WO2002006442A2 - Cell-wall degrading enzyme variants - Google Patents

Cell-wall degrading enzyme variants Download PDF

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WO2002006442A2
WO2002006442A2 PCT/DK2001/000505 DK0100505W WO0206442A2 WO 2002006442 A2 WO2002006442 A2 WO 2002006442A2 DK 0100505 W DK0100505 W DK 0100505W WO 0206442 A2 WO0206442 A2 WO 0206442A2
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WO2002006442A3 (en
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Sanne O. Schrøder GLAD
Carsten Andersen
Torben Peter Frandsen
Martin Schülein
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Novozymes A/S
Henriksen, Torben
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Priority to AU2001281736A priority Critical patent/AU2001281736A1/en
Priority to MXPA03000435A priority patent/MXPA03000435A/en
Priority to EP01960180A priority patent/EP1305408B1/en
Priority to DE60137510T priority patent/DE60137510D1/en
Publication of WO2002006442A2 publication Critical patent/WO2002006442A2/en
Publication of WO2002006442A3 publication Critical patent/WO2002006442A3/en

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    • C12N9/00Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
    • C12N9/88Lyases (4.)

Definitions

  • the present invention relates to variants of microbial cell -wall degrading enzymes, more specifically to variants of enzymes having a pectinase structure similar to that of Bacillus licheniformis enzymes exhibiting pectate lyase activity as their major enzymatic activity in the neutral and alkaline pH ranges; to a method of producing such enzymes; and to methods for using such enzymes in the textile, detergent and cellulose fiber processing industries.
  • the enzyme variants of the invention may exhibit increased thermostability as compared to the parent enzyme .
  • Plant cell walls consist of a complicated network of fibrous materials.
  • the composition of the cell walls varies considerably, depending on the source of the vegetable material. However, in general its composition can be summarized as mainly comprising non-starch polysaccharides . These polysaccharides can be found in various forms: cellulose, hemicellulose and pectins.
  • composition of a plant cell wall is both complex and variable.
  • Polysaccharides are mainly found in the form of long chains of cellulose (the main structural component of the plant cell wall), hemicellulose (comprising e.g. various .beta.-xylan chains) and pectin.
  • the occurrence, distribution and structural features of plant cell wall polysaccharides are determined by: 1. Plant species; 2. Variety; 3. Tissue type; 4. Growth conditions; and 5. Ageing (Chesson (1987), Recent Advances in Animal Food Nutrition, Haresign on Cole, eds . ) . Butterworth, London, 71-89) .
  • Monocotyledons e.g. cereals and grasses
  • dicotyledons e.g. clover, rapeseed and soybean
  • Monocotyledons are characterized by the presence of an arabinoxylan complex as the major hemicellulose backbone.
  • the main structure of hemicellulose in dicotyledons is a xyloglucan complex.
  • higher pectin concentrations are found in dicotyledons than in monocotyledons .
  • Seeds are generally very high in pectic substances, but relatively low in cellulosic material. Three more or less interacting polysaccharide structures can be distinguished in the cell wall :
  • the middle lamella forms the exterior cell wall. It also serves as the point of attachment for the individual cells to one another within the plant tissue matrix.
  • the middle lamella consists primarily of calcium salts of highly esterified pectins;
  • the primary wall is situated just inside the middle lamella. It is a well-organized structure of cellulose microfibrils embedded in an amorphous matrix of pectin, hemicellulose, phenolic esters and proteins;
  • the secondary wall is formed as the plant matures. During the plant's growth and ageing phase, cellulose microfibrils, hemicellulose and lignin are deposited.
  • Cellulose is the major polysaccharide component of plant cell walls. It consists of .beta. 1,4 linked glucose polymers. Cellulose can be broken down by cellulases, also called cellulolytic enzymes. Cellulolytic enzymes have been divided traditionally into three classes: endoglucanases, exoglucanases or cellobichydrolases and .beta. -glucosidases (Knowles, J. , et al. (1987), TIBTECH 5, 255-261). Like all cell wall degrading enzymes they can be produced by a large number of bacteria, yeasts and fungi. Apart from cellulases degrading .beta. -1,4 glucose polymers, endo-1, 3/1,4 .beta. -glucanases and xyloglucanases should be mentioned (Ward and Young op. cit . ) .
  • Pectins are major constituents of the cell walls of edible parts of fruits and vegetables.
  • the middle lamella which are situated between the cell walls are mainly built up from protopectin which is the insoluble form of pectin.
  • Pectins are considered as intracellular adhesives and due to their colloidal nature they also have an important function in the water regulation system of plants.
  • the amount of pectin can be very high. For example, lemon peels are reported to contain pectin at up to 30% of their dry weight, orange peels contain from 15-20% and apple peels about 10% (Norz, K. (1985) . Zucker und Susswaren Tail 38, 5-6) .
  • Pectins are composed of a rhamno-galacturonan backbone in which 1,4- linked (. alpha . -D-galacturonan chains are interrupted at intervals by the insertion of 1,2-linked (. alpha. -L-rhamnopyranosyl residues (Pilnik, W. and A. Voragen (1970), In: The Biochemistry of fruits and their products, vol. 1, Chapter 3, p. 53. Acad. Press) .
  • Other sugars such as D- galactose, L-arabinose and D-xylose, are present as side chains.
  • a large part of the galacturonan residues is esterified with methyl groups at the C2 and C3 position.
  • pectin esterase a large number of enzymes are known to degrade pectins.
  • pectin lyase also called pectin transeliminase
  • pectate lyase endo- or exo-polygalacturonase
  • endo- or exo-polygalacturonase a large number of enzymes are known to degrade pectins.
  • pectin esterase also called pectin transeliminase
  • pectate lyase endo- or exo-polygalacturonase
  • endo- or exo-polygalacturonase a large number of enzymes degrading hairy regions
  • rhamnogalacturonase and accesory enzymes have also been found (Schols et al . (1990), Carbohydrate Res. 206, 105-115; Searle Van Leeuwen et al . (1992
  • Pectinases can be classified according to their preferential substrate, highly methyl-esterified pectin or low methyl -esterified pectin and polygalacturonic acid (pectate) , and their reaction mechanism, beta-elimination or hydrolysis. Pectinases can be mainly endo-acting, cutting the polymer at random sites within the chain to give a mixture of oligomers, or they may be exo-acting, attacking from one end of the polymer and producing monomers or dimers .
  • pectinase activities acting on the smooth regions of pectin are included in the classification of enzymes provided by the Enzyme Nomenclature (1992) such as pectate lyase (EC 4.2.2.2), pectin lyase (EC 4.2.2.10), polygalacturonase (EC 3.2.1.15), exo- polygalacturonase (EC 3.2.1.67), exo-polygalacturonate lyase 5 (EC 4.2.2.9) and exo-poly-alpha-galacturonosidase (EC 3.2.1.82) .
  • Pectate lyases degrade un-methylated (polygalacturonate) or low-methylated pectin by ⁇ -elimination of the a- 1 , 4 - glycosidic bond.
  • the enzymes are generally characterised by an lo alkaline pH optimum, an absolute requirement for Ca 2+ (though its role in binding and catalysis is unknown) and good temperature stability.
  • Pectate lyases have been cloned from different bacterial genera such as Bacillus, Erwinia, Pseudomonas, Klebsiella and i5 Xan thomonas .
  • Pectinases consist of an unusual backbone of parallel ⁇ - strands coiled in a large right-handed helix.
  • the parallel ⁇ - helix contains three ⁇ -strands pr. turn (PBl, PB2 , and PB3) and consecutive turns stack one on to another to form a super-
  • the stacks can be of aliphatic (typically leucine, isoleucine and valine residues) , hydrogen-bonded (typically asparagine residues, known as an asparagine ladder) , or aromatic (typically tyrosine and phenylalanine residues) character.
  • Stack amino acid side chains are found both within and outside the parallel ⁇ -helix, forming a linear arrangement parallel to the axis of the ⁇ helix.
  • the three ⁇ -sheets are separated by turns, termed Tl (between PBl and PB2), T2 (between PB2 and PB3 , introducing a 90° change of backbone orientation) , and T3 (between PB3 and PBl) . It is within these regions that the largest diversity among the different pectinases is found, the most conserved regions being the ⁇ -sheets PB2 and PB3 and the T2 turn. There is a large variety in the length of these turns, ranging from only two amino acids to tens of amino acids .
  • the T3 turns are commonly lengthy and of more complex formation and constitute a loop region which together with the ⁇ -helix (primarily PBl) confines the substrate binding crevice .
  • the N-terminal end of the parallel ⁇ -helix domain is capped by an ⁇ -helix that is structurally conserved although the sequence conservation is undetectable.
  • the C-terminal end of the ⁇ -helix is terminated by a loop structure with no specific conservation.
  • the N-terminal tail packs against PB2 while the C-terminal tail lies across PB2 ending in a highly structurally (but not sequentially) conserved, amphipathic ⁇ - helix, with the hydrophobic part packing against the T2 turn.
  • calcium binds to three aspartate residues, two of which are conserved for all pectate lyases and one that can also be glutamate.
  • arginines two arginines, one lysine and a proline all facing the substrate-binding cleft are conserved in the pectinase family. Mutation of the aspartates (one can be mutated to glutamate) , the arginines or the lysine destroys the catalytic activity, however the exact catalytic mechanism is not fully understood.
  • a second cluster of invariant amino acids in the pectate lyases is located practically opposite to the Ca 2+ -binding site, that is, on the other side of the ⁇ -helix domain packing against the N-terminus. Even though this iWiDH region is highly conserved throughout the pectinase family, the function of this is as yet unknown. It does not seem to be important for pectinolytic cleavage, but has been speculated to be involved in a second, yet unidentified, enzymatic function, or to be of importance in secretion of the enzyme always being of extracellular origin.
  • Hemicelluloses are the most complex group of non-starch polysaccharides in the plant cell wall. They consist of polymers of xylose, arabinose, galactose or mannose which are often highly branched and connected to other cell wall structures . Thus a multitude of enzymes is needed to degrade these structures (Ward and Young op.cit.). Xylanase, galactanase, arabinanase, lichenase and mannanase are some hemicellulose degrading enzymes.
  • Endo- and exo-xylanases and accessory enzymes such as glucuronidases, arabinofuranosidases, acetyl xylan esterase and ferulic acid or coumaric acid esterase have been summarized by Kormelink (1992, Ph.D. -thesis, University of Wageningen, The Netherlands) . They are produced by a wide variety of microorganisms and have varying temperature and pH optima.
  • CWDE'S galactanases Like other cell wall degrading enzymes (CWDE'S) galactanases occur in many micro-organisms (Dekker and Richards (1976), Adv. Carbohydrat. Chem. Biochem. 32, 278-319). In plant cell walls two types of arabinogalactans are present: type I 1,4 .beta. -galactans and type II 1,3/1,6 .beta. -galactans which have a branched backbone (Stephen (1983) . In: The Polysaccharides. G. 0. Aspinael (ed.). Ac. Press, New York, pp. 97-193) . Both types of galactans require their own type of endo enzyme to be degraded.
