOM 508 N LYS A 59 111 , .899 14 , .255 9, .427 1 , .00 82 , .88 N

ATOM 509 CA LYS A 59 110 , .931 13 , .430 10 , .147 1 , .00 83 , .70 C

ATOM 510 CB LYS A 59 111 , .279 13 , .390 11 , .639 1 , .00 87 , .21 C

ATOM 511 CG LYS A 59 112 , .457 12 , .494 11 , .985 1 , .00 90 , .93 C

ATOM 512 CD LYS A 59 112 , .880 12 , .671 13 , .433 1 , .00 95 , .35 C

ATOM 513 CE LYS A 59 113 , .889 11 , .613 13 , .850 1 , .00100 , .46 C

ATOM 514 NZ LYS A 59 114 , .320 11 , .783 15 , .267 1 , .00103 , .42 N

ATOM 515 C LYS A 59 109, .507 13 , .947 9, .962 1 , .00 81 , .27 C

ATOM 516 O LYS A 59 109, .292 15 , .090 9, .554 1 , .00 79, .60 O

ATOM 517 N ALA A 60 108 , .540 13 , .091 10 , .271 1 , .00 79, .91 N

ATOM 518 CA ALA A 60 107 , .128 13 , .437 10 , .156 1 , .00 79, .46 C

ATOM 519 CB ALA A 60 106, .282 12 , .173 10 , .104 1 , .00 81 , .71 C

ATOM 520 C ALA A 60 106, .678 14 , .321 11 , .315 1 , .00 77 , .96 C

ATOM 521 O ALA A 60 107 , .222 14 , .246 12 , .418 1 , .00 81 , .06 O

ATOM 522 N ALA A 61 105 , .681 15 , .158 11 , .049 1 , .00 74 , .15 N

ATOM 523 CA ALA A 61 105 , .096 16, .029 12 , .056 1 , .00 72 , .68 C

ATOM 524 CB ALA A 61 105 , .499 17 , .470 11 , .806 1 , .00 71 , .45 C

ATOM 525 C ALA A 61 103 , .584 15 , .879 11 , .991 1 , .00 73 , .76 C

ATOM 526 O ALA A 61 102 , .958 16, .323 11 , .031 1 , .00 76, .05 O ATOM 527 N THR A 62 102 ,.998 15..252 13 ,.007 1 ,.00 74 ,.78 N

ATOM 528 CA THR A 62 101 , .556 15. .021 13 , .029 1 , .00 74 , .22 C

ATOM 529 CB THR A 62 101 , .182 13. .889 13 , .999 1 , .00 74 , .44 C

ATOM 530 OG1 THR A 62 101 , .914 12. .706 13 , .655 1 , .00 77 , .29 O

ATOM 531 CG2 THR A 62 99, .690 13. .590 13 , .929 1 , .00 74 , .77 C

ATOM 532 C THR A 62 100 , .789 16. .284 13 , .415 1 , .00 73 , .32 C

ATOM 533 O THR A 62 101 , .075 16. .906 14 , .437 1 , .00 73 , .85 O

ATOM 534 N ALA A 63 99, .818 16. .648 12 , .581 1 , .00 71 , .65 N

ATOM 535 CA ALA A 63 98 , .959 17. .799 12 , .812 1 , .00 71 , .44 C

ATOM 536 CB ALA A 63 99, .055 18. .763 11 , .646 1 , .00 72 , .36 C

ATOM 537 C ALA A 63 97 , .529 17. .313 12 , .972 1 , .00 72 , .07 C

ATOM 538 O ALA A 63 97 , .175 16. .254 12 , .454 1 , .00 72 , .86 O

ATOM 539 N GLU A 64 96, .713 18. .080 13 , .691 1 , .00 73 , .76 N

ATOM 540 CA GLU A 64 95 , .314 17. .714 13 , .916 1 , .00 74 , .96 C

ATOM 541 CB GLU A 64 94 , .972 17. .740 15 , .404 1 , .00 76, .45 C

ATOM 542 CG GLU A 64 95 , .780 16. .747 16, .224 1 , .00 79, .88 C

ATOM 543 CD GLU A 64 95 , .271 16. .604 17 , .645 1 , .00 83 , .26 C

ATOM 544 OE1 GLU A 64 94 , .084 16. .260 17 , .822 1 , .00 84 , .32 O

ATOM 545 OE2 GLU A 64 96, .063 16. .818 18 , .587 1 , .00 85 , .29 O

ATOM 546 C GLU A 64 94 , .378 18. .630 13 , .139 1 , .00 74 , .74 c

ATOM 547 O GLU A 64 94 , .387 19. .850 13 , .323 1 , .00 74 , .92 0

ATOM 548 N LEU A 65 93 , .577 18. .024 12 , .268 1 , .00 73 , .51 N

ATOM 549 CA LEU A 65 92 , .629 18. .744 11 , .431 1 , .00 71 , .37 C

ATOM 550 CB LEU A 65 92 , .931 18. .473 9, .956 1 , .00 71 , .01 C

ATOM 551 CG LEU A 65 94 , .395 18. .637 9, .526 1 , .00 71 , .64 C

ATOM 552 CD1 LEU A 65 94 , .593 18. .148 8 , .102 1 , .00 73 , .33 C

ATOM 553 CD2 LEU A 65 94 , .859 20. .078 9, .664 1 , .00 71 , .74 c

ATOM 554 C LEU A 65 91 , .232 18. .257 11 , .782 1 , .00 69, .60 c

ATOM 555 O LEU A 65 90 , .983 17. .052 11 , .773 1 , .00 68 , .72 0

ATOM 556 N ALA A 66 90 , .328 19. .181 12 , .104 1 , .00 69, .80 N

ATOM 557 CA ALA A 66 88 , .965 18. .808 12 , .481 1 , .00 71 , .86 C

ATOM 558 CB ALA A 66 88 , .952 18. .233 13 , .893 1 , .00 72 , .50 C

ATOM 559 C ALA A 66 87 , .972 19. .962 12 , .377 1 , .00 75 , .05 C

ATOM 560 O ALA A 66 88 , .357 21. .130 12 , .313 1 , .00 76, .83 0

ATOM 561 N CYS A 67 86, .689 19. .611 12 , .367 1 , .00 79, .66 N

ATOM 562 CA CYS A 67 85 , .606 20. .587 12 , .285 1 , .00 84 , .59 C

ATOM 563 CB CYS A 67 84 , .324 19. .913 11 , .791 1 , .00 89, .06 C

ATOM 564 SG CYS A 67 83 , .623 18. .703 12 , .944 1 , .00 99, .46 S

ATOM 565 C CYS A 67 85 , .349 21. .253 13 , .632 1 , .00 85 , .01 C

ATOM 566 O CYS A 67 84 , .738 22. .321 13 , .691 1 , .00 85 , .07 O

ATOM 567 N ASN A 68 85 , .799 20. .609 14 , .707 1 , .00 89, .37 N

ATOM 568 CA ASN A 68 85 , .644 21. .151 16, .053 1 , .00 93 , .19 C

ATOM 569 CB ASN A 68 84 , .401 20. .587 16, .750 1 , .00 98 , .47 C

ATOM 570 CG ASN A 68 83 , .562 21. .678 17 , .382 1 , .00106, .32 C

ATOM 571 OD1 ASN A 68 84 , .040 22. .438 18 , .231 1 , .00111 , .29 O

ATOM 572 ND2 ASN A 68 82 , .315 21. .785 16, .947 1 , .00110 , .61 N

ATOM 573 C ASN A 68 86, .866 20. .854 16, .898 1 , .00 89, .54 C

ATOM 574 O ASN A 68 87 , .495 19. .803 16, .752 1 , .00 91 , .68 O

ATOM 575 N LYS A 69 87 , .186 21. .778 17 , .795 1 , .00 86, .26 N

ATOM 576 CA LYS A 69 88 , .306 21. .598 18 , .706 1 , .00 84 , .37 C

ATOM 577 CB LYS A 69 88 , .599 22. .902 19, .446 1 , .00 84 , .78 C

ATOM 578 CG LYS A 69 89, .835 22. .845 20 , .325 1 , .00 85 , .39 C

ATOM 579 CD LYS A 69 90 , .389 24. .228 20 , .637 1 , .00 86, .09 C

ATOM 580 CE LYS A 69 89, .394 25. .097 21 , .390 1 , .00 86, .95 C

ATOM 581 NZ LYS A 69 89, .991 26. .410 21 , .760 1 , .00 87 , .92 N

ATOM 582 C LYS A 69 88 , .029 20. .447 19, .683 1 , .00 82 , .18 C

ATOM 583 O LYS A 69 88 , .958 19. .835 20 , .203 1 , .00 82 , .98 O

ATOM 584 N GLY A 70 86, .750 20. .150 19, .913 1 , .00 80 , .13 N

ATOM 585 CA GLY A 70 86, .350 19. .014 20 , .742 1 , .00 78 , .14 C ATOM 586 C GLY A 70 86..766 17..677 20 ,.153 1 ,.00 77 ,.52 C

ATOM 587 O GLY A 70 86. .987 16. .712 20 , .885 1 , .00 76, .75 O

ATOM 588 N ALA A 71 86. .878 17. .622 18 , .826 1 , .00 78 , .12 N

ATOM 589 CA ALA A 71 87. .305 16. .410 18 , .126 1 , .00 75 , .95 C

ATOM 590 CB ALA A 71 86. .765 16. .412 16, .704 1 , .00 77 , .32 C

ATOM 591 C ALA A 71 88. .826 16. .241 18 , .109 1 , .00 75 , .03 C

ATOM 592 O ALA A 71 89. .329 15. .288 17 , .521 1 , .00 77 , .75 O

ATOM 593 N THR A 72 89. .552 17. .157 18 , .748 1 , .00 75 , .74 N

ATOM 594 CA THR A 72 91. .009 17. .092 18 , .825 1 , .00 77 , .19 C

ATOM 595 CB THR A 72 91. .642 18. .360 18 , .225 1 , .00 77 , .47 C

ATOM 596 OG1 THR A 72 91. .168 19. .515 18 , .927 1 , .00 74 , .39 O

ATOM 597 CG2 THR A 72 91. .290 18. .485 16, .752 1 , .00 80 , .25 C

ATOM 598 C THR A 72 91. .464 16. .948 20 , .276 1 , .00 80 , .88 C

ATOM 599 O THR A 72 90. .646 16. .952 21 , .196 1 , .00 82 , .69 O

ATOM 600 N THR A 73 92. .776 16. .827 20 , .471 1 , .00 83 , .90 N

ATOM 601 CA THR A 73 93. .373 16. .708 21 , .805 1 , .00 84 , .61 C

ATOM 602 CB THR A 73 94. .884 16. .416 21 , .707 1 , .00 85 , .56 C

ATOM 603 OG1 THR A 73 95. .130 15. .511 20 , .625 1 , .00 85 , .62 O

ATOM 604 CG2 THR A 73 95. .410 15. .811 23 , .004 1 , .00 88 , .69 C

ATOM 605 C THR A 73 93. .189 17. .985 22 , .634 1 , .00 84 , .43 C

ATOM 606 O THR A 73 93. .260 17. .951 23 , .863 1 , .00 87 , .77 0

ATOM 607 N TRP A 74 92. .934 19. .102 21 , .958 1 , .00 82 , .29 N

ATOM 608 CA TRP A 74 92. .762 20. .392 22 , .617 1 , .00 80 , .19 C

ATOM 609 CB TRP A 74 93. .267 21. .503 21 , .692 1 , .00 81 , .10 C

ATOM 610 CG TRP A 74 94. .650 21. .231 21 , .197 1 , .00 81 , .68 C

ATOM 611 CD1 TRP A 74 95. .000 20. .674 20 , .003 1 , .00 80 , .85 C

ATOM 612 NE1 TRP A 74 96. .365 20. .556 19, .917 1 , .00 82 , .91 N

ATOM 613 CE2 TRP A 74 96. .923 21. .033 21 , .073 1 , .00 83 , .06 C

ATOM 614 CD2 TRP A 74 95. .870 21. .458 21 , .907 1 , .00 82 , .46 C

ATOM 615 CE3 TRP A 74 96. .175 21. .991 23 , .163 1 , .00 81 , .89 C

ATOM 616 CZ3 TRP A 74 97. .504 22. .080 23 , .541 1 , .00 83 , .00 C

ATOM 617 CH2 TRP A 74 98. .530 21. .649 22 , .689 1 , .00 83 , .09 C

ATOM 618 CZ2 TRP A 74 98. .262 21. .124 21 , .456 1 , .00 82 , .68 c

ATOM 619 C TRP A 74 91. .308 20. .640 23 , .015 1 , .00 78 , .66 c

ATOM 620 O TRP A 74 90. .870 21. .787 23 , .103 1 , .00 77 , .18 0

ATOM 621 N PHE A 75 90. .576 19. .562 23 , .290 1 , .00 79, .48 N

ATOM 622 CA PHE A 75 89. .155 19. .645 23 , .638 1 , .00 81 , .86 C

ATOM 623 CB PHE A 75 88. .525 18. .248 23 , .675 1 , .00 81 , .03 C

ATOM 624 CG PHE A 75 89. .025 17. .382 24 , .800 1 , .00 81 , .49 C

ATOM 625 CD1 PHE A 75 88. .464 17. .474 26, .067 1 , .00 82 , .81 C

ATOM 626 CE1 PHE A 75 88. .920 16. .679 27 , .106 1 , .00 82 , .06 c

ATOM 627 CZ PHE A 75 89. .945 15. .776 26, .886 1 , .00 81 , .50 c

ATOM 628 CE2 PHE A 75 90. .513 15. .675 25 , .629 1 , .00 82 , .26 c

ATOM 629 CD2 PHE A 75 90. .052 16. .473 24 , .593 1 , .00 81 , .87 c

ATOM 630 C PHE A 75 88. .883 20. .350 24 , .966 1 , .00 84 , .27 c

ATOM 631 O PHE A 75 87. .794 20. .879 25 , .167 1 , .00 83 , .13 0

ATOM 632 N ASN A 76 89. .857 20. .344 25 , .874 1 , .00 88 , .11 N

ATOM 633 CA ASN A 76 89. .682 20. .985 27 , .186 1 , .00 89, .63 C

ATOM 634 CB ASN A 76 90. .845 20. .651 28 , .129 1 , .00 92 , .20 c

ATOM 635 CG ASN A 76 92. .193 21. .063 27 , .577 1 , .00 94 , .54 c

ATOM 636 OD1 ASN A 76 92. .288 21. .819 26, .609 1 , .00 96, .72 0

ATOM 637 ND2 ASN A 76 93. .249 20. .564 28 , .198 1 , .00 98 , .59 N

ATOM 638 C ASN A 76 89. .463 22. .498 27 , .114 1 , .00 88 , .24 C

ATOM 639 O ASN A 76 88. .887 23. .084 28 , .029 1 , .00 90 , .63 O

ATOM 640 N SER A 77 89. .933 23. .123 26, .036 1 , .00 87 , .91 N

ATOM 641 CA SER A 77 89. .700 24. .548 25 , .801 1 , .00 88 , .76 C

ATOM 642 CB SER A 77 90. .924 25. .195 25 , .151 1 , .00 87 , .82 C

ATOM 643 OG SER A 77 91. .255 24. .559 23 , .934 1 , .00 88 , .97 O

ATOM 644 C SER A 77 88. .456 24. .775 24 , .934 1 , .00 89, .89 C ATOM 645 O SER A 77 88 ,.060 25 ,.916 24 ,.702 1 ,.00 90 ,.07 O

ATOM 646 N SER A 78 87 , .850 23 , .689 24 , .453 1 , .00 94 , .92 N

ATOM 647 CA SER A 78 86, .629 23 , .761 23 , .649 1 , .00 99, .03 C

ATOM 648 CB SER A 78 86, .590 22 , .628 22 , .623 1 , .00 99, .62 C

ATOM 649 OG SER A 78 86, .188 21 , .405 23 , .222 1 , .00 97 , .38 O

ATOM 650 C SER A 78 85 , .422 23 , .637 24 , .574 1 , .00102 , .60 C

ATOM 651 O SER A 78 85 , .491 22 , .969 25 , .600 1 , .00103 , .92 O

ATOM 652 N GLU A 79 84 , .313 24 , .267 24 , .207 1 , .00108 , .55 N

ATOM 653 CA GLU A 79 83 , .107 24 , .256 25 , .060 1 , .00114 , .49 C

ATOM 654 CB GLU A 79 82 , .200 25 , .440 24 , .691 1 , .00123 , .71 C

ATOM 655 CG GLU A 79 80 , .904 25 , .532 25 , .489 1 , .00132 , .76 C

ATOM 656 CD GLU A 79 80 , .009 26, .677 25 , .043 1 , .00140 , .84 C

ATOM 657 OE1 GLU A 79 80 , .450 27 , .508 24 , .217 1 , .00147 , .37 O

ATOM 658 OE2 GLU A 79 78 , .857 26, .748 25 , .519 1 , .00143 , .38 O

ATOM 659 C GLU A 79 82 , .293 22 , .953 25 , .091 1 , .00109, .97 c

ATOM 660 O GLU A 79 81 , .727 22 , .609 26, .129 1 , .00106, .29 0

ATOM 661 N GLY A 80 82 , .220 22 , .242 23 , .971 1 , .00110 , .25 N

ATOM 662 CA GLY A 80 81 , .446 20 , .997 23 , .891 1 , .00107 , .47 C

ATOM 663 C GLY A 80 81 , .995 19, .802 24 , .660 1 , .00104 , .12 C

ATOM 664 O GLY A 80 81 , .264 18 , .857 24 , .953 1 , .00104 , .62 O

ATOM 665 N GLY A 81 83 , .275 19, .851 25 , .012 1 , .00100 , .72 N

ATOM 666 CA GLY A 81 83 , .952 18 , .716 25 , .629 1 , .00 97 , .65 C

ATOM 667 C GLY A 81 84 , .530 17 , .772 24 , .592 1 , .00 93 , .95 C

ATOM 668 O GLY A 81 84 , .514 18 , .060 23 , .394 1 , .00 92 , .80 O

ATOM 669 N ASN A 82 85 , .027 16, .633 25 , .063 1 , .00 92 , .19 N

ATOM 670 CA ASN A 82 85 , .684 15 , .651 24 , .207 1 , .00 90 , .58 C

ATOM 671 CB ASN A 82 86, .543 14 , .713 25 , .058 1 , .00 90 , .22 C

ATOM 672 CG ASN A 82 87 , .370 13 , .761 24 , .221 1 , .00 90 , .16 C

ATOM 673 OD1 ASN A 82 87 , .340 13 , .811 22 , .994 1 , .00 93 , .93 O

ATOM 674 ND2 ASN A 82 88 , .116 12 , .889 24 , .882 1 , .00 90 , .44 N

ATOM 675 C ASN A 82 84 , .721 14 , .806 23 , .376 1 , .00 91 , .56 C

ATOM 676 O ASN A 82 83 , .892 14 , .076 23 , .922 1 , .00 92 , .50 O

ATOM 677 N ILE A 83 84 , .850 14 , .902 22 , .054 1 , .00 91 , .59 N

ATOM 678 CA ILE A 83 84 , .067 14 , .083 21 , .128 1 , .00 92 , .28 C

ATOM 679 CB ILE A 83 83 , .002 14 , .924 20 , .383 1 , .00 92 , .95 C

ATOM 680 CGI ILE A 83 83 , .655 15 , .994 19, .494 1 , .00 93 , .81 C

ATOM 681 CD1 ILE A 83 82 , .671 16, .825 18 , .698 1 , .00 94 , .08 C

ATOM 682 CG2 ILE A 83 82 , .048 15 , .565 21 , .378 1 , .00 93 , .58 C

ATOM 683 C ILE A 83 84 , .953 13 , .371 20 , .103 1 , .00 92 , .93 C

ATOM 684 O ILE A 83 84 , .443 12 , .795 19, .141 1 , .00 95 , .28 0

ATOM 685 N GLN A 84 86, .269 13 , .390 20 , .316 1 , .00 91 , .26 N

ATOM 686 CA GLN A 84 87 , .202 12 , .832 19, .337 1 , .00 91 , .95 C

ATOM 687 CB GLN A 84 88 , .656 13 , .183 19, .686 1 , .00 93 , .42 C

ATOM 688 CG GLN A 84 89, .228 12 , .543 20 , .940 1 , .00 92 , .49 C

ATOM 689 CD GLN A 84 90 , .513 13 , .214 21 , .412 1 , .00 91 , .92 C

ATOM 690 OE1 GLN A 84 90 , .641 13 , .518 22 , .588 1 , .00 93 , .06 0

ATOM 691 NE2 GLN A 84 91 , .453 13 , .469 20 , .497 1 , .00 89, .11 N

ATOM 692 C GLN A 84 87 , .021 11 , .331 19, .159 1 , .00 88 , .78 C

ATOM 693 O GLN A 84 86, .706 10 , .617 20 , .110 1 , .00 87 , .28 O

ATOM 694 N ASN A 85 87 , .207 10 , .875 17 , .923 1 , .00 88 , .53 N

ATOM 695 CA ASN A 85 86, .994 9, .478 17 , .560 1 , .00 86, .85 C

ATOM 696 CB ASN A 85 85 , .559 9, .296 17 , .050 1 , .00 88 , .39 C

ATOM 697 CG ASN A 85 85 , .231 7 , .852 16, .728 1 , .00 90 , .44 C

ATOM 698 OD1 ASN A 85 85 , .629 6, .938 17 , .448 1 , .00 91 , .39 O

ATOM 699 ND2 ASN A 85 84 , .495 7 , .640 15 , .644 1 , .00 95 , .33 N

ATOM 700 C ASN A 85 88 , .000 9, .008 16, .507 1 , .00 82 , .78 C

ATOM 701 O ASN A 85 87 , .668 8 , .860 15 , .331 1 , .00 82 , .04 O

ATOM 702 N GLY A 86 89, .235 8 , .784 16, .946 1 , .00 80 , .60 N

ATOM 703 CA GLY A 86 90 , .294 8 , .289 16, .072 1 , .00 78 , .14 C ATOM 704 C GLY A 86 90 ,.655 9,.265 14 ,.972 1 ,.00 76,.72 C

ATOM 705 O GLY A 86 90 , .790 10 , .462 15 , .217 1 , .00 78 , .98 O

ATOM 706 N ASN A 87 90 , .792 8 , .751 13 , .753 1 , .00 76, .52 N

ATOM 707 CA ASN A 87 91 , .156 9, .571 12 , .591 1 , .00 76, .73 C

ATOM 708 CB ASN A 87 91 , .836 8 , .710 11 , .516 1 , .00 76, .38 C

ATOM 709 CG ASN A 87 93 , .330 8 , .566 11 , .734 1 , .00 75 , .91 C

ATOM 710 OD1 ASN A 87 94 , .020 9, .537 12 , .034 1 , .00 72 , .57 O

ATOM 711 ND2 ASN A 87 93 , .842 7 , .354 11 , .552 1 , .00 78 , .45 N

ATOM 712 C ASN A 87 90 , .006 10 , .355 11 , .953 1 , .00 77 , .29 C

ATOM 713 O ASN A 87 90 , .212 11 , .019 10 , .940 1 , .00 78 , .45 O

ATOM 714 N ASP A 88 88 , .811 10 , .293 12 , .535 1 , .00 77 , .80 N

ATOM 715 CA ASP A 88 87 , .659 11 , .015 11 , .994 1 , .00 79, .67 C

ATOM 716 CB ASP A 88 86, .369 10 , .517 12 , .654 1 , .00 79, .19 C

ATOM 717 CG ASP A 88 85 , .114 11 , .001 11 , .945 1 , .00 81 , .31 C

ATOM 718 OD1 ASP A 88 85 , .179 11 , .989 11 , .182 1 , .00 84 , .32 O

ATOM 719 OD2 ASP A 88 84 , .050 10 , .382 12 , .154 1 , .00 84 , .65 O

ATOM 720 C ASP A 88 87 , .826 12 , .530 12 , .209 1 , .00 81 , .10 C

ATOM 721 O ASP A 88 87 , .862 12 , .985 13 , .354 1 , .00 85 , .52 0

ATOM 722 N PRO A 89 87 , .937 13 , .311 11 , .112 1 , .00 80 , .28 N

ATOM 723 CA PRO A 89 88 , .069 14 , .765 11 , .244 1 , .00 80 , .13 C

ATOM 724 CB PRO A 89 88 , .398 15 , .231 9, .816 1 , .00 81 , .36 C

ATOM 725 CG PRO A 89 88 , .773 14 , .005 9, .063 1 , .00 81 , .57 C

ATOM 726 CD PRO A 89 87 , .996 12 , .898 9, .700 1 , .00 81 , .53 C

ATOM 727 C PRO A 89 86, .802 15 , .462 11 , .738 1 , .00 81 , .61 C

ATOM 728 O PRO A 89 86, .882 16, .565 12 , .271 1 , .00 82 , .89 0

ATOM 729 N CYS A 90 85 , .643 14 , .842 11 , .545 1 , .00 83 , .76 N

ATOM 730 CA CYS A 90 84 , .397 15 , .408 12 , .052 1 , .00 87 , .12 C

ATOM 731 CB CYS A 90 83 , .756 16, .336 11 , .019 1 , .00 89, .21 C

ATOM 732 SG CYS A 90 82 , .536 17 , .452 11 , .749 1 , .00 97 , .73 S

ATOM 733 C CYS A 90 83 , .441 14 , .291 12 , .475 1 , .00 87 , .04 C

ATOM 734 O CYS A 90 82 , .627 13 , .831 11 , .676 1 , .00 88 , .42 0

ATOM 735 N PRO A 91 83 , .560 13 , .834 13 , .736 1 , .00 88 , .68 N

ATOM 736 CA PRO A 91 82 , .711 12 , .766 14 , .265 1 , .00 87 , .95 C

ATOM 737 CB PRO A 91 83 , .210 12 , .595 15 , .706 1 , .00 88 , .48 C

ATOM 738 CG PRO A 91 84 , .600 13 , .125 15 , .697 1 , .00 89, .41 C

ATOM 739 CD PRO A 91 84 , .582 14 , .252 14 , .712 1 , .00 89, .53 C

ATOM 740 C PRO A 91 81 , .231 13 , .133 14 , .254 1 , .00 87 , .89 C

ATOM 741 O PRO A 91 80 , .864 14 , .231 14 , .670 1 , .00 88 , .66 0

ATOM 742 N GLY A 92 80 , .400 12 , .216 13 , .768 1 , .00 88 , .83 N

ATOM 743 CA GLY A 92 78 , .956 12 , .427 13 , .711 1 , .00 88 , .73 C

ATOM 744 C GLY A 92 78 , .455 13 , .014 12 , .404 1 , .00 87 , .94 C

ATOM 745 O GLY A 92 77 , .247 13 , .115 12 , .200 1 , .00 92 , .01 O

ATOM 746 N SER A 93 79, .372 13 , .401 11 , .519 1 , .00 85 , .11 N

ATOM 747 CA SER A 93 79, .009 13 , .950 10 , .211 1 , .00 83 , .68 C

ATOM 748 CB SER A 93 79, .288 15 , .455 10 , .156 1 , .00 83 , .96 C

ATOM 749 OG SER A 93 80 , .668 15 , .729 10 , .309 1 , .00 86, .87 O

ATOM 750 C SER A 93 79, .765 13 , .203 9, .102 1 , .00 81 , .71 C

ATOM 751 O SER A 93 80 , .841 12 , .653 9, .346 1 , .00 79, .60 O

ATOM 752 N PRO A 94 79, .195 13 , .171 7 , .881 1 , .00 81 , .27 N

ATOM 753 CA PRO A 94 79, .796 12 , .420 6, .781 1 , .00 79, .29 C

ATOM 754 CB PRO A 94 78 , .625 12 , .248 5 , .816 1 , .00 81 , .13 C

ATOM 755 CG PRO A 94 77 , .800 13 , .467 6, .022 1 , .00 80 , .76 C

ATOM 756 CD PRO A 94 77 , .957 13 , .858 7 , .462 1 , .00 80 , .51 C

ATOM 757 C PRO A 94 80 , .948 13 , .170 6, .107 1 , .00 78 , .51 C

ATOM 758 O PRO A 94 81 , .217 14 , .320 6, .464 1 , .00 77 , .25 0

ATOM 759 N PRO A 95 81 , .628 12 , .527 5 , .134 1 , .00 76, .99 N

ATOM 760 CA PRO A 95 82 , .752 13 , .168 4 , .438 1 , .00 75 , .51 C

ATOM 761 CB PRO A 95 83 , .280 12 , .063 3 , .515 1 , .00 74 , .85 C

ATOM 762 CG PRO A 95 82 , .794 10 , .793 4 , .113 1 , .00 76, .11 C ATOM 763 CD PRO A 95 81 ,.460 11 ,.127 4 ,.709 1 ,.00 76..90 C

ATOM 764 C PRO A 95 82 , .383 14 , .411 3 , .622 1 , .00 76. .85 C

ATOM 765 O PRO A 95 83 , .273 15 , .177 3 , .255 1 , .00 73. .77 O

ATOM 766 N SER A 96 81 , .094 14 , .606 3 , .337 1 , .00 79. .96 N

ATOM 767 CA SER A 96 80 , .635 15 , .806 2 , .632 1 , .00 81. .01 C

ATOM 768 CB SER A 96 79, .130 15 , .742 2 , .356 1 , .00 82. .03 C

ATOM 769 OG SER A 96 78 , .380 15 , .812 3 , .556 1 , .00 81. .00 O

ATOM 770 C SER A 96 80 , .958 17 , .063 3 , .436 1 , .00 81. .78 C

ATOM 771 O SER A 96 81 , .075 18 , .153 2 , .876 1 , .00 82. .50 O

ATOM 772 N GLU A 97 81 , .095 16, .898 4 , .751 1 , .00 84. .85 N

ATOM 773 CA GLU A 97 81 , .482 17 , .987 5 , .638 1 , .00 85. .15 C

ATOM 774 CB GLU A 97 81 , .290 17 , .571 7 , .102 1 , .00 87. .89 C

ATOM 775 CG GLU A 97 81 , .230 18 , .728 8 , .093 1 , .00 89. .90 C

ATOM 776 CD GLU A 97 82 , .591 19, .298 8 , .462 1 , .00 90. .87 C

ATOM 777 OE1 GLU A 97 82 , .633 20 , .470 8 , .886 1 , .00 90. .84 O

ATOM 778 OE2 GLU A 97 83 , .615 18 , .586 8 , .340 1 , .00 90. .58 O

ATOM 779 C GLU A 97 82 , .932 18 , .407 5 , .363 1 , .00 82. .63 c

ATOM 780 O GLU A 97 83 , .256 19, .591 5 , .449 1 , .00 80. .59 0

ATOM 781 N TYR A 98 83 , .795 17 , .451 5 , .010 1 , .00 81. .53 N

ATOM 782 CA TYR A 98 85 , .179 17 , .784 4 , .653 1 , .00 79. .61 C

ATOM 783 CB TYR A 98 86, .205 16, .673 4 , .983 1 , .00 79. .95 C

ATOM 784 CG TYR A 98 85 , .804 15 , .496 5 , .847 1 , .00 80. .21 C

ATOM 785 CD1 TYR A 98 85 , .165 15 , .671 7 , .065 1 , .00 83. .17 C

ATOM 786 CE1 TYR A 98 84 , .821 14 , .580 7 , .851 1 , .00 86. .71 c

ATOM 787 CZ TYR A 98 85 , .150 13 , .294 7 , .436 1 , .00 85. .74 c

ATOM 788 OH TYR A 98 84 , .815 12 , .204 8 , .217 1 , .00 82. .99 0

ATOM 789 CE2 TYR A 98 85 , .816 13 , .102 6, .243 1 , .00 81. .75 c

ATOM 790 CD2 TYR A 98 86, .147 14 , .197 5 , .464 1 , .00 79. .31 c

ATOM 791 C TYR A 98 85 , .281 18 , .111 3 , .148 1 , .00 78. .58 c

ATOM 792 O TYR A 98 86, .383 18 , .165 2 , .602 1 , .00 75. .58 0

ATOM 793 N HIS A 99 84 , .138 18 , .308 2 , .488 1 , .00 78. .17 N

ATOM 794 CA HIS A 99 84 , .070 18 , .625 1 , .056 1 , .00 78. .49 C

ATOM 795 CB HIS A 99 84 , .615 20 , .029 0 , .775 1 , .00 80. .65 c

ATOM 796 CG HIS A 99 83 , .839 21 , .122 1 , .438 1 , .00 84. .17 c

ATOM 797 ND1 HIS A 99 82 , .534 21 , .414 1 , .104 1 , .00 86. .58 N

ATOM 798 CE1 HIS A 99 82 , .108 22 , .423 1 , .841 1 , .00 87. .71 C

ATOM 799 NE2 HIS A 99 83 , .091 22 , .802 2 , .637 1 , .00 87. .96 N

ATOM 800 CD2 HIS A 99 84 , .187 22 , .006 2 , .402 1 , .00 85. .49 C

ATOM 801 C HIS A 99 84 , .760 17 , .591 0 , .157 1 , .00 77. .06 C

ATOM 802 O HIS A 99 85 , .602 17 , .933 -0 , .678 1 , .00 75. .08 O

ATOM 803 N THR A 100 84 , .385 16, .328 0 , .333 1 , .00 76. .26 N

ATOM 804 CA THR A 100 84 , .905 15 , .243 -0 , .494 1 , .00 75. .33 C

ATOM 805 CB THR A 100 86, .259 14 , .719 0 , .026 1 , .00 75. .69 C

ATOM 806 OG1 THR A 100 86, .691 13 , .618 -0 , .781 1 , .00 73. .34 O

ATOM 807 CG2 THR A 100 86, .161 14 , .268 1 , .487 1 , .00 76. .67 C

ATOM 808 C THR A 100 83 , .904 14 , .094 -0 , .565 1 , .00 77. .28 C

ATOM 809 O THR A 100 83 , .156 13 , .852 0 , .381 1 , .00 78. .28 0

ATOM 810 N THR A 101 83 , .893 13 , .401 -1 , .700 1 , .00 79. .81 N

ATOM 811 CA THR A 101 83 , .006 12 , .257 -1 , .908 1 , .00 78. .80 C

ATOM 812 CB THR A 101 82 , .726 12 , .026 -3 , .405 1 , .00 78. .80 C

ATOM 813 OG1 THR A 101 83 , .949 11 , .727 -4 , .091 1 , .00 80. .62 O

ATOM 814 CG2 THR A 101 82 , .095 13 , .259 -4 , .025 1 , .00 78. .50 C

ATOM 815 C THR A 101 83 , .630 10 , .999 -1 , .314 1 , .00 77. .63 C

ATOM 816 O THR A 101 82 , .924 10 , .127 -0 , .809 1 , .00 79. .35 0

ATOM 817 N GLY A 102 84 , .957 10 , .912 -1 , .389 1 , .00 74. .75 N

ATOM 818 CA GLY A 102 85 , .700 9, .780 -0 , .843 1 , .00 73. .71 C

ATOM 819 C GLY A 102 87 , .185 10 , .075 -0 , .760 1 , .00 72. .34 C

ATOM 820 O GLY A 102 87 , .616 11 , .198 -1 , .013 1 , .00 71. .11 O

ATOM 821 N ILE A 103 87 , .971 9, .062 -0 , .411 1 , .00 73. .72 N ATOM 822 CA ILE A 103 89..422 9,.218 -0 ,.295 1 ,.00 77..88 C

ATOM 823 CB ILE A 103 90. .077 7 , .954 0 , .313 1 , .00 78. .60 C

ATOM 824 CGI ILE A 103 91. .526 8 , .238 0 , .723 1 , .00 79. .37 C

ATOM 825 CD1 ILE A 103 92. .155 7 , .125 1 , .531 1 , .00 81. .18 C

ATOM 826 CG2 ILE A 103 90. .005 6, .774 -0 , .650 1 , .00 79. .39 C

ATOM 827 C ILE A 103 90. .080 9, .560 -1 , .638 1 , .00 81. .78 C

ATOM 828 O ILE A 103 91. .135 10 , .193 -1 , .677 1 , .00 83. .03 O

ATOM 829 N ASP A 104 89. .454 9, .131 -2 , .730 1 , .00 88. .15 N

ATOM 830 CA ASP A 104 89. .956 9, .401 -4 , .083 1 , .00 91. .83 C

ATOM 831 CB ASP A 104 89. .357 8 , .399 -5 , .089 1 , .00 98. .41 C

ATOM 832 CG ASP A 104 87. .828 8 , .292 -4 , .998 1 , .00106. .90 C

ATOM 833 OD1 ASP A 104 87. .191 9, .093 -4 , .276 1 , .00108. .74 O

ATOM 834 OD2 ASP A 104 87. .263 7 , .390 -5 , .653 1 , .00115. .22 O

ATOM 835 C ASP A 104 89. .704 10 , .844 -4 , .547 1 , .00 87. .09 C

ATOM 836 O ASP A 104 90. .380 11 , .332 -5 , .454 1 , .00 85. .40 O

ATOM 837 N ASP A 105 88. .747 11 , .520 -3 , .913 1 , .00 84. .52 N

ATOM 838 CA ASP A 105 88. .347 12 , .878 -4 , .300 1 , .00 83. .78 C

ATOM 839 CB ASP A 105 86. .818 12 , .984 -4 , .220 1 , .00 83. .39 C

ATOM 840 CG ASP A 105 86. .278 14 , .287 -4 , .782 1 , .00 83. .83 C

ATOM 841 OD1 ASP A 105 86. .840 14 , .809 -5 , .772 1 , .00 84. .71 O

ATOM 842 OD2 ASP A 105 85. .271 14 , .779 -4 , .231 1 , .00 83. .05 O

ATOM 843 C ASP A 105 89. .006 13 , .990 -3 , .462 1 , .00 82. .38 C

ATOM 844 O ASP A 105 88. .697 15 , .169 -3 , .637 1 , .00 84. .48 0

ATOM 845 N VAL A 106 89. .915 13 , .623 -2 , .562 1 , .00 80. .21 N

ATOM 846 CA VAL A 106 90. .636 14 , .616 -1 , .758 1 , .00 76. .79 C

ATOM 847 CB VAL A 106 91. .240 14 , .007 -0 , .473 1 , .00 76. .30 C

ATOM 848 CGI VAL A 106 90. .152 13 , .342 0 , .361 1 , .00 75. .86 C

ATOM 849 CG2 VAL A 106 92. .364 13 , .028 -0 , .792 1 , .00 75. .64 C

ATOM 850 C VAL A 106 91. .732 15 , .252 -2 , .613 1 , .00 77. .16 C

ATOM 851 O VAL A 106 92. .360 14 , .571 -3 , .425 1 , .00 78. .52 0

ATOM 852 N LYS A 107 91. .964 16, .550 -2 , .423 1 , .00 76. .96 N

ATOM 853 CA LYS A 107 92. .907 17 , .302 -3 , .262 1 , .00 76. .64 C

ATOM 854 CB LYS A 107 92. .202 18 , .528 -3 , .844 1 , .00 78. .36 C

ATOM 855 CG LYS A 107 90. .971 18 , .201 -4 , .675 1 , .00 80. .98 C

ATOM 856 CD LYS A 107 91. .330 17 , .445 -5 , .943 1 , .00 83. .14 C

ATOM 857 CE LYS A 107 90. .093 17 , .097 -6, .748 1 , .00 85. .25 c

ATOM 858 NZ LYS A 107 90. .459 16, .404 -8 , .012 1 , .00 89. .06 N

ATOM 859 C LYS A 107 94. .197 17 , .739 -2 , .568 1 , .00 75. .69 C

ATOM 860 O LYS A 107 95. .007 18 , .443 -3 , .166 1 , .00 76. .63 O

ATOM 861 N GLY A 108 94. .386 17 , .345 -1 , .313 1 , .00 75. .76 N

ATOM 862 CA GLY A 108 95. .621 17 , .655 -0 , .597 1 , .00 74. .81 C

ATOM 863 C GLY A 108 95. .705 19, .048 0 , .000 1 , .00 74. .07 C

ATOM 864 O GLY A 108 95. .023 19, .975 -0 , .442 1 , .00 74. .11 O

ATOM 865 N CYS A 109 96. .561 19, .179 1 , .012 1 , .00 73. .65 N

ATOM 866 CA CYS A 109 96. .774 20 , .438 1 , .719 1 , .00 74. .38 C

ATOM 867 CB CYS A 109 95. .952 20 , .472 3 , .003 1 , .00 77. .23 C

ATOM 868 SG CYS A 109 96. .511 19, .304 4 , .250 1 , .00 86. .71 S

ATOM 869 C CYS A 109 98. .258 20 , .590 2 , .034 1 , .00 70. .37 C

ATOM 870 O CYS A 109 99. .021 19, .636 1 , .884 1 , .00 70. .18 O

ATOM 871 N ALA A 110 98. .661 21 , .774 2 , .492 1 , .00 68. .05 N

ATOM 872 CA ALA A 110 100. .080 22 , .073 2 , .693 1 , .00 67. .71 C

ATOM 873 CB ALA A 110 100. .606 22 , .832 1 , .484 1 , .00 66. .87 C

ATOM 874 C ALA A 110 100. .396 22 , .864 3 , .960 1 , .00 67. .08 C

ATOM 875 O ALA A 110 99. .507 23 , .404 4 , .615 1 , .00 65. .06 O

ATOM 876 N MET A 111 101. .687 22 , .911 4 , .283 1 , .00 66. .62 N

ATOM 877 CA MET A 111 102. .214 23 , .716 5 , .376 1 , .00 68. .59 C

ATOM 878 CB MET A 111 102. .953 22 , .855 6, .408 1 , .00 69. .75 C

ATOM 879 CG MET A 111 102. .147 21 , .746 7 , .071 1 , .00 71. .01 C

ATOM 880 SD MET A 111 100. .703 22 , .240 8 , .040 1 , .00 71. .63 S ATOM 881 CE MET A 111 101 ,.331 23 ,.608 8 ,.969 1 ,.00 71 ,.26 C

ATOM 882 C MET A 111 103 , .216 24 , .694 4 , .768 1 , .00 70 , .65 C

ATOM 883 O MET A 111 104 , .177 24 , .273 4 , .118 1 , .00 69, .63 O

ATOM 884 N ALA A 112 102 , .993 25 , .989 4 , .972 1 , .00 72 , .73 N

ATOM 885 CA ALA A 112 103 , .926 27 , .013 4 , .511 1 , .00 73 , .22 C

ATOM 886 CB ALA A 112 103 , .182 28 , .138 3 , .816 1 , .00 74 , .60 C

ATOM 887 C ALA A 112 104 , .715 27 , .550 5 , .699 1 , .00 75 , .00 C

ATOM 888 O ALA A 112 104 , .319 27 , .354 6, .849 1 , .00 74 , .54 O

ATOM 889 N ILE A 113 105 , .829 28 , .223 5 , .417 1 , .00 75 , .76 N

ATOM 890 CA ILE A 113 106, .684 28 , .781 6, .467 1 , .00 75 , .57 C

ATOM 891 CB ILE A 113 107 , .799 27 , .787 6, .871 1 , .00 74 , .30 C

ATOM 892 CGI ILE A 113 108 , .525 28 , .264 8 , .132 1 , .00 72 , .52 C

ATOM 893 CD1 ILE A 113 109, .418 27 , .209 8 , .747 1 , .00 71 , .73 C

ATOM 894 CG2 ILE A 113 108 , .787 27 , .567 5 , .729 1 , .00 74 , .42 C

ATOM 895 C ILE A 113 107 , .318 30 , .108 6, .057 1 , .00 78 , .06 C

ATOM 896 O ILE A 113 107 , .704 30 , .299 4 , .903 1 , .00 78 , .43 O

ATOM 897 N ALA A 114 107 , .418 31 , .017 7 , .023 1 , .00 81 , .36 N

ATOM 898 CA ALA A 114 108 , .054 32 , .312 6, .827 1 , .00 82 , .37 C

ATOM 899 CB ALA A 114 107 , .010 33 , .411 6, .755 1 , .00 82 , .04 C

ATOM 900 C ALA A 114 109, .006 32 , .554 7 , .992 1 , .00 84 , .16 C

ATOM 901 O ALA A 114 108 , .574 32 , .630 9, .144 1 , .00 85 , .37 O

ATOM 902 N TYR A 115 110 , .297 32 , .668 7 , .688 1 , .00 84 , .64 N

ATOM 903 CA TYR A 115 111 , .326 32 , .873 8 , .709 1 , .00 84 , .66 C

ATOM 904 CB TYR A 115 112 , .710 32 , .503 8 , .165 1 , .00 82 , .76 C

ATOM 905 CG TYR A 115 112 , .967 31 , .012 8 , .120 1 , .00 81 , .09 C

ATOM 906 CD1 TYR A 115 114 , .000 30 , .445 8 , .856 1 , .00 80 , .03 C

ATOM 907 CE1 TYR A 115 114 , .239 29, .082 8 , .820 1 , .00 79, .47 C

ATOM 908 CZ TYR A 115 113 , .434 28 , .265 8 , .053 1 , .00 77 , .13 c

ATOM 909 OH TYR A 115 113 , .668 26, .915 8 , .019 1 , .00 73 , .14 0

ATOM 910 CE2 TYR A 115 112 , .398 28 , .800 7 , .319 1 , .00 79, .12 c

ATOM 911 CD2 TYR A 115 112 , .167 30 , .165 7 , .358 1 , .00 81 , .10 c

ATOM 912 C TYR A 115 111 , .304 34 , .313 9, .219 1 , .00 86, .07 c

ATOM 913 O TYR A 115 112 , .121 35 , .147 8 , .821 1 , .00 85 , .81 0

ATOM 914 N GLU A 116 110 , .346 34 , .586 10 , .100 1 , .00 87 , .27 N

ATOM 915 CA GLU A 116 110 , .166 35 , .905 10 , .685 1 , .00 91 , .13 C

ATOM 916 CB GLU A 116 109, .296 36, .769 9, .766 1 , .00 93 , .22 C

ATOM 917 CG GLU A 116 108 , .943 38 , .140 10 , .326 1 , .00 97 , .30 c

ATOM 918 CD GLU A 116 110 , .159 39, .000 10 , .616 1 , .00101 , .54 c

ATOM 919 OE1 GLU A 116 111 , .055 39, .082 9, .748 1 , .00107 , .29 0

ATOM 920 OE2 GLU A 116 110 , .211 39, .609 11 , .706 1 , .00102 , .79 0

ATOM 921 C GLU A 116 109, .524 35 , .765 12 , .065 1 , .00 93 , .80 c

ATOM 922 O GLU A 116 108 , .479 35 , .132 12 , .210 1 , .00 92 , .53 0

ATOM 923 N SER A 117 110 , .159 36, .358 13 , .071 1 , .00 97 , .53 N

ATOM 924 CA SER A 117 109, .664 36, .303 14 , .448 1 , .00 97 , .24 C

ATOM 925 CB SER A 117 110 , .806 36, .585 15 , .435 1 , .00100 , .11 C

ATOM 926 OG SER A 117 111 , .643 37 , .633 14 , .972 1 , .00105 , .40 0

ATOM 927 C SER A 117 108 , .489 37 , .255 14 , .694 1 , .00 95 , .90 c

ATOM 928 O SER A 117 107 , .653 36, .990 15 , .558 1 , .00 94 , .55 0

ATOM 929 N ASP A 118 108 , .431 38 , .358 13 , .946 1 , .00 96, .01 N

ATOM 930 CA ASP A 118 107 , .349 39, .340 14 , .078 1 , .00 97 , .66 C

ATOM 931 CB ASP A 118 107 , .911 40 , .765 13 , .984 1 , .00 99, .77 C

ATOM 932 CG ASP A 118 106, .853 41 , .842 14 , .212 1 , .00101 , .82 C

ATOM 933 OD1 ASP A 118 105 , .746 41 , .528 14 , .704 1 , .00103 , .70 0

ATOM 934 OD2 ASP A 118 107 , .141 43 , .018 13 , .904 1 , .00104 , .07 0

ATOM 935 C ASP A 118 106, .288 39, .116 12 , .999 1 , .00 97 , .06 c

ATOM 936 O ASP A 118 106, .510 39, .421 11 , .829 1 , .00 98 , .49 0

ATOM 937 N VAL A 119 105 , .130 38 , .604 13 , .408 1 , .00 96, .94 N

ATOM 938 CA VAL A 119 104 , .030 38 , .294 12 , .483 1 , .00 97 , .43 C

ATOM 939 CB VAL A 119 102 , .807 37 , .719 13 , .242 1 , .00 99, .06 C ATOM 940 CGI VAL A 119 102 ,.134 38..786 14 ,.098 1 ,.00 99..23 C

ATOM 941 CG2 VAL A 119 101 , .810 37. .093 12 , .276 1 , .00100. .11 C

ATOM 942 C VAL A 119 103 , .581 39. .492 11 , .637 1 , .00 96. .97 C

ATOM 943 O VAL A 119 103 , .140 39. .322 10 , .500 1 , .00 96. .72 O

ATOM 944 N ARG A 120 103 , .705 40. .695 12 , .193 1 , .00 97. .92 N

ATOM 945 CA ARG A 120 103 , .284 41. .919 11 , .508 1 , .00 99. .51 C

ATOM 946 CB ARG A 120 103 , .353 43. .115 12 , .466 1 , .00103. .11 C

ATOM 947 CG ARG A 120 102 , .446 43. .008 13 , .686 1 , .00105. .30 C

ATOM 948 CD ARG A 120 100 , .973 43. .100 13 , .315 1 , .00105. .70 C

ATOM 949 NE ARG A 120 100 , .099 42. .829 14 , .454 1 , .00105. .98 N

ATOM 950 CZ ARG A 120 98 , .769 42. .875 14 , .415 1 , .00106. .94 C

ATOM 951 NH1 ARG A 120 98 , .134 43. .189 13 , .290 1 , .00107. .36 N

ATOM 952 NH2 ARG A 120 98 , .066 42. .610 15 , .511 1 , .00108. .34 N

ATOM 953 C ARG A 120 104 , .108 42. .222 10 , .255 1 , .00 98. .14 C

ATOM 954 O ARG A 120 103 , .621 42. .887 9, .341 1 , .00 98. .42 O

ATOM 955 N LYS A 121 105 , .348 41. .739 10 , .217 1 , .00 96. .66 N

ATOM 956 CA LYS A 121 106, .230 41. .955 9, .069 1 , .00 97. .00 C

ATOM 957 CB LYS A 121 107 , .695 41. .967 9, .517 1 , .00100. .76 C

ATOM 958 CG LYS A 121 108 , .074 43. .177 10 , .355 1 , .00105. .33 C

ATOM 959 CD LYS A 121 109, .582 43. .288 10 , .515 1 , .00108. .74 C

ATOM 960 CE LYS A 121 109, .983 44. .630 11 , .105 1 , .00111. .26 C

ATOM 961 NZ LYS A 121 111 , .458 44. .828 11 , .062 1 , .00114. .12 N

ATOM 962 C LYS A 121 106, .052 40. .929 7 , .948 1 , .00 95. .26 C

ATOM 963 O LYS A 121 106, .583 41. .120 6, .854 1 , .00 97. .97 O

ATOM 964 N ILE A 122 105 , .310 39. .853 8 , .207 1 , .00 93. .34 N

ATOM 965 CA ILE A 122 105 , .126 38. .788 7 , .214 1 , .00 91. .06 C

ATOM 966 CB ILE A 122 104 , .603 37. .482 7 , .850 1 , .00 89. .31 C

ATOM 967 CGI ILE A 122 105 , .591 36. .969 8 , .900 1 , .00 90. .30 C

ATOM 968 CD1 ILE A 122 105 , .068 35. .813 9, .722 1 , .00 90. .61 C

ATOM 969 CG2 ILE A 122 104 , .398 36. .411 6, .784 1 , .00 87. .46 C

ATOM 970 C ILE A 122 104 , .167 39. .215 6, .107 1 , .00 91. .89 C

ATOM 971 O ILE A 122 103 , .072 39. .711 6, .378 1 , .00 92. .60 0

ATOM 972 N LYS A 123 104 , .593 39. .000 4 , .864 1 , .00 93. .11 N

ATOM 973 CA LYS A 123 103 , .795 39. .318 3 , .684 1 , .00 95. .03 C

ATOM 974 CB LYS A 123 104 , .570 40. .271 2 , .776 1 , .00 98. .86 C

ATOM 975 CG LYS A 123 104 , .764 41. .651 3 , .385 1 , .00102. .64 C

ATOM 976 CD LYS A 123 105 , .857 42. .439 2 , .684 1 , .00105. .78 C

ATOM 977 CE LYS A 123 106, .091 43. .771 3 , .377 1 , .00108. .87 c

ATOM 978 NZ LYS A 123 107 , .317 44. .453 2 , .879 1 , .00111. .78 N

ATOM 979 C LYS A 123 103 , .439 38. .027 2 , .945 1 , .00 92. .62 C

ATOM 980 O LYS A 123 104 , .125 37. .017 3 , .103 1 , .00 91. .55 O

ATOM 981 N PRO A 124 102 , .368 38. .053 2 , .129 1 , .00 89. .62 N

ATOM 982 CA PRO A 124 101 , .920 36. .841 1 , .431 1 , .00 89. .50 C

ATOM 983 CB PRO A 124 100 , .746 37. .338 0 , .581 1 , .00 91. .29 C

ATOM 984 CG PRO A 124 100 , .301 38. .592 1 , .241 1 , .00 90. .38 C

ATOM 985 CD PRO A 124 101 , .553 39. .220 1 , .756 1 , .00 89. .45 C

ATOM 986 C PRO A 124 102 , .984 36. .211 0 , .536 1 , .00 89. .46 C

ATOM 987 O PRO A 124 102 , .998 34. .994 0 , .358 1 , .00 89. .19 O

ATOM 988 N GLU A 125 103 , .867 37. .041 -0 , .011 1 , .00 89. .63 N

ATOM 989 CA GLU A 125 104 , .938 36. .569 -0 , .881 1 , .00 89. .62 C

ATOM 990 CB GLU A 125 105 , .574 37. .735 -1 , .655 1 , .00 95. .09 C

ATOM 991 CG GLU A 125 104 , .612 38. .588 -2 , .484 1 , .00 99. .97 C

ATOM 992 CD GLU A 125 103 , .940 39. .715 -1 , .704 1 , .00102. .20 C

ATOM 993 OE1 GLU A 125 104 , .465 40. .128 -0 , .647 1 , .00102. .51 O

ATOM 994 OE2 GLU A 125 102 , .882 40. .202 -2 , .161 1 , .00103. .21 0

ATOM 995 C GLU A 125 106, .033 35. .846 -0 , .096 1 , .00 86. .13 c

ATOM 996 O GLU A 125 106, .828 35. .119 -0 , .683 1 , .00 82. .74 0

ATOM 997 N ASP A 126 106, .077 36. .053 1 , .221 1 , .00 86. .04 N

ATOM 998 CA ASP A 126 107 , .130 35. .479 2 , .067 1 , .00 83. .80 C ATOM 999 CB ASP A 126 107 ,.259 36,.269 3 ,.375 1 ,.00 86,.37 C