  • the hemicellulose 1, 3-1, 4- .beta. -glucan is a cell wall component present in cereal (barley, oat, wheat and rye) endosperm.
  • the amount of .beta . -glucan in cereal endosperm varies between 0.7-8%. It is an unbranched polysaccharide built
  • Lichenase (EC 3.2.1.73) hydrolyse 1, 4-beta-D-glucosidic linkages in beta-D-glucans containing 1,3- and 1,4-bonds.
  • Lichenase reacts not on beta-D-glucans containing only 1,4- bonds such as for example in cellulose. Thus, damage of cellulose fibers in fabrics does not occur by the application of lichenase. Lichenases are produced by bacteria like B. amyloliguefaciens, B. circulans, B. licheniformis and plants is (Bielecki S. et al . Crit . Rev. in Biotechn. 10(4), 1991, 275- 304) .
  • Arabinans consist of a main chain of . alpha. -L-arabinose subunits linked (. alpha .- (l->5) to another. Side chains are linked . alpha. - (l->3) or sometimes . alpha. - (l->2) to the main chain
  • Arabinan-degrading enzymes are known to be produced by a variety of plants and micro-organisms. Three enzymes obtainable
  • Galactomannans are storage polysaccharides found in the
  • Galactomannans have a linear (l-->4)- .beta. -mannan backbone and are substituted with single (1-- >6) . alpha. -galactose residues. For example in guar gum the ratio mannose/galactose is about 2 to 1.
  • Galactomannans are applied as thickeners in food products like dressings and
  • Glucomannan consists of a main chain of glucose
  • the figure was produced using the program ESPript (Gouet, P., Courcelle, E., Stuart, D. and Metoz, F. Bioinformatics, 15, 305-308 (1999)), employing the Blosum matrix.
  • ESPript Gouet, P., Courcelle, E., Stuart, D. and Metoz, F. Bioinformatics, 15, 305-308 (1999)
  • Appendix 1 shows the structural coordinates of the Bacillus licheniformis pectate lyase comprising the amino acid sequence of SEQ ID NO: 2.
  • a specific numbering of amino acid residue positions in cell-wall degrading enzymes is employed.
  • pectate lyase enzymes For example, by aligning the amino acid sequences of known pectate lyases it is possible to unambiguously allot an amino acid position number to any amino acid residue in any pectate lyase enzyme, if its amino acid sequence is known.
  • pectate lyase numbering refer, unless otherwise stated, to the numbering described above, and are determined relative to the amino acid sequence of the pectate lyase derived from Bacillus licheniformis, ATCC 14580.
  • wild-type enzyme denotes an enzyme, which is endogenous to a naturally occurring microorganism such as a fungus or a bacterium found in Nature .
  • ortholog denotes a polypeptide or protein obtained from one species that has homology to an analogous polypeptide or protein from a different species.
  • polypeptide or protein obtained from a given species that has homology to a distinct polypeptide or protein from that same species.
  • expression vector denotes a DNA molecule, linear or circular, that comprises a segment encoding a polypeptide of interest operably linked to additional segments that provide for its transcription. Such additional segments may include promoter and terminator sequences, and may optionally include one or more origins of replication, one or more selectable markers, an enhancer, a polyadenylation signal, and the like.
  • Expression vectors are generally derived from plasmid or viral DNA, or may contain elements of both.
  • the expression vector of the invention may be any expression vector that is conveniently subjected to recombinant DNA procedures, and the choice of vector will often depend on the host cell into which the vector it is to be introduced.
  • the vector may be an autonomously replicating vector, i.e. a vector existing as an extrachromosomal entity, the replication of which is independent of chromosomal replication, e.g. a plasmid.
  • the vector may be one which, when introduced into a host cell, is integrated into the host cell genome and replicated together with the chromosome (s) into S ⁇
  • pectin denotes pectate, polygalacturonic acid, and pectin which may be esterified to a higher. or lower degree .
  • pectinase denotes a pectinase enzyme defined according to the art where pectinases are a group of enzymes that cleave glycosidic linkages of pectic substances mainly poly (1, 4-alpha-D-galacturonide and its derivatives (see reference Sakai et al . , Pectin, pectinase and protopectinase: production, properties and applications, pp 213-294 in: Advances in Applied Microbiology vol:39,1993) .
  • a pectinase of the invention is a pectinase enzyme which catalyzes the random cleavage of alpha-1,4- glycosidic linkages in pectic acid also called polygalacturonic acid by transelimination such as the enzyme class polygalacturonate lyase (EC 4.2.2.2) (PGL) also known as poly (1, 4-alpha-D-galacturonide) lyase also known as pectate lyase .
  • PGL enzyme class polygalacturonate lyase
  • thermoostability or "thermal stability” is intended to mean the stability of the protein to thermal influence.
  • thermostability means that the enzyme protein may retain its enzymatic activity and/or exhibit a higher relative activity at increased temperatures .
  • sequence information herein relating to a polynucleotide sequence encoding a wild-type pectate lyase can be used as a tool to identify other homologous pectate lyases.
  • polymerase chain reaction PCR
  • PCR polymerase chain reaction
  • sequence alignment in pir format of the protein to be modelled to one or more homologues sequences where the crystal structure is available.
  • the sequence alignment can be calculated by using ClustalW/ClustalX and standard parameters (ClustalX: Thompson, J.D. , Gibson, T.J., Plewniak,F., Jeanmougin, F. and Higgins,D.G. (1997) The ClustalX windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Research, 24:4876-4882.
  • ClustalW Thompson, J.D., Higgins, D.G. and Gibson, T.J.
  • cell-wall degrading enzyme variants especially pectate lyases variants, having a stabilized beta-helix structure
  • the stabilized beta-helix structure may be obtained by determining the stack residues of the parent enzyme, followed by substitution of one or more stack residues.
  • the stack positions may be optimised by:
  • thermostability of the variants by DSC or an application-related assay such as a Pad-Steam application test ;
  • a stack residue is defined as one of the following, based on the X-ray crystallography structure of the enzyme or a high- quality homology-build model:
  • Preferred stack positions for substitution are: 155, 183, 23, 46, 72, 96, 123, 154, 182, 204, 227, 252, 22, 45, 203, 251, 152, 180, 202, 225, 250, 69 , 93, 120, 151, 68, 92,
  • the stabilized beta-helix structure may be obtained by scanning the x-ray structure for positions that may be mutated into a proline residue; this can e.g. be done using the SUGPRO routine in the modelling program Whatif or by the method described in
  • proline positions and proline substitution positions were identified by using the angle algorithm disclosed in W092/19726 (at which position (s) the dihedral angles ⁇ (phi) constitute values within the interval [-90° ⁇ -40°] , preferably the dihedral angles ⁇ (phi) and ⁇ (psi) constitute values within the intervals [-90° ⁇ -40°] and [-180° ⁇ -150° or -80 ⁇ 10 or 100 ⁇ 180] , and which position(s) is/are not located in regions in which the enzyme is characterized by possessing ⁇ -helical or ⁇ -sheet structure) :
  • preferred variants hold a proline residue in one or more of the following positions: 5, 8, 9, 10, 19, 38, 39, 40, 41, 44, 55, 56, 59, 61, 64, 109, 112, 117, 118, 133, 136, 137, 139, 142, 164, 166, 171, 173, 179, 196, 214, 224, 239, 246, 248, 264, 266, 269, 275, 278, 282, 283, 284, 285, 35 288, 289, 297.
  • the stabilized beta-helix structure may be obtained by scanning the x-ray structure for positions that may be mutated into cysteine Oi JJ r ⁇ TJ rd CQ ⁇ ⁇ ⁇ Oi rH ⁇ -ri .
  • sequence of amino acids no. 1-302 of SEQ ID No 2 is a mature pectate lyase sequence corresponding to a wild-type pectate lyase from the species Bacillus licheniformis .
  • sequence of amino acids no. 1-302 of SEQ ID No 7 is a mature pectate lyase sequence corresponding to the variant M169I + F198V of the pectate lyase from the species Bacillus 1 i cheni formi s .
  • sequence of amino acids no. 1-302 of SEQ ID No 8 is a mature pectate lyase sequence corresponding to the variant M169I + F198V + S72I of the pectate lyase from the species Bacillus licheniformis.
  • the present invention also provides pectate lyase variants of polypeptides that are substantially homologous to the polypeptides of SEQ ID NO: 7 or SEQ ID NO : 8 and their species homologs (paralogs or orthologs) with the proviso that the amino acid residues of the following positions of SEQ ID NO : 7 or SEQ ID NO : 8 are conserved: 111, 141, 145, 165, 169, 194, 196, 198 and 199.
  • the amino acid residues of positions 123, 125 and 126 are also conserved, but amino acid substitutions in any of these positions may be made without loss of catalytic, i.e. pectate lyase, activity.
  • substantially homologous is used herein to denote polypeptides having 70%, more preferably at least 85%, and even more preferably at least 90%, sequence identity to the sequence shown in SEQ ID NO: 7 or SEQ ID NO : 8 or their orthologs or paralogs . Such polypeptides will more preferably be at least 95% identical, and most preferably 98% or more identical to the sequence shown in SEQ ID NO: 7 or SEQ ID NO: 8 or its orthologs or paralogs.
  • Percent sequence identity is determined by conventional methods, by means of computer programs known in the art such as GAP provided in the GCG program package (Program Manual for the Wisconsin Package, Version 8, August 1994, Genetics Computer Group, 575 Science Drive, Madison, Wisconsin, USA 53711) as disclosed in Needleman, S.B. and Wunsch, CD., (1970), Journal of Molecular Biology, 48, 443- 453, which is hereby incorporated by reference in its entirety.
  • GAP is used with the following settings for polypeptide TJ JJ O ⁇ ⁇ -rl 0 ti rH ⁇
  • Aromatic/ Heteroaromatic phenylalanine tryptophan tyrosine histidine
  • non-standard amino acids such as 4-hydroxyproline, 6-.N-meth.yl lysine, 2- aminoisobutyric acid, isovaline and a-methyl serine
  • a limited number of non-conservative amino acids, amino acids that are not encoded by the genetic code, and unnatural amino acids may be substituted for amino acid residues.
  • "Unnatural amino acids” have been modified after protein synthesis, and/or have a chemical structure in their side chain (s) different from that of the standard amino acids.
  • Unnatural amino acids can be chemically synthesized, or preferably, are commercially available, and include pipecolic acid, thiazolidine carboxylic acid, dehydroproline, 3- and 4-methylproline, and 3,3- dimethylproline .
  • Essential amino acids in the pectate lyase polypeptides of the present invention can be identified according to procedures known in the art, such as site-directed mutagenesis or alanine- scanning mutagenesis (Cunningham and Wells, Science 244 : 1081- 1085, 1989) . In the latter technique, single alanine mutations are introduced at every residue in the molecule, and the 5 resultant mutant molecules are tested for biological activity (i.e pectate lyase activity) to identify amino acid residues that are critical to the activity of the molecule. See also, Hilton et al . , J. Biol. Chem. 271:4699-4708, 1996.
  • the active site of the enzyme or other biological interaction can also be lo determined by physical analysis of structure, as determined by such techniques as nuclear magnetic resonance, crystallography, electron diffraction or photoaffinity labeling, in conjunction with mutation of putative contact site amino acids. See, for example, de Vos et al . , Science 255:306-312, 1992; Smith et
  • Mutagenesis/shuffling methods as disclosed above can be combined with high-throughput, automated screening methods to
  • Preferred multiple substitutions in the aliphatic and aromatic stacks of amino acid side chains believed to stabilize the ⁇ -helix structure are:
  • F200Y + M222Y, and other preferred substitutions in the stacks are K83N, M167F,I, E189H,N, G163L, L100N, S72I and V71N.
  • Preferred multiple substitutions believed to stabilize the binding cleft are:
  • N207S + N230E and other preferred substitutions are D136Y, N192Y and R262E.
  • the pectate lyase variant of the invention may, in addition to the enzyme core comprising the catalytically domain, also comprise a cellulose binding domain (CBD) , the cellulose binding domain and enzyme core (the catalytically active domain) of the enzyme being operably linked.
  • the cellulose binding domain (CBD) may exist as an integral part
  • the enzyme or enzyme preparation may be used in the treatment of mash from fruits and vegetables in order, to improve the extractability or degradability of the mash.
  • the enzyme preparation may be used in the treatment of mash from apples and pears for juice production, and in the mash treatment of grapes for wine production.
  • the APSU assay measures the change in viscosity of a solution of polygalacturonic acid in the absence of added calcium ions.
  • a 5% w/v solution of sodium polygalacturonate (Sigma P- 1879) is solubilised in 0.1 M glycine buffer, pH 10. 4 ml of this solution are preincubated for 5 min at 40 ?C. Then, 250 ⁇ l of the enzyme (or enzyme dilution) are added, after which the reaction is mixed for 10 sec on a mixer at the highest speed and incubated for 20 min at 40?C or at another temperature .
  • Viscosity is measured using a MIVI 600 viscometer (Sofraser, 45700 Villemandeur, France) . Viscosity is measured as mV after 10 sec. For calculation of APSU units the following standard curve is used:
  • This strain is the B. subtilis DN1885 with disrupted apr and npr genes (Diderichsen, B., Wedsted, U. , Hedegaard, L. , Jensen, B. R. , Sj ⁇ holm, C. (1990) Cloning of aldB, which encodes alpha-acetolactate decarboxylase, an exoenzyme from Bacillus brevis. J. Bacteriol . , 172, 4315-4321) disrupted in the transcriptional unit of the known Bacillus subtilis cellulase gene, resulting in cellulase negative cells. The disruption was performed essentially as described in (Eds. A.L.
  • Competent cells were prepared and transformed as described by Yasbin, R.E., Wilson, G.A. and Young, F.E. (1975) Transformation and transfection in lysogenic strains of Bacillus subtilis : evidence for selective induction of prophage in competent cells. J. Bacteriol, 121:296-304.
  • Plasmids pMOL944 Plasmids pMOL944 :
  • This plasmid is a pUBHO derivative essentially containing elements making the plasmid propagatable in Bacillus subtilis, kanamycin resistance gene and having a strong promoter and signal peptide cloned from the amyL gene of B . licheniformis ATCC14580.
  • the signal peptide contains a SacII site making it convenient to clone the DNA encoding the mature part of a protein in-fusion with the signal peptide. This results in the expression of a Pre-protein which is directed towards the exterior of the cell .
  • the plasmid was constructed by means of conventional genetic engineering techniques which are briefly described in the following. Construction of pMOL944 :
  • the pUBHO plasmid (McKenzie, T. et al . , 1986, Plasmid 15:93-103) was digested with the unique restriction enzyme Neil.
  • a PCR fragment amplified from the amyL promoter encoded on the plasmid pDN1981 (P.L. J ⁇ rgensen et al . , 1990, Gene, 96, p37-41.) was digested with Neil and inserted in the Neil digested pUBHO to give the plasmid pSJ2624.
  • the two PCR primers used have the following sequences:
  • the primer #LWN5494 inserts a Notl site in the plasmid.
  • the plasmid pSJ2624 was then digested with Sad and Notl and a new PCR fragment amplified on amyL promoter encoded on the pDN1981 was digested with Sad and Notl and this DNA fragment was inserted in the Sacl-Notl digested pSJ2624 to give the plasmid pSJ2670.
  • This cloning replaces the first amyL promoter cloning with the same promoter but in the opposite direction.
  • the two primers used for PCR amplification have the following sequences :
  • the plasmid pSJ2670 was digested with the restriction enzymes Pstl and Bell and a PCR fragment amplified from a cloned DNA sequence encoding the alkaline amylase SP722 (disclosed in the International Patent Application published as W095/26397 which is hereby incorporated by reference in its entirety) was digested with Pstl and Bell and inserted to give the plasmid pMOL944.
  • the two primers used for PCR amplification have the following sequence:
  • Chromosomal DNA isolated from B . licheniformis ATCC 14580 as described above was used as template in a PCR reaction using Amplitaq DNA Polymerase (Perkin Elmer) according to manufacturers instructions.
  • the PCR reaction was set up in PCR buffer (10 mM Tris-HCl, pH 8.3, 50 mM KCl, 1.5 mM MgCl 2 , 0.01 % (w/v) gelatin) containing 200 ⁇ M of each dNTP, 2.5 units of AmpliTaq polymerase (Perkin-Elmer, Cetus, USA) and 100 pmol of each primer
  • the PCR reactions was performed using a DNA thermal cycler (Landgraf , Germany) . One incubation at 94°C for 1 min followed by thirty cycles of PCR performed using a cycle profile of denaturation at 94°C for 30 sec, annealing at 60°C for 1 min, and extension at 72°C for 2 min. Five- ⁇ l aliquots of the amplification product was analysed by electrophoresis in 0.7 % agarose gels (NuSieve, FMC) . The appearance of a DNA fragment size 1.0 kb indicated proper amplification of the gene segment .
  • LBPG is LB agar supplemented with 0.5% Glucose and 0.05 M potassium phosphate, pH 7.0 BPX media is described in EP 0 506 780 (WO 91/09129) .
  • the wild-type B. licheniformis pectate lyase encoded by SEQ ID NO: 1 is expressed in B. subtilis from a plasmid denoted pMB541, see Materials and Methods.
  • This plasmid contains a fusion of the signal sequence from B . licheniformis alpha- amylase and the gene encoding the mature protein of B . licheniformis pectate lyase (SEQ ID NO: 2, wild-type pectate lyase) , the expression of which is directed by the B. licheniformis alpha-amylase promoter.
  • the plasmid contains the origin of replication, ori , from plasmid pUBllO and the cat gene from plasmid pC194 conferring resistance towards "chloramphenicol.
  • ori origin of replication
  • plasmid pUBllO origin of replication
  • cat gene from plasmid pC194 conferring resistance towards "chloramphenicol.
  • a specific mutagenesis vector with a 1.2 kb pUC fragment inserted in the unique Pstl restriction site located between the nucleotide sequence coding for the signal sequence and the mature was prepared.
  • the important features of this vector, denoted pCA134 include an origin of replication derived from the pUC plasmids, the cat gene conferring resistance towards chloramphenicol and gene coding the mature part of the wild-type B. licheniformis pectate lyase.
  • the Pstl-Pstl fragment from pUC is removed and the remaining part of the vector is ligated and transformed into the protease- and amylase-depleted Bacillus subtilis strain SHA273 (described in W092/11357 and WO95/10603) in order to express the variant enzyme .
  • the B . licheniformis pectate lyase variant M169I+F198V was constructed by the use of the gene specific primer PelyOl (SEQ ID NO: 4) and mutagenic primers Pely22 (SEQ ID NO: 5) and Pely23 (SEQ ID NO: 6) to amplify by PCR an approximately 470 bp DNA fragment from the pCA134 plasmid.
  • the 470 bp fragment is purified from an agarose gel and used as a Mega-primer together with primer 113711 in a second PCR carried out on the same template.
  • the resulting approximately 1050 bp fragment is digested with restriction enzymes Bell and iVotl and the resulting approximately 570 bp DNA fragment is purified and ligated with the pCA134 plasmid digested with the same enzymes.
  • Competent Bacillus subtilis SHA273 (amylase and protease low) cells are transformed with the ligation, and Chloro-amphenicol resistant transformants are checked by DNA sequencing to verify the presence of the correct mutations on the plasmid.
  • the buffer of the pure enzyme was changed by size chromatography on a high load Superdex S200 column equilibrated with 0.1M EPPS buffer pH 8.0.
  • DSC Different Scanning
  • Bacillus licheniformis pectate lyase variants (relative to SEQ ID NO: 2) of Table I below were prepared and subjected to DSC (Differential Scanning Calorimetry) at pH 10 or pH 8 using a temperature increase of 1°C per minute.
  • the wild-type Bacillus licheniformis pectate lyase (SEQ ID NO: 2) has a DSC unfolding temperature of 60°C (pH 10) and 70°C (pH 8) .
  • Variant 1-6 and 21 stacking positive; variant 7-9: stacking neutral; variant 10-14: proline positive; variant 15-17: proline neutral; variant 18-20: other positive.
  • Variant no. 22-32 stacking, unknown; variant no. 33: proline, unknown
  • Pectate Lyase Treatment of Cellulosic Material Effect of Pectate Lyase Variants vs. Wild-Type Pectate Lyase (SEQ ID NO: 2) on Residual Pectin
  • the activity of the pectate lyase variants M169I + F198V, M169I + F198V+S220V, M169I + F198V+D136A, M169I + F198V+T55P, all prepared according to Example 1, in textile preparation is determined by measuring the amount of pectin removed from the fabric after treating with the enzyme in a surfactant-buffer solution.
  • Pectate lyase Each of the pectate lyase variants M169I + F198V, M169I + F198V+S220V, M169I + F198V+D136A, M169I + F198V+T55P were used, formulated in a solution containing 10 mM borate buffer and 0.2 % (w/w) non-ionic surfactant (Tergitol 15-S-12 from Union Carbide) and 0.1% (w/w) Geropon SS-O-75, pH 8.2. Samples were compared based on equal protein concentrations .