ATOM 1000 CG ASP A 126 107 , .607 37 , .735 3 , .148 1 , .00 89, .43 C

ATOM 1001 OD1 ASP A 126 108 , .014 38 , .095 2 , .023 1 , .00 90 , .53 O

ATOM 1002 OD2 ASP A 126 107 , .479 38 , .529 4 , .105 1 , .00 91 , .56 O

ATOM 1003 C ASP A 126 106, .937 33 , .997 2 , .385 1 , .00 79, .71 C

ATOM 1004 O ASP A 126 107 , .919 33 , .277 2 , .575 1 , .00 76, .75 O

ATOM 1005 N PHE A 127 105 , .687 33 , .539 2 , .440 1 , .00 77 , .69 N

ATOM 1006 CA PHE A 127 105 , .406 32 , .127 2 , .739 1 , .00 76, .03 C

ATOM 1007 CB PHE A 127 103 , .907 31 , .876 2 , .959 1 , .00 74 , .67 C

ATOM 1008 CG PHE A 127 103 , .461 32 , .070 4 , .377 1 , .00 74 , .73 C

ATOM 1009 CD1 PHE A 127 103 , .999 31 , .292 5 , .392 1 , .00 75 , .69 C

ATOM 1010 CE1 PHE A 127 103 , .590 31 , .452 6, .703 1 , .00 75 , .83 C

ATOM 1011 CZ PHE A 127 102 , .619 32 , .386 7 , .014 1 , .00 75 , .24 C

ATOM 1012 CE2 PHE A 127 102 , .064 33 , .159 6, .012 1 , .00 75 , .56 C

ATOM 1013 CD2 PHE A 127 102 , .481 32 , .998 4 , .700 1 , .00 74 , .80 C

ATOM 1014 C PHE A 127 105 , .929 31 , .164 1 , .670 1 , .00 76, .28 C

ATOM 1015 O PHE A 127 105 , .753 31 , .386 0 , .471 1 , .00 74 , .14 O

ATOM 1016 N THR A 128 106, .567 30 , .093 2 , .139 1 , .00 75 , .69 N

ATOM 1017 CA THR A 128 107 , .117 29, .044 1 , .291 1 , .00 74 , .38 C

ATOM 1018 CB THR A 128 108 , .643 28 , .953 1 , .456 1 , .00 74 , .05 C

ATOM 1019 OG1 THR A 128 109, .244 30 , .200 1 , .090 1 , .00 74 , .56 O

ATOM 1020 CG2 THR A 128 109, .220 27 , .834 0 , .598 1 , .00 74 , .60 C

ATOM 1021 C THR A 128 106, .526 27 , .704 1 , .708 1 , .00 74 , .11 C

ATOM 1022 O THR A 128 106, .618 27 , .328 2 , .875 1 , .00 74 , .98 0

ATOM 1023 N VAL A 129 105 , .926 26, .987 0 , .761 1 , .00 72 , .30 N

ATOM 1024 CA VAL A 129 105 , .366 25 , .665 1 , .040 1 , .00 70 , .81 C

ATOM 1025 CB VAL A 129 104 , .408 25 , .200 -0 , .075 1 , .00 69, .00 C

ATOM 1026 CGI VAL A 129 103 , .927 23 , .778 0 , .179 1 , .00 68 , .01 C

ATOM 1027 CG2 VAL A 129 103 , .226 26, .152 -0 , .189 1 , .00 69, .56 C

ATOM 1028 C VAL A 129 106, .525 24 , .682 1 , .177 1 , .00 72 , .26 C

ATOM 1029 O VAL A 129 107 , .254 24 , .448 0 , .211 1 , .00 74 , .48 0

ATOM 1030 N PHE A 130 106, .701 24 , .129 2 , .378 1 , .00 71 , .94 N

ATOM 1031 CA PHE A 130 107 , .815 23 , .214 2 , .656 1 , .00 71 , .73 C

ATOM 1032 CB PHE A 130 108 , .617 23 , .687 3 , .876 1 , .00 73 , .22 C

ATOM 1033 CG PHE A 130 107 , .899 23 , .525 5 , .185 1 , .00 73 , .63 C

ATOM 1034 CD1 PHE A 130 107 , .111 24 , .548 5 , .692 1 , .00 74 , .85 C

ATOM 1035 CE1 PHE A 130 106, .451 24 , .402 6, .902 1 , .00 76, .17 C

ATOM 1036 CZ PHE A 130 106, .577 23 , .226 7 , .620 1 , .00 75 , .83 c

ATOM 1037 CE2 PHE A 130 107 , .363 22 , .200 7 , .125 1 , .00 75 , .44 c

ATOM 1038 CD2 PHE A 130 108 , .022 22 , .354 5 , .918 1 , .00 74 , .02 c

ATOM 1039 C PHE A 130 107 , .387 21 , .760 2 , .844 1 , .00 71 , .33 c

ATOM 1040 O PHE A 130 108 , .229 20 , .862 2 , .806 1 , .00 70 , .69 0

ATOM 1041 N SER A 131 106, .094 21 , .525 3 , .053 1 , .00 70 , .85 N

ATOM 1042 CA SER A 131 105 , .587 20 , .165 3 , .209 1 , .00 71 , .30 C

ATOM 1043 CB SER A 131 105 , .675 19, .720 4 , .669 1 , .00 73 , .51 C

ATOM 1044 OG SER A 131 105 , .301 18 , .360 4 , .805 1 , .00 74 , .55 0

ATOM 1045 C SER A 131 104 , .149 20 , .060 2 , .719 1 , .00 69, .79 c

ATOM 1046 O SER A 131 103 , .352 20 , .980 2 , .901 1 , .00 67 , .79 0

ATOM 1047 N VAL A 132 103 , .834 18 , .924 2 , .103 1 , .00 70 , .57 N

ATOM 1048 CA VAL A 132 102 , .519 18 , .674 1 , .518 1 , .00 70 , .58 C

ATOM 1049 CB VAL A 132 102 , .561 18 , .867 -0 , .020 1 , .00 69, .36 C

ATOM 1050 CGI VAL A 132 101 , .234 18 , .487 -0 , .664 1 , .00 69, .12 C

ATOM 1051 CG2 VAL A 132 102 , .931 20 , .302 -0 , .365 1 , .00 69, .14 c

ATOM 1052 C VAL A 132 102 , .070 17 , .248 1 , .819 1 , .00 70 , .20 c

ATOM 1053 O VAL A 132 102 , .897 16, .343 1 , .946 1 , .00 72 , .95 0

ATOM 1054 N ASN A 133 100 , .760 17 , .067 1 , .957 1 , .00 68 , .16 N

ATOM 1055 CA ASN A 133 100 , .165 15 , .743 2 , .071 1 , .00 70 , .49 C

ATOM 1056 CB ASN A 133 99, .778 15 , .417 3 , .514 1 , .00 72 , .09 C

ATOM 1057 CG ASN A 133 99, .396 13 , .956 3 , .699 1 , .00 72 , .52 C ATOM 1058 OD1 ASN A 133 98..600 13 ,.412 2 ,.932 1 ,.00 72 ,.44 O

ATOM 1059 ND2 ASN A 133 99. .962 13 , .316 4 , .724 1 , .00 74 , .04 N

ATOM 1060 C ASN A 133 98. .955 15 , .720 1 , .148 1 , .00 72 , .68 C

ATOM 1061 O ASN A 133 97. .956 16, .379 1 , .414 1 , .00 73 , .03 O

ATOM 1062 N GLN A 134 99. .057 14 , .969 0 , .056 1 , .00 74 , .63 N

ATOM 1063 CA GLN A 134 98. .015 14 , .954 -0 , .969 1 , .00 74 , .97 C

ATOM 1064 CB GLN A 134 98. .548 14 , .351 -2 , .269 1 , .00 76, .21 C

ATOM 1065 CG GLN A 134 99. .637 15 , .191 -2 , .909 1 , .00 77 , .57 C

ATOM 1066 CD GLN A 134 100. .043 14 , .681 -4 , .275 1 , .00 80 , .24 C

ATOM 1067 OE1 GLN A 134 99. .592 13 , .623 -4 , .718 1 , .00 82 , .97 O

ATOM 1068 NE2 GLN A 134 100. .902 15 , .434 -4 , .952 1 , .00 81 , .02 N

ATOM 1069 C GLN A 134 96. .732 14 , .247 -0 , .554 1 , .00 74 , .40 C

ATOM 1070 O GLN A 134 95. .684 14 , .473 -1 , .157 1 , .00 80 , .04 O

ATOM 1071 N THR A 135 96. .812 13 , .384 0 , .452 1 , .00 74 , .31 N

ATOM 1072 CA THR A 135 95. .631 12 , .701 0 , .965 1 , .00 77 , .03 C

ATOM 1073 CB THR A 135 95. .939 11 , .235 1 , .327 1 , .00 75 , .26 C

ATOM 1074 OG1 THR A 135 96. .708 10 , .634 0 , .280 1 , .00 74 , .35 O

ATOM 1075 CG2 THR A 135 94. .652 10 , .444 1 , .522 1 , .00 75 , .12 C

ATOM 1076 C THR A 135 95. .165 13 , .486 2 , .190 1 , .00 82 , .39 C

ATOM 1077 O THR A 135 95. .116 12 , .959 3 , .307 1 , .00 82 , .05 O

ATOM 1078 N CYS A 136 94. .824 14 , .756 1 , .972 1 , .00 84 , .83 N

ATOM 1079 CA CYS A 136 94. .499 15 , .645 3 , .077 1 , .00 86, .52 C

ATOM 1080 CB CYS A 136 95. .175 16, .990 2 , .920 1 , .00 86, .38 C

ATOM 1081 SG CYS A 136 94. .984 17 , .997 4 , .401 1 , .00 83 , .29 S

ATOM 1082 C CYS A 136 93. .022 15 , .895 3 , .277 1 , .00 90 , .46 C

ATOM 1083 O CYS A 136 92. .241 15 , .963 2 , .326 1 , .00 85 , .99 O

ATOM 1084 N VAL A 137 92. .688 16, .096 4 , .548 1 , .00 94 , .32 N

ATOM 1085 CA VAL A 137 91. .324 16, .244 5 , .012 1 , .00 87 , .90 C

ATOM 1086 CB VAL A 137 90. .656 17 , .503 4 , .443 1 , .00 88 , .76 C

ATOM 1087 CGI VAL A 137 89. .238 17 , .622 4 , .957 1 , .00 94 , .38 C

ATOM 1088 CG2 VAL A 137 91. .460 18 , .733 4 , .840 1 , .00 86, .92 C

ATOM 1089 C VAL A 137 90. .590 14 , .932 4 , .727 1 , .00 85 , .62 C

ATOM 1090 O VAL A 137 89. .553 14 , .884 4 , .065 1 , .00 85 , .99 0

ATOM 1091 N TRP A 138 91. .219 13 , .862 5 , .207 1 , .00 81 , .26 N

ATOM 1092 CA TRP A 138 90. .633 12 , .533 5 , .250 1 , .00 80 , .06 C

ATOM 1093 CB TRP A 138 91. .206 11 , .622 4 , .161 1 , .00 78 , .20 C

ATOM 1094 CG TRP A 138 90. .416 10 , .367 4 , .023 1 , .00 74 , .91 C

ATOM 1095 CD1 TRP A 138 90. .803 9, .111 4 , .369 1 , .00 74 , .39 C

ATOM 1096 NE1 TRP A 138 89. .790 8 , .218 4 , .115 1 , .00 76, .74 N

ATOM 1097 CE2 TRP A 138 88. .714 8 , .900 3 , .612 1 , .00 76, .01 C

ATOM 1098 CD2 TRP A 138 89. .073 10 , .259 3 , .545 1 , .00 74 , .70 C

ATOM 1099 CE3 TRP A 138 88. .142 11 , .181 3 , .055 1 , .00 74 , .89 C

ATOM 1100 CZ3 TRP A 138 86. .896 10 , .722 2 , .655 1 , .00 76, .10 C

ATOM 1101 CH2 TRP A 138 86. .567 9, .361 2 , .733 1 , .00 77 , .44 C

ATOM 1102 CZ2 TRP A 138 87. .460 8 , .436 3 , .207 1 , .00 77 , .43 c

ATOM 1103 C TRP A 138 90. .904 11 , .958 6, .643 1 , .00 80 , .76 c

ATOM 1104 O TRP A 138 89. .991 11 , .459 7 , .303 1 , .00 79, .36 0

ATOM 1105 N TYR A 139 92. .166 12 , .034 7 , .071 1 , .00 82 , .51 N

ATOM 1106 CA TYR A 139 92. .581 11 , .601 8 , .401 1 , .00 81 , .56 C

ATOM 1107 CB TYR A 139 93. .916 10 , .861 8 , .339 1 , .00 80 , .89 C

ATOM 1108 CG TYR A 139 94. .018 9, .811 7 , .257 1 , .00 80 , .17 C

ATOM 1109 CD1 TYR A 139 93. .330 8 , .606 7 , .359 1 , .00 80 , .27 C

ATOM 1110 CE1 TYR A 139 93. .437 7 , .637 6, .374 1 , .00 82 , .65 c

ATOM 1111 CZ TYR A 139 94. .248 7 , .865 5 , .272 1 , .00 81 , .80 c

ATOM 1112 OH TYR A 139 94. .359 6, .909 4 , .287 1 , .00 81 , .17 0

ATOM 1113 CE2 TYR A 139 94. .946 9, .050 5 , .155 1 , .00 80 , .06 c

ATOM 1114 CD2 TYR A 139 94. .832 10 , .011 6, .144 1 , .00 79, .78 c

ATOM 1115 C TYR A 139 92. .750 12 , .826 9, .296 1 , .00 81 , .52 c

ATOM 1116 O TYR A 139 93. .288 13 , .844 8 , .860 1 , .00 82 , .26 0 ATOM 1117 N ARG A 140 92 ,.303 12 ,.717 10..546 1 ,.00 81 ,.61 N

ATOM 1118 CA ARG A 140 92 , .458 13 , .798 11. .522 1 , .00 80 , .81 C

ATOM 1119 CB ARG A 140 91 , .682 13 , .503 12. .802 1 , .00 80 , .92 C

ATOM 1120 CG ARG A 140 91 , .965 14 , .496 13. .916 1 , .00 81 , .79 C

ATOM 1121 CD ARG A 140 90 , .903 14 , .448 14. .997 1 , .00 85 , .18 C

ATOM 1122 NE ARG A 140 90 , .964 13 , .227 15. .803 1 , .00 86, .47 N

ATOM 1123 CZ ARG A 140 91 , .715 13 , .062 16. .892 1 , .00 84 , .38 C

ATOM 1124 NH1 ARG A 140 91 , .672 11 , .905 17. .545 1 , .00 85 , .39 N

ATOM 1125 NH2 ARG A 140 92 , .506 14 , .034 17. .339 1 , .00 83 , .04 N

ATOM 1126 C ARG A 140 93 , .927 14 , .003 11. .857 1 , .00 79, .50 C

ATOM 1127 O ARG A 140 94 , .402 15 , .133 11. .904 1 , .00 79, .49 O

ATOM 1128 N PHE A 141 94 , .631 12 , .903 12. .110 1 , .00 78 , .69 N

ATOM 1129 CA PHE A 141 96, .063 12 , .951 12. .362 1 , .00 78 , .46 C

ATOM 1130 CB PHE A 141 96, .504 11 , .793 13. .256 1 , .00 79, .59 C

ATOM 1131 CG PHE A 141 95 , .953 11 , .862 14. .650 1 , .00 80 , .07 C

ATOM 1132 CD1 PHE A 141 96, .507 12 , .721 15. .588 1 , .00 80 , .90 C

ATOM 1133 CE1 PHE A 141 96, .005 12 , .785 16. .875 1 , .00 83 , .01 C

ATOM 1134 CZ PHE A 141 94 , .941 11 , .980 17. .240 1 , .00 82 , .71 C

ATOM 1135 CE2 PHE A 141 94 , .382 11 , .119 16. .314 1 , .00 82 , .15 C

ATOM 1136 CD2 PHE A 141 94 , .888 11 , .062 15. .029 1 , .00 81 , .39 c

ATOM 1137 C PHE A 141 96, .782 12 , .898 11. .022 1 , .00 77 , .36 c

ATOM 1138 O PHE A 141 97 , .094 11 , .821 10. .518 1 , .00 77 , .71 0

ATOM 1139 N THR A 142 97 , .023 14 , .072 10. .447 1 , .00 76, .07 N

ATOM 1140 CA THR A 142 97 , .678 14 , .188 9. .150 1 , .00 76, .31 C

ATOM 1141 CB THR A 142 96, .990 15 , .256 8. .278 1 , .00 76, .58 C

ATOM 1142 OG1 THR A 142 95 , .643 14 , .850 7. .996 1 , .00 77 , .62 O

ATOM 1143 CG2 THR A 142 97 , .737 15 , .450 6. .964 1 , .00 77 , .49 c

ATOM 1144 C THR A 142 99, .147 14 , .545 9. .334 1 , .00 76, .47 c

ATOM 1145 O THR A 142 99, .472 15 , .623 9. .829 1 , .00 76, .20 0

ATOM 1146 N ASP A 143 100 , .027 13 , .633 8. .927 1 , .00 77 , .81 N

ATOM 1147 CA ASP A 143 101 , .468 13 , .842 9. .038 1 , .00 78 , .46 C

ATOM 1148 CB ASP A 143 102 , .212 12 , .500 9. .032 1 , .00 81 , .65 C

ATOM 1149 CG ASP A 143 101 , .879 11 , .633 10. .239 1 , .00 83 , .58 C

ATOM 1150 OD1 ASP A 143 101 , .038 12 , .040 11. .070 1 , .00 85 , .51 O

ATOM 1151 OD2 ASP A 143 102 , .467 10 , .539 10. .354 1 , .00 84 , .80 0

ATOM 1152 C ASP A 143 101 , .993 14 , .713 7. .903 1 , .00 74 , .97 c

ATOM 1153 O ASP A 143 101 , .479 14 , .670 6. .785 1 , .00 77 , .14 0

ATOM 1154 N PHE A 144 103 , .021 15 , .498 8. .210 1 , .00 71 , .79 N

ATOM 1155 CA PHE A 144 103 , .688 16, .348 7. .237 1 , .00 71 , .00 C

ATOM 1156 CB PHE A 144 103 , .379 17 , .820 7. .507 1 , .00 69, .59 C

ATOM 1157 CG PHE A 144 101 , .965 18 , .210 7. .182 1 , .00 69, .05 C

ATOM 1158 CD1 PHE A 144 100 , .983 18 , .185 8. .158 1 , .00 69, .25 c

ATOM 1159 CE1 PHE A 144 99, .678 18 , .543 7. .860 1 , .00 69, .31 c

ATOM 1160 CZ PHE A 144 99, .341 18 , .931 6. .577 1 , .00 67 , .47 c

ATOM 1161 CE2 PHE A 144 100 , .311 18 , .962 5. .593 1 , .00 67 , .42 c

ATOM 1162 CD2 PHE A 144 101 , .614 18 , .600 5. .896 1 , .00 68 , .29 c

ATOM 1163 C PHE A 144 105 , .190 16, .100 7. .311 1 , .00 73 , .12 c

ATOM 1164 O PHE A 144 105 , .820 16, .379 8. .328 1 , .00 71 , .85 0

ATOM 1165 N GLN A 145 105 , .755 15 , .570 6. .227 1 , .00 78 , .05 N

ATOM 1166 CA GLN A 145 107 , .182 15 , .262 6. .170 1 , .00 77 , .96 C

ATOM 1167 CB GLN A 145 107 , .504 14 , .360 4. .975 1 , .00 80 , .55 c

ATOM 1168 CG GLN A 145 106, .704 13 , .064 4. .915 1 , .00 82 , .81 c

ATOM 1169 CD GLN A 145 106, .892 12 , .190 6. .142 1 , .00 85 , .81 c

ATOM 1170 OE1 GLN A 145 107 , .994 12 , .091 6. .688 1 , .00 87 , .14 0

ATOM 1171 NE2 GLN A 145 105 , .816 11 , .537 6. .575 1 , .00 87 , .99 N

ATOM 1172 C GLN A 145 107 , .965 16, .559 6. .056 1 , .00 76, .90 C

ATOM 1173 O GLN A 145 107 , .702 17 , .368 5. .168 1 , .00 77 , .08 O

ATOM 1174 N VAL A 146 108 , .920 16, .754 6. .961 1 , .00 75 , .97 N

ATOM 1175 CA VAL A 146 109, .732 17 , .964 6. .982 1 , .00 75 , .59 C ATOM 1176 CB VAL A 146 110..064 18..389 8..425 1 ,.00 75..15 C

ATOM 1177 CGI VAL A 146 110. .804 19. .720 8. .442 1 , .00 75. .39 C

ATOM 1178 CG2 VAL A 146 108. .795 18. .483 9. .259 1 , .00 74. .27 C

ATOM 1179 C VAL A 146 Ill . .029 17. .690 6. .231 1 , .00 76. .30 C

ATOM 1180 O VAL A 146 Ill . .608 16. .613 6. .385 1 , .00 76. .96 O

ATOM 1181 N PRO A 147 Ill . .487 18. .649 5. .404 1 , .00 78. .68 N

ATOM 1182 CA PRO A 147 112. .755 18. .431 4. .701 1 , .00 81. .84 C

ATOM 1183 CB PRO A 147 112. .881 19. .659 3. .787 1 , .00 80. .60 C

ATOM 1184 CG PRO A 147 Ill . .513 20. .234 3. .693 1 , .00 79. .84 C

ATOM 1185 CD PRO A 147 110. .823 19. .894 4. .977 1 , .00 79. .51 C

ATOM 1186 C PRO A 147 113. .941 18. .347 5. .661 1 , .00 86. .08 C

ATOM 1187 O PRO A 147 113. .938 19. .000 6. .706 1 , .00 86. .09 O

ATOM 1188 N GLU A 148 114. .939 17. .545 5. .307 1 , .00 91. .96 N

ATOM 1189 CA GLU A 148 116. .120 17. .368 6. .150 1 , .00 97. .64 C

ATOM 1190 CB GLU A 148 116. .968 16. .200 5. .636 1 , .00101. .74 C

ATOM 1191 CG GLU A 148 118. .213 15. .911 6. .463 1 , .00107. .11 C

ATOM 1192 CD GLU A 148 119. .079 14. .827 5. .853 1 , .00113. .41 C

ATOM 1193 OE1 GLU A 148 118. .525 13. .806 5. .393 1 , .00120. .31 O

ATOM 1194 OE2 GLU A 148 120. .318 14. .993 5. .842 1 , .00118. .08 O

ATOM 1195 C GLU A 148 116. .971 18. .637 6. .223 1 , .00 98. .80 c

ATOM 1196 O GLU A 148 117. .497 18. .973 7. .284 1 , .00 99. .60 0

ATOM 1197 N ARG A 149 117. .092 19. .345 5. .102 1 , .00100. .31 N

ATOM 1198 CA ARG A 149 117. .944 20. .535 5. .026 1 , .00102. .05 C

ATOM 1199 CB ARG A 149 118. .496 20. .691 3. .602 1 , .00109. .61 C

ATOM 1200 CG ARG A 149 119. .367 19. .534 3. .140 1 , .00116. .76 C

ATOM 1201 CD ARG A 149 119. .858 19. .745 1. .716 1 , .00125. .71 C

ATOM 1202 NE ARG A 149 120. .677 18. .626 1. .239 1 , .00133. .21 N

ATOM 1203 CZ ARG A 149 121. .985 18. .479 1. .460 1 , .00133. .30 C

ATOM 1204 NH1 ARG A 149 122. .666 19. .375 2. .173 1 , .00135. .95 N

ATOM 1205 NH2 ARG A 149 122. .619 17. .417 0. .970 1 , .00129. .76 N

ATOM 1206 C ARG A 149 117. .261 21. .839 5. .471 1 , .00 96. .88 C

ATOM 1207 O ARG A 149 117. .676 22. .925 5. .055 1 , .00 95. .81 O

ATOM 1208 N MET A 150 116. .233 21. .746 6. .316 1 , .00 90. .98 N

ATOM 1209 CA MET A 150 115. .560 22. .943 6. .824 1 , .00 89. .04 C

ATOM 1210 CB MET A 150 114. .235 22. .594 7. .512 1 , .00 88. .98 C

ATOM 1211 CG MET A 150 113. .137 22. .104 6. .582 1 , .00 89. .61 C

ATOM 1212 SD MET A 150 112. .456 23. .348 5. .461 1 , .00 90. .13 S

ATOM 1213 CE MET A 150 Ill . .604 24. .446 6. .585 1 , .00 88. .70 C

ATOM 1214 C MET A 150 116. .472 23. .659 7. .818 1 , .00 88. .28 C

ATOM 1215 O MET A 150 116. .906 23. .054 8. .797 1 , .00 89. .76 O

ATOM 1216 N PRO A 151 116. .768 24. .949 7. .570 1 , .00 87. .50 N

ATOM 1217 CA PRO A 151 117. .634 25. .717 8. .464 1 , .00 88. .75 C

ATOM 1218 CB PRO A 151 117. .986 26. .949 7. .630 1 , .00 87. .34 C

ATOM 1219 CG PRO A 151 116. .809 27. .138 6. .747 1 , .00 87. .38 C

ATOM 1220 CD PRO A 151 116. .305 25. .760 6. .430 1 , .00 87. .98 C

ATOM 1221 C PRO A 151 116. .922 26. .131 9. .753 1 , .00 90. .96 C

ATOM 1222 O PRO A 151 115. .692 26. .071 9. .816 1 , .00 91. .16 0

ATOM 1223 N PRO A 152 117. .688 26. .558 10. .775 1 , .00 91. .63 N

ATOM 1224 CA PRO A 152 117. .083 26. .959 12. .038 1 , .00 91. .53 C

ATOM 1225 CB PRO A 152 118. .278 27. .020 12. .986 1 , .00 92. .45 C

ATOM 1226 CG PRO A 152 119. .412 27. .417 12. .110 1 , .00 92. .47 C

ATOM 1227 CD PRO A 152 119. .150 26. .757 10. .786 1 , .00 92. .22 C

ATOM 1228 C PRO A 152 116. .417 28. .324 11. .934 1 , .00 91. .29 C

ATOM 1229 O PRO A 152 116. .912 29. .203 11. .227 1 , .00 87. .61 0

ATOM 1230 N CYS A 153 115. .303 28. .490 12. .638 1 , .00 95. .22 N

ATOM 1231 CA CYS A 153 114. .562 29. .747 12. .624 1 , .00100. .58 C

ATOM 1232 CB CYS A 153 113. .097 29. .506 13. .001 1 , .00105. .48 C

ATOM 1233 SG CYS A 153 112. .131 28. .865 11. .616 1 , .00110. .80 S

ATOM 1234 C CYS A 153 115. .197 30. .783 13. .546 1 , .00 99. .11 C ATOM 1235 O CYS A 153 115 ,.962 30 ,.426 14 ,.440 1 ,.00100 ,.03 O

ATOM 1236 N PRO A 154 114 , .883 32 , .075 13 , .328 1 , .00 99, .89 N

ATOM 1237 CA PRO A 154 115 , .453 33 , .146 14 , .152 1 , .00103 , .15 C

ATOM 1238 CB PRO A 154 114 , .838 34 , .426 13 , .556 1 , .00102 , .45 C

ATOM 1239 CG PRO A 154 113 , .722 33 , .979 12 , .679 1 , .00101 , .24 C

ATOM 1240 CD PRO A 154 114 , .096 32 , .614 12 , .206 1 , .00101 , .08 C

ATOM 1241 C PRO A 154 115 , .136 33 , .030 15 , .655 1 , .00106, .30 C

ATOM 1242 O PRO A 154 114 , .291 32 , .223 16, .043 1 , .00103 , .59 O

ATOM 1243 N PRO A 155 115 , .820 33 , .835 16, .494 1 , .00109, .83 N

ATOM 1244 CA PRO A 155 115 , .691 33 , .817 17 , .956 1 , .00112 , .03 C

ATOM 1245 CB PRO A 155 116, .332 35 , .143 18 , .369 1 , .00114 , .04 C

ATOM 1246 CG PRO A 155 117 , .382 35 , .371 17 , .341 1 , .00113 , .75 C

ATOM 1247 CD PRO A 155 116, .841 34 , .809 16, .056 1 , .00111 , .64 C

ATOM 1248 C PRO A 155 114 , .265 33 , .733 18 , .509 1 , .00111 , .44 C

ATOM 1249 O PRO A 155 114 , .016 32 , .954 19, .434 1 , .00112 , .99 O

ATOM 1250 N GLY A 156 113 , .345 34 , .518 17 , .951 1 , .00108 , .40 N

ATOM 1251 CA GLY A 156 111 , .954 34 , .533 18 , .417 1 , .00107 , .86 C

ATOM 1252 C GLY A 156 111 , .032 33 , .536 17 , .729 1 , .00106, .15 C

ATOM 1253 O GLY A 156 109, .811 33 , .688 17 , .773 1 , .00101 , .23 O

ATOM 1254 N GLY A 157 111 , .609 32 , .511 17 , .105 1 , .00106, .69 N

ATOM 1255 CA GLY A 157 110 , .837 31 , .524 16, .355 1 , .00104 , .57 C

ATOM 1256 C GLY A 157 110 , .410 32 , .056 14 , .998 1 , .00101 , .90 C

ATOM 1257 O GLY A 157 110 , .762 33 , .174 14 , .618 1 , .00104 , .11 O

ATOM 1258 N CYS A 158 109, .652 31 , .247 14 , .266 1 , .00 98 , .35 N

ATOM 1259 CA CYS A 158 109, .128 31 , .629 12 , .955 1 , .00 98 , .02 C

ATOM 1260 CB CYS A 158 109, .898 30 , .915 11 , .840 1 , .00 99, .92 C

ATOM 1261 SG CYS A 158 110 , .210 29, .171 12 , .180 1 , .00111 , .88 S

ATOM 1262 C CYS A 158 107 , .637 31 , .313 12 , .888 1 , .00 93 , .44 C

ATOM 1263 O CYS A 158 107 , .072 30 , .765 13 , .837 1 , .00 94 , .72 O

ATOM 1264 N HIS A 159 107 , .001 31 , .678 11 , .779 1 , .00 89, .00 N

ATOM 1265 CA HIS A 159 105 , .567 31 , .461 11 , .600 1 , .00 86, .06 C

ATOM 1266 CB HIS A 159 104 , .862 32 , .797 11 , .384 1 , .00 86, .11 C

ATOM 1267 CG HIS A 159 104 , .714 33 , .602 12 , .634 1 , .00 85 , .86 C

ATOM 1268 ND1 HIS A 159 105 , .771 34 , .260 13 , .224 1 , .00 85 , .50 N

ATOM 1269 CE1 HIS A 159 105 , .349 34 , .875 14 , .314 1 , .00 87 , .12 C

ATOM 1270 NE2 HIS A 159 104 , .056 34 , .642 14 , .451 1 , .00 85 , .96 N

ATOM 1271 CD2 HIS A 159 103 , .634 33 , .850 13 , .412 1 , .00 86, .34 C

ATOM 1272 C HIS A 159 105 , .258 30 , .514 10 , .447 1 , .00 83 , .23 C

ATOM 1273 O HIS A 159 105 , .976 30 , .474 9, .448 1 , .00 81 , .54 O

ATOM 1274 N CYS A 160 104 , .185 29, .746 10 , .617 1 , .00 80 , .95 N

ATOM 1275 CA CYS A 160 103 , .723 28 , .792 9, .620 1 , .00 80 , .06 C

ATOM 1276 CB CYS A 160 103 , .953 27 , .364 10 , .107 1 , .00 82 , .18 C

ATOM 1277 SG CYS A 160 105 , .680 26, .861 10 , .200 1 , .00 88 , .40 S

ATOM 1278 C CYS A 160 102 , .240 28 , .985 9, .361 1 , .00 78 , .26 C

ATOM 1279 O CYS A 160 101 , .560 29, .715 10 , .086 1 , .00 76, .85 O

ATOM 1280 N ALA A 161 101 , .743 28 , .316 8 , .325 1 , .00 76, .08 N

ATOM 1281 CA ALA A 161 100 , .328 28 , .373 7 , .982 1 , .00 73 , .79 C

ATOM 1282 CB ALA A 161 100 , .049 29, .573 7 , .094 1 , .00 73 , .37 C

ATOM 1283 C ALA A 161 99, .888 27 , .088 7 , .295 1 , .00 71 , .21 C

ATOM 1284 O ALA A 161 100 , .631 26, .515 6, .500 1 , .00 72 , .15 O

ATOM 1285 N TRP A 162 98 , .683 26, .637 7 , .625 1 , .00 69, .66 N

ATOM 1286 CA TRP A 162 98 , .103 25 , .446 7 , .022 1 , .00 68 , .18 C

ATOM 1287 CB TRP A 162 97 , .434 24 , .575 8 , .083 1 , .00 66, .71 C

ATOM 1288 CG TRP A 162 96, .645 23 , .429 7 , .522 1 , .00 64 , .24 C

ATOM 1289 CD1 TRP A 162 97 , .124 22 , .215 7 , .134 1 , .00 63 , .87 C

ATOM 1290 NE1 TRP A 162 96, .099 21 , .421 6, .686 1 , .00 62 , .98 N

ATOM 1291 CE2 TRP A 162 94 , .926 22 , .119 6, .779 1 , .00 62 , .55 C

ATOM 1292 CD2 TRP A 162 95 , .232 23 , .390 7 , .304 1 , .00 62 , .40 C

ATOM 1293 CE3 TRP A 162 94 , .194 24 , .305 7 , .505 1 , .00 63 , .45 C ATOM 1294 CZ3 TRP A 162 92 ,.898 23 ,.927 7 ,.176 1 ,.00 64 ,.28 C

ATOM 1295 CH2 TRP A 162 92 , .626 22 , .655 6, .651 1 , .00 64 , .06 C

ATOM 1296 CZ2 TRP A 162 93 , .625 21 , .739 6, .448 1 , .00 63 , .81 C

ATOM 1297 C TRP A 162 97 , .083 25 , .886 5 , .988 1 , .00 67 , .79 C

ATOM 1298 O TRP A 162 96, .149 26, .617 6, .309 1 , .00 67 , .02 O

ATOM 1299 N PHE A 163 97 , .266 25 , .439 4 , .750 1 , .00 67 , .99 N

ATOM 1300 CA PHE A 163 96, .366 25 , .793 3 , .657 1 , .00 65 , .65 C

ATOM 1301 CB PHE A 163 97 , .140 26, .477 2 , .538 1 , .00 62 , .67 C

ATOM 1302 CG PHE A 163 97 , .753 27 , .784 2 , .935 1 , .00 59, .96 C

ATOM 1303 CD1 PHE A 163 99, .060 27 , .843 3 , .393 1 , .00 57 , .85 C

ATOM 1304 CE1 PHE A 163 99, .628 29, .055 3 , .745 1 , .00 58 , .02 C

ATOM 1305 CZ PHE A 163 98 , .889 30 , .224 3 , .644 1 , .00 58 , .37 C

ATOM 1306 CE2 PHE A 163 97 , .584 30 , .177 3 , .188 1 , .00 58 , .49 C

ATOM 1307 CD2 PHE A 163 97 , .023 28 , .961 2 , .836 1 , .00 59, .66 C

ATOM 1308 C PHE A 163 95 , .669 24 , .561 3 , .102 1 , .00 65 , .65 C

ATOM 1309 O PHE A 163 96, .204 23 , .462 3 , .175 1 , .00 64 , .46 O

ATOM 1310 N TRP A 164 94 , .484 24 , .762 2 , .530 1 , .00 66, .84 N

ATOM 1311 CA TRP A 164 93 , .709 23 , .672 1 , .948 1 , .00 66, .24 C

ATOM 1312 CB TRP A 164 93 , .004 22 , .883 3 , .057 1 , .00 66, .14 C

ATOM 1313 CG TRP A 164 92 , .024 21 , .853 2 , .559 1 , .00 64 , .96 C

ATOM 1314 CD1 TRP A 164 92 , .256 20 , .891 1 , .626 1 , .00 64 , .45 C

ATOM 1315 NE1 TRP A 164 91 , .129 20 , .124 1 , .444 1 , .00 64 , .11 N

ATOM 1316 CE2 TRP A 164 90 , .145 20 , .573 2 , .282 1 , .00 62 , .02 C

ATOM 1317 CD2 TRP A 164 90 , .674 21 , .661 3 , .006 1 , .00 64 , .79 C

ATOM 1318 CE3 TRP A 164 89, .861 22 , .304 3 , .948 1 , .00 66, .51 C

ATOM 1319 CZ3 TRP A 164 88 , .559 21 , .847 4 , .128 1 , .00 64 , .78 C

ATOM 1320 CH2 TRP A 164 88 , .065 20 , .761 3 , .389 1 , .00 61 , .88 C

ATOM 1321 CZ2 TRP A 164 88 , .842 20 , .112 2 , .467 1 , .00 60 , .20 c

ATOM 1322 C TRP A 164 92 , .684 24 , .174 0 , .937 1 , .00 65 , .82 c

ATOM 1323 O TRP A 164 91 , .957 25 , .128 1 , .202 1 , .00 65 , .09 0

ATOM 1324 N ILE A 165 92 , .654 23 , .531 -0 , .227 1 , .00 68 , .37 N

ATOM 1325 CA ILE A 165 91 , .652 23 , .797 -1 , .261 1 , .00 68 , .83 C

ATOM 1326 CB ILE A 165 92 , .247 24 , .510 -2 , .490 1 , .00 67 , .90 C

ATOM 1327 CGI ILE A 165 92 , .757 25 , .897 -2 , .091 1 , .00 67 , .98 C

ATOM 1328 CD1 ILE A 165 93 , .456 26, .654 -3 , .199 1 , .00 69, .23 C

ATOM 1329 CG2 ILE A 165 91 , .195 24 , .624 -3 , .588 1 , .00 69, .24 c

ATOM 1330 C ILE A 165 91 , .067 22 , .451 -1 , .664 1 , .00 68 , .08 c

ATOM 1331 O ILE A 165 91 , .808 21 , .515 -1 , .962 1 , .00 69, .04 0

ATOM 1332 N HIS A 166 89, .742 22 , .366 -1 , .682 1 , .00 68 , .83 N

ATOM 1333 CA HIS A 166 89, .053 21 , .102 -1 , .927 1 , .00 71 , .85 C

ATOM 1334 CB HIS A 166 87 , .972 20 , .887 -0 , .864 1 , .00 71 , .51 C

ATOM 1335 CG HIS A 166 86, .856 21 , .878 -0 , .925 1 , .00 72 , .05 C

ATOM 1336 ND1 HIS A 166 85 , .731 21 , .680 -1 , .693 1 , .00 75 , .81 N

ATOM 1337 CE1 HIS A 166 84 , .918 22 , .711 -1 , .555 1 , .00 76, .33 C

ATOM 1338 NE2 HIS A 166 85 , .478 23 , .574 -0 , .727 1 , .00 75 , .99 N

ATOM 1339 CD2 HIS A 166 86, .693 23 , .077 -0 , .320 1 , .00 74 , .28 C

ATOM 1340 C HIS A 166 88 , .446 21 , .000 -3 , .331 1 , .00 73 , .81 C

ATOM 1341 O HIS A 166 88 , .442 21 , .962 -4 , .096 1 , .00 72 , .40 O

ATOM 1342 N SER A 167 87 , .926 19, .817 -3 , .644 1 , .00 75 , .65 N

ATOM 1343 CA SER A 167 87 , .361 19, .532 -4 , .953 1 , .00 78 , .55 C

ATOM 1344 CB SER A 167 87 , .006 18 , .047 -5 , .042 1 , .00 82 , .08 C

ATOM 1345 OG SER A 167 86, .547 17 , .699 -6, .338 1 , .00 86, .01 O

ATOM 1346 C SER A 167 86, .119 20 , .376 -5 , .238 1 , .00 78 , .52 C

ATOM 1347 O SER A 167 85 , .413 20 , .761 -4 , .307 1 , .00 79, .61 O

ATOM 1348 N PRO A 168 85 , .852 20 , .677 -6, .526 1 , .00 78 , .75 N

ATOM 1349 CA PRO A 168 84 , .641 21 , .425 -6, .881 1 , .00 78 , .88 C

ATOM 1350 CB PRO A 168 84 , .899 21 , .874 -8 , .326 1 , .00 78 , .02 C

ATOM 1351 CG PRO A 168 86, .326 21 , .574 -8 , .603 1 , .00 78 , .49 C

ATOM 1352 CD PRO A 168 86, .703 20 , .447 -7 , .704 1 , .00 78 , .14 C ATOM 1353 C PRO A 168 83 ,.367 20 ,.588 -6,.835 1 ,.00 80..35 C

ATOM 1354 O PRO A 168 82 , .273 21 , .146 -6, .742 1 , .00 81. .61 O

ATOM 1355 N ASP A 169 83 , .510 19, .266 -6, .896 1 , .00 80. .49 N

ATOM 1356 CA ASP A 169 82 , .354 18 , .370 -6, .936 1 , .00 82. .01 C

ATOM 1357 CB ASP A 169 82 , .756 17 , .006 -7 , .512 1 , .00 84. .94 C

ATOM 1358 CG ASP A 169 83 , .697 16, .240 -6, .606 1 , .00 87. .76 C

ATOM 1359 OD1 ASP A 169 84 , .189 16, .833 -5 , .623 1 , .00 92. .11 O

ATOM 1360 OD2 ASP A 169 83 , .948 15 , .046 -6, .877 1 , .00 90. .58 O

ATOM 1361 C ASP A 169 81 , .649 18 , .172 -5 , .591 1 , .00 80. .62 C

ATOM 1362 O ASP A 169 80 , .693 17 , .404 -5 , .515 1 , .00 80. .75 O

ATOM 1363 N SER A 170 82 , .113 18 , .839 -4 , .536 1 , .00 81. .20 N

ATOM 1364 CA SER A 170 81 , .455 18 , .742 -3 , .232 1 , .00 83. .20 C

ATOM 1365 CB SER A 170 82 , .153 17 , .712 -2 , .346 1 , .00 82. .93 C

ATOM 1366 OG SER A 170 81 , .443 17 , .534 -1 , .132 1 , .00 81. .13 O

ATOM 1367 C SER A 170 81 , .408 20 , .090 -2 , .522 1 , .00 83. .08 C

ATOM 1368 O SER A 170 82 , .436 20 , .610 -2 , .093 1 , .00 82. .18 O

ATOM 1369 N GLY A 171 80 , .206 20 , .652 -2 , .424 1 , .00 84. .35 N

ATOM 1370 CA GLY A 171 79, .982 21 , .907 -1 , .718 1 , .00 86. .21 C

ATOM 1371 C GLY A 171 80 , .536 23 , .145 -2 , .399 1 , .00 85. .87 C

ATOM 1372 O GLY A 171 81 , .128 23 , .072 -3 , .480 1 , .00 85. .11 O

ATOM 1373 N GLY A 172 80 , .336 24 , .287 -1 , .745 1 , .00 86. .38 N

ATOM 1374 CA GLY A 172 80 , .805 25 , .574 -2 , .247 1 , .00 84. .86 C

ATOM 1375 C GLY A 172 82 , .315 25 , .662 -2 , .207 1 , .00 81. .45 C

ATOM 1376 O GLY A 172 82 , .956 25 , .046 -1 , .357 1 , .00 81. .76 O

ATOM 1377 N GLU A 173 82 , .880 26, .442 -3 , .120 1 , .00 79. .46 N

ATOM 1378 CA GLU A 173 84 , .325 26, .534 -3 , .252 1 , .00 80. .95 C

ATOM 1379 CB GLU A 173 84 , .712 26, .590 -4 , .732 1 , .00 82. .70 C

ATOM 1380 CG GLU A 173 86, .160 26, .234 -5 , .000 1 , .00 83. .57 C

ATOM 1381 CD GLU A 173 86, .508 24 , .803 -4 , .637 1 , .00 86. .05 C

ATOM 1382 OE1 GLU A 173 85 , .904 23 , .875 -5 , .209 1 , .00 88. .87 O

ATOM 1383 OE2 GLU A 173 87 , .404 24 , .608 -3 , .790 1 , .00 89. .20 0

ATOM 1384 C GLU A 173 84 , .884 27 , .736 -2 , .490 1 , .00 80. .15 c

ATOM 1385 O GLU A 173 84 , .255 28 , .792 -2 , .417 1 , .00 77. .51 0

ATOM 1386 N GLN A 174 86, .078 27 , .551 -1 , .931 1 , .00 81. .16 N

ATOM 1387 CA GLN A 174 86, .731 28 , .546 -1 , .085 1 , .00 78. .07 C

ATOM 1388 CB GLN A 174 85 , .999 28 , .623 0 , .256 1 , .00 76. .04 C

ATOM 1389 CG GLN A 174 85 , .976 27 , .296 1 , .025 1 , .00 75. .95 C

ATOM 1390 CD GLN A 174 84 , .636 26, .569 1 , .067 1 , .00 75. .19 C

ATOM 1391 OE1 GLN A 174 84 , .600 25 , .370 1 , .346 1 , .00 78. .72 0

ATOM 1392 NE2 GLN A 174 83 , .537 27 , .274 0 , .816 1 , .00 75. .03 N

ATOM 1393 C GLN A 174 88 , .182 28 , .127 -0 , .826 1 , .00 78. .53 C

ATOM 1394 O GLN A 174 88 , .661 27 , .152 -1 , .412 1 , .00 83. .04 O

ATOM 1395 N ILE A 175 88 , .873 28 , .855 0 , .051 1 , .00 76. .75 N

ATOM 1396 CA ILE A 175 90 , .186 28 , .425 0 , .545 1 , .00 76. .57 C

ATOM 1397 CB ILE A 175 91 , .345 29, .321 0 , .057 1 , .00 76. .05 C

ATOM 1398 CGI ILE A 175 91 , .363 30 , .668 0 , .788 1 , .00 75. .36 C

ATOM 1399 CD1 ILE A 175 92 , .640 31 , .458 0 , .585 1 , .00 74. .21 C

ATOM 1400 CG2 ILE A 175 91 , .255 29, .508 -1 , .451 1 , .00 77. .02 C

ATOM 1401 C ILE A 175 90 , .161 28 , .378 2 , .070 1 , .00 76. .43 c

ATOM 1402 O ILE A 175 89, .246 28 , .910 2 , .700 1 , .00 77. .44 0

ATOM 1403 N TYR A 176 91 , .169 27 , .731 2 , .649 1 , .00 77. .61 N

ATOM 1404 CA TYR A 176 91 , .292 27 , .601 4 , .101 1 , .00 77. .05 C

ATOM 1405 CB TYR A 176 90 , .988 26, .167 4 , .531 1 , .00 76. .53 C

ATOM 1406 CG TYR A 176 89, .539 25 , .780 4 , .364 1 , .00 76. .89 C

ATOM 1407 CD1 TYR A 176 89, .042 25 , .385 3 , .130 1 , .00 77. .36 C

ATOM 1408 CE1 TYR A 176 87 , .714 25 , .029 2 , .976 1 , .00 77. .51 c

ATOM 1409 CZ TYR A 176 86, .865 25 , .067 4 , .063 1 , .00 76. .94 c

ATOM 1410 OH TYR A 176 85 , .547 24 , .719 3 , .911 1 , .00 79. .19 0

ATOM 1411 CE2 TYR A 176 87 , .332 25 , .456 5 , .299 1 , .00 76. .88 c ATOM 1412 CD2 TYR A 176 88 ,.663 25..809 5 ,.445 1 ,.00 78 ,.44 C

ATOM 1413 C TYR A 176 92 , .696 27. .988 4 , .546 1 , .00 77 , .51 C

ATOM 1414 O TYR A 176 93 , .678 27. .575 3 , .932 1 , .00 75 , .08 O

ATOM 1415 N MET A 177 92 , .784 28. .783 5 , .610 1 , .00 80 , .01 N

ATOM 1416 CA MET A 177 94 , .074 29. .209 6, .154 1 , .00 77 , .80 C

ATOM 1417 CB MET A 177 94 , .488 30. .561 5 , .577 1 , .00 78 , .47 C

ATOM 1418 CG MET A 177 95 , .844 31. .040 6, .070 1 , .00 77 , .88 C

ATOM 1419 SD MET A 177 96, .289 32. .658 5 , .429 1 , .00 79, .52 S

ATOM 1420 CE MET A 177 97 , .914 32. .856 6, .160 1 , .00 79, .52 C

ATOM 1421 C MET A 177 94 , .028 29. .309 7 , .674 1 , .00 74 , .45 C

ATOM 1422 O MET A 177 93 , .098 29. .879 8 , .239 1 , .00 73 , .78 O

ATOM 1423 N ASN A 178 95 , .050 28. .750 8 , .317 1 , .00 72 , .63 N

ATOM 1424 CA ASN A 178 95 , .213 28. .808 9, .762 1 , .00 68 , .48 C

ATOM 1425 CB ASN A 178 94 , .727 27. .510 10 , .410 1 , .00 68 , .50 C

ATOM 1426 CG ASN A 178 93 , .215 27. .425 10 , .498 1 , .00 71 , .24 C

ATOM 1427 OD1 ASN A 178 92 , .615 26. .424 10 , .105 1 , .00 73 , .50 O

ATOM 1428 ND2 ASN A 178 92 , .588 28. .473 11 , .026 1 , .00 72 , .32 N

ATOM 1429 C ASN A 178 96, .680 29. .037 10 , .096 1 , .00 68 , .03 C

ATOM 1430 O ASN A 178 97 , .489 28. .114 10 , .006 1 , .00 67 , .06 O

ATOM 1431 N GLY A 179 97 , .022 30. .268 10 , .467 1 , .00 69, .28 N

ATOM 1432 CA GLY A 179 98 , .395 30. .613 10 , .837 1 , .00 72 , .01 C

ATOM 1433 C GLY A 179 98 , .720 30. .206 12 , .266 1 , .00 75 , .63 C

ATOM 1434 O GLY A 179 97 , .822 30. .091 13 , .108 1 , .00 76, .00 O

ATOM 1435 N PHE A 180 100 , .002 29. .988 12 , .547 1 , .00 76, .09 N

ATOM 1436 CA PHE A 180 100 , .427 29. .579 13 , .883 1 , .00 77 , .15 C

ATOM 1437 CB PHE A 180 100 , .021 28. .126 14 , .143 1 , .00 78 , .41 C

ATOM 1438 CG PHE A 180 100 , .700 27. .136 13 , .248 1 , .00 79, .99 C

ATOM 1439 CD1 PHE A 180 100 , .268 26. .952 11 , .945 1 , .00 79, .59 C

ATOM 1440 CE1 PHE A 180 100 , .890 26. .037 11 , .122 1 , .00 77 , .76 C

ATOM 1441 CZ PHE A 180 101 , .948 25. .286 11 , .600 1 , .00 76, .93 c

ATOM 1442 CE2 PHE A 180 102 , .382 25. .456 12 , .892 1 , .00 79, .56 c

ATOM 1443 CD2 PHE A 180 101 , .759 26. .375 13 , .714 1 , .00 80 , .71 c

ATOM 1444 C PHE A 180 101 , .930 29. .735 14 , .095 1 , .00 79, .15 c

ATOM 1445 O PHE A 180 102 , .698 29. .831 13 , .136 1 , .00 78 , .34 0

ATOM 1446 N GLN A 181 102 , .337 29. .759 15 , .363 1 , .00 81 , .63 N

ATOM 1447 CA GLN A 181 103 , .748 29. .842 15 , .723 1 , .00 82 , .49 C

ATOM 1448 CB GLN A 181 103 , .922 30. .335 17 , .160 1 , .00 85 , .63 C

ATOM 1449 CG GLN A 181 103 , .581 31. .800 17 , .376 1 , .00 87 , .98 C

ATOM 1450 CD GLN A 181 103 , .922 32. .281 18 , .779 1 , .00 87 , .06 c

ATOM 1451 OE1 GLN A 181 104 , .026 31. .487 19, .715 1 , .00 84 , .92 0

ATOM 1452 NE2 GLN A 181 104 , .095 33. .590 18 , .928 1 , .00 86, .83 N

ATOM 1453 C GLN A 181 104 , .379 28. .467 15 , .588 1 , .00 82 , .49 C

ATOM 1454 O GLN A 181 103 , .909 27. .505 16, .197 1 , .00 81 , .59 O

ATOM 1455 N CYS A 182 105 , .438 28. .377 14 , .789 1 , .00 82 , .33 N

ATOM 1456 CA CYS A 182 106, .152 27. .123 14 , .597 1 , .00 82 , .80 C

ATOM 1457 CB CYS A 182 105 , .926 26. .586 13 , .189 1 , .00 85 , .08 C

ATOM 1458 SG CYS A 182 106, .333 27. .768 11 , .889 1 , .00 88 , .27 S

ATOM 1459 C CYS A 182 107 , .642 27. .302 14 , .822 1 , .00 82 , .53 C

ATOM 1460 O CYS A 182 108 , .136 28. .420 14 , .963 1 , .00 80 , .43 O

ATOM 1461 N ASN A 183 108 , .350 26. .180 14 , .858 1 , .00 83 , .98 N

ATOM 1462 CA ASN A 183 109, .789 26. .178 15 , .038 1 , .00 87 , .53 C

ATOM 1463 CB ASN A 183 110 , .127 26. .372 16, .515 1 , .00 94 , .35 C

ATOM 1464 CG ASN A 183 111 , .599 26. .621 16, .752 1 , .00 99, .90 C

ATOM 1465 OD1 ASN A 183 112 , .340 27. .000 15 , .837 1 , .00102 , .98 O

ATOM 1466 ND2 ASN A 183 112 , .035 26. .415 17 , .987 1 , .00102 , .09 N

ATOM 1467 C ASN A 183 110 , .364 24. .867 14 , .518 1 , .00 86, .07 C

ATOM 1468 O ASN A 183 109, .675 23. .846 14 , .509 1 , .00 84 , .50 O

ATOM 1469 N ILE A 184 111 , .621 24. .899 14 , .084 1 , .00 85 , .52 N

ATOM 1470 CA ILE A 184 112 , .261 23. .724 13 , .500 1 , .00 85 , .50 C ATOM 1471 CB ILE A 184 112 ,.902 24 ,.067 12 ,.145 1 ,.00 86,.78 C

ATOM 1472 CGI ILE A 184 111 , .855 24 , .741 11 , .257 1 , .00 88 , .90 C

ATOM 1473 CD1 ILE A 184 112 , .291 24 , .944 9, .829 1 , .00 91 , .71 C

ATOM 1474 CG2 ILE A 184 113 , .462 22 , .813 11 , .477 1 , .00 86, .77 C

ATOM 1475 C ILE A 184 113 , .305 23 , .121 14 , .431 1 , .00 85 , .05 C

ATOM 1476 O ILE A 184 114 , .204 23 , .814 14 , .906 1 , .00 87 , .23 O

ATOM 1477 N THR A 185 113 , .172 21 , .819 14 , .673 1 , .00 84 , .65 N

ATOM 1478 CA THR A 185 114 , .090 21 , .070 15 , .519 1 , .00 84 , .52 C

ATOM 1479 CB THR A 185 113 , .324 20 , .290 16, .607 1 , .00 83 , .63 C

ATOM 1480 OG1 THR A 185 112 , .565 19, .231 16, .010 1 , .00 82 , .31 O

ATOM 1481 CG2 THR A 185 112 , .382 21 , .212 17 , .373 1 , .00 82 , .88 C

ATOM 1482 C THR A 185 114 , .884 20 , .089 14 , .660 1 , .00 87 , .43 C

ATOM 1483 O THR A 185 114 , .461 19, .731 13 , .562 1 , .00 92 , .86 O

ATOM 1484 N GLY A 186 116, .033 19, .654 15 , .163 1 , .00 89, .40 N

ATOM 1485 CA GLY A 186 116, .885 18 , .702 14 , .449 1 , .00 89, .10 C

ATOM 1486 C GLY A 186 117 , .567 19, .281 13 , .222 1 , .00 87 , .83 C

ATOM 1487 O GLY A 186 117 , .929 18 , .544 12 , .304 1 , .00 86, .14 O

ATOM 1488 N SER A 187 117 , .760 20 , .599 13 , .215 1 , .00 87 , .16 N

ATOM 1489 CA SER A 187 118 , .376 21 , .288 12 , .084 1 , .00 87 , .75 C

ATOM 1490 CB SER A 187 118 , .233 22 , .803 12 , .249 1 , .00 86, .93 C

ATOM 1491 OG SER A 187 118 , .824 23 , .495 11 , .163 1 , .00 87 , .00 O

ATOM 1492 C SER A 187 119, .852 20 , .926 11 , .941 1 , .00 88 , .80 C

ATOM 1493 O SER A 187 120 , .620 21 , .057 12 , .892 1 , .00 91 , .38 O

ATOM 1494 N THR A 188 120 , .234 20 , .467 10 , .750 1 , .00 91 , .89 N

ATOM 1495 CA THR A 188 121 , .626 20 , .126 10 , .444 1 , .00 93 , .80 C

ATOM 1496 CB THR A 188 121 , .803 18 , .608 10 , .225 1 , .00 94 , .36 C

ATOM 1497 OG1 THR A 188 121 , .083 18 , .199 9, .055 1 , .00 97 , .73 O

ATOM 1498 CG2 THR A 188 121 , .299 17 , .827 11 , .429 1 , .00 95 , .01 C

ATOM 1499 C THR A 188 122 , .085 20 , .876 9, .193 1 , .00 95 , .01 C

ATOM 1500 O THR A 188 122 , .790 20 , .323 8 , .349 1 , .00 94 , .25 0

ATOM 1501 N SER A 189 121 , .677 22 , .139 9, .084 1 , .00 97 , .50 N

ATOM 1502 CA SER A 189 122 , .010 22 , .974 7 , .930 1 , .00 98 , .32 C

ATOM 1503 CB SER A 189 121 , .191 22 , .547 6, .711 1 , .00 97 , .46 C

ATOM 1504 OG SER A 189 121 , .468 23 , .375 5 , .596 1 , .00 96, .80 O

ATOM 1505 C SER A 189 121 , .746 24 , .447 8 , .228 1 , .00100 , .26 C

ATOM 1506 O SER A 189 120 , .976 24 , .773 9, .128 1 , .00100 , .80 O

ATOM 1507 N HIS A 190 122 , .402 25 , .327 7 , .475 1 , .00100 , .89 N

ATOM 1508 CA HIS A 190 122 , .232 26, .775 7 , .622 1 , .00101 , .15 C

ATOM 1509 CB HIS A 190 123 , .489 27 , .394 8 , .244 1 , .00104 , .71 C

ATOM 1510 CG HIS A 190 123 , .642 27 , .110 9, .705 1 , .00109, .21 C

ATOM 1511 ND1 HIS A 190 124 , .242 25 , .965 10 , .184 1 , .00110 , .75 N

ATOM 1512 CE1 HIS A 190 124 , .233 25 , .986 11 , .505 1 , .00112 , .14 C

ATOM 1513 NE2 HIS A 190 123 , .651 27 , .104 11 , .900 1 , .00113 , .10 N

ATOM 1514 CD2 HIS A 190 123 , .272 27 , .825 10 , .794 1 , .00111 , .06 C

ATOM 1515 C HIS A 190 121 , .908 27 , .475 6, .301 1 , .00 98 , .77 C

ATOM 1516 O HIS A 190 121 , .777 28 , .700 6, .269 1 , .00 99, .11 O

ATOM 1517 N VAL A 191 121 , .765 26, .708 5 , .222 1 , .00 96, .73 N

ATOM 1518 CA VAL A 191 121 , .453 27 , .279 3 , .913 1 , .00 92 , .97 C

ATOM 1519 CB VAL A 191 121 , .734 26, .286 2 , .765 1 , .00 93 , .24 C

ATOM 1520 CGI VAL A 191 121 , .399 26, .919 1 , .420 1 , .00 94 , .47 C

ATOM 1521 CG2 VAL A 191 123 , .188 25 , .832 2 , .791 1 , .00 92 , .73 C

ATOM 1522 C VAL A 191 119, .975 27 , .671 3 , .907 1 , .00 89, .35 C

ATOM 1523 O VAL A 191 119, .106 26, .804 4 , .023 1 , .00 88 , .41 0

ATOM 1524 N PRO A 192 119, .685 28 , .977 3 , .763 1 , .00 85 , .73 N

ATOM 1525 CA PRO A 192 118 , .304 29, .454 3 , .837 1 , .00 85 , .92 C

ATOM 1526 CB PRO A 192 118 , .465 30 , .977 3 , .882 1 , .00 85 , .56 C

ATOM 1527 CG PRO A 192 119, .733 31 , .239 3 , .152 1 , .00 85 , .62 C

ATOM 1528 CD PRO A 192 120 , .625 30 , .062 3 , .424 1 , .00 85 , .73 C

ATOM 1529 C PRO A 192 117 , .431 29, .038 2 , .650 1 , .00 87 , .68 C ATOM 1530 O PRO A 192 117 ,.916 28 ,.426 1 ,.694 1 ,.00 87 ,.51 O