  • test fabrics were impregnated with the aqueous solution containing the pectate lyase by a determined wet pickup between 95-100%, and incubated for 15 minutes at 90°C followed by a continuously washing using the following rinse cycle:
  • Tank 1 Tap water rinse at 90°C (overflow rinsing)
  • Tank 2 Tap water rinse at 90°C (overflow rinsing)
  • Tank 3 Tap water rinse at 70°C (overflow rinsing)
  • Tank 4 Tap water rinse at ambient temperature (overflow rinsing) .
  • the samples were then heat dried in the pad steam range at 150°C for 6 minutes.
  • the pectin is measured by staining with ruthenium red dye (standard Ruthenium staining procedure EUS- SM-103) and the data transformed in to the amount of pectin remaining on cloth (% Residual Pectin, see Table III) .
  • the data shown in Table III below clearly indicates that the pectate lyase variants of the invention perform better at lower dosages than the wild-type (parent, native) pectate lyase.
  • maximum average pectin removal observed for pectate lyases in general are 30% and define as an excellent scouring effect on cotton.
  • the wild-type Bacillus agaradhaerens pectate lyase encoded by SEQ ID NO: 18 is expressed in B. subtilis from a plasmid denoted pCA207, which is similar to pMB541 (see Materials and Methods) except for the pectate lyase gene now originating from Bacillus agaradhaerens .
  • This plasmid contains a fusion of the signal sequence from B. licheniformis alpha-amylase and the gene encoding the mature protein of Bacillus agaradhaerens pectate lyase (SEQ ID NO: 17, wild-type pectate lyase), the expression of which is directed by the B. licheniformis alpha-amylase promoter .
  • DNA fragments coding for a specific amino acid change were made using the SOE-PCR methods described by Higuchi, R. et al 1988, [Nucleic Acids Research Vol . 16 (15) p.7351-7367] .
  • pCA207 was used as template in the reaction together with the mutagenesis primers and two primers located 5' to the Pst I site and 3' to the Cel II site, respectively.
  • a major part of the pectate lyase gene was removed from plasmid pCA207 by digestion with the restriction enzymes Pst I and Cel II.
  • the B. agaradhaerens pectate lyase variant S82I was 5 constructed by the use of the gene specific primers 101450 (SEQ ID NO: 9) and 6034 (SEQ ID NO: 10) , and the mutagenic primers Pelyl74 (SEQ ID NO: 11) and Pelyl75 (SEQ ID NO: 12) resulting in a 1.4 kb fragment .
  • the B. agaradhaerens pectate lyase variant D93I was lo constructed by the use of the gene specific primers 101450 and 6034, and the mutagenic primers Pelyl76 (SEQ ID NO: 13) and Pelyl77 (SEQ ID NO: 14) resulting in an 1.4 kb fragment.
  • the B . agaradhaerens pectate lyase variant M179I was constructed by the use of the gene specific primers 101450 and 15 6034, and the mutagenic primers Pelyl78 (SEQ ID NO: 15) and Pelyl79 (SEQ ID NO: 16) resulting in an 1.4 kb fragment.
  • the pectate lyase variant gave a single band in SDS-PAGE of 36 kDa.
  • the Bacillus agaradhaerens pectate lyase variant (numbering relative to SEQ ID NO: 2) of Table IV below was prepared and subjected to DSC (Differential Scanning Calorimetry) at pH 8 using a temperature increase of 1°C per minute.
  • the wild-type Bacillus agaradhaerens pectate lyase (SEQ ID NO: 18) has a DSC unfolding temperature of 60.1°C at pH 8.
  • Bacillus subtilis pectate lyase stack variant C199N (numbering relative to SEQ ID NO: 2) of Table V below was prepared and subjected to DSC (Differential Scanning Calorimetry) at pH 8 using a temperature increase of 1°C per minute.
  • the wild-type Bacillus subtilis pectate lyase (Nasser et al . : Cloning of a pectate lyase from Bacillus subtilis (1993) FEBS 335:319-326, which is hereby incorporated by reference in its entirety) has a DSC unfolding temperature of 61.1°C at pH 8.
  • Stack positions in the pectate lyase prepared in example 1 and 2 were determined based on the following rules :
  • the ⁇ -strand is part of a sheet composed of more than two ⁇ -strands OR (iii) the residue is without secondary structure but is linking two ⁇ -sheet regions horizontally
  • the residue is part of a T2 turn composed by no more than two amino acid residues (v) or the residue has a C ⁇ -atom in line with an already determined stack (i.e. visually it is clearly part of the stack)
  • the majority of the residues are classified as stack residues based on rule a.
  • M167 and P196 are classified according to rule c.
  • S261, E104, N260, and T54 are classified according to rule e.
  • Stacks #5 and #6 are classified according to rule d.

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Abstract

A variant of a cell-wall degrading enzyme having a beta-helix structure, which variant holds at least one substituent in a position determined by identifying all residues potentially belonging to a stack; characterising the stack as interior or exterior; characterising the stack as polar, hydrophobic or aromatic/heteroaromatic based on the dominating characteristics of the parent or wild-type enzyme stack residues and/or its orientation relative to the beta-helix (interior or exterior); optimising all stack positions of a stack either to hydrophobic aliphatic amino acids, hydrophobic aromatic or polar amino acids by allowing mutations within one or all positions to amino acids belonging to one of these groups; measuring thermostability of the variants by DSC or an application-related assay such as a Pad-Steam application test; and selecting the stabilized variants. Variant of a wild-type parent pectate lyase (EC 4.2.2.2) having the conserved amino acid residues D111, D141 or E141, D145, K165, R194 and R199 when aligned with the pectate lyase comprising the amino acid sequence of SEQ ID NO: 2 are preferred.

Description

CELL-WALL DEGRADING ENZYME VARIANTS
The present invention relates to variants of microbial cell -wall degrading enzymes, more specifically to variants of enzymes having a pectinase structure similar to that of Bacillus licheniformis enzymes exhibiting pectate lyase activity as their major enzymatic activity in the neutral and alkaline pH ranges; to a method of producing such enzymes; and to methods for using such enzymes in the textile, detergent and cellulose fiber processing industries. The enzyme variants of the invention may exhibit increased thermostability as compared to the parent enzyme .
BACKGROUND OF THE INVENTION Plant cell walls consist of a complicated network of fibrous materials. The composition of the cell walls varies considerably, depending on the source of the vegetable material. However, in general its composition can be summarized as mainly comprising non-starch polysaccharides . These polysaccharides can be found in various forms: cellulose, hemicellulose and pectins.
The composition of a plant cell wall is both complex and variable. Polysaccharides are mainly found in the form of long chains of cellulose (the main structural component of the plant cell wall), hemicellulose (comprising e.g. various .beta.-xylan chains) and pectin. The occurrence, distribution and structural features of plant cell wall polysaccharides are determined by: 1. Plant species; 2. Variety; 3. Tissue type; 4. Growth conditions; and 5. Ageing (Chesson (1987), Recent Advances in Animal Food Nutrition, Haresign on Cole, eds . ) . Butterworth, London, 71-89) .
Basic differences exist between monocotyledons (e.g. cereals and grasses) and dicotyledons (e.g. clover, rapeseed and soybean) and between the seed and vegetative parts of the plant (Carre' and Brillouet (1986), Science and Food Agric. 37, 341-351) . Monocotyledons are characterized by the presence of an arabinoxylan complex as the major hemicellulose backbone. The main structure of hemicellulose in dicotyledons is a xyloglucan complex. Moreover, higher pectin concentrations are found in dicotyledons than in monocotyledons . Seeds are generally very high in pectic substances, but relatively low in cellulosic material. Three more or less interacting polysaccharide structures can be distinguished in the cell wall :
1. The middle lamella forms the exterior cell wall. It also serves as the point of attachment for the individual cells to one another within the plant tissue matrix. The middle lamella consists primarily of calcium salts of highly esterified pectins;
2. The primary wall is situated just inside the middle lamella. It is a well-organized structure of cellulose microfibrils embedded in an amorphous matrix of pectin, hemicellulose, phenolic esters and proteins;
3. The secondary wall is formed as the plant matures. During the plant's growth and ageing phase, cellulose microfibrils, hemicellulose and lignin are deposited.
There is a high degree of interaction between cellulose, hemicellulose and pectin in the cell wall. The enzymatic degradation of these rather intensively cross-linked polysaccharide structures is not a simple process. A large number of enzymes are known to be involved in the degradation of plant cell walls. They can broadly be subdivided in cellulases, hemicellulases and pectinases (Ward and Young (1989), CRC Critical Rev. in Biotech. 8, 237-274).
Cellulose is the major polysaccharide component of plant cell walls. It consists of .beta. 1,4 linked glucose polymers. Cellulose can be broken down by cellulases, also called cellulolytic enzymes. Cellulolytic enzymes have been divided traditionally into three classes: endoglucanases, exoglucanases or cellobichydrolases and .beta. -glucosidases (Knowles, J. , et al. (1987), TIBTECH 5, 255-261). Like all cell wall degrading enzymes they can be produced by a large number of bacteria, yeasts and fungi. Apart from cellulases degrading .beta. -1,4 glucose polymers, endo-1, 3/1,4 .beta. -glucanases and xyloglucanases should be mentioned (Ward and Young op. cit . ) .
Pectins are major constituents of the cell walls of edible parts of fruits and vegetables. The middle lamella which are situated between the cell walls are mainly built up from protopectin which is the insoluble form of pectin. Pectins are considered as intracellular adhesives and due to their colloidal nature they also have an important function in the water regulation system of plants. The amount of pectin can be very high. For example, lemon peels are reported to contain pectin at up to 30% of their dry weight, orange peels contain from 15-20% and apple peels about 10% (Norz, K. (1985) . Zucker und Susswaren Wirtschaft 38, 5-6) .
Pectins are composed of a rhamno-galacturonan backbone in which 1,4- linked (. alpha . -D-galacturonan chains are interrupted at intervals by the insertion of 1,2-linked (. alpha. -L-rhamnopyranosyl residues (Pilnik, W. and A. Voragen (1970), In: The Biochemistry of fruits and their products, vol. 1, Chapter 3, p. 53. Acad. Press) . Other sugars, such as D- galactose, L-arabinose and D-xylose, are present as side chains. A large part of the galacturonan residues is esterified with methyl groups at the C2 and C3 position. A large number of enzymes are known to degrade pectins. Examples of such enzymes are pectin esterase, pectin lyase (also called pectin transeliminase) , pectate lyase, and endo- or exo-polygalacturonase (Pilnik and Voragen (1990) . Food Biotech 4, 319-328) . Apart from enzymes degrading smooth regions, enzymes degrading hairy regions such as rhamnogalacturonase and accesory enzymes have also been found (Schols et al . (1990), Carbohydrate Res. 206, 105-115; Searle Van Leeuwen et al . (1992). Appl . Microbiol . Biotechn. 38, 347- 349) . Pectinases can be classified according to their preferential substrate, highly methyl-esterified pectin or low methyl -esterified pectin and polygalacturonic acid (pectate) , and their reaction mechanism, beta-elimination or hydrolysis. Pectinases can be mainly endo-acting, cutting the polymer at random sites within the chain to give a mixture of oligomers, or they may be exo-acting, attacking from one end of the polymer and producing monomers or dimers . Several pectinase activities acting on the smooth regions of pectin are included in the classification of enzymes provided by the Enzyme Nomenclature (1992) such as pectate lyase (EC 4.2.2.2), pectin lyase (EC 4.2.2.10), polygalacturonase (EC 3.2.1.15), exo- polygalacturonase (EC 3.2.1.67), exo-polygalacturonate lyase 5 (EC 4.2.2.9) and exo-poly-alpha-galacturonosidase (EC 3.2.1.82) .
Pectate lyases degrade un-methylated (polygalacturonate) or low-methylated pectin by β-elimination of the a- 1 , 4 - glycosidic bond. The enzymes are generally characterised by an lo alkaline pH optimum, an absolute requirement for Ca2+ (though its role in binding and catalysis is unknown) and good temperature stability.
Pectate lyases have been cloned from different bacterial genera such as Bacillus, Erwinia, Pseudomonas, Klebsiella and i5 Xan thomonas .
US Patent Application Serial No. 09/073,684, which is hereby incorporated by reference in its entirety, discloses a cloned Bacillus licheniformis pectate lyase. The DNA sequence encoding this B . licheniformis pectate lyase and the deduced
20 amino acid sequence are listed in the appended sequence listing as SEQ ID NOS. 1 and 2, respectively.
The crystal structures of pectate lyases of Bacillus subtilis (1BN81 (and an R279K mutant, 2BSP2) ) , of Erwinia chrysanthemi (PelC: 2PEC3/1AIR4; PelC (R218K) in complex with
25 substrate: ref 10; and PelE: 1PCL5) , of Erwinia carotovora
(PelC: 1PLUS) , and of Bacillus sp . strain 2 KSM-P15 (1EE6) have been published. In addition, the crystal structures of the structurally very similar pectin lyases from Aspergillus niger (PlyA:lIDJ7/lIDK7 and PlyB:lQCX8) and of the polygalacturonase
30 from Erwinia carotovora (1BHE9) are also known (1: R.
Pickersgill, J. Jenkins, G. Harris, W. Nasser, J. Robert- Baudrouy; Nat . Struct . Biol . 1994, 1, 717; 2: R. Pickersgill, K. Worboys, M. Scott, N. Cummings, A. Cooper, J. Jenkins, D. Smith To Be Published;
35 3: M. D. Yoder, S. E. Lietzke, F. Jurnak; Structure , 1993, 1, 241;
4: M. D. Yoder, N. T. Keen, F. Jurnak; Science, 1993, 260, 1503; 5: M. D. Yoder, C. A. Dechaine, F. Jurnak; J. Biol . Chem. 1990, 265, 11429;
6: S. J. Tamaki, S. Gold, M. Robeson, S. Manulis, N. T. Keen; J. Bacteriol . 1988, 170, 3468; 5 7: S. E. Lietzke, R. D. Scavetta, M. D. Yoder, F. A. Jurnak; Plant Physiol . 1996 , 111 , 73;
8: S. E. Lietzke, N. T. Keen, F. Jurnak; To Be Published; 9: Y. Kim, V. Mosser, N. Keen, F. Jurnak; J.Mol . Biol . 1989, 208, 365; N. T. Keen, S. Tamaki; J. Bacteriol . 1986, 168, 595;
10 10: M. D. Yoder, F. A. Jurnak; Plant Physiol . 1995, 107, 349; 11: 0. Mayans, M. Scott, I. Connerton, T. Gravesen, J. Benen, J. Visser, R. Pickersgill, J. Jenkins; Structure, 1997, 5, 677; 12: J. Vitali, B. Schick, H. C. M. Kester, J. Visser, F. Jurnak; Plant Physiol . 1998, 116, 69; is 13: R. Pickersgill, D. Smith, K. Worboys, J. Jenkins; J". Biol . Chem . 1998, 273 , 24660;
14: R.D. Scavetta, S. R. Herron, A. T. Hotchkiss, N. Kita, N. T. Keen, J. A. E. Benen, H. C. M. Kester, J. Visser, F. Jurnak; Plant Cell 1999 , 11 , 1081;
20 15: M.Akita, A.Suzuki, T. Kobayashi, S . Ito, T.Yamane
Crystallization And Preliminary X-Ray Analysis Of 2 High- Alkaline Pectate Lyase Acta Crystallogr . , Sect.D V. 56 749 2000) .
The crystal structures of a pectin methyl esterase (1QJV;
25 Jenkins, J. ; Mayans, 0.; Smith, D.; Worboys, K. ; Pickersgill, R.W. Journal of Molecular Biology, vol 305, 2001, 951-960) and a rhamnogalacturonase (1RMG; Petersen, T. N. , Kauppinen, S., Larsen, S.: The crystal structure of rhamnogalacturonase A from Aspergillus aculeatus: a right-handed parallel beta helix.
30 Structure 5 pp . 533 (1997) ) have also been published.
Pectinases consist of an unusual backbone of parallel β- strands coiled in a large right-handed helix. The parallel β- helix contains three β-strands pr. turn (PBl, PB2 , and PB3) and consecutive turns stack one on to another to form a super-
35 helix. Two of the β-sheets form a β-sandwich folded against each other in an anti-parallel manner. The third parallel β- sheet is perpendicular to the β-sandwich, resulting in an L- shaped cross-section. There is no direct sequence repetition in the β-helix, however a typical characteristic of the domain is that the side-chains of residues at corresponding positions in consecutive β-strands stack directly upon each other. The stacks can be of aliphatic (typically leucine, isoleucine and valine residues) , hydrogen-bonded (typically asparagine residues, known as an asparagine ladder) , or aromatic (typically tyrosine and phenylalanine residues) character. Stack amino acid side chains are found both within and outside the parallel β-helix, forming a linear arrangement parallel to the axis of the β helix.
The three β-sheets are separated by turns, termed Tl (between PBl and PB2), T2 (between PB2 and PB3 , introducing a 90° change of backbone orientation) , and T3 (between PB3 and PBl) . It is within these regions that the largest diversity among the different pectinases is found, the most conserved regions being the β-sheets PB2 and PB3 and the T2 turn. There is a large variety in the length of these turns, ranging from only two amino acids to tens of amino acids . The T3 turns are commonly lengthy and of more complex formation and constitute a loop region which together with the β-helix (primarily PBl) confines the substrate binding crevice .
The N-terminal end of the parallel β-helix domain is capped by an α-helix that is structurally conserved although the sequence conservation is undetectable. The C-terminal end of the β-helix is terminated by a loop structure with no specific conservation. The N-terminal tail packs against PB2 while the C-terminal tail lies across PB2 ending in a highly structurally (but not sequentially) conserved, amphipathic α- helix, with the hydrophobic part packing against the T2 turn. In the bottom of the pronounced substrate-binding cleft calcium binds to three aspartate residues, two of which are conserved for all pectate lyases and one that can also be glutamate. In addition, two arginines, one lysine and a proline all facing the substrate-binding cleft are conserved in the pectinase family. Mutation of the aspartates (one can be mutated to glutamate) , the arginines or the lysine destroys the catalytic activity, however the exact catalytic mechanism is not fully understood.
A second cluster of invariant amino acids in the pectate lyases is located practically opposite to the Ca2+-binding site, that is, on the other side of the β-helix domain packing against the N-terminus. Even though this iWiDH region is highly conserved throughout the pectinase family, the function of this is as yet unknown. It does not seem to be important for pectinolytic cleavage, but has been speculated to be involved in a second, yet unidentified, enzymatic function, or to be of importance in secretion of the enzyme always being of extracellular origin.
Hemicelluloses are the most complex group of non-starch polysaccharides in the plant cell wall. They consist of polymers of xylose, arabinose, galactose or mannose which are often highly branched and connected to other cell wall structures . Thus a multitude of enzymes is needed to degrade these structures (Ward and Young op.cit.). Xylanase, galactanase, arabinanase, lichenase and mannanase are some hemicellulose degrading enzymes.
Endo- and exo-xylanases and accessory enzymes such as glucuronidases, arabinofuranosidases, acetyl xylan esterase and ferulic acid or coumaric acid esterase have been summarized by Kormelink (1992, Ph.D. -thesis, University of Wageningen, The Netherlands) . They are produced by a wide variety of microorganisms and have varying temperature and pH optima.
Like other cell wall degrading enzymes (CWDE'S) galactanases occur in many micro-organisms (Dekker and Richards (1976), Adv. Carbohydrat. Chem. Biochem. 32, 278-319). In plant cell walls two types of arabinogalactans are present: type I 1,4 .beta. -galactans and type II 1,3/1,6 .beta. -galactans which have a branched backbone (Stephen (1983) . In: The Polysaccharides. G. 0. Aspinael (ed.). Ac. Press, New York, pp. 97-193) . Both types of galactans require their own type of endo enzyme to be degraded. It can be expected that other enzymes, such as arabinan-degrading enzymes and exo-galactanases play a role in the degradation of arabinogalactans. The hemicellulose 1, 3-1, 4- .beta. -glucan is a cell wall component present in cereal (barley, oat, wheat and rye) endosperm. The amount of .beta . -glucan in cereal endosperm varies between 0.7-8%. It is an unbranched polysaccharide built
■ 5 from cellotriose and cellotetraose residues linked by a 1,3- glucosidic bond. The ratio tri/tetra saccharose lies between 1.9 and 3.5.
Lichenase (EC 3.2.1.73) hydrolyse 1, 4-beta-D-glucosidic linkages in beta-D-glucans containing 1,3- and 1,4-bonds.
10 Lichenase reacts not on beta-D-glucans containing only 1,4- bonds such as for example in cellulose. Thus, damage of cellulose fibers in fabrics does not occur by the application of lichenase. Lichenases are produced by bacteria like B. amyloliguefaciens, B. circulans, B. licheniformis and plants is (Bielecki S. et al . Crit . Rev. in Biotechn. 10(4), 1991, 275- 304) .
Arabinans consist of a main chain of . alpha. -L-arabinose subunits linked (. alpha .- (l->5) to another. Side chains are linked . alpha. - (l->3) or sometimes . alpha. - (l->2) to the main
20 .alpha. - (l->5) -L-arabinan backbone. In apple, for example, one third of the total arabinose is present in the side chains . The molecular weight of arabinan is normally about 15 kDa.
Arabinan-degrading enzymes are known to be produced by a variety of plants and micro-organisms. Three enzymes obtainable
25 from A.niger have been cloned by molecular biological techniques (EP-A-506190) . Also arabinosidase from bacteria such as Bacteroides has been cloned (Whitehead and Hespell (1990) . J. Bacteriol. 172, 2408).