ATOM 1531 N LEU A 193 116, .145 29, .368 2 , .734 1 , .00 88 , .68 N

ATOM 1532 CA LEU A 193 115 , .191 29, .059 1 , .675 1 , .00 88 , .77 C

ATOM 1533 CB LEU A 193 113 , .762 28 , .982 2 , .228 1 , .00 89, .66 C

ATOM 1534 CG LEU A 193 113 , .369 27 , .730 3 , .019 1 , .00 91 , .71 C

ATOM 1535 CD1 LEU A 193 114 , .294 27 , .487 4 , .203 1 , .00 93 , .84 C

ATOM 1536 CD2 LEU A 193 111 , .925 27 , .843 3 , .485 1 , .00 90 , .96 C

ATOM 1537 C LEU A 193 115 , .258 30 , .117 0 , .582 1 , .00 90 , .31 C

ATOM 1538 O LEU A 193 115 , .552 31 , .282 0 , .852 1 , .00 90 , .47 O

ATOM 1539 N ALA A 194 114 , .984 29, .701 -0 , .651 1 , .00 91 , .88 N

ATOM 1540 CA ALA A 194 114 , .947 30 , .620 -1 , .785 1 , .00 92 , .62 C

ATOM 1541 CB ALA A 194 115 , .054 29, .851 -3 , .092 1 , .00 94 , .08 C

ATOM 1542 C ALA A 194 113 , .647 31 , .413 -1 , .744 1 , .00 92 , .46 C

ATOM 1543 O ALA A 194 112 , .663 30 , .965 -1 , .151 1 , .00 92 , .11 O

ATOM 1544 N LYS A 195 113 , .645 32 , .593 -2 , .361 1 , .00 93 , .79 N

ATOM 1545 CA LYS A 195 112 , .437 33 , .415 -2 , .412 1 , .00 96, .51 C

ATOM 1546 CB LYS A 195 112 , .718 34 , .780 -3 , .041 1 , .00101 , .11 C

ATOM 1547 CG LYS A 195 113 , .591 35 , .670 -2 , .171 1 , .00108 , .63 C

ATOM 1548 CD LYS A 195 113 , .770 37 , .056 -2 , .769 1 , .00116, .33 C

ATOM 1549 CE LYS A 195 114 , .626 37 , .937 -1 , .870 1 , .00118 , .72 C

ATOM 1550 NZ LYS A 195 114 , .852 39, .289 -2 , .453 1 , .00120 , .76 N

ATOM 1551 C LYS A 195 111 , .364 32 , .666 -3 , .196 1 , .00 94 , .08 C

ATOM 1552 O LYS A 195 111 , .553 32 , .383 -4 , .380 1 , .00 94 , .57 O

ATOM 1553 N PRO A 196 110 , .239 32 , .335 -2 , .537 1 , .00 89, .68 N

ATOM 1554 CA PRO A 196 109, .214 31 , .518 -3 , .174 1 , .00 89, .92 C

ATOM 1555 CB PRO A 196 108 , .264 31 , .195 -2 , .021 1 , .00 90 , .30 C

ATOM 1556 CG PRO A 196 108 , .366 32 , .383 -1 , .137 1 , .00 89, .69 C

ATOM 1557 CD PRO A 196 109, .794 32 , .837 -1 , .224 1 , .00 89, .48 C

ATOM 1558 C PRO A 196 108 , .480 32 , .251 -4 , .291 1 , .00 88 , .68 C

ATOM 1559 O PRO A 196 108 , .298 33 , .467 -4 , .217 1 , .00 84 , .56 O

ATOM 1560 N LYS A 197 108 , .062 31 , .498 -5 , .308 1 , .00 89, .24 N

ATOM 1561 CA LYS A 197 107 , .406 32 , .056 -6, .486 1 , .00 90 , .03 C

ATOM 1562 CB LYS A 197 108 , .300 31 , .857 -7 , .708 1 , .00 94 , .64 C

ATOM 1563 CG LYS A 197 109, .639 32 , .561 -7 , .567 1 , .00102 , .22 C

ATOM 1564 CD LYS A 197 110 , .545 32 , .364 -8 , .768 1 , .00108 , .84 C

ATOM 1565 CE LYS A 197 111 , .819 33 , .181 -8 , .599 1 , .00114 , .08 C

ATOM 1566 NZ LYS A 197 112 , .776 33 , .008 -9, .726 1 , .00117 , .94 N

ATOM 1567 C LYS A 197 106, .035 31 , .434 -6, .711 1 , .00 87 , .01 C

ATOM 1568 O LYS A 197 105 , .739 30 , .359 -6, .192 1 , .00 86, .28 O

ATOM 1569 N VAL A 198 105 , .205 32 , .120 -7 , .492 1 , .00 85 , .50 N

ATOM 1570 CA VAL A 198 103 , .827 31 , .689 -7 , .739 1 , .00 84 , .79 C

ATOM 1571 CB VAL A 198 103 , .047 32 , .737 -8 , .567 1 , .00 84 , .93 C

ATOM 1572 CGI VAL A 198 101 , .643 32 , .239 -8 , .896 1 , .00 84 , .34 C

ATOM 1573 CG2 VAL A 198 102 , .983 34 , .067 -7 , .822 1 , .00 84 , .73 C

ATOM 1574 C VAL A 198 103 , .783 30 , .337 -8 , .452 1 , .00 83 , .78 C

ATOM 1575 O VAL A 198 104 , .502 30 , .119 -9, .426 1 , .00 82 , .25 O

ATOM 1576 N ALA A 199 102 , .938 29, .438 -7 , .952 1 , .00 85 , .82 N

ATOM 1577 CA ALA A 199 102 , .791 28 , .103 -8 , .529 1 , .00 87 , .01 C

ATOM 1578 CB ALA A 199 102 , .153 27 , .159 -7 , .521 1 , .00 87 , .79 C

ATOM 1579 C ALA A 199 101 , .950 28 , .165 -9, .799 1 , .00 86, .64 C

ATOM 1580 O ALA A 199 100 , .884 28 , .778 -9, .811 1 , .00 85 , .61 O

ATOM 1581 N ARG A 200 102 , .434 27 , .526 -10 , .862 1 , .00 87 , .46 N

ATOM 1582 CA ARG A 200 101 , .745 27 , .524 -12 , .153 1 , .00 85 , .78 C

ATOM 1583 CB ARG A 200 102 , .754 27 , .716 -13 , .284 1 , .00 87 , .93 C

ATOM 1584 CG ARG A 200 103 , .507 29, .037 -13 , .218 1 , .00 90 , .52 C

ATOM 1585 CD ARG A 200 104 , .596 29, .114 -14 , .276 1 , .00 92 , .57 C

ATOM 1586 NE ARG A 200 104 , .039 29, .134 -15 , .626 1 , .00 94 , .90 N

ATOM 1587 CZ ARG A 200 103 , .594 30 , .223 -16, .251 1 , .00 97 , .54 C

ATOM 1588 NH1 ARG A 200 103 , .104 30 , .118 -17 , .481 1 , .00100 , .03 N ATOM 1589 NH2 ARG A 200 103 ,.630 31 ,.416 -15 ,.663 1 ,.00 98 ,.92 N

ATOM 1590 C ARG A 200 100 , .978 26, .224 -12 , .355 1 , .00 83 , .28 C

ATOM 1591 O ARG A 200 101 , .387 25 , .176 -11 , .855 1 , .00 84 , .83 O

ATOM 1592 N ARG A 201 99, .866 26, .299 -13 , .087 1 , .00 82 , .76 N

ATOM 1593 CA ARG A 201 99, .032 25 , .127 -13 , .374 1 , .00 84 , .44 C

ATOM 1594 CB ARG A 201 97 , .675 25 , .557 -13 , .940 1 , .00 82 , .09 C

ATOM 1595 CG ARG A 201 96, .632 24 , .456 -13 , .958 1 , .00 79, .77 C

ATOM 1596 CD ARG A 201 95 , .331 24 , .954 -14 , .554 1 , .00 79, .28 C

ATOM 1597 NE ARG A 201 94 , .242 23 , .990 -14 , .392 1 , .00 80 , .17 N

ATOM 1598 CZ ARG A 201 93 , .447 23 , .899 -13 , .323 1 , .00 79, .41 C

ATOM 1599 NH1 ARG A 201 92 , .485 22 , .982 -13 , .298 1 , .00 79, .97 N

ATOM 1600 NH2 ARG A 201 93 , .600 24 , .707 -12 , .279 1 , .00 79, .24 N

ATOM 1601 C ARG A 201 99, .786 24 , .225 -14 , .352 1 , .00 87 , .56 C

ATOM 1602 O ARG A 201 99, .591 24 , .278 -15 , .563 1 , .00 85 , .14 O

ATOM 1603 N CYS A 202 100 , .640 23 , .380 -13 , .792 1 , .00 94 , .65 N

ATOM 1604 CA CYS A 202 101 , .609 22 , .608 -14 , .559 1 , .00 95 , .70 C

ATOM 1605 CB CYS A 202 102 , .867 22 , .449 -13 , .708 1 , .00 99, .41 C

ATOM 1606 SG CYS A 202 104 , .213 21 , .618 -14 , .557 1 , .00111 , .34 S

ATOM 1607 C CYS A 202 101 , .142 21 , .228 -15 , .009 1 , .00 93 , .03 C

ATOM 1608 O CYS A 202 101 , .151 20 , .921 -16, .198 1 , .00 90 , .38 O

ATOM 1609 N GLY A 203 100 , .750 20 , .400 -14 , .046 1 , .00 94 , .84 N

ATOM 1610 CA GLY A 203 100 , .396 19, .003 -14 , .295 1 , .00 95 , .40 C

ATOM 1611 C GLY A 203 99, .189 18 , .741 -15 , .174 1 , .00 94 , .49 C

ATOM 1612 O GLY A 203 98 , .573 19, .662 -15 , .708 1 , .00 95 , .78 O

ATOM 1613 N ALA A 204 98 , .860 17 , .462 -15 , .312 1 , .00 93 , .19 N

ATOM 1614 CA ALA A 204 97 , .767 17 , .027 -16, .167 1 , .00 94 , .27 C

ATOM 1615 CB ALA A 204 98 , .058 15 , .637 -16, .707 1 , .00 94 , .46 C

ATOM 1616 C ALA A 204 96, .443 17 , .021 -15 , .425 1 , .00 98 , .11 C

ATOM 1617 O ALA A 204 96, .405 16, .857 -14 , .206 1 , .00102 , .18 O

ATOM 1618 N ASP A 205 95 , .361 17 , .206 -16, .176 1 , .00103 , .96 N

ATOM 1619 CA ASP A 205 94 , .000 17 , .120 -15 , .642 1 , .00110 , .17 C

ATOM 1620 CB ASP A 205 93 , .586 18 , .402 -14 , .895 1 , .00112 , .33 C

ATOM 1621 CG ASP A 205 93 , .754 19, .665 -15 , .729 1 , .00113 , .97 C

ATOM 1622 OD1 ASP A 205 94 , .538 19, .648 -16, .705 1 , .00121 , .66 O

ATOM 1623 OD2 ASP A 205 93 , .104 20 , .682 -15 , .395 1 , .00108 , .73 O

ATOM 1624 C ASP A 205 93 , .024 16, .790 -16, .777 1 , .00110 , .88 c

ATOM 1625 O ASP A 205 92 , .516 17 , .692 -17 , .446 1 , .00112 , .06 0

ATOM 1626 N PRO A 206 92 , .781 15 , .487 -17 , .013 1 , .00110 , .76 N

ATOM 1627 CA PRO A 206 91 , .870 15 , .035 -18 , .068 1 , .00113 , .60 C

ATOM 1628 CB PRO A 206 91 , .710 13 , .543 -17 , .767 1 , .00113 , .91 C

ATOM 1629 CG PRO A 206 92 , .992 13 , .157 -17 , .117 1 , .00113 , .31 C

ATOM 1630 CD PRO A 206 93 , .432 14 , .354 -16, .327 1 , .00111 , .03 C

ATOM 1631 C PRO A 206 90 , .500 15 , .726 -18 , .064 1 , .00115 , .91 c

ATOM 1632 O PRO A 206 89, .961 16, .030 -19, .131 1 , .00114 , .76 0

ATOM 1633 N ASP A 207 89, .960 15 , .974 -16, .872 1 , .00115 , .90 N

ATOM 1634 CA ASP A 207 88 , .638 16, .587 -16, .709 1 , .00115 , .10 C

ATOM 1635 CB ASP A 207 88 , .322 16, .779 -15 , .220 1 , .00116, .51 C

ATOM 1636 CG ASP A 207 88 , .249 15 , .466 -14 , .456 1 , .00118 , .65 C

ATOM 1637 OD1 ASP A 207 88 , .492 14 , .399 -15 , .061 1 , .00120 , .29 O

ATOM 1638 OD2 ASP A 207 87 , .950 15 , .505 -13 , .244 1 , .00117 , .90 0

ATOM 1639 C ASP A 207 88 , .484 17 , .927 -17 , .428 1 , .00114 , .57 c

ATOM 1640 O ASP A 207 87 , .439 18 , .192 -18 , .023 1 , .00120 , .87 0

ATOM 1641 N HIS A 208 89, .521 18 , .760 -17 , .376 1 , .00113 , .32 N

ATOM 1642 CA HIS A 208 89, .483 20 , .096 -17 , .988 1 , .00113 , .45 C

ATOM 1643 CB HIS A 208 90 , .067 21 , .132 -17 , .017 1 , .00115 , .37 C

ATOM 1644 CG HIS A 208 89, .172 21 , .444 -15 , .857 1 , .00117 , .34 C

ATOM 1645 ND1 HIS A 208 88 , .893 20 , .531 -14 , .863 1 , .00120 , .15 N

ATOM 1646 CE1 HIS A 208 88 , .082 21 , .080 -13 , .975 1 , .00119, .71 C

ATOM 1647 NE2 HIS A 208 87 , .829 22 , .320 -14 , .355 1 , .00121 , .26 N ATOM 1648 CD2 HIS A 208 88 ,.499 22 ,.573 -15 ,.528 1 ,.00119,.91 C

ATOM 1649 C HIS A 208 90 , .182 20 , .175 -19, .356 1 , .00112 , .20 C

ATOM 1650 O HIS A 208 90 , .581 21 , .259 -19, .788 1 , .00107 , .64 O

ATOM 1651 N GLY A 209 90 , .323 19, .037 -20 , .036 1 , .00114 , .07 N

ATOM 1652 CA GLY A 209 90 , .876 19, .007 -21 , .392 1 , .00116, .91 C

ATOM 1653 C GLY A 209 92 , .220 18 , .320 -21 , .533 1 , .00121 , .22 C

ATOM 1654 O GLY A 209 92 , .299 17 , .200 -22 , .040 1 , .00125 , .14 O

ATOM 1655 N LYS A 210 93 , .276 18 , .995 -21 , .081 1 , .00123 , .83 N

ATOM 1656 CA LYS A 210 94 , .650 18 , .501 -21 , .232 1 , .00123 , .76 C

ATOM 1657 CB LYS A 210 95 , .645 19, .588 -20 , .823 1 , .00129, .30 C

ATOM 1658 CG LYS A 210 95 , .595 20 , .797 -21 , .742 1 , .00137 , .32 C

ATOM 1659 CD LYS A 210 96, .602 21 , .857 -21 , .349 1 , .00141 , .35 C

ATOM 1660 CE LYS A 210 96, .470 23 , .076 -22 , .249 1 , .00142 , .74 C

ATOM 1661 NZ LYS A 210 97 , .345 24 , .190 -21 , .804 1 , .00145 , .82 N

ATOM 1662 C LYS A 210 94 , .936 17 , .227 -20 , .440 1 , .00118 , .22 C

ATOM 1663 O LYS A 210 94 , .935 17 , .261 -19, .210 1 , .00115 , .67 O

ATOM 1664 N PRO A 211 95 , .191 16, .103 -21 , .144 1 , .00112 , .92 N

ATOM 1665 CA PRO A 211 95 , .491 14 , .842 -20 , .476 1 , .00111 , .37 C

ATOM 1666 CB PRO A 211 94 , .974 13 , .806 -21 , .474 1 , .00111 , .45 C

ATOM 1667 CG PRO A 211 95 , .191 14 , .441 -22 , .807 1 , .00112 , .22 C

ATOM 1668 CD PRO A 211 95 , .187 15 , .936 -22 , .612 1 , .00112 , .40 C

ATOM 1669 C PRO A 211 96, .986 14 , .615 -20 , .204 1 , .00108 , .39 C

ATOM 1670 O PRO A 211 97 , .336 13 , .704 -19, .453 1 , .00106, .62 O

ATOM 1671 N ASP A 212 97 , .850 15 , .431 -20 , .808 1 , .00106, .42 N

ATOM 1672 CA ASP A 212 99, .298 15 , .296 -20 , .656 1 , .00105 , .63 C

ATOM 1673 CB ASP A 212 99, .967 15 , .171 -22 , .029 1 , .00108 , .37 C

ATOM 1674 CG ASP A 212 99, .534 13 , .927 -22 , .786 1 , .00111 , .39 C

ATOM 1675 OD1 ASP A 212 99, .239 12 , .896 -22 , .141 1 , .00110 , .82 O

ATOM 1676 OD2 ASP A 212 99, .505 13 , .982 -24 , .034 1 , .00113 , .97 O

ATOM 1677 C ASP A 212 99, .883 16, .499 -19, .930 1 , .00101 , .27 c

ATOM 1678 O ASP A 212 99, .555 17 , .644 -20 , .248 1 , .00 99, .99 0

ATOM 1679 N ALA A 213 100 , .766 16, .234 -18 , .970 1 , .00 96, .39 N

ATOM 1680 CA ALA A 213 101 , .421 17 , .292 -18 , .205 1 , .00 92 , .95 C

ATOM 1681 CB ALA A 213 102 , .143 16, .702 -17 , .007 1 , .00 93 , .67 C

ATOM 1682 C ALA A 213 102 , .404 18 , .066 -19, .077 1 , .00 90 , .86 C

ATOM 1683 O ALA A 213 102 , .891 17 , .548 -20 , .081 1 , .00 91 , .44 O

ATOM 1684 N VAL A 214 102 , .694 19, .303 -18 , .683 1 , .00 89, .07 N

ATOM 1685 CA VAL A 214 103 , .615 20 , .160 -19, .426 1 , .00 90 , .36 C

ATOM 1686 CB VAL A 214 102 , .894 21 , .402 -19, .986 1 , .00 90 , .82 C

ATOM 1687 CGI VAL A 214 103 , .848 22 , .256 -20 , .817 1 , .00 92 , .38 C

ATOM 1688 CG2 VAL A 214 101 , .700 20 , .974 -20 , .828 1 , .00 92 , .12 C

ATOM 1689 C VAL A 214 104 , .780 20 , .571 -18 , .519 1 , .00 92 , .80 C

ATOM 1690 O VAL A 214 104 , .756 21 , .652 -17 , .931 1 , .00 94 , .19 0

ATOM 1691 N PRO A 215 105 , .809 19, .705 -18 , .408 1 , .00 93 , .71 N

ATOM 1692 CA PRO A 215 106, .980 19, .938 -17 , .548 1 , .00 93 , .49 C

ATOM 1693 CB PRO A 215 108 , .004 18 , .906 -18 , .037 1 , .00 93 , .83 C

ATOM 1694 CG PRO A 215 107 , .254 17 , .909 -18 , .850 1 , .00 94 , .23 C

ATOM 1695 CD PRO A 215 105 , .857 18 , .391 -19, .077 1 , .00 93 , .70 C

ATOM 1696 C PRO A 215 107 , .585 21 , .339 -17 , .653 1 , .00 94 , .44 C

ATOM 1697 O PRO A 215 108 , .031 21 , .893 -16, .649 1 , .00 95 , .00 0

ATOM 1698 N GLY A 216 107 , .604 21 , .896 -18 , .861 1 , .00 93 , .59 N

ATOM 1699 CA GLY A 216 108 , .176 23 , .218 -19, .100 1 , .00 91 , .57 C

ATOM 1700 C GLY A 216 107 , .431 24 , .382 -18 , .468 1 , .00 91 , .34 C

ATOM 1701 O GLY A 216 107 , .971 25 , .484 -18 , .381 1 , .00 93 , .81 O

ATOM 1702 N ASN A 217 106, .196 24 , .145 -18 , .030 1 , .00 90 , .53 N

ATOM 1703 CA ASN A 217 105 , .355 25 , .193 -17 , .451 1 , .00 89, .29 C

ATOM 1704 CB ASN A 217 103 , .918 24 , .992 -17 , .933 1 , .00 87 , .44 C

ATOM 1705 CG ASN A 217 103 , .098 26, .271 -17 , .916 1 , .00 86, .60 C

ATOM 1706 OD1 ASN A 217 103 , .606 27 , .361 -18 , .182 1 , .00 82 , .24 O ATOM 1707 ND2 ASN A 217 101 ,.812 26,.133 -17 ,.613 1 ,.00 88 ,.48 N

ATOM 1708 C ASN A 217 105 , .377 25 , .209 -15 , .921 1 , .00 90 , .89 C

ATOM 1709 O ASN A 217 104 , .729 26, .049 -15 , .301 1 , .00 93 , .27 O

ATOM 1710 N CYS A 218 106, .122 24 , .285 -15 , .321 1 , .00 92 , .57 N

ATOM 1711 CA CYS A 218 106, .186 24 , .151 -13 , .861 1 , .00 92 , .13 C

ATOM 1712 CB CYS A 218 106, .800 22 , .797 -13 , .471 1 , .00 95 , .46 C

ATOM 1713 SG CYS A 218 105 , .647 21 , .446 -13 , .139 1 , .00101 , .99 S

ATOM 1714 C CYS A 218 106, .993 25 , .242 -13 , .171 1 , .00 89, .73 C

ATOM 1715 O CYS A 218 107 , .875 25 , .855 -13 , .769 1 , .00 90 , .36 O

ATOM 1716 N THR A 219 106, .663 25 , .468 -11 , .902 1 , .00 89, .47 N

ATOM 1717 CA THR A 219 107 , .444 26, .320 -11 , .015 1 , .00 89, .67 C

ATOM 1718 CB THR A 219 106, .547 27 , .210 -10 , .139 1 , .00 89, .31 C

ATOM 1719 OG1 THR A 219 105 , .719 28 , .023 -10 , .977 1 , .00 89, .54 O

ATOM 1720 CG2 THR A 219 107 , .386 28 , .109 -9, .241 1 , .00 89, .94 C

ATOM 1721 C THR A 219 108 , .222 25 , .325 -10 , .157 1 , .00 89, .67 C

ATOM 1722 O THR A 219 107 , .624 24 , .568 -9, .388 1 , .00 88 , .45 0

ATOM 1723 N TYR A 220 109, .546 25 , .319 -10 , .295 1 , .00 88 , .06 N

ATOM 1724 CA TYR A 220 110 , .376 24 , .283 -9, .673 1 , .00 87 , .99 C

ATOM 1725 CB TYR A 220 111 , .469 23 , .834 -10 , .651 1 , .00 85 , .51 C

ATOM 1726 CG TYR A 220 110 , .940 22 , .896 -11 , .707 1 , .00 84 , .82 C

ATOM 1727 CD1 TYR A 220 110 , .797 21 , .540 -11 , .438 1 , .00 85 , .64 C

ATOM 1728 CE1 TYR A 220 110 , .303 20 , .669 -12 , .390 1 , .00 87 , .79 C

ATOM 1729 CZ TYR A 220 109, .938 21 , .150 -13 , .629 1 , .00 87 , .64 c

ATOM 1730 OH TYR A 220 109, .447 20 , .273 -14 , .565 1 , .00 92 , .31 0

ATOM 1731 CE2 TYR A 220 110 , .066 22 , .495 -13 , .923 1 , .00 85 , .64 c

ATOM 1732 CD2 TYR A 220 110 , .560 23 , .361 -12 , .963 1 , .00 84 , .72 c

ATOM 1733 C TYR A 220 110 , .982 24 , .613 -8 , .309 1 , .00 89, .61 c

ATOM 1734 O TYR A 220 111 , .157 23 , .715 -7 , .484 1 , .00 90 , .52 0

ATOM 1735 N GLY A 221 111 , .296 25 , .879 -8 , .060 1 , .00 88 , .76 N

ATOM 1736 CA GLY A 221 111 , .916 26, .265 -6, .791 1 , .00 88 , .20 C

ATOM 1737 C GLY A 221 110 , .953 26, .231 -5 , .612 1 , .00 84 , .48 c

ATOM 1738 O GLY A 221 110 , .070 25 , .375 -5 , .532 1 , .00 80 , .92 0

ATOM 1739 N ALA A 222 111 , .142 27 , .164 -4 , .684 1 , .00 81 , .28 N

ATOM 1740 CA ALA A 222 110 , .228 27 , .326 -3 , .564 1 , .00 79, .28 C

ATOM 1741 CB ALA A 222 110 , .833 28 , .242 -2 , .510 1 , .00 80 , .09 C

ATOM 1742 C ALA A 222 108 , .935 27 , .919 -4 , .105 1 , .00 76, .65 C

ATOM 1743 O ALA A 222 108 , .970 28 , .817 -4 , .947 1 , .00 77 , .00 O

ATOM 1744 N LYS A 223 107 , .799 27 , .420 -3 , .628 1 , .00 75 , .17 N

ATOM 1745 CA LYS A 223 106, .499 27 , .890 -4 , .102 1 , .00 73 , .94 C

ATOM 1746 CB LYS A 223 105 , .717 26, .727 -4 , .719 1 , .00 74 , .06 C

ATOM 1747 CG LYS A 223 106, .187 26, .356 -6, .117 1 , .00 72 , .01 C

ATOM 1748 CD LYS A 223 105 , .382 25 , .206 -6, .701 1 , .00 70 , .96 C

ATOM 1749 CE LYS A 223 105 , .802 23 , .859 -6, .137 1 , .00 70 , .20 C

ATOM 1750 NZ LYS A 223 107 , .178 23 , .471 -6, .561 1 , .00 69, .98 N

ATOM 1751 C LYS A 223 105 , .666 28 , .563 -3 , .014 1 , .00 72 , .76 C

ATOM 1752 O LYS A 223 105 , .661 28 , .132 -1 , .863 1 , .00 77 , .03 O

ATOM 1753 N GLN A 224 104 , .959 29, .622 -3 , .399 1 , .00 71 , .94 N

ATOM 1754 CA GLN A 224 104 , .062 30 , .330 -2 , .490 1 , .00 71 , .49 C

ATOM 1755 CB GLN A 224 103 , .700 31 , .707 -3 , .047 1 , .00 69, .85 C

ATOM 1756 CG GLN A 224 104 , .875 32 , .633 -3 , .299 1 , .00 67 , .77 C

ATOM 1757 CD GLN A 224 104 , .429 34 , .012 -3 , .742 1 , .00 67 , .40 C

ATOM 1758 OE1 GLN A 224 103 , .238 34 , .263 -3 , .939 1 , .00 68 , .00 O

ATOM 1759 NE2 GLN A 224 105 , .384 34 , .919 -3 , .894 1 , .00 68 , .81 N

ATOM 1760 C GLN A 224 102 , .772 29, .537 -2 , .320 1 , .00 71 , .05 C

ATOM 1761 O GLN A 224 102 , .475 28 , .664 -3 , .132 1 , .00 72 , .16 O

ATOM 1762 N PRO A 225 101 , .989 29, .846 -1 , .270 1 , .00 72 , .77 N

ATOM 1763 CA PRO A 225 100 , .696 29, .177 -1 , .136 1 , .00 72 , .88 C

ATOM 1764 CB PRO A 225 100 , .196 29, .624 0 , .248 1 , .00 72 , .02 C

ATOM 1765 CG PRO A 225 101 , .396 30 , .150 0 , .956 1 , .00 73 , .36 C ATOM 1766 CD PRO A 225 102..278 30 ,.714 -0 ,.116 1 ,.00 73 ,.96 C