Galactomannans are storage polysaccharides found in the
30 seeds of Leguminosae. Galactomannans have a linear (l-->4)- .beta. -mannan backbone and are substituted with single (1-- >6) . alpha. -galactose residues. For example in guar gum the ratio mannose/galactose is about 2 to 1. Galactomannans are applied as thickeners in food products like dressings and
35 soups .
Mannanase enzymes are described in PCT application WO
Figure imgf000009_0001
Glucomannan consists of a main chain of glucose and
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the one enclosed here.
The figure was produced using the program ESPript (Gouet, P., Courcelle, E., Stuart, D. and Metoz, F. Bioinformatics, 15, 305-308 (1999)), employing the Blosum matrix.
Appendix 1 shows the structural coordinates of the Bacillus licheniformis pectate lyase comprising the amino acid sequence of SEQ ID NO: 2.
DETAILED DESCRIPTION OF THE INVENTION
PROTEIN NUMBERING
In the context of this invention, a specific numbering of amino acid residue positions in cell-wall degrading enzymes, especially pectate lyase enzymes, is employed. For example, by aligning the amino acid sequences of known pectate lyases it is possible to unambiguously allot an amino acid position number to any amino acid residue in any pectate lyase enzyme, if its amino acid sequence is known.
In Figure 1, a number of selected amino acid sequences of pectate lyases of different microbial origin are aligned.
Using the numbering system originating from the amino acid sequence of the pectate lyase obtained from the strain Bacillus licheniformis, ATCC 14580, disclosed in SEQ ID NO: 2, aligned with the amino acid sequence of a number of other pectate lyases, it is possible to indicate the position of an amino acid residue in a pectate lyase enzyme unambiguously.
In describing the various cell-wall degrading enzyme variants produced or contemplated according to this invention, the following nomenclatures are adapted for ease of reference: [Original amino acid; Position; Substituted amino acid] Accordingly, the substitution of serine with isoleucine in position 72 is designated as S72I. Multiple mutations are separation by addition marks ("+"), e.g. M169I + F198V, representing mutations in positions 169 and 198 substituting methionine (M) with isoleucine (I) , and phenylalanine (F) with valine (V) , respectively. All positions referred to herein by pectate lyase numbering refer, unless otherwise stated, to the numbering described above, and are determined relative to the amino acid sequence of the pectate lyase derived from Bacillus licheniformis, ATCC 14580.
DEFINITIONS
Prior to discussing this invention in further detail, the following terms will first be defined. The term "wild-type enzyme" denotes an enzyme, which is endogenous to a naturally occurring microorganism such as a fungus or a bacterium found in Nature .
The term "ortholog" (or "species homolog") denotes a polypeptide or protein obtained from one species that has homology to an analogous polypeptide or protein from a different species.
The term "paralog" denotes a polypeptide or protein obtained from a given species that has homology to a distinct polypeptide or protein from that same species. The term "expression vector" denotes a DNA molecule, linear or circular, that comprises a segment encoding a polypeptide of interest operably linked to additional segments that provide for its transcription. Such additional segments may include promoter and terminator sequences, and may optionally include one or more origins of replication, one or more selectable markers, an enhancer, a polyadenylation signal, and the like. Expression vectors are generally derived from plasmid or viral DNA, or may contain elements of both. The expression vector of the invention may be any expression vector that is conveniently subjected to recombinant DNA procedures, and the choice of vector will often depend on the host cell into which the vector it is to be introduced. Thus, the vector may be an autonomously replicating vector, i.e. a vector existing as an extrachromosomal entity, the replication of which is independent of chromosomal replication, e.g. a plasmid. Alternatively, the vector may be one which, when introduced into a host cell, is integrated into the host cell genome and replicated together with the chromosome (s) into S ©
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remove the secretory peptide during transit through the secretory pathway.
The term "pectin" denotes pectate, polygalacturonic acid, and pectin which may be esterified to a higher. or lower degree .
The term "pectinase" denotes a pectinase enzyme defined according to the art where pectinases are a group of enzymes that cleave glycosidic linkages of pectic substances mainly poly (1, 4-alpha-D-galacturonide and its derivatives (see reference Sakai et al . , Pectin, pectinase and protopectinase: production, properties and applications, pp 213-294 in: Advances in Applied Microbiology vol:39,1993) .
Preferably a pectinase of the invention is a pectinase enzyme which catalyzes the random cleavage of alpha-1,4- glycosidic linkages in pectic acid also called polygalacturonic acid by transelimination such as the enzyme class polygalacturonate lyase (EC 4.2.2.2) (PGL) also known as poly (1, 4-alpha-D-galacturonide) lyase also known as pectate lyase . The term "thermostability" or "thermal stability" is intended to mean the stability of the protein to thermal influence. All enzyme proteins destabilizes and eventually degrades with increasing temperature, each enzyme protein having a certain temperature range wherein the protein is stable and retains its enzymatic activity. Increased thermostability means that the enzyme protein may retain its enzymatic activity and/or exhibit a higher relative activity at increased temperatures .
HOW TO USE A SEQUENCE OF THE INVENTION TO GET OTHER RELATED SEQUENCES
The disclosed sequence information herein relating to a polynucleotide sequence encoding a wild-type pectate lyase can be used as a tool to identify other homologous pectate lyases. For instance, polymerase chain reaction (PCR) can be used to amplify sequences encoding other homologous pectate lyases from a variety of microbial sources, in particular of different Bacillus species. Vϊ o
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alignment in pir format of the protein to be modelled to one or more homologues sequences where the crystal structure is available. The sequence alignment can be calculated by using ClustalW/ClustalX and standard parameters (ClustalX: Thompson, J.D. , Gibson, T.J., Plewniak,F., Jeanmougin, F. and Higgins,D.G. (1997) The ClustalX windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Research, 24:4876-4882. ClustalW: Thompson, J.D., Higgins, D.G. and Gibson, T.J. (1994) CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, positions-specific gap penalties and weight matrix choice. Nucleic Acids Research, 22:4673-4680.). Different refinement levels are determined by the MD_LEVEL keyword, and can typically be set to refine2 (default is less laborious and can also be employed) . If further refinements are necessary this can be fulfilled by a minimisation of the structure using a molecular dynamics program such as CHARMm (Brooks et al, J. Computational Chemistry 4, 187 (1983)) possibly subjected to a (short) dynamics run followed by a second minimisation.
The inventors have found that cell-wall degrading enzyme variants, especially pectate lyases variants, having a stabilized beta-helix structure may exhibit improved performance in textile applications. In a preferred embodiment of the invention, the stabilized beta-helix structure may be obtained by determining the stack residues of the parent enzyme, followed by substitution of one or more stack residues. For example, the stack positions may be optimised by:
(i) Identifying all residues potentially belonging to a stack (the stack-residue positions for the Bacillus licheniformis pectate lyase comprising the amino acid sequence of SEQ ID NO : 2 are identified below) ; (ii) Characterising the stack as interior or exterior; (iii) Characterising the stack as polar (typically asparagine, glutamine, serine, threonine) or hydrophobic (either aliphatic: leucine, isoleucine or valine; or aromatic/heteroaromatic: phenylalanine, tyrosine, histidine, and less often tryptophan) based on the dominating characteristics of the parent or wild-type enzyme stack residues and/or its orientation relative to the beta-helix (interior or exterior) ;
(iv) Optimising all stack positions of a stack either to hydrophobic aliphatic amino acids, hydrophobic aromatic amino acids (preferably histidine alone, tyrosine and phenylalanine alone or in combination) or polar amino acids (preferably asparagine) by allowing mutations within one or all positions to amino acids belonging to one of these groups;
(v) Measuring thermostability of the variants by DSC or an application-related assay such as a Pad-Steam application test ; and
(vi) Selecting the stabilized variants.
A stack residue is defined as one of the following, based on the X-ray crystallography structure of the enzyme or a high- quality homology-build model:
(i) A residue of a β-strand (according to the output of the DSSP program, version July 1995 (Kabsch, W. and Sander, C, Biopolymers 22 (1983), 2577-2637), which β-strand is part of a sheet composed of more than two β-strands; or (ii) A residue without secondary structure but which is linking two β-sheet regions horizontally; or (iii) A residue of a T2 turn composed by no more than two amino acid residues; or (iv) A residue having a Cα-atom in line with an already determined stack (i.e. visually it is clearly part of the stack) ; or (v) A residue which, upon alignment of the amino acid sequence with SEQ ID NO: 2 or the structure as defined by the structural coordinates of Appendix 1, has a stack residue position as defined for the pectate lyase enzyme Of SEQ ID NO: 2. Based on this procedure, the following residues are identified as stack-residues in the Bacillus licheniformis pectate lyase comprising the amino acid sequence of SEQ ID NO: 2 and having the structural coordinates (X-ray structure) disclosed in Appendix 1:
Q22, T23, V24, T25, L45, K46, 147, Y48, T52 , 153, T54, 163,
D64, V65, K66, V68, S69, N70, V71, S72 , 173, V74, E81, L82 ,
5 K83, 187, K88, 189, W90, A92, N93 , N94 , 195, 196, 197, R98, N99, L100, K101, 1102, H103, E104, 1113, G114, 1115, E116,
S119, K120, N121, 1122, W123, V124, D125, H126, N127, E128,
1129, Y130, F144, D145, V146, K147, A150, E151, Y152, 1153,
T154, F155, S156, W157, N158, Y159, V160, H161, D162, G163,
10 M167, L168, M169, T180, 1181, T182, F183, H184, H185, N186,
W187, F188, E189, N190, L191, P196, S197, F198, E202, G203,
H204, 1205, Y206, N207, N208, Y209, F210, N211, K212, 1213,
1218, N219, S220, R225, 1226, R227, 1228, E229, N230, N231,
L232, F233, E234, N235, A236, 1240, V241, Y250, W251, H252,
15 V253, S254, N255, N256, K257, F258, V259, N260, S261
Preferred stack positions for substitution are: 155, 183, 23, 46, 72, 96, 123, 154, 182, 204, 227, 252, 22, 45, 203, 251, 152, 180, 202, 225, 250, 69 , 93, 120, 151, 68, 92,
20 119, 150, 66, 90, 116, 147, 169, 198, 220, 64, 88, 114, 168, 197, 219, 241, 144, 167, 163, 191, 213, 236, 261, 104, 162, 190, 212, 235, 260, 54, 83, 103, 130, 161, 189, 211, 234, 259, 52, 81, 101, 128, 159, 187, 209, 232, 257, 100, 126, 157, 185, 25, 48, 74, 98, 125, 156, 184, 206, 229 and 254.
25 In another preferred embodiment of the invention, the stabilized beta-helix structure may be obtained by scanning the x-ray structure for positions that may be mutated into a proline residue; this can e.g. be done using the SUGPRO routine in the modelling program Whatif or by the method described in
30 the international patent application published as W092/19726. Using the X-ray structure of Appendix 1, i.e. of the native Bacillus licheniformis pectate lyase, the following proline positions and proline substitution positions were identified by using the Whatif program:
35 40 ( 40) ASN 22.03 --> 1, .34 **
41 41) ALA T 25.49 --> 0, .63 **
44 ( 44) PRO 11.11 - -> 0. .49 *
55 ( 55) THR T 22.74 - -> 0. .83 **
64 ( 64) ASP S 13.24 --> 0, .21 * 118 118 PRO T 19.36 - -> -0.39 *
133 133 LEU T 11.74 --> -0.11 *
136 136 ASP 28.31 --> 2.25 ***
137 137 LYS T 28.09 --> 0.42 *
164 164 TRP S 21.92 --> 0.14 *
173 173 ASP T 12.66 --> -0.46 *
196 ( 196 PRO T 0.70 - -> 1.43 **
239 239 PRO 0.00 --> 0.54 **
248 248 PRO 25.11 - -> -0.13 *
269 269 SER 15.16 - - > 0.72 **
275 ( 2751 PRO 3.83 - - > 0.77 **
283 283λ ASN 27.33 - - > 3.82 k -k - -k "k
284 284 VAL T 3.11 --> 0.99 **
288 ( 288] LYS H 22.93 --> 0.43 *
289 ( 289; SER H 18.98 --> 1.11 **
Using the X-ray structure of Appendix 1, i.e. of the native Bacillus licheniformis pectate lyase, the following proline positions and proline substitution positions were identified by using the angle algorithm disclosed in W092/19726 (at which position (s) the dihedral angles φ (phi) constitute values within the interval [-90°<φ<-40°] , preferably the dihedral angles φ (phi) and ψ (psi) constitute values within the intervals [-90°<φ<-40°] and [-180°<ψ<-150° or -80<ψ<10 or 100<ψ<180] , and which position(s) is/are not located in regions in which the enzyme is characterized by possessing α-helical or β-sheet structure) :
5 L -65 .6 129.0
8 F -50 9 -30.9 G
9 A -74 9 -10.7 G 1 1U0 A A - -8866.6 6 -9.4 G
19 E -69 7 144 . 2 T
38 N -76 3 8 . 5 T
39 K -68 2 133 . 5
40 N -81 8 117 . 6 1 41 A A - -5J3. 6 6 - 21 . 7 T
44 P -63 2 146 . 0
55 T -70 5 - 19 . 8 S
56 S -73 8 -32 . 8 T 59 S -81,.7 7.2 S
61 S -80, .3 -8.8 S
109 D -76, .1 -6.3 T
112 A -64, .5 -52.6 S
117 G -70, .0 159.7 S
118 P -81, .5 128.5 S
136 D -53, .9 155.4
137 K -66, .3 -23.9 T
139 Y -63. .0 -45.4 T ιo 1 14422 G G - -7711.. .77 160.4
166 S -71. .6 -69.9
171 S -61. .4 -31.2 S
173 D -65, .5 0.2 T
179 R -65, .6 140.0 15 2 21144 I I - -6622., .99 -56.7 S
224 A -65. .3 144.7
239 P -63. .3 -26.7
246 S -64. .5 -30.6 S
248 P -74. .3 159.8 B 20 2 26644 S S - -6699.. .00 115.0
266 P -54. .6 134.3
269 S -88. .7 146.3
275 P -58. .3 138.8
278 S -88. .4 159.0 25 2 28822 D D - -7788., .11 153.4
283 N -60. .1 133.4
284 V -55. ,6 -28.6 T
285 D -72, .8 -15.7 T
297 V -85. .1 157.8 T
30 Accordingly, preferred variants hold a proline residue in one or more of the following positions: 5, 8, 9, 10, 19, 38, 39, 40, 41, 44, 55, 56, 59, 61, 64, 109, 112, 117, 118, 133, 136, 137, 139, 142, 164, 166, 171, 173, 179, 196, 214, 224, 239, 246, 248, 264, 266, 269, 275, 278, 282, 283, 284, 285, 35 288, 289, 297.
In yet another preferred embodiment of the invention, the stabilized beta-helix structure may be obtained by scanning the x-ray structure for positions that may be mutated into cysteine Oi JJ rβ TJ rd CQ β φ β Oi rH Φ -ri .
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4H rd β 4H 4H 0 JJ 01 A >ι β rl ti rd JJ β TJ Xl β β CJ Φ Xl rH CQ — ' β Xi Φ CQ -i β H -ri Φ 0 XI β PQ 4J fβ CQ φ ΓJ 35 rβ 3 3 Φ JJ XI td 3 rβ CQ JJ CQ rH Φ -rl 35 β fβ β rd Oi υ rl 4-> 0 -rl 3 — ' > r- -ri fd -ri > -ri r-i β rβ rH JJ LΩ -ri X!
CQ CJ 0 ft φ β 5? -ri 51 cn β CQ β rH Xl 0 CQ a -ri JJ 0 P fβ SO β -. CJ
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TJ CQ ft 3 .. rd 3 X! -rl ti -rl β s £3 -rl r-i rH CQ Ti ft -rl Φ xi Φ -ri rd φ • • rl W -rl P Φ X!
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3 Xl Oi 3 CQ Ti φ JJ rβ ti S Φ β υ - JJ . β Φ a • . φ 12 0 ti ^ β CQ 0 0 rd ft CJ -ri Xl r-i 4H H r-H 3 < 0 Ti Φ Φ Φ r-i A β CQ ^^ ti -ri CQ 3 o -ri Φ JJ Φ 3 CQ β JJ CQ ti JJ CJ O φ fβ Xl cn JJ β 4H ti Xl CJ rβ TJ rβ CQ -ri
4H - r- CJ rβ CJ iH υ 0 β Xl JJ rH tβ 0 rd JJ rd -ri -. -ri Φ φ CQ 0 φ rH β β φ Φ CQ 4J β -ri JJ -ri X EH XI rl -ri TJ β 4H X! CQ 01 β CJ Φ Φ 4H
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Xl JJ X! CQ. > 3 4H JJ β X -rl ti XI β rd JJ r-i JJ H TJ rd 3 XI X! fβ JJ β
JJ CQ JJ u rd β Φ CQ υ JJ rd M -ri 0 Φ W td -i co JJ rH -ri φ 3 JJ φ Φ 0 0
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O X! -ri CJ 0 β -rl CJ JJ JJ υ -ri -ri r-i o CQ ti CΛ 4H JJ O Φ 0 Φ X! β -rl o r-i υ -rl
4H 4J JJ -rl ti r-i 0 Φ r-i CQ -ri CJ ft fβ — 4H β rl Xl ti 4H CJ rd Φ 3 r-i CJ «. Oi rd CQ
Φ _? 3 Φ Φ CQ 01 ft -i ft >, rd β ft 0 Φ 4H EH O CJ β rβ rd ti β Φ 0 ti Φ β β ti A A υ β 0 ft A M fcf CQ JJ φ re- TJ O1 J 01 φ -ri ft φ N -ri -rl φ td 4J -ri -ri CQ S β ft Φ ti cn ft 4H 4J 0 TJ • Xl CQ Φ Φ TJ — β xi > 4H
TJ -ri JJ +J Ti 0 rd 3 CQ β CQ 0 X! rd β β ft Φ 0 J rd JJ β CQ Φ -ri JJ (ti 0 TJ ti r-i β rβ ti xi β JJ rd β 0 • — - -ri β Tj 4H rH O -ri iH β 0 > in TJ rl Xl Φ o -rl o r-i 0 JJ rd Φ β -rl Ti PQ Φ rβ β 0 JJ CJ r-i Φ Oi r-i Φ -rl 4H ti <Φ β β >
X! SH β -ri XI CQ Oi φ 3 xi β φ 4H rd -rl ft N β r-i > JJ 0 Φ H -rl h r-i ti β rd U β Ss 4J Ti Φ Φ -rl S r-i 4J β 0 β CQ 0 JJ a -ri Φ r-i β CQ P A X! JJ Φ
-ri JJ r-i -ri Φ Ti ti ti 4H cd rd -rl XI β T) tβ rd o ti 3 0 φ Φ β . β CQ
CQ rβ Φ ti β -rl j CJ 01 ti Oi ft β JJ JJ 0 CQ 3 Φ 0 TJ ^^ TJ Φ β
CQ ΓJ r CQ CQ N rd JJ -. JJ }τj -rl β Ti U β Φ rd CQ β JJ CQ ti CJ β cn φ Φ TJ 0
Φ 2 Φ CM Φ β -ri rH rd 4H β CJ JJ -ri Φ -ri Oi -ri JJ 0 0 TJ -ri rd Φ CQ Oi rd cn β > β J β X! 13 TJ β β H rH β 0 φ Φ TJ Tj β 5 CQ . — , ti -rl Φ β l < φ rH -rl Φ
TJ Φ CQ 0 -ri -Φ Ti -rl rj Φ Φ Ti 01 ti 0 Ti 0 -ri 0 CQ JJ 4-> JJ o CQ JJ TJ r-i ^ cJ - Φ ft Φ o -rl iH Xl β -ri X! Φ & ti -ri β 0 rH φ -ri JJ r Φ TJ CJ υ 4H 3 3 A H 0 CQ Φ CQ
CQ φ Φ JJ rd TJ CQ rd r- 3 Φ -ri Φ 3 β Φ β -ri 0 TJ 35 01 • TJ rl β TJ Φ
X! & π rl rd r-i
Φ l Φ r-i β Φ 4J 0 Φ A Φ CQ A 3 g φ Φ 0 -ri 0 rH β Xl JJ β 0 -ri rH β a o β Xl ti JJ 3 rd td ti Q 3 JJ XI β EH Φ Φ ft Xi 4H JJ A Φ 4H XI rd rd r-\ xi H rβ J -ri EH
Figure imgf000025_0001
Figure imgf000026_0001
Figure imgf000027_0001
. TJ CQ β β 4H Φ TJ -. TJ 0 rd β -ri Φ 0 iH CQ J TJ Φ CQ TJ β -ri CQ
© iH Φ > φ 0 0 4H φ Φ β -ri CQ φ TJ Φ Φ 0 JJ β •
IΛ Φ -ri CQ ! rH φ 0 1 β CQ β 0 ε Xl fβ JJ -ri CJ CQ
© Xl ft CJ 0 Φ © Xl φ JJ rβ JJ <$ υ XI 0 0 rd JJ 4H 0 en rH in JJ CJ 3 β β JJ CQ β -rl .