ATOM 1767 C PRO A 225 99. .735 29, .633 -2 , .230 1 , .00 72 , .69 C

ATOM 1768 O PRO A 225 99. .995 30 , .629 -2 , .903 1 , .00 73 , .43 O

ATOM 1769 N LEU A 226 98. .637 28 , .904 -2 , .397 1 , .00 72 , .76 N

ATOM 1770 CA LEU A 226 97. .638 29, .223 -3 , .411 1 , .00 71 , .49 C

ATOM 1771 CB LEU A 226 96. .976 27 , .935 -3 , .908 1 , .00 71 , .67 C

ATOM 1772 CG LEU A 226 97. .921 26, .901 -4 , .523 1 , .00 72 , .47 C

ATOM 1773 CD1 LEU A 226 97. .232 25 , .551 -4 , .637 1 , .00 72 , .82 C

ATOM 1774 CD2 LEU A 226 98. .436 27 , .365 -5 , .879 1 , .00 73 , .04 C

ATOM 1775 C LEU A 226 96. .579 30 , .175 -2 , .857 1 , .00 71 , .78 C

ATOM 1776 O LEU A 226 95. .613 29, .740 -2 , .222 1 , .00 75 , .71 O

ATOM 1777 N TYR A 227 96. .773 31 , .474 -3 , .083 1 , .00 69, .55 N

ATOM 1778 CA TYR A 227 95. .798 32 , .485 -2 , .666 1 , .00 70 , .32 C

ATOM 1779 CB TYR A 227 96. .469 33 , .819 -2 , .358 1 , .00 70 , .40 C

ATOM 1780 CG TYR A 227 97. .631 33 , .712 -1 , .404 1 , .00 70 , .85 C

ATOM 1781 CD1 TYR A 227 97. .499 33 , .054 -0 , .183 1 , .00 72 , .80 C

ATOM 1782 CE1 TYR A 227 98. .562 32 , .964 0 , .702 1 , .00 71 , .55 C

ATOM 1783 CZ TYR A 227 99. .771 33 , .541 0 , .371 1 , .00 71 , .70 C

ATOM 1784 OH TYR A 227 100. .833 33 , .460 1 , .236 1 , .00 71 , .35 0

ATOM 1785 CE2 TYR A 227 99. .925 34 , .200 -0 , .833 1 , .00 73 , .08 c

ATOM 1786 CD2 TYR A 227 98. .858 34 , .285 -1 , .710 1 , .00 71 , .37 c

ATOM 1787 C TYR A 227 94. .801 32 , .649 -3 , .800 1 , .00 69, .55 c

ATOM 1788 O TYR A 227 95. .157 33 , .101 -4 , .890 1 , .00 66, .57 0

ATOM 1789 N TRP A 228 93. .548 32 , .300 -3 , .531 1 , .00 70 , .33 N

ATOM 1790 CA TRP A 228 92. .557 32 , .191 -4 , .585 1 , .00 70 , .72 C

ATOM 1791 CB TRP A 228 92. .648 30 , .765 -5 , .144 1 , .00 70 , .69 C

ATOM 1792 CG TRP A 228 91. .719 30 , .467 -6, .247 1 , .00 70 , .07 c

ATOM 1793 CD1 TRP A 228 91. .780 30 , .943 -7 , .518 1 , .00 71 , .56 c

ATOM 1794 NE1 TRP A 228 90. .750 30 , .431 -8 , .263 1 , .00 71 , .58 N

ATOM 1795 CE2 TRP A 228 90. .004 29, .601 -7 , .472 1 , .00 68 , .67 C

ATOM 1796 CD2 TRP A 228 90. .592 29, .598 -6, .194 1 , .00 68 , .31 C

ATOM 1797 CE3 TRP A 228 90. .020 28 , .817 -5 , .188 1 , .00 68 , .07 C

ATOM 1798 CZ3 TRP A 228 88. .899 28 , .087 -5 , .481 1 , .00 68 , .67 C

ATOM 1799 CH2 TRP A 228 88. .329 28 , .114 -6, .767 1 , .00 69, .73 c

ATOM 1800 CZ2 TRP A 228 88. .871 28 , .862 -7 , .770 1 , .00 69, .10 c

ATOM 1801 C TRP A 228 91. .139 32 , .504 -4 , .106 1 , .00 71 , .61 c

ATOM 1802 O TRP A 228 90. .819 32 , .346 -2 , .928 1 , .00 70 , .99 0

ATOM 1803 N LEU A 229 90. .312 32 , .980 -5 , .035 1 , .00 74 , .68 N

ATOM 1804 CA LEU A 229 88. .887 33 , .246 -4 , .803 1 , .00 75 , .33 C

ATOM 1805 CB LEU A 229 88. .181 31 , .963 -4 , .351 1 , .00 74 , .13 C

ATOM 1806 CG LEU A 229 86. .713 31 , .815 -4 , .751 1 , .00 75 , .62 C

ATOM 1807 CD1 LEU A 229 86. .613 31 , .384 -6, .209 1 , .00 75 , .47 c

ATOM 1808 CD2 LEU A 229 86. .015 30 , .802 -3 , .857 1 , .00 76, .28 c

ATOM 1809 C LEU A 229 88. .607 34 , .376 -3 , .803 1 , .00 76, .75 c

ATOM 1810 O LEU A 229 87. .518 34 , .435 -3 , .232 1 , .00 78 , .50 0

ATOM 1811 N GLN A 230 89. .568 35 , .277 -3 , .607 1 , .00 78 , .20 N

ATOM 1812 CA GLN A 230 89. .400 36, .389 -2 , .668 1 , .00 81 , .19 C

ATOM 1813 CB GLN A 230 90. .621 36, .510 -1 , .748 1 , .00 80 , .60 C

ATOM 1814 CG GLN A 230 90. .956 35 , .236 -0 , .995 1 , .00 80 , .41 c

ATOM 1815 CD GLN A 230 89. .756 34 , .657 -0 , .267 1 , .00 80 , .81 c

ATOM 1816 OE1 GLN A 230 89. .005 35 , .378 0 , .385 1 , .00 81 , .10 0

ATOM 1817 NE2 GLN A 230 89. .567 33 , .350 -0 , .383 1 , .00 80 , .45 N

ATOM 1818 C GLN A 230 89. .173 37 , .707 -3 , .393 1 , .00 83 , .69 C

ATOM 1819 O GLN A 230 89. .290 37 , .785 -4 , .615 1 , .00 85 , .42 O

ATOM 1820 N LYS A 231 88. .852 38 , .741 -2 , .625 1 , .00 86, .49 N

ATOM 1821 CA LYS A 231 88. .640 40 , .070 -3 , .173 1 , .00 87 , .59 C

ATOM 1822 CB LYS A 231 87. .760 40 , .892 -2 , .231 1 , .00 91 , .33 C

ATOM 1823 CG LYS A 231 87. .261 42 , .196 -2 , .825 1 , .00 95 , .93 C

ATOM 1824 CD LYS A 231 86. .089 42 , .745 -2 , .028 1 , .00 98 , .90 C ATOM 1825 CE LYS A 231 85 ,.572 44 ,.044 -2 ,.621 1 ,.00102..14 C

ATOM 1826 NZ LYS A 231 84 , .321 44 , .487 -1 , .950 1 , .00104. .65 N

ATOM 1827 C LYS A 231 89, .971 40 , .778 -3 , .412 1 , .00 87. .28 C

ATOM 1828 O LYS A 231 90 , .073 41 , .614 -4 , .307 1 , .00 88. .94 O

ATOM 1829 N GLU A 232 90 , .986 40 , .440 -2 , .615 1 , .00 89. .06 N

ATOM 1830 CA GLU A 232 92 , .305 41 , .067 -2 , .724 1 , .00 90. .80 C

ATOM 1831 CB GLU A 232 92 , .448 42 , .184 -1 , .683 1 , .00 94. .95 C

ATOM 1832 CG GLU A 232 91 , .340 43 , .231 -1 , .678 1 , .00 98. .24 C

ATOM 1833 CD GLU A 232 91 , .492 44 , .250 -0 , .559 1 , .00 99. .79 C

ATOM 1834 OE1 GLU A 232 92 , .363 44 , .064 0 , .319 1 , .00100. .02 O

ATOM 1835 OE2 GLU A 232 90 , .727 45 , .237 -0 , .549 1 , .00101. .71 O

ATOM 1836 C GLU A 232 93 , .449 40 , .074 -2 , .508 1 , .00 88. .75 C

ATOM 1837 O GLU A 232 93 , .289 39, .063 -1 , .825 1 , .00 87. .80 0

ATOM 1838 N GLY A 233 94 , .604 40 , .383 -3 , .095 1 , .00 87. .81 N

ATOM 1839 CA GLY A 233 95 , .838 39, .625 -2 , .874 1 , .00 86. .80 C

ATOM 1840 C GLY A 233 95 , .893 38 , .203 -3 , .401 1 , .00 85. .56 C

ATOM 1841 O GLY A 233 96, .456 37 , .325 -2 , .750 1 , .00 86. .63 O

ATOM 1842 N ASN A 234 95 , .327 37 , .978 -4 , .582 1 , .00 85. .54 N

ATOM 1843 CA ASN A 234 95 , .341 36, .658 -5 , .210 1 , .00 85. .24 C

ATOM 1844 CB ASN A 234 94 , .073 36, .455 -6, .043 1 , .00 85. .03 C

ATOM 1845 CG ASN A 234 92 , .838 36, .264 -5 , .192 1 , .00 84. .34 C

ATOM 1846 OD1 ASN A 234 92 , .732 35 , .297 -4 , .442 1 , .00 86. .46 O

ATOM 1847 ND2 ASN A 234 91 , .886 37 , .171 -5 , .322 1 , .00 85. .12 N

ATOM 1848 C ASN A 234 96, .554 36, .467 -6, .115 1 , .00 86. .89 C

ATOM 1849 O ASN A 234 96, .942 37 , .384 -6, .843 1 , .00 87. .53 O

ATOM 1850 N ASN A 235 97 , .151 35 , .278 -6, .060 1 , .00 86. .38 N

ATOM 1851 CA ASN A 235 98 , .233 34 , .899 -6, .979 1 , .00 86. .26 C

ATOM 1852 CB ASN A 235 99, .465 34 , .387 -6, .221 1 , .00 86. .78 C

ATOM 1853 CG ASN A 235 99, .156 33 , .219 -5 , .310 1 , .00 89. .65 C

ATOM 1854 OD1 ASN A 235 98 , .019 32 , .754 -5 , .232 1 , .00 91. .82 O

ATOM 1855 ND2 ASN A 235 100 , .173 32 , .742 -4 , .603 1 , .00 93. .67 N

ATOM 1856 C ASN A 235 97 , .753 33 , .875 -8 , .019 1 , .00 86. .12 C

ATOM 1857 O ASN A 235 98 , .416 33 , .661 -9, .035 1 , .00 86. .94 O

ATOM 1858 N GLU A 236 96, .610 33 , .240 -7 , .749 1 , .00 84. .08 N

ATOM 1859 CA GLU A 236 95 , .962 32 , .338 -8 , .697 1 , .00 84. .15 C

ATOM 1860 CB GLU A 236 95 , .678 30 , .980 -8 , .058 1 , .00 86. .71 C

ATOM 1861 CG GLU A 236 96, .901 30 , .285 -7 , .479 1 , .00 87. .83 C

ATOM 1862 CD GLU A 236 97 , .991 30 , .039 -8 , .502 1 , .00 88. .15 C

ATOM 1863 OE1 GLU A 236 97 , .673 29, .826 -9, .691 1 , .00 90. .60 O

ATOM 1864 OE2 GLU A 236 99, .171 30 , .051 -8 , .107 1 , .00 91. .39 O

ATOM 1865 C GLU A 236 94 , .652 32 , .977 -9, .136 1 , .00 83. .78 c

ATOM 1866 O GLU A 236 93 , .927 33 , .542 -8 , .314 1 , .00 82. .36 0

ATOM 1867 N PHE A 237 94 , .351 32 , .889 -10 , .431 1 , .00 82. .30 N

ATOM 1868 CA PHE A 237 93 , .163 33 , .530 -10 , .991 1 , .00 79. .56 C

ATOM 1869 CB PHE A 237 93 , .587 34 , .682 -11 , .900 1 , .00 78. .27 C

ATOM 1870 CG PHE A 237 94 , .560 35 , .626 -11 , .260 1 , .00 77. .48 C

ATOM 1871 CD1 PHE A 237 94 , .115 36, .639 -10 , .424 1 , .00 78. .26 C

ATOM 1872 CE1 PHE A 237 95 , .011 37 , .512 -9, .830 1 , .00 79. .61 c

ATOM 1873 CZ PHE A 237 96, .368 37 , .378 -10 , .069 1 , .00 80. .36 c

ATOM 1874 CE2 PHE A 237 96, .825 36, .370 -10 , .900 1 , .00 79. .83 c

ATOM 1875 CD2 PHE A 237 95 , .922 35 , .499 -11 , .489 1 , .00 78. .69 c

ATOM 1876 C PHE A 237 92 , .275 32 , .558 -11 , .763 1 , .00 79. .29 c

ATOM 1877 O PHE A 237 91 , .539 32 , .967 -12 , .664 1 , .00 81. .99 0

ATOM 1878 N ASP A 238 92 , .327 31 , .279 -11 , .400 1 , .00 77. .44 N

ATOM 1879 CA ASP A 238 91 , .510 30 , .265 -12 , .062 1 , .00 77. .10 C

ATOM 1880 CB ASP A 238 91 , .932 28 , .856 -11 , .639 1 , .00 78. .33 c

ATOM 1881 CG ASP A 238 93 , .362 28 , .523 -12 , .033 1 , .00 79. .57 c

ATOM 1882 OD1 ASP A 238 94 , .279 29, .312 -11 , .712 1 , .00 79. .76 0

ATOM 1883 OD2 ASP A 238 93 , .567 27 , .455 -12 , .648 1 , .00 82. .19 0 ATOM 1884 C ASP A 238 90 ,.031 30 ,.473 -11 ,.746 1 ,.00 75 ,.52 C

ATOM 1885 O ASP A 238 89, .684 31 , .143 -10 , .775 1 , .00 73 , .58 O

ATOM 1886 N ASP A 239 89, .164 29, .900 -12 , .572 1 , .00 77 , .44 N

ATOM 1887 CA ASP A 239 87 , .727 30 , .036 -12 , .373 1 , .00 78 , .86 C

ATOM 1888 CB ASP A 239 86, .955 29, .654 -13 , .642 1 , .00 81 , .52 C

ATOM 1889 CG ASP A 239 85 , .477 30 , .011 -13 , .560 1 , .00 82 , .95 C

ATOM 1890 OD1 ASP A 239 84 , .643 29, .085 -13 , .509 1 , .00 78 , .59 O

ATOM 1891 OD2 ASP A 239 85 , .153 31 , .218 -13 , .519 1 , .00 85 , .56 O

ATOM 1892 C ASP A 239 87 , .260 29, .164 -11 , .216 1 , .00 77 , .00 C

ATOM 1893 O ASP A 239 87 , .864 28 , .137 -10 , .916 1 , .00 77 , .36 O

ATOM 1894 N TYR A 240 86, .175 29, .599 -10 , .584 1 , .00 77 , .15 N

ATOM 1895 CA TYR A 240 85 , .514 28 , .897 -9, .484 1 , .00 78 , .20 C

ATOM 1896 CB TYR A 240 84 , .096 29, .465 -9, .351 1 , .00 78 , .56 C

ATOM 1897 CG TYR A 240 83 , .250 28 , .928 -8 , .219 1 , .00 78 , .85 C

ATOM 1898 CD1 TYR A 240 82 , .506 27 , .762 -8 , .372 1 , .00 80 , .37 C

ATOM 1899 CE1 TYR A 240 81 , .712 27 , .279 -7 , .344 1 , .00 81 , .09 C

ATOM 1900 CZ TYR A 240 81 , .641 27 , .975 -6, .150 1 , .00 79, .15 C

ATOM 1901 OH TYR A 240 80 , .854 27 , .504 -5 , .126 1 , .00 80 , .96 0

ATOM 1902 CE2 TYR A 240 82 , .359 29, .141 -5 , .979 1 , .00 77 , .95 c

ATOM 1903 CD2 TYR A 240 83 , .152 29, .616 -7 , .011 1 , .00 77 , .64 c

ATOM 1904 C TYR A 240 85 , .456 27 , .376 -9, .667 1 , .00 80 , .18 c

ATOM 1905 O TYR A 240 85 , .729 26, .629 -8 , .727 1 , .00 81 , .92 0

ATOM 1906 N ILE A 241 85 , .119 26, .926 -10 , .874 1 , .00 83 , .74 N

ATOM 1907 CA ILE A 241 84 , .960 25 , .487 -11 , .153 1 , .00 86, .17 C

ATOM 1908 CB ILE A 241 83 , .893 25 , .231 -12 , .245 1 , .00 88 , .43 C

ATOM 1909 CGI ILE A 241 84 , .370 25 , .716 -13 , .623 1 , .00 93 , .04 C

ATOM 1910 CD1 ILE A 241 83 , .371 25 , .475 -14 , .738 1 , .00 94 , .29 c

ATOM 1911 CG2 ILE A 241 82 , .582 25 , .897 -11 , .854 1 , .00 88 , .01 c

ATOM 1912 C ILE A 241 86, .254 24 , .744 -11 , .523 1 , .00 83 , .81 c

ATOM 1913 O ILE A 241 86, .244 23 , .519 -11 , .653 1 , .00 82 , .49 0

ATOM 1914 N ALA A 242 87 , .356 25 , .474 -11 , .682 1 , .00 81 , .78 N

ATOM 1915 CA ALA A 242 88 , .653 24 , .872 -12 , .006 1 , .00 82 , .72 C

ATOM 1916 CB ALA A 242 89, .058 25 , .243 -13 , .426 1 , .00 83 , .77 C

ATOM 1917 C ALA A 242 89, .720 25 , .330 -11 , .007 1 , .00 81 , .87 c

ATOM 1918 O ALA A 242 90 , .746 25 , .886 -11 , .403 1 , .00 86, .24 0

ATOM 1919 N PRO A 243 89, .491 25 , .078 -9, .706 1 , .00 78 , .01 N

ATOM 1920 CA PRO A 243 90 , .380 25 , .570 -8 , .659 1 , .00 76, .24 C

ATOM 1921 CB PRO A 243 89, .671 25 , .135 -7 , .374 1 , .00 76, .42 C

ATOM 1922 CG PRO A 243 88 , .922 23 , .922 -7 , .762 1 , .00 76, .32 C

ATOM 1923 CD PRO A 243 88 , .454 24 , .189 -9, .159 1 , .00 77 , .94 C

ATOM 1924 C PRO A 243 91 , .775 24 , .963 -8 , .688 1 , .00 76, .10 c

ATOM 1925 O PRO A 243 91 , .943 23 , .840 -9, .163 1 , .00 79, .70 0

ATOM 1926 N PRO A 244 92 , .774 25 , .704 -8 , .180 1 , .00 75 , .98 N

ATOM 1927 CA PRO A 244 94 , .118 25 , .170 -8 , .030 1 , .00 76, .31 C

ATOM 1928 CB PRO A 244 94 , .962 26, .420 -7 , .789 1 , .00 76, .74 C

ATOM 1929 CG PRO A 244 94 , .036 27 , .354 -7 , .101 1 , .00 78 , .02 C

ATOM 1930 CD PRO A 244 92 , .691 27 , .103 -7 , .721 1 , .00 78 , .51 C

ATOM 1931 C PRO A 244 94 , .177 24 , .244 -6, .818 1 , .00 76, .54 c

ATOM 1932 O PRO A 244 93 , .361 24 , .386 -5 , .906 1 , .00 77 , .43 0

ATOM 1933 N PHE A 245 95 , .121 23 , .306 -6, .813 1 , .00 74 , .44 N

ATOM 1934 CA PHE A 245 95 , .264 22 , .362 -5 , .706 1 , .00 73 , .61 C

ATOM 1935 CB PHE A 245 94 , .775 20 , .975 -6, .115 1 , .00 74 , .52 C

ATOM 1936 CG PHE A 245 93 , .368 20 , .944 -6, .629 1 , .00 73 , .98 C

ATOM 1937 CD1 PHE A 245 92 , .323 21 , .415 -5 , .855 1 , .00 74 , .62 C

ATOM 1938 CE1 PHE A 245 91 , .024 21 , .367 -6, .321 1 , .00 75 , .77 c

ATOM 1939 CZ PHE A 245 90 , .755 20 , .825 -7 , .565 1 , .00 75 , .22 c

ATOM 1940 CE2 PHE A 245 91 , .788 20 , .338 -8 , .340 1 , .00 74 , .75 c

ATOM 1941 CD2 PHE A 245 93 , .084 20 , .393 -7 , .869 1 , .00 74 , .29 c

ATOM 1942 C PHE A 245 96, .709 22 , .221 -5 , .263 1 , .00 72 , .53 c ATOM 1943 O PHE A 245 97..627 22 ,.606 -5..982 1 ,.00 73 ,.25 O

ATOM 1944 N TYR A 246 96. .897 21 , .653 -4. .074 1 , .00 72 , .91 N

ATOM 1945 CA TYR A 246 98. .229 21 , .308 -3. .579 1 , .00 72 , .22 C

ATOM 1946 CB TYR A 246 98. .327 21 , .497 -2. .059 1 , .00 68 , .60 C

ATOM 1947 CG TYR A 246 98. .162 22 , .946 -1. .635 1 , .00 64 , .47 C

ATOM 1948 CD1 TYR A 246 99. .206 23 , .855 -1. .774 1 , .00 62 , .58 C

ATOM 1949 CE1 TYR A 246 99. .059 25 , .179 -1. .400 1 , .00 61 , .70 C

ATOM 1950 CZ TYR A 246 97. .859 25 , .611 -0. .878 1 , .00 63 , .67 C

ATOM 1951 OH TYR A 246 97. .704 26, .932 -0. .505 1 , .00 65 , .65 O

ATOM 1952 CE2 TYR A 246 96. .807 24 , .728 -0. .731 1 , .00 64 , .18 C

ATOM 1953 CD2 TYR A 246 96. .963 23 , .406 -1. .110 1 , .00 63 , .71 C

ATOM 1954 C TYR A 246 98. .484 19, .868 -4. .014 1 , .00 75 , .37 C

ATOM 1955 O TYR A 246 98. .487 18 , .939 -3. .204 1 , .00 74 , .50 O

ATOM 1956 N ASN A 247 98. .678 19, .720 -5. .325 1 , .00 79, .83 N

ATOM 1957 CA ASN A 247 98. .830 18 , .434 -6. .003 1 , .00 80 , .51 C

ATOM 1958 CB ASN A 247 97. .544 18 , .107 -6. .774 1 , .00 80 , .27 C

ATOM 1959 CG ASN A 247 96. .464 17 , .522 -5. .903 1 , .00 83 , .93 C

ATOM 1960 OD1 ASN A 247 96. .733 16, .963 -4. .840 1 , .00 93 , .05 O

ATOM 1961 ND2 ASN A 247 95. .225 17 , .621 -6. .366 1 , .00 85 , .79 N

ATOM 1962 C ASN A 247 99. .952 18 , .480 -7. .020 1 , .00 82 , .01 C

ATOM 1963 O ASN A 247 100. .646 19, .491 -7. .160 1 , .00 78 , .89 O

ATOM 1964 N ASP A 248 100. .112 17 , .371 -7. .739 1 , .00 84 , .71 N

ATOM 1965 CA ASP A 248 101. .017 17 , .314 -8. .880 1 , .00 84 , .53 C

ATOM 1966 CB ASP A 248 100. .996 15 , .918 -9. .516 1 , .00 87 , .09 C

ATOM 1967 CG ASP A 248 101. .481 14 , .828 -8. .570 1 , .00 88 , .71 C

ATOM 1968 OD1 ASP A 248 102. .396 15 , .092 -7. .764 1 , .00 90 , .98 O

ATOM 1969 OD2 ASP A 248 100. .952 13 , .698 -8. .642 1 , .00 92 , .33 O

ATOM 1970 C ASP A 248 100. .591 18 , .374 -9. .902 1 , .00 81 , .24 C

ATOM 1971 O ASP A 248 101. .433 18 , .957 -10. .579 1 , .00 81 , .25 0

ATOM 1972 N LEU A 249 99. .286 18 , .641 -9. .978 1 , .00 77 , .42 N

ATOM 1973 CA LEU A 249 98. .732 19, .660 -10. .873 1 , .00 75 , .67 C

ATOM 1974 CB LEU A 249 97. .238 19, .847 -10. .598 1 , .00 75 , .24 C

ATOM 1975 CG LEU A 249 96. .473 20 , .856 -11. .463 1 , .00 74 , .40 C

ATOM 1976 CD1 LEU A 249 96. .534 20 , .491 -12. .938 1 , .00 74 , .67 C

ATOM 1977 CD2 LEU A 249 95. .028 20 , .947 -11. .005 1 , .00 74 , .24 c

ATOM 1978 C LEU A 249 99. .442 21 , .014 -10. .787 1 , .00 76, .45 c

ATOM 1979 O LEU A 249 99. .513 21 , .734 -11. .782 1 , .00 77 , .11 0

ATOM 1980 N TYR A 250 99. .941 21 , .366 -9. .604 1 , .00 77 , .44 N

ATOM 1981 CA TYR A 250 100. .709 22 , .604 -9. .418 1 , .00 76, .72 C

ATOM 1982 CB TYR A 250 99. .971 23 , .544 -8. .460 1 , .00 76, .13 C

ATOM 1983 CG TYR A 250 98. .875 24 , .317 -9. .151 1 , .00 77 , .89 C

ATOM 1984 CD1 TYR A 250 99. .041 25 , .661 -9. .470 1 , .00 78 , .85 C

ATOM 1985 CE1 TYR A 250 98. .046 26, .370 -10. .121 1 , .00 79, .13 c

ATOM 1986 CZ TYR A 250 96. .873 25 , .733 -10. .478 1 , .00 77 , .99 c

ATOM 1987 OH TYR A 250 95. .886 26, .441 -11. .125 1 , .00 78 , .48 0

ATOM 1988 CE2 TYR A 250 96. .689 24 , .397 -10. .183 1 , .00 78 , .51 c

ATOM 1989 CD2 TYR A 250 97. .690 23 , .696 -9. .527 1 , .00 78 , .94 c

ATOM 1990 C TYR A 250 102. .139 22 , .314 -8. .949 1 , .00 77 , .37 c

ATOM 1991 O TYR A 250 102. .786 23 , .154 -8. .319 1 , .00 79, .16 0

ATOM 1992 N ASN A 251 102. .627 21 , .124 -9. .302 1 , .00 75 , .93 N

ATOM 1993 CA ASN A 251 103. .972 20 , .654 -8. .959 1 , .00 71 , .67 C

ATOM 1994 CB ASN A 251 105. .034 21 , .535 -9. .629 1 , .00 68 , .52 c

ATOM 1995 CG ASN A 251 106. .359 20 , .814 -9. .825 1 , .00 66, .38 c

ATOM 1996 OD1 ASN A 251 106. .408 19, .585 -9. .907 1 , .00 63 , .22 0

ATOM 1997 ND2 ASN A 251 107. .446 21 , .583 -9. .909 1 , .00 65 , .44 N

ATOM 1998 C ASN A 251 104. .234 20 , .545 -7. .451 1 , .00 72 , .30 C

ATOM 1999 O ASN A 251 105. .375 20 , .673 -6. .999 1 , .00 71 , .50 O

ATOM 2000 N PHE A 252 103. .179 20 , .306 -6. .678 1 , .00 72 , .57 N

ATOM 2001 CA PHE A 252 103. .325 20 , .072 -5. .247 1 , .00 73 , .19 C ATOM 2002 CB PHE A 252 102 ,.166 20 ,.686 -4 ,.453 1 ,.00 71..29 C

ATOM 2003 CG PHE A 252 102 , .198 22 , .192 -4 , .393 1 , .00 70. .12 C

ATOM 2004 CD1 PHE A 252 103 , .206 22 , .851 -3 , .699 1 , .00 69. .07 C

ATOM 2005 CE1 PHE A 252 103 , .239 24 , .236 -3 , .636 1 , .00 67. .34 C

ATOM 2006 CZ PHE A 252 102 , .253 24 , .980 -4 , .258 1 , .00 66. .91 C

ATOM 2007 CE2 PHE A 252 101 , .236 24 , .338 -4 , .944 1 , .00 67. .96 C

ATOM 2008 CD2 PHE A 252 101 , .209 22 , .952 -5 , .006 1 , .00 69. .30 C

ATOM 2009 C PHE A 252 103 , .407 18 , .563 -5 , .028 1 , .00 75. .80 C

ATOM 2010 O PHE A 252 102 , .383 17 , .886 -4 , .913 1 , .00 72. .23 O

ATOM 2011 N LYS A 253 104 , .634 18 , .045 -4 , .987 1 , .00 81. .32 N

ATOM 2012 CA LYS A 253 104 , .864 16, .615 -4 , .785 1 , .00 85. .77 C

ATOM 2013 CB LYS A 253 106, .331 16, .241 -5 , .026 1 , .00 92. .98 C

ATOM 2014 CG LYS A 253 106, .767 16, .408 -6, .472 1 , .00 99. .97 C

ATOM 2015 CD LYS A 253 108 , .226 16, .049 -6, .675 1 , .00106. .09 C

ATOM 2016 CE LYS A 253 109, .129 17 , .247 -6, .439 1 , .00111. .70 C

ATOM 2017 NZ LYS A 253 110 , .541 16, .971 -6, .825 1 , .00115. .13 N

ATOM 2018 C LYS A 253 104 , .424 16, .191 -3 , .387 1 , .00 86. .29 C

ATOM 2019 O LYS A 253 104 , .542 16, .954 -2 , .421 1 , .00 88. .83 O

ATOM 2020 N ASP A 254 103 , .890 14 , .979 -3 , .291 1 , .00 84. .69 N

ATOM 2021 CA ASP A 254 103 , .447 14 , .441 -2 , .014 1 , .00 79. .32 C

ATOM 2022 CB ASP A 254 102 , .777 13 , .076 -2 , .216 1 , .00 79. .03 C

ATOM 2023 CG ASP A 254 101 , .821 12 , .712 -1 , .095 1 , .00 79. .95 C

ATOM 2024 OD1 ASP A 254 101 , .391 13 , .611 -0 , .345 1 , .00 79. .56 O

ATOM 2025 OD2 ASP A 254 101 , .476 11 , .517 -0 , .979 1 , .00 83. .79 O

ATOM 2026 C ASP A 254 104 , .684 14 , .321 -1 , .131 1 , .00 77. .94 C

ATOM 2027 O ASP A 254 105 , .735 13 , .878 -1 , .592 1 , .00 77. .26 0

ATOM 2028 N GLY A 255 104 , .570 14 , .750 0 , .122 1 , .00 77. .82 N

ATOM 2029 CA GLY A 255 105 , .690 14 , .703 1 , .061 1 , .00 75. .19 C

ATOM 2030 C GLY A 255 106, .428 16, .024 1 , .162 1 , .00 73. .47 C

ATOM 2031 O GLY A 255 105 , .882 17 , .078 0 , .847 1 , .00 73. .15 O

ATOM 2032 N ALA A 256 107 , .681 15 , .961 1 , .599 1 , .00 73. .11 N

ATOM 2033 CA ALA A 256 108 , .483 17 , .159 1 , .825 1 , .00 73. .60 C

ATOM 2034 CB ALA A 256 109, .684 16, .829 2 , .703 1 , .00 72. .94 C

ATOM 2035 C ALA A 256 108 , .948 17 , .803 0 , .522 1 , .00 74. .79 C

ATOM 2036 O ALA A 256 109, .271 17 , .110 -0 , .443 1 , .00 75. .91 O

ATOM 2037 N GLN A 257 108 , .985 19, .132 0 , .514 1 , .00 74. .46 N

ATOM 2038 CA GLN A 257 109, .469 19, .893 -0 , .628 1 , .00 74. .65 C

ATOM 2039 CB GLN A 257 108 , .696 21 , .213 -0 , .770 1 , .00 74. .41 C

ATOM 2040 CG GLN A 257 107 , .178 21 , .068 -0 , .734 1 , .00 74. .48 C

ATOM 2041 CD GLN A 257 106, .627 20 , .175 -1 , .841 1 , .00 75. .54 C

ATOM 2042 OE1 GLN A 257 106, .881 20 , .398 -3 , .028 1 , .00 72. .96 O

ATOM 2043 NE2 GLN A 257 105 , .852 19, .169 -1 , .456 1 , .00 76. .19 N

ATOM 2044 C GLN A 257 110 , .958 20 , .148 -0 , .401 1 , .00 75. .86 C

ATOM 2045 O GLN A 257 111 , .344 21 , .135 0 , .226 1 , .00 78. .46 O

ATOM 2046 N ASN A 258 111 , .786 19, .244 -0 , .918 1 , .00 77. .15 N

ATOM 2047 CA ASN A 258 113 , .235 19, .270 -0 , .685 1 , .00 78. .64 C

ATOM 2048 CB ASN A 258 113 , .801 17 , .857 -0 , .862 1 , .00 79. .34 C

ATOM 2049 CG ASN A 258 113 , .222 16, .867 0 , .135 1 , .00 80. .33 C

ATOM 2050 OD1 ASN A 258 112 , .547 15 , .911 -0 , .245 1 , .00 81. .10 O

ATOM 2051 ND2 ASN A 258 113 , .475 17 , .098 1 , .417 1 , .00 80. .45 N

ATOM 2052 C ASN A 258 114 , .042 20 , .244 -1 , .549 1 , .00 79. .55 C

ATOM 2053 O ASN A 258 115 , .225 20 , .467 -1 , .285 1 , .00 79. .77 O

ATOM 2054 N ASP A 259 113 , .409 20 , .832 -2 , .560 1 , .00 81. .95 N

ATOM 2055 CA ASP A 259 114 , .106 21 , .715 -3 , .508 1 , .00 84. .57 C

ATOM 2056 CB ASP A 259 113 , .758 21 , .302 -4 , .946 1 , .00 85. .64 C

ATOM 2057 CG ASP A 259 112 , .263 21 , .364 -5 , .237 1 , .00 86. .82 C

ATOM 2058 OD1 ASP A 259 111 , .458 21 , .428 -4 , .282 1 , .00 84. .66 O

ATOM 2059 OD2 ASP A 259 111 , .893 21 , .328 -6, .427 1 , .00 87. .99 O

ATOM 2060 C ASP A 259 113 , .808 23 , .204 -3 , .304 1 , .00 84. .43 C ATOM 2061 O ASP A 259 113 ,.875 23 ,.990 -4 ,.254 1 ,.00 89..08 O

ATOM 2062 N ILE A 260 113 , .514 23 , .590 -2 , .064 1 , .00 81. .70 N

ATOM 2063 CA ILE A 260 113 , .126 24 , .971 -1 , .751 1 , .00 79. .45 C

ATOM 2064 CB ILE A 260 112 , .008 25 , .012 -0 , .679 1 , .00 78. .65 C

ATOM 2065 CGI ILE A 260 112 , .502 24 , .469 0 , .671 1 , .00 79. .64 C

ATOM 2066 CD1 ILE A 260 111 , .509 24 , .642 1 , .801 1 , .00 79. .25 C

ATOM 2067 CG2 ILE A 260 110 , .794 24 , .227 -1 , .154 1 , .00 78. .74 C

ATOM 2068 C ILE A 260 114 , .287 25 , .851 -1 , .286 1 , .00 78. .23 C

ATOM 2069 O ILE A 260 114 , .076 27 , .007 -0 , .919 1 , .00 78. .94 O

ATOM 2070 N PHE A 261 115 , .505 25 , .319 -1 , .321 1 , .00 78. .47 N

ATOM 2071 CA PHE A 261 116, .668 26, .030 -0 , .788 1 , .00 81. .03 C

ATOM 2072 CB PHE A 261 117 , .508 25 , .080 0 , .067 1 , .00 79. .65 C

ATOM 2073 CG PHE A 261 116, .687 24 , .280 1 , .040 1 , .00 77. .23 C

ATOM 2074 CD1 PHE A 261 116, .206 24 , .862 2 , .201 1 , .00 76. .79 C

ATOM 2075 CE1 PHE A 261 115 , .435 24 , .136 3 , .089 1 , .00 75. .75 C

ATOM 2076 CZ PHE A 261 115 , .130 22 , .814 2 , .818 1 , .00 75. .19 C

ATOM 2077 CE2 PHE A 261 115 , .597 22 , .224 1 , .660 1 , .00 75. .46 c

ATOM 2078 CD2 PHE A 261 116, .367 22 , .957 0 , .776 1 , .00 76. .57 c

ATOM 2079 C PHE A 261 117 , .507 26, .667 -1 , .884 1 , .00 83. .24 c

ATOM 2080 O PHE A 261 117 , .356 26, .345 -3 , .063 1 , .00 86. .36 0

ATOM 2081 N VAL A 262 118 , .393 27 , .575 -1 , .481 1 , .00 86. .71 N

ATOM 2082 CA VAL A 262 119, .223 28 , .325 -2 , .422 1 , .00 88. .45 C

ATOM 2083 CB VAL A 262 120 , .044 29, .424 -1 , .709 1 , .00 89. .79 C

ATOM 2084 CGI VAL A 262 120 , .955 30 , .146 -2 , .697 1 , .00 91. .60 C

ATOM 2085 CG2 VAL A 262 119, .120 30 , .418 -1 , .016 1 , .00 90. .85 c

ATOM 2086 C VAL A 262 120 , .166 27 , .404 -3 , .198 1 , .00 90. .80 c

ATOM 2087 O VAL A 262 120 , .316 27 , .547 -4 , .413 1 , .00 95. .70 0

ATOM 2088 N ASP A 263 120 , .784 26, .457 -2 , .497 1 , .00 90. .45 N

ATOM 2089 CA ASP A 263 121 , .726 25 , .519 -3 , .118 1 , .00 88. .68 C

ATOM 2090 CB ASP A 263 122 , .763 25 , .043 -2 , .087 1 , .00 89. .04 C

ATOM 2091 CG ASP A 263 122 , .158 24 , .179 -0 , .984 1 , .00 88. .58 C

ATOM 2092 OD1 ASP A 263 120 , .943 24 , .289 -0 , .721 1 , .00 89. .30 0

ATOM 2093 OD2 ASP A 263 122 , .909 23 , .391 -0 , .373 1 , .00 89. .57 0

ATOM 2094 C ASP A 263 121 , .055 24 , .306 -3 , .779 1 , .00 87. .09 c

ATOM 2095 O ASP A 263 121 , .750 23 , .446 -4 , .325 1 , .00 85. .49 0

ATOM 2096 N SER A 264 119, .723 24 , .235 -3 , .731 1 , .00 87. .15 N

ATOM 2097 CA SER A 264 118 , .981 23 , .097 -4 , .287 1 , .00 87. .74 C

ATOM 2098 CB SER A 264 117 , .471 23 , .291 -4 , .125 1 , .00 91. .73 C

ATOM 2099 OG SER A 264 117 , .102 23 , .275 -2 , .756 1 , .00 94. .76 O

ATOM 2100 C SER A 264 119, .312 22 , .849 -5 , .749 1 , .00 85. .13 c

ATOM 2101 O SER A 264 119, .709 21 , .745 -6, .108 1 , .00 82. .83 0

ATOM 2102 N TYR A 265 119, .149 23 , .876 -6, .579 1 , .00 86. .01 N

ATOM 2103 CA TYR A 265 119, .461 23 , .775 -8 , .008 1 , .00 87. .83 C

ATOM 2104 CB TYR A 265 118 , .352 24 , .418 -8 , .842 1 , .00 84. .66 C

ATOM 2105 CG TYR A 265 117 , .039 23 , .670 -8 , .788 1 , .00 81. .02 C

ATOM 2106 CD1 TYR A 265 116, .038 24 , .033 -7 , .890 1 , .00 80. .85 C

ATOM 2107 CE1 TYR A 265 114 , .836 23 , .343 -7 , .840 1 , .00 78. .37 c

ATOM 2108 CZ TYR A 265 114 , .629 22 , .274 -8 , .691 1 , .00 77. .16 c

ATOM 2109 OH TYR A 265 113 , .448 21 , .578 -8 , .654 1 , .00 73. .76 0

ATOM 2110 CE2 TYR A 265 115 , .605 21 , .897 -9, .589 1 , .00 77. .96 c

ATOM 2111 CD2 TYR A 265 116, .801 22 , .592 -9, .633 1 , .00 79. .46 c

ATOM 2112 C TYR A 265 120 , .810 24 , .444 -8 , .309 1 , .00 93. .04 c

ATOM 2113 O TYR A 265 120 , .899 25 , .672 -8 , .296 1 , .00 95. .54 0

ATOM 2114 N PRO A 266 121 , .863 23 , .643 -8 , .588 1 , .00 97. .30 N

ATOM 2115 CA PRO A 266 123 , .201 24 , .199 -8 , .834 1 , .00 98. .80 C

ATOM 2116 CB PRO A 266 124 , .093 22 , .954 -8 , .953 1 , .00 99. .77 c

ATOM 2117 CG PRO A 266 123 , .288 21 , .837 -8 , .389 1 , .00 99. .49 c

ATOM 2118 CD PRO A 266 121 , .873 22 , .178 -8 , .724 1 , .00 98. .32 c

ATOM 2119 C PRO A 266 123 , .274 25 , .015 -10 , .113 1 , .00 99. .63 c ATOM 2120 O PRO A 266 123 ,.742 26..152 -10 ,.089 1 ,.00100 ,.28 O

ATOM 2121 N ASP A 267 122 , .797 24. .431 -11 , .210 1 , .00102 , .03 N

ATOM 2122 CA ASP A 267 122 , .783 25. .090 -12 , .511 1 , .00104 , .39 C

ATOM 2123 CB ASP A 267 122 , .805 24. .049 -13 , .637 1 , .00107 , .27 C

ATOM 2124 CG ASP A 267 124 , .012 23. .135 -13 , .566 1 , .00110 , .11 C

ATOM 2125 OD1 ASP A 267 125 , .147 23. .647 -13 , .457 1 , .00111 , .81 O

ATOM 2126 OD2 ASP A 267 123 , .821 21. .904 -13 , .637 1 , .00110 , .35 O

ATOM 2127 C ASP A 267 121 , .564 26. .002 -12 , .678 1 , .00103 , .12 C

ATOM 2128 O ASP A 267 121 , .354 26. .534 -13 , .764 1 , .00102 , .02 O

ATOM 2129 N GLY A 268 120 , .760 26. .172 -11 , .625 1 , .00101 , .76 N

ATOM 2130 CA GLY A 268 119, .619 27. .079 -11 , .662 1 , .00100 , .79 C

ATOM 2131 C GLY A 268 118 , .421 26. .487 -12 , .372 1 , .00100 , .45 C

ATOM 2132 O GLY A 268 118 , .362 25. .281 -12 , .615 1 , .00101 , .51 O

ATOM 2133 N ILE A 269 117 , .471 27. .354 -12 , .712 1 , .00 99, .07 N

ATOM 2134 CA ILE A 269 116, .263 26. .968 -13 , .431 1 , .00 97, .44 C

ATOM 2135 CB ILE A 269 114 , .996 27. .165 -12 , .561 1 , .00 97, .79 C

ATOM 2136 CGI ILE A 269 115 , .128 26. .365 -11 , .255 1 , .00 96, .99 C

ATOM 2137 CD1 ILE A 269 115 , .244 27. .208 -10 , .004 1 , .00 97, .80 C

ATOM 2138 CG2 ILE A 269 113 , .731 26. .752 -13 , .309 1 , .00 99, .53 C

ATOM 2139 C ILE A 269 116, .176 27. .798 -14 , .713 1 , .00 97, .53 C

ATOM 2140 O ILE A 269 115 , .593 28. .878 -14 , .708 1 , .00 98, .28 0

ATOM 2141 N PRO A 270 116, .793 27. .312 -15 , .808 1 , .00 98, .11 N

ATOM 2142 CA PRO A 270 116, .708 27. .974 -17 , .115 1 , .00 98, .64 C

ATOM 2143 CB PRO A 270 117 , .383 26. .973 -18 , .050 1 , .00 99, .56 C

ATOM 2144 CG PRO A 270 118 , .402 26. .311 -17 , .193 1 , .00100 , .10 C

ATOM 2145 CD PRO A 270 117 , .822 26. .255 -15 , .806 1 , .00 99, .54 C

ATOM 2146 C PRO A 270 115 , .277 28. .264 -17 , .590 1 , .00 97, .88 c

ATOM 2147 O PRO A 270 115 , .063 29. .227 -18 , .329 1 , .00 99, .51 0

ATOM 2148 N LEU A 271 114 , .317 27. .437 -17 , .170 1 , .00 95, .54 N

ATOM 2149 CA LEU A 271 112 , .901 27. .631 -17 , .509 1 , .00 95, .53 C

ATOM 2150 CB LEU A 271 112 , .035 26. .515 -16, .919 1 , .00 93, .02 C

ATOM 2151 CG LEU A 271 111 , .789 25. .274 -17 , .775 1 , .00 91, .39 C

ATOM 2152 CD1 LEU A 271 113 , .066 24. .535 -18 , .101 1 , .00 89, .61 C

ATOM 2153 CD2 LEU A 271 110 , .834 24. .345 -17 , .046 1 , .00 93, .51 c

ATOM 2154 C LEU A 271 112 , .338 28. .975 -17 , .055 1 , .00100 , .00 c

ATOM 2155 O LEU A 271 111 , .328 29. .430 -17 , .586 1 , .00103 , .24 0

ATOM 2156 N GLU A 272 112 , .974 29. .598 -16, .068 1 , .00105 , .60 N

ATOM 2157 CA GLU A 272 112 , .547 30. .912 -15 , .595 1 , .00111 , .95 C

ATOM 2158 CB GLU A 272 113 , .237 31. .255 -14 , .272 1 , .00115 , .04 C

ATOM 2159 CG GLU A 272 112 , .796 30. .355 -13 , .123 1 , .00115 , .05 C

ATOM 2160 CD GLU A 272 113 , .542 30. .617 -11 , .825 1 , .00116, .07 c

ATOM 2161 OE1 GLU A 272 114 , .662 31. .175 -11 , .865 1 , .00115 , .23 0

ATOM 2162 OE2 GLU A 272 113 , .005 30. .252 -10 , .757 1 , .00113 , .02 0

ATOM 2163 C GLU A 272 112 , .778 32. .014 -16, .640 1 , .00114 , .41 c

ATOM 2164 O GLU A 272 112 , .257 33. .118 -16, .497 1 , .00115 , .45 0

ATOM 2165 N GLN A 273 113 , .557 31. .715 -17 , .681 1 , .00118 , .50 N

ATOM 2166 CA GLN A 273 113 , .747 32. .640 -18 , .800 1 , .00125 , .42 C

ATOM 2167 CB GLN A 273 114 , .790 32. .092 -19, .781 1 , .00125 , .39 C

ATOM 2168 CG GLN A 273 115 , .017 32. .962 -21 , .010 1 , .00125 , .94 c

ATOM 2169 CD GLN A 273 116, .022 32. .366 -21 , .977 1 , .00127 , .86 c

ATOM 2170 OE1 GLN A 273 115 , .685 32. .049 -23 , .118 1 , .00127 , .00 0

ATOM 2171 NE2 GLN A 273 117 , .259 32. .198 -21 , .522 1 , .00129, .88 N

ATOM 2172 C GLN A 273 112 , .422 32. .879 -19, .529 1 , .00132 , .03 C

ATOM 2173 O GLN A 273 112 , .161 33. .984 -20 , .010 1 , .00133 , .87 O

ATOM 2174 N LYS A 274 111 , .592 31. .840 -19, .601 1 , .00138 , .59 N

ATOM 2175 CA LYS A 274 110 , .282 31. .923 -20 , .253 1 , .00141 , .98 C

ATOM 2176 CB LYS A 274 109, .711 30. .519 -20 , .480 1 , .00144 , .49 C

ATOM 2177 CG LYS A 274 110 , .568 29. .656 -21 , .397 1 , .00147 , .46 C

ATOM 2178 CD LYS A 274 110 , .051 28. .230 -21 , .495 1 , .00149, .98 C ATOM 2179 CE LYS A 274 110 ,.973 27..373 -22 ,.348 1 ,.00151 ,.33 C

ATOM 2180 NZ LYS A 274 110 , .500 25. .966 -22 , .455 1 , .00152 , .26 N

ATOM 2181 C LYS A 274 109, .295 32. .783 -19, .456 1 , .00143 , .02 C

ATOM 2182 O LYS A 274 108 , .337 33. .311 -20 , .018 1 , .00141 , .96 O

ATOM 2183 N LEU A 275 109, .533 32. .916 -18 , .152 1 , .00149, .30 N

ATOM 2184 CA LEU A 275 108 , .716 33. .777 -17 , .291 1 , .00154 , .74 C

ATOM 2185 CB LEU A 275 108 , .867 33. .374 -15 , .819 1 , .00158 , .31 C

ATOM 2186 CG LEU A 275 108 , .535 31. .925 -15 , .445 1 , .00162 , .45 C

ATOM 2187 CD1 LEU A 275 108 , .845 31. .673 -13 , .976 1 , .00161 , .31 C

ATOM 2188 CD2 LEU A 275 107 , .082 31. .590 -15 , .755 1 , .00162 , .69 C

ATOM 2189 C LEU A 275 109, .105 35. .249 -17 , .455 1 , .00154 , .01 C

ATOM 2190 O LEU A 275 108 , .273 36. .138 -17 , .273 1 , .00153 , .38 O

ATOM 2191 N ILE A 276 110 , .371 35. .496 -17 , .792 1 , .00155 , .71 N

ATOM 2192 CA ILE A 276 110 , .884 36. .858 -17 , .988 1 , .00155 , .92 C

ATOM 2193 CB ILE A 276 112 , .436 36. .874 -18 , .018 1 , .00156, .41 C

ATOM 2194 CGI ILE A 276 112 , .996 36. .460 -16, .651 1 , .00155 , .75 C

ATOM 2195 CD1 ILE A 276 114 , .482 36. .168 -16, .645 1 , .00153 , .90 C

ATOM 2196 CG2 ILE A 276 112 , .967 38. .256 -18 , .385 1 , .00155 , .85 C

ATOM 2197 C ILE A 276 110 , .315 37. .506 -19, .259 1 , .00154 , .59 c

ATOM 2198 O ILE A 276 110 , .170 38. .728 -19, .320 1 , .00152 , .55 0

ATOM 2199 N SER A 277 109, .987 36. .690 -20 , .261 1 , .00154 , .98 N

ATOM 2200 CA SER A 277 109, .430 37. .192 -21 , .524 1 , .00153 , .95 C

ATOM 2201 CB SER A 277 109, .402 36. .082 -22 , .582 1 , .00150 , .69 C

ATOM 2202 OG SER A 277 108 , .569 35. .007 -22 , .185 1 , .00147 , .26 O

ATOM 2203 C SER A 277 108 , .027 37. .791 -21 , .363 1 , .00156, .19 C

ATOM 2204 O SER A 277 107 , .674 38. .743 -22 , .061 1 , .00157 , .19 0

ATOM 2205 N GLU A 278 107 , .239 37. .231 -20 , .446 1 , .00156, .49 N

ATOM 2206 CA GLU A 278 105 , .871 37. .700 -20 , .194 1 , .00152 , .92 C

ATOM 2207 CB GLU A 278 105 , .094 36. .667 -19, .369 1 , .00151 , .29 C

ATOM 2208 CG GLU A 278 104 , .885 35. .335 -20 , .078 1 , .00150 , .66 C

ATOM 2209 CD GLU A 278 104 , .176 34. .299 -19, .219 1 , .00149, .23 C

ATOM 2210 OE1 GLU A 278 104 , .099 34. .478 -17 , .984 1 , .00145 , .23 O

ATOM 2211 OE2 GLU A 278 103 , .700 33. .292 -19, .784 1 , .00148 , .65 0

ATOM 2212 C GLU A 278 105 , .854 39. .051 -19, .480 1 , .00149, .61 c

ATOM 2213 O GLU A 278 106, .758 39. .374 -18 , .709 1 , .00145 , .55 0

HETATM 2214 CI NAG A 300 92 , .231 29. .653 25 , .803 1 , .00 88, .06 c

HETATM 2215 C2 NAG A 300 93 , .546 29. .976 26, .521 1 , .00 88, .70 c

HETATM 2216 N2 NAG A 300 94 , .628 30. .106 25 , .559 1 , .00 88, .07 N

HETATM 2217 C7 NAG A 300 94 , .728 31. .148 24 , .730 1 , .00 88, .36 C

HETATM 2218 07 NAG A 300 93 , .922 32. .075 24 , .698 1 , .00 86, .86 O

HETATM 2219 C8 NAG A 300 95 , .899 31. .162 23 , .792 1 , .00 89, .47 c

HETATM 2220 C3 NAG A 300 93 , .936 28. .982 27 , .618 1 , .00 93, .40 c

HETATM 2221 03 NAG A 300 94 , .906 29. .554 28 , .468 1 , .00 91, .90 0

HETATM 2222 C4 NAG A 300 92 , .725 28. .576 28 , .442 1 , .00 97, .32 c

HETATM 2223 04 NAG A 300 93 , .069 27. .586 29, .395 1 , .00107 , .70 0

HETATM 2224 C5 NAG A 300 91 , .667 28. .059 27 , .480 1 , .00 94, .56 c

HETATM 2225 C6 NAG A 300 90 , .444 27. .489 28 , .189 1 , .00 95, .47 c

HETATM 2226 06 NAG A 300 89, .905 28. .462 29, .053 1 , .00 98, .19 0

HETATM 2227 05 NAG A 300 91 , .261 29. .151 26, .700 1 , .00 88, .89 0

HETATM 2228 CI NAG A 301 93 , .078 28. .120 30 , .733 1 , .00119, .47 c

HETATM 2229 C2 NAG A 301 92 , .849 26. .984 31 , .739 1 , .00125 , .81 c

HETATM 2230 N2 NAG A 301 91 , .499 26. .413 31 , .646 1 , .00126, .51 N

HETATM 2231 C7 NAG A 301 90 , .352 27. .055 31 , .942 1 , .00121 , .91 c

HETATM 2232 07 NAG A 301 90 , .283 28. .222 32 , .329 1 , .00120 , .28 0

HETATM 2233 C8 NAG A 301 89, .070 26. .285 31 , .782 1 , .00117 , .84 c

HETATM 2234 C3 NAG A 301 93 , .193 27. .361 33 , .192 1 , .00131 , .36 c

HETATM 2235 03 NAG A 301 93 , .482 26. .189 33 , .923 1 , .00130 , .30 0 HETATM 2236 C4 NAG A 301 94 ,.367 28 ,.330 33 ,.322 1 ,.00133..81 C

HETATM 2237 04 NAG A 301 94 , .322 28 , .954 34 , .594 1 , .00141. .80 0

HETATM 2238 C5 NAG A 301 94 , .319 29, .408 32 , .244 1 , .00130. .44 C

HETATM 2239 C6 NAG A 301 95 , .511 30 , .359 32 , .319 1 , .00130. .22 C

HETATM 2240 06 NAG A 301 96, .715 29, .646 32 , .140 1 , .00133. .23 0

HETATM 2241 05 NAG A 301 94 , .303 28 , .769 30 , .987 1 , .00122. .75 0

HETATM 2242 CI BMA A 302 95 , .375 28 , .514 35 , .477 1 , .00149. .86 C

HETATM 2243 05 BMA A 302 94 , .924 27 , .535 36, .414 1 , .00151. .87 0

HETATM 2244 C5 BMA A 302 95 , .978 27 , .001 37 , .222 1 , .00152. .13 C

HETATM 2245 C6 BMA A 302 95 , .407 25 , .922 38 , .135 1 , .00149. .41 C

HETATM 2246 06 BMA A 302 96, .469 25 , .123 38 , .669 1 , .00146. .07 0

HETATM 2247 C4 BMA A 302 96, .644 28 , .114 38 , .030 1 , .00154. .34 C

HETATM 2248 04 BMA A 302 97 , .780 27 , .590 38 , .726 1 , .00158. .54 0

HETATM 2249 C3 BMA A 302 97 , .086 29, .262 37 , .127 1 , .00152. .99 C

HETATM 2250 03 BMA A 302 97 , .557 30 , .359 37 , .919 1 , .00152. .44 0

HETATM 2251 C2 BMA A 302 95 , .929 29, .708 36, .241 1 , .00151. .92 C

HETATM 2252 02 BMA A 302 94 , .893 30 , .288 37 , .041 1 , .00152. .03 0

HETATM 2253 CI NAG A 310 94 , .583 20 , .869 27 , .777 1 , .00109. .65 C

HETATM 2254 C2 NAG A 310 95 , .465 21 , .038 29, .004 1 , .00117. .28 C

HETATM 2255 N2 NAG A 310 94 , .903 22 , .024 29, .913 1 , .00119. .62 N

HETATM 2256 C7 NAG A 310 94 , .647 21 , .772 31 , .201 1 , .00120. .08 C

HETATM 2257 07 NAG A 310 94 , .862 20 , .689 31 , .749 1 , .00116. .82 0

HETATM 2258 C8 NAG A 310 94 , .062 22 , .903 31 , .995 1 , .00120. .22 C

HETATM 2259 C3 NAG A 310 96, .852 21 , .445 28 , .534 1 , .00119. .67 C

HETATM 2260 03 NAG A 310 97 , .726 21 , .550 29, .634 1 , .00119. .10 0

HETATM 2261 C4 NAG A 310 97 , .370 20 , .405 27 , .550 1 , .00122. .93 C

HETATM 2262 04 NAG A 310 98 , .524 20 , .918 26, .929 1 , .00135. .19 0

HETATM 2263 C5 NAG A 310 96, .349 20 , .102 26, .453 1 , .00118. .12 c

HETATM 2264 C6 NAG A 310 96, .764 18 , .929 25 , .573 1 , .00118. .70 c

HETATM 2265 06 NAG A 310 96, .949 17 , .778 26, .368 1 , .00116. .86 0

HETATM 2266 05 NAG A 310 95 , .092 19, .805 27 , .013 1 , .00111. .69 0

HETATM 2267 CI NAG A 311 99, .746 20 , .381 27 , .460 1 , .00146. .81 c

HETATM 2268 C2 NAG A 311 100 , .639 20 , .109 26, .250 1 , .00148. .11 c

HETATM 2269 N2 NAG A 311 100 , .161 18 , .923 25 , .555 1 , .00144. .86 N

HETATM 2270 C7 NAG A 311 100 , .351 18 , .733 24 , .248 1 , .00143. .26 C

HETATM 2271 07 NAG A 311 100 , .947 19, .539 23 , .536 1 , .00143. .90 0

HETATM 2272 C8 NAG A 311 99, .804 17 , .470 23 , .646 1 , .00142. .28 c

HETATM 2273 C3 NAG A 311 102 , .113 19, .945 26, .600 1 , .00155. .81 c

HETATM 2274 03 NAG A 311 102 , .863 20 , .077 25 , .415 1 , .00155. .79 0

HETATM 2275 C4 NAG A 311 102 , .529 20 , .992 27 , .627 1 , .00163. .01 c

HETATM 2276 04 NAG A 311 103 , .872 20 , .824 28 , .030 1 , .00170. .20 0

HETATM 2277 C5 NAG A 311 101 , .598 20 , .888 28 , .828 1 , .00162. .22 c

HETATM 2278 C6 NAG A 311 102 , .043 21 , .767 29, .996 1 , .00160. .93 c

HETATM 2279 06 NAG A 311 101 , .095 21 , .690 31 , .037 1 , .00156. .34 0

HETATM 2280 05 NAG A 311 100 , .320 21 , .283 28 , .383 1 , .00155. .90 0

HETATM 2281 CI BMA A 312 104 , .801 21 , .457 27 , .128 1 , .00173. .77 c

HETATM 2282 05 BMA A 312 105 , .738 20 , .504 26, .637 1 , .00175. .56 0

HETATM 2283 C5 BMA A 312 106, .642 21 , .022 25 , .661 1 , .00174. .38 c

HETATM 2284 C6 BMA A 312 107 , .457 19, .854 25 , .107 1 , .00173. .09 c

HETATM 2285 06 BMA A 312 106, .897 19, .386 23 , .867 1 , .00173. .14 0

HETATM 2286 C4 BMA A 312 107 , .488 22 , .118 26, .308 1 , .00174. .90 c

HETATM 2287 04 BMA A 312 108 , .372 22 , .697 25 , .341 1 , .00170. .26 0

HETATM 2288 C3 BMA A 312 106, .560 23 , .196 26, .872 1 , .00176. .32 c

HETATM 2289 03 BMA A 312 107 , .308 24 , .319 27 , .392 1 , .00179. .24 0

HETATM 2290 C2 BMA A 312 105 , .549 22 , .571 27 , .845 1 , .00175. .80 c

HETATM 2291 02 BMA A 312 106, .163 21 , .983 28 , .997 1 , .00179. .19 0

HETATM 2292 CI MAN A 313 105 , .668 18 , .645 24 , .052 1 , .00173. .82 c

HETATM 2293 C2 MAN A 313 105 , .951 17 , .157 24 , .240 1 , .00173. .85 c

HETATM 2294 02 MAN A 313 104 , .749 16, .562 24 , .671 1 , .00170. .58 0 HETATM 2295 C3 MAN A 313 106,.456 16..548 22 ,.927 1 ,.00175..11 C