JJ Xl -ri φ £ CQ β β rH CQ 0 rH co ΓJ 0 -rl 3 β CQ φ O Φ TJ JJ -H •
© ti CQ rH -ri P -rl β 0 0 υ TJ Φ υ r 4H 35 CQ fti β -ri 4H ti 0 β —
X 0 TJ 0 Φ Φ TJ fti -ri 3 Φ JJ β H φ -ri -ri JJ rH CJ1 JJ O ti ti 4J β a 3 φ ft Φ xl Xl JJ cj CQ Φ -ri JJ 0 Φ rH XI φ β CQ ft φ β o ft -ri Φ 0
CQ
H 4-> > rβ JJ JJ β CQ CQ CQ 4H > -ri -ri u Φ rd β CQ JJ Φ u 4-> υ -ri J Oi o rd rd -ri Φ φ *. Φ >< td -ri JJ > JJ β 2 α. JJ fβ JJ β Oi JJ υ SH iH TJ -. SH -rl -rl rd Φ CΛ rd P 01 0 Φ 1 -ri υ ti CQ β JJ β rH 0 LM ti CJ Xl A JJ β xl 0 X! Φ β
-rl CJ 4H CJ rl 0 β rd β tti ft 0 rH β > JJ rH β P 3 -ri β 0 JJ β CQ φ ΓJ 4H β β Φ
X! CQ 0 Φ (ti -ri CM φ iH X XI ft -rl CJ 0 CJ1 i-H Φ φ CQ XI β -ri CQ 01 >
0 a X! ft Ti CQ β XI φ -ri Φ JJ (ti CQ φ "ri β TJ X! 3 β fj xi Ti φ β
TJ φ β . CJ1 -rl 4J JJ TJ υ -ri CQ H 0 CQ Φ φ o (ti CQ Φ 35 Φ Φ CQ -ri ft 53 Oi J SH CQ CΛ φ rH TJ β rβ β tti Φ 0 -ri 3 Xl JJ ti CQ T) TJ
CQ P β φ 0 rβ T • CQ β fβ JJ rd CQ Φ CJ 4J JJ (ti tti 4H Φ Φ JJ β -ri TJ Φ
Φ -ri JJ X! Φ P tti CJ β rd xi £ β rH 3 X! TJ Tj β Φ JJ -rl Xl
A rj rH > rβ Φ β Φ ≤ £ β Φ TJ rd JJ P rβ Φ -ri 0) Φ Φ -ri -ri X! JJ 0 u JJ β rd rd rH JJ CQ 0 Xl P rd ft Φ rH > 0 β ti φ rH bi 4J CJ β φ rd
Ti φ 3 Xl 0 Φ Φ rH CQ JJ CQ CQ >ι 0 Φ P β rβ -rl ΓJ A • 0 fti _ -rl rH 4H
Φ β 0 CQ rH XI CJ -ri φ rH Xl Φ CQ A Φ JJ xi CJ -rl cq CJ ti β fti φ Φ Φ υ 0 0
-rl CJ1 CQ Φ -ri ft 0 rH 3 Xl rH JJ xi φ JJ JJ -ri β 0 Φ β rH 0 ΓJ 3 β β
4H φ 0 TJ 3 rl Φ rH O JJ Φ -ri JJ ti ti (ti T Φ CQ TJ β -ri .. CJ β β CQ β -rl φ
-ri CQ 3 -ri Φ o ft XI β ti CJ 3 a 0 JJ Φ 4H Φ Xl Φ 0 ti ΓJ1 en β -ri φ -rl 3 3
0 JJ X! υ 4H ^ 4J X CJ -ri 0 -P JJ -ri ti Φ Φ JJ co β 3 β β 4H rd β Φ in ft φ 0 TJ JJ Tj CQ φ Φ rH J CJ ft A CQ XI r fd CJ1 fti 0 N φ xi xl Φ β rd JJ CQ TJ 0 CQ φ β CQ a ft JJ CQ 4H Φ JJ 0 rH 4H φ oi JJ β
TJ JJ CJ δ Φ fβ rH Pi Φ xi 0 JJ -ri .. TJ ft SH Cq 0 ft ». 0 CQ rH 0 ti CQ ti β β Φ
-rl xi Xl ti rβ J β JJ Xl CJ tti o O Oi rd rβ CQ o β β φ Φ 0 o Φ
3 3 4J JJ φ CM Oi φ φ O) co Xl β ft β φ co rd 0 υ S β A -ri Oi r Φ 0 0 0 -ri β β -ri 3 JJ JJ rti m JJ -rl Φ -ri CJ r-H m Oi β CQ o JJ £ JJ JJ φ β
CM X! ti ti ft β 35 φ tti SH CQ ΓJ φ Φ φ > X! 01 β fβ o Φ P -ri o P CQ rj 4H -rl
4H 4H rβ Oi υ 0 Φ rH φ TJ Ti rH s rd β JJ φ -ri H 0 rH β JJ β 0 β 4H TJ β rβ O Oi Φ TJ fβ 4H Φ A O -ri β β ti rd ΓJ« -ri CJ rd φ Xi Ti -ri rd tti TJ TJ β T < ^ β CQ φ CQ rj TJ CQ TJ φ tr1 Φ J . β Φ r-H β Xl 0 TJ ti υ Φ Φ 01 β -rl £ β CQ 0 β XI -ri CJ β φ rH 0 CQ φ JJ CJ rd CQ 0 TJ O JJ φ ti 01 β ti β 0 X! 4H P O ti -ri tti tti EH rd TJ tβ CJ Φ CQ υ EH JJ CJ 0 JJ xi JJ rd Φ
Oi rβ -ri -rl 0 O -ri Φ JJ ti β ti -ri β iH rβ < -rl Φ rl 5> JJ β TJ
53 -rl ft TJ JJ ti < JJ 3 -rl JJ fd CQ JJ β φ ft
CJ ,— , >> < X! > Xl £ rβ JJ Φ X! -rl 0
P CQ Φ O β ft CQ CJ -rl TJ rri a rβ £ β -rl JJ P β CQ 4H JJ β
Φ SH CJ φ 4J • fti ti TJ ti rH CQ rd Φ CJ φ oo P Φ -ri JJ -q -rl -rl TJ 0 . -rl
4H TJ ft β > > Φ CQ Φ ft rd 0 JJ rd -ri -rl TJ r Xl fβ U _ Φ CJ ti Φ XI Φ JJ
0 Φ β A CQ Φ ti CQ β ε ti & CQ -rl VD Φ JJ ti (ti > Xl TJ Φ CQ u
CQ β -rl CJ Oi β 3 φ 0 ti Φ φ JJ H β JJ . rH 4J ri A Φ 0 0) rl -ri Φ
CQ Φ Φ <$ CQ Φ β β β tti in rH 0 JJ O β ft Oi 4H CQ 01 β Φ φ > ΓJ rd 0 ti ft
Φ A Xl £ Φ rβ iH Φ -ri 0 Φ CJ 4H rti ft CJ1 φ CQ 0 0 β -rl > 4H -β ti -ri β CQ υ 0 4J P Xl 0 β (ti CQ β 4H JJ -ri S -rl CQ ft rH Φ -rl φ -ri 0 J o 01 φ β - Φ Φ iH in JJ Xi 3 CJ1 Xl β -ri CQ β rH β fti β Φ j ! rd β xi TJ SH JJ CQ "\ φ > Xi β ft CQ CJ Φ CJ i β -ri 0 Φ β x; β rH TJ β -rl JJ (ti Φ rd CQ cq TJ JJ φ β f. JJ
0 -ri 4H β ti CQ JJ fti ft ■CJ -ri 0 CJ 0 0 -ri rd rβ SH Xl β -ri β 0 CQ 0 Oi
CQ xl • 0 CQ 0 Φ . — . -rl SH 4H J JJ Φ ft 3 ti Oi ti CQ β rβ β tβ TJ N 4H
JJ Φ J CQ CM s JJ 0 ti -ri TJ JJ υ CQ β JJ rH Φ T Φ td -rl >ι 0 β 0 φ -ri iH β ι -. φ Φ rd O 0 r-H Φ O) Φ rti rd CQ A TJ Φ JJ A ». 0 r-H υ Φ rd rH 35 (β -rl JJ CQ β CQ ti CM • 0 • X! β rl CJ Xl rH tβ XI rH JJ 4H T 3 JJ 5 i ti rH -ri Ti 0 0 Φ ^ β 4J £ rH cq -ri -rl rti EH ft rβ β -rl φ β 0 JJ Φ Φ β
© td CQ A > 0 3 cn -rl P rd ti JJ rH 3 0 Φ -rl ti A φ φ Xl rd Xl Xl Xl rd o JJ JJ -ri rH -ri l XI J ι co φ T β 3 υ -ri 0 O \. 3 4H JJ υ JJ CQ SH υ JJ JJ JJ CJ -ri
-rl 0 rH rH JJ JJ JJ CQ rH so ti φ φ O o CQ rH 3 β JJ T 0 Φ CJ CQ φ Φ -ri CJ -rl ti β rH Φ CJ φ -ri -ri 0 ~. φ CQ XI rH in Φ Φ -ri Φ β β ti iH Φ φ β ti i xi Φ 0 4H Xi rd
CΛ A < CJ rβ 3 35 TJ ft A β JJ υ 4H TJ ti CQ Oi -ri rd 4H ft ft Ti O ft JJ 35 ft JJ 0 35 >
Figure imgf000028_0001
POLYPEPTIDES
The sequence of amino acids no. 1-302 of SEQ ID No 2 is a mature pectate lyase sequence corresponding to a wild-type pectate lyase from the species Bacillus licheniformis . The sequence of amino acids no. 1-302 of SEQ ID No 7 is a mature pectate lyase sequence corresponding to the variant M169I + F198V of the pectate lyase from the species Bacillus 1 i cheni formi s .
The sequence of amino acids no. 1-302 of SEQ ID No 8 is a mature pectate lyase sequence corresponding to the variant M169I + F198V + S72I of the pectate lyase from the species Bacillus licheniformis.
The present invention also provides pectate lyase variants of polypeptides that are substantially homologous to the polypeptides of SEQ ID NO: 7 or SEQ ID NO : 8 and their species homologs (paralogs or orthologs) with the proviso that the amino acid residues of the following positions of SEQ ID NO : 7 or SEQ ID NO : 8 are conserved: 111, 141, 145, 165, 169, 194, 196, 198 and 199. Optionally, the amino acid residues of positions 123, 125 and 126 are also conserved, but amino acid substitutions in any of these positions may be made without loss of catalytic, i.e. pectate lyase, activity. The term "substantially homologous" is used herein to denote polypeptides having 70%, more preferably at least 85%, and even more preferably at least 90%, sequence identity to the sequence shown in SEQ ID NO: 7 or SEQ ID NO : 8 or their orthologs or paralogs . Such polypeptides will more preferably be at least 95% identical, and most preferably 98% or more identical to the sequence shown in SEQ ID NO: 7 or SEQ ID NO: 8 or its orthologs or paralogs. Percent sequence identity is determined by conventional methods, by means of computer programs known in the art such as GAP provided in the GCG program package (Program Manual for the Wisconsin Package, Version 8, August 1994, Genetics Computer Group, 575 Science Drive, Madison, Wisconsin, USA 53711) as disclosed in Needleman, S.B. and Wunsch, CD., (1970), Journal of Molecular Biology, 