HETATM 2296 03 MAN A 313 106, .892 15. .191 23 , .021 1 , .00179. .56 0

HETATM 2297 C4 MAN A 313 105 , .468 16. .852 21 , .794 1 , .00173. .27 C

HETATM 2298 04 MAN A 313 106, .007 16. .404 20 , .573 1 , .00171. .08 0

HETATM 2299 C5 MAN A 313 105 , .196 18. .355 21 , .719 1 , .00173. .04 C

HETATM 2300 C6 MAN A 313 104 , .164 18. .707 20 , .645 1 , .00169. .96 C

HETATM 2301 06 MAN A 313 102 , .944 18. .034 20 , .866 1 , .00163. .68 0

HETATM 2302 05 MAN A 313 104 , .756 18. .830 22 , .980 1 , .00175. .64 0

HETATM 2303 CI MAN A 314 105 , .922 14. .184 23 , .394 1 , .00178. .69 C

HETATM 2304 C2 MAN A 314 106, .171 13. .732 24 , .832 1 , .00175. .17 C

HETATM 2305 02 MAN A 314 105 , .094 12. .927 25 , .259 1 , .00167. .65 0

HETATM 2306 C3 MAN A 314 107 , .477 12. .949 24 , .950 1 , .00175. .89 C

HETATM 2307 03 MAN A 314 107 , .610 12. .413 26, .248 1 , .00175. .01 0

HETATM 2308 C4 MAN A 314 107 , .523 11. .824 23 , .924 1 , .00177. .70 C

HETATM 2309 04 MAN A 314 108 , .804 11. .232 23 , .946 1 , .00175. .31 0

HETATM 2310 C5 MAN A 314 107 , .221 12. .378 22 , .532 1 , .00179. .10 C

HETATM 2311 C6 MAN A 314 107 , .184 11. .279 21 , .474 1 , .00177. .74 C

HETATM 2312 06 MAN A 314 106, .145 10. .367 21 , .754 1 , .00177. .31 0

HETATM 2313 05 MAN A 314 105 , .974 13. .053 22 , .545 1 , .00180. .90 0

HETATM 2314 CI MAN A 315 107 , .996 24. .177 28 , .656 1 , .00178. .04 C

HETATM 2315 C2 MAN A 315 107 , .861 25. .503 29, .400 1 , .00176. .71 C

HETATM 2316 02 MAN A 315 108 , .273 25. .337 30 , .738 1 , .00176. .35 0

HETATM 2317 C3 MAN A 315 108 , .691 26. .587 28 , .720 1 , .00174. .62 C

HETATM 2318 03 MAN A 315 108 , .650 27. .779 29, .472 1 , .00174. .02 0

HETATM 2319 C4 MAN A 315 110 , .134 26. .123 28 , .555 1 , .00174. .24 c

HETATM 2320 04 MAN A 315 110 , .840 27. .087 27 , .806 1 , .00169. .00 0

HETATM 2321 C5 MAN A 315 110 , .186 24. .763 27 , .856 1 , .00175. .46 c

HETATM 2322 C6 MAN A 315 111 , .599 24. .182 27 , .804 1 , .00172. .54 c

HETATM 2323 06 MAN A 315 112 , .577 25. .196 27 , .752 1 , .00170. .89 0

HETATM 2324 05 MAN A 315 109, .361 23. .825 28 , .526 1 , .00178. .20 0

HETATM 2325 CI NAG A 320 99, .704 11. .932 5 , .032 1 , .00 78. .00 c

HETATM 2326 C2 NAG A 320 101 , .063 11. .242 5 , .063 1 , .00 79. .63 c

HETATM 2327 N2 NAG A 320 101 , .690 11. .279 3 , .754 1 , .00 81. .27 N

HETATM 2328 C7 NAG A 320 102 , .732 12. .057 3 , .458 1 , .00 83. .86 c

HETATM 2329 07 NAG A 320 103 , .272 12. .831 4 , .251 1 , .00 85. .89 0

HETATM 2330 C8 NAG A 320 103 , .254 11. .957 2 , .055 1 , .00 84. .99 c

HETATM 2331 C3 NAG A 320 100 , .933 9. .788 5 , .507 1 , .00 79. .53 c

HETATM 2332 03 NAG A 320 102 , .213 9. .258 5 , .761 1 , .00 78. .00 0

HETATM 2333 C4 NAG A 320 100 , .100 9. .685 6, .772 1 , .00 80. .67 c

HETATM 2334 04 NAG A 320 99, .818 8. .327 7 , .056 1 , .00 85. .62 0

HETATM 2335 C5 NAG A 320 98 , .796 10. .457 6, .615 1 , .00 78. .92 c

HETATM 2336 C6 NAG A 320 97 , .984 10. .436 7 , .902 1 , .00 81. .04 c

HETATM 2337 06 NAG A 320 98 , .777 10. .903 8 , .973 1 , .00 82. .77 0

HETATM 2338 05 NAG A 320 99, .095 11. .795 6, .297 1 , .00 77. .52 0

HETATM 2339 CI NAG A 321 100 , .443 7. .908 8 , .284 1 , .00 90. .18 c

HETATM 2340 C2 NAG A 321 99, .708 6. .704 8 , .850 1 , .00 90. .56 c

HETATM 2341 N2 NAG A 321 98 , .319 7. .015 9, .118 1 , .00 86. .90 N

HETATM 2342 C7 NAG A 321 97 , .320 6. .575 8 , .360 1 , .00 86. .04 c

HETATM 2343 07 NAG A 321 97 , .469 5. .880 7 , .356 1 , .00 86. .02 0

HETATM 2344 C8 NAG A 321 95 , .949 6. .988 8 , .795 1 , .00 86. .14 c

HETATM 2345 C3 NAG A 321 100 , .336 6. .267 10 , .162 1 , .00 95. .00 c

HETATM 2346 03 NAG A 321 99, .774 5. .031 10 , .540 1 , .00 94. .11 0

HETATM 2347 C4 NAG A 321 101 , .852 6. .146 10 , .078 1 , .00 99. .90 c

HETATM 2348 04 NAG A 321 102 , .343 6. .206 11 , .401 1 , .00111. .46 0

HETATM 2349 C5 NAG A 321 102 , .493 7. .282 9, .281 1 , .00 97. .44 c

HETATM 2350 C6 NAG A 321 103 , .947 6. .969 8 , .938 1 , .00 97. .10 c

HETATM 2351 06 NAG A 321 103 , .999 6. .031 7 , .886 1 , .00 97. .63 0

HETATM 2352 05 NAG A 321 101 , .790 7. .546 8 , .083 1 , .00 94. .30 0

HETATM 2353 CI BMA A 322 102 , .661 4. .906 11 , .925 1 , .00122. .99 c HETATM 2354 05 BMA A 322 101..525 4 ,.109 12 ,.255 1 ,.00127 ,.83 0

HETATM 2355 C5 BMA A 322 101. .884 2 , .771 12 , .618 1 , .00133 , .51 C

HETATM 2356 C6 BMA A 322 100. .615 1 , .981 12 , .924 1 , .00137 , .04 C

HETATM 2357 06 BMA A 322 99. .842 2 , .620 13 , .953 1 , .00142 , .80 0

HETATM 2358 C4 BMA A 322 102. .860 2 , .751 13 , .801 1 , .00134 , .12 C

HETATM 2359 04 BMA A 322 103. .375 1 , .426 13 , .966 1 , .00134 , .46 0

HETATM 2360 C3 BMA A 322 104. .027 3 , .719 13 , .595 1 , .00134 , .38 C

HETATM 2361 03 BMA A 322 104. .824 3 , .820 14 , .788 1 , .00140 , .14 0

HETATM 2362 C2 BMA A 322 103. .480 5 , .082 13 , .190 1 , .00128 , .00 C

HETATM 2363 02 BMA A 322 102. .656 5 , .617 14 , .234 1 , .00123 , .99 0

HETATM 2364 CI MAN A 323 106. .165 4 , .289 14 , .504 1 , .00144 , .86 C

HETATM 2365 C2 MAN A 323 107. .113 3 , .102 14 , .303 1 , .00145 , .83 C

HETATM 2366 02 MAN A 323 108. .221 3 , .519 13 , .532 1 , .00142 , .79 0

HETATM 2367 C3 MAN A 323 107. .599 2 , .476 15 , .614 1 , .00148 , .36 C

HETATM 2368 03 MAN A 323 108. .743 1 , .684 15 , .376 1 , .00147 , .23 0

HETATM 2369 C4 MAN A 323 107. .926 3 , .522 16, .674 1 , .00148 , .74 C

HETATM 2370 04 MAN A 323 108. .112 2 , .888 17 , .920 1 , .00149, .10 0

HETATM 2371 C5 MAN A 323 106. .804 4 , .549 16, .777 1 , .00147 , .56 C

HETATM 2372 C6 MAN A 323 107. .115 5 , .600 17 , .840 1 , .00145 , .14 C

HETATM 2373 06 MAN A 323 106. .520 6, .836 17 , .507 1 , .00142 , .88 0

HETATM 2374 05 MAN A 323 106. .646 5 , .160 15 , .511 1 , .00147 , .26 0

HETATM 2375 CI MAN A 324 98. .715 1 , .788 14 , .313 1 , .00148 , .42 C

HETATM 2376 C2 MAN A 324 97. .413 2 , .512 13 , .959 1 , .00148 , .60 C

HETATM 2377 02 MAN A 324 96. .396 1 , .554 13 , .757 1 , .00150 , .22 0

HETATM 2378 C3 MAN A 324 96. .973 3 , .530 15 , .015 1 , .00149, .37 C

HETATM 2379 03 MAN A 324 95. .624 3 , .891 14 , .809 1 , .00147 , .64 0

HETATM 2380 C4 MAN A 324 97. .141 2 , .995 16, .432 1 , .00149, .92 c

HETATM 2381 04 MAN A 324 96. .913 4 , .039 17 , .352 1 , .00148 , .37 0

HETATM 2382 C5 MAN A 324 98. .542 2 , .423 16, .616 1 , .00150 , .46 c

HETATM 2383 C6 MAN A 324 98. .735 1 , .846 18 , .015 1 , .00148 , .18 c

HETATM 2384 06 MAN A 324 98. .707 2 , .883 18 , .969 1 , .00148 , .30 0

HETATM 2385 05 MAN A 324 98. .741 1 , .389 15 , .673 1 , .00152 , .09 0

HETATM 2386 CI NAG A 330 113. .415 26, .632 18 , .299 1 , .00110 , .44 c

HETATM 2387 C2 NAG A 330 113. .451 27 , .224 19, .699 1 , .00114 , .33 c

HETATM 2388 N2 NAG A 330 112. .698 28 , .467 19, .720 1 , .00110 , .83 N

HETATM 2389 C7 NAG A 330 Ill . .815 28 , .817 20 , .662 1 , .00109, .92 c

HETATM 2390 07 NAG A 330 Ill . .216 29, .888 20 , .603 1 , .00108 , .90 0

HETATM 2391 C8 NAG A 330 Ill . .543 27 , .895 21 , .819 1 , .00109, .21 c

HETATM 2392 C3 NAG A 330 114. .898 27 , .468 20 , .090 1 , .00118 , .83 c

HETATM 2393 03 NAG A 330 114. .967 27 , .874 21 , .436 1 , .00118 , .84 0

HETATM 2394 C4 NAG A 330 115. .703 26, .186 19, .892 1 , .00123 , .15 c

HETATM 2395 04 NAG A 330 117. .068 26, .467 20 , .115 1 , .00134 , .68 0

HETATM 2396 C5 NAG A 330 115. .502 25 , .610 18 , .490 1 , .00117 , .64 c

HETATM 2397 C6 NAG A 330 116. .192 24 , .267 18 , .296 1 , .00115 , .10 c

HETATM 2398 06 NAG A 330 115. .595 23 , .304 19, .137 1 , .00110 , .28 0

HETATM 2399 05 NAG A 330 114. .125 25 , .419 18 , .271 1 , .00113 , .09 0

HETATM 2400 CI NAG A 331 117. .623 25 , .577 21 , .098 1 , .00141 , .38 c

HETATM 2401 C2 NAG A 331 119. .097 25 , .938 21 , .284 1 , .00142 , .10 c

HETATM 2402 N2 NAG A 331 119. .820 25 , .923 20 , .014 1 , .00137 , .18 N

HETATM 2403 C7 NAG A 331 120. .034 24 , .827 19, .278 1 , .00132 , .94 c

HETATM 2404 07 NAG A 331 119. .651 23 , .703 19, .593 1 , .00130 , .56 0

HETATM 2405 C8 NAG A 331 120. .795 25 , .006 17 , .995 1 , .00132 , .22 c

HETATM 2406 C3 NAG A 331 119. .740 25 , .076 22 , .372 1 , .00146, .26 c

HETATM 2407 03 NAG A 331 121. .036 25 , .546 22 , .661 1 , .00145 , .00 0

HETATM 2408 C4 NAG A 331 118. .870 25 , .127 23 , .623 1 , .00152 , .12 c

HETATM 2409 04 NAG A 331 119. .398 24 , .297 24 , .638 1 , .00162 , .28 0

HETATM 2410 C5 NAG A 331 117. .443 24 , .712 23 , .273 1 , .00149, .81 c

HETATM 2411 C6 NAG A 331 116. .516 24 , .666 24 , .486 1 , .00149, .59 c

HETATM 2412 06 NAG A 331 116. .467 25 , .929 25 , .110 1 , .00150 , .33 0 HETATM 2413 05 NAG A 331 116,.951 25 ,.649 22..340 1 ,.00144 ,.92 0

HETATM 2414 CI BMA A 332 119, .957 25 , .093 25. .701 1 , .00168 , .28 C

HETATM 2415 05 BMA A 332 121 , .230 25 , .636 25. .363 1 , .00170 , .32 0

HETATM 2416 C5 BMA A 332 121 , .709 26, .581 26. .321 1 , .00168 , .05 C

HETATM 2417 C6 BMA A 332 123 , .071 27 , .095 25. .858 1 , .00163 , .68 C

HETATM 2418 06 BMA A 332 122 , .918 28 , .350 25. .187 1 , .00159, .66 0

HETATM 2419 C4 BMA A 332 121 , .806 25 , .969 27. .721 1 , .00171 , .45 C

HETATM 2420 04 BMA A 332 121 , .940 27 , .054 28. .648 1 , .00169, .83 0

HETATM 2421 C3 BMA A 332 120 , .602 25 , .100 28. .112 1 , .00173 , .51 C

HETATM 2422 03 BMA A 332 120 , .940 24 , .206 29. .186 1 , .00179, .72 0

HETATM 2423 C2 BMA A 332 120 , .106 24 , .243 26. .951 1 , .00170 , .13 C

HETATM 2424 02 BMA A 332 121 , .018 23 , .165 26. .702 1 , .00165 , .46 0

HETATM 2425 CI MAN A 333 120 , .952 24 , .832 30. .488 1 , .00181 , .80 C

HETATM 2426 C2 MAN A 333 122 , .387 24 , .853 31. .001 1 , .00181 , .64 C

HETATM 2427 02 MAN A 333 122 , .457 25 , .624 32. .180 1 , .00179, .83 0

HETATM 2428 C3 MAN A 333 122 , .877 23 , .433 31. .267 1 , .00180 , .97 C

HETATM 2429 03 MAN A 333 124 , .163 23 , .465 31. .847 1 , .00178 , .86 0

HETATM 2430 C4 MAN A 333 121 , .903 22 , .692 32. .178 1 , .00181 , .14 C

HETATM 2431 04 MAN A 333 122 , .278 21 , .333 32. .241 1 , .00179, .06 0

HETATM 2432 C5 MAN A 333 120 , .464 22 , .813 31. .673 1 , .00179, .97 C

HETATM 2433 C6 MAN A 333 119, .472 22 , .252 32. .688 1 , .00175 , .98 C

HETATM 2434 06 MAN A 333 118 , .313 21 , .812 32. .017 1 , .00171 , .57 0

HETATM 2435 05 MAN A 333 120 , .127 24 , .167 31. .426 1 , .00181 , .86 0

HETATM 2436 CI NAG A 340 100 , .888 27 , .243 -17. .586 1 , .00 88 , .88 C

HETATM 2437 C2 NAG A 340 99, .518 26, .573 -17. .707 1 , .00 90 , .13 C

HETATM 2438 N2 NAG A 340 99, .446 25 , .405 -18. .592 1 , .00 92 , .46 N

HETATM 2439 C7 NAG A 340 99, .882 25 , .283 -19. .848 1 , .00 92 , .58 C

HETATM 2440 07 NAG A 340 99, .757 24 , .207 -20. .432 1 , .00 91 , .08 0

HETATM 2441 C8 NAG A 340 100 , .517 26, .438 -20. .572 1 , .00 94 , .41 C

HETATM 2442 C3 NAG A 340 98 , .440 27 , .624 -17. .910 1 , .00 89, .36 C

HETATM 2443 03 NAG A 340 97 , .185 26, .988 -17. .974 1 , .00 89, .82 0

HETATM 2444 C4 NAG A 340 98 , .497 28 , .556 -16. .702 1 , .00 89, .59 c

HETATM 2445 04 NAG A 340 97 , .691 29, .694 -16. .929 1 , .00 94 , .05 0

HETATM 2446 C5 NAG A 340 99, .924 29, .020 -16. .373 1 , .00 88 , .48 c

HETATM 2447 C6 NAG A 340 99, .977 29, .712 -15. . Oil 1 , .00 87 , .61 c

HETATM 2448 06 NAG A 340 99, .455 28 , .875 -14. .001 1 , .00 84 , .45 0

HETATM 2449 05 NAG A 340 100 , .874 27 , .967 -16. .379 1 , .00 88 , .47 0

HETATM 2450 CI NAG A 341 96, .435 29, .594 -16. .232 1 , .00 96, .35 c

HETATM 2451 C2 NAG A 341 95 , .794 30 , .976 -16. .163 1 , .00 96, .82 c

HETATM 2452 N2 NAG A 341 96, .637 31 , .906 -15. .427 1 , .00 95 , .78 N

HETATM 2453 C7 NAG A 341 97 , .606 32 , .617 -16. .010 1 , .00 95 , .58 C

HETATM 2454 07 NAG A 341 97 , .874 32 , .543 -17. .210 1 , .00 95 , .58 0

HETATM 2455 C8 NAG A 341 98 , .401 33 , .540 -15. .131 1 , .00 95 , .35 c

HETATM 2456 C3 NAG A 341 94 , .416 30 , .892 -15. .520 1 , .00 99, .78 c

HETATM 2457 03 NAG A 341 93 , .789 32 , .152 -15. .588 1 , .00 99, .67 0

HETATM 2458 C4 NAG A 341 93 , .591 29, .840 -16. .252 1 , .00104 , .00 c

HETATM 2459 04 NAG A 341 92 , .301 29, .715 -15. .684 1 , .00111 , .33 0

HETATM 2460 C5 NAG A 341 94 , .327 28 , .504 -16. .243 1 , .00102 , .77 c

HETATM 2461 C6 NAG A 341 93 , .552 27 , .414 -16. .979 1 , .00104 , .49 c

HETATM 2462 06 NAG A 341 93 , .598 27 , .650 -18. .370 1 , .00105 , .18 0

HETATM 2463 05 NAG A 341 95 , .577 28 , .676 -16. .876 1 , .00 98 , .21 0

HETATM 2464 CI BMA A 342 91 , .328 30 , .498 -16. .408 1 , .00119, .64 c

HETATM 2465 05 BMA A 342 91 , .085 31 , .765 -15. .791 1 , .00120 , .34 0

HETATM 2466 C5 BMA A 342 90 , .208 32 , .602 -16. .547 1 , .00121 , .32 c

HETATM 2467 C6 BMA A 342 90 , .160 33 , .985 -15. .906 1 , .00121 , .40 c

HETATM 2468 06 BMA A 342 91 , .453 34 , .603 -16. .035 1 , .00124 , .56 0

HETATM 2469 C4 BMA A 342 88 , .838 31 , .936 -16. .610 1 , .00123 , .92 c

HETATM 2470 04 BMA A 342 87 , .945 32 , .698 -17. .428 1 , .00121 , .93 0

HETATM 2471 C3 BMA A 342 88 , .953 30 , .537 -17. .203 1 , .00128 , .89 c HETATM 2472 03 BMA A 342 87 , .672 29, .893 -17 , .113 1 , .00140 , .69 0

HETATM 2473 C2 BMA A 342 90 , .035 29, .699 -16, .517 1 , .00124 , .67 C

HETATM 2474 02 BMA A 342 89, .623 29, .265 -15 , .215 1 , .00123 , .88 0

HETATM 2475 CI MAN A 343 87 , .247 29, .408 -18 , .403 1 , .00151 , .30 C

HETATM 2476 C2 MAN A 343 85 , .721 29, .263 -18 , .399 1 , .00154 , .03 C

HETATM 2477 02 MAN A 343 85 , .137 28 , .979 -19, .667 1 , .00161 , .06 0

HETATM 2478 C3 MAN A 343 85 , .324 28 , .143 -17 , .439 1 , .00150 , .64 C

HETATM 2479 03 MAN A 343 83 , .935 27 , .917 -17 , .508 1 , .00147 , .95 0

HETATM 2480 C4 MAN A 343 86, .065 26, .864 -17 , .811 1 , .00151 , .44 C

HETATM 2481 04 MAN A 343 85 , .807 25 , .852 -16, .867 1 , .00146, .63 0

HETATM 2482 C5 MAN A 343 87 , .571 27 , .112 -17 , .856 1 , .00153 , .70 C

HETATM 2483 C6 MAN A 343 88 , .343 25 , .860 -18 , .278 1 , .00155 , .05 C

HETATM 2484 06 MAN A 343 87 , .459 24 , .892 -18 , .810 1 , .00158 , .77 0

HETATM 2485 05 MAN A 343 87 , .851 28 , .175 -18 , .751 1 , .00154 , .50 0

HETATM 2486 CI MAN A 345 85 , .695 29, .622 -20 , .841 1 , .00166, .37 C

HETATM 2487 C2 MAN A 345 85 , .634 31 , .158 -20 , .781 1 , .00167 , .59 C

HETATM 2488 02 MAN A 345 86, .580 31 , .692 -21 , .683 1 , .00167 , .20 0

HETATM 2489 C3 MAN A 345 84 , .245 31 , .731 -21 , .075 1 , .00166, .74 C

HETATM 2490 03 MAN A 345 84 , .322 33 , .124 -21 , .288 1 , .00162 , .83 0

HETATM 2491 C4 MAN A 345 83 , .617 31 , .055 -22 , .288 1 , .00167 , .34 C

HETATM 2492 04 MAN A 345 82 , .280 31 , .482 -22 , .423 1 , .00162 , .36 0

HETATM 2493 C5 MAN A 345 83 , .684 29, .542 -22 , .101 1 , .00168 , .99 C

HETATM 2494 C6 MAN A 345 83 , .040 28 , .783 -23 , .255 1 , .00168 , .07 C

HETATM 2495 06 MAN A 345 83 , .134 27 , .399 -22 , .995 1 , .00164 , .56 0

HETATM 2496 05 MAN A 345 85 , .042 29, .160 -22 , .008 1 , .00168 , .63 0

HETATM 2497 CI MAN A 344 91 , .467 35 , .742 -16, .924 1 , .00128 , .05 c

HETATM 2498 C2 MAN A 344 92 , .582 35 , .574 -17 , .955 1 , .00130 , .27 c

HETATM 2499 02 MAN A 344 92 , .454 36, .565 -18 , .952 1 , .00128 , .74 0

HETATM 2500 C3 MAN A 344 93 , .959 35 , .658 -17 , .296 1 , .00130 , .86 c

HETATM 2501 03 MAN A 344 94 , .974 35 , .677 -18 , .278 1 , .00129, .03 0

HETATM 2502 C4 MAN A 344 94 , .078 36, .901 -16, .419 1 , .00129, .88 c

HETATM 2503 04 MAN A 344 95 , .251 36, .794 -15 , .641 1 , .00125 , .41 0

HETATM 2504 C5 MAN A 344 92 , .861 37 , .074 -15 , .505 1 , .00129, .52 c

HETATM 2505 C6 MAN A 344 92 , .875 38 , .441 -14 , .825 1 , .00129, .77 c

HETATM 2506 06 MAN A 344 93 , .749 38 , .437 -13 , .718 1 , .00128 , .61 0

HETATM 2507 05 MAN A 344 91 , .648 36, .961 -16, .230 1 , .00127 , .47 0

HETATM 2508 CI MAN A 346 88 , .141 23 , .896 -19, .600 1 , .00161 , .77 c

HETATM 2509 C2 MAN A 346 88 , .219 24 , .347 -21 , .060 1 , .00161 , .25 c

HETATM 2510 02 MAN A 346 89, .132 23 , .525 -21 , .752 1 , .00159, .91 0

HETATM 2511 C3 MAN A 346 86, .856 24 , .287 -21 , .743 1 , .00161 , .31 c

HETATM 2512 03 MAN A 346 86, .990 24 , .544 -23 , .123 1 , .00161 , .03 0

HETATM 2513 C4 MAN A 346 86, .221 22 , .919 -21 , .532 1 , .00159, .90 c

HETATM 2514 04 MAN A 346 84 , .913 22 , .924 -22 , .053 1 , .00159, .25 0

HETATM 2515 C5 MAN A 346 86, .185 22 , .604 -20 , .039 1 , .00159, .17 c

HETATM 2516 C6 MAN A 346 85 , .541 21 , .251 -19, .747 1 , .00155 , .90 c

HETATM 2517 06 MAN A 346 86, .162 20 , .229 -20 , .493 1 , .00152 , .47 0

HETATM 2518 05 MAN A 346 87 , .505 22 , .631 -19, .523 1 , .00163 , .55 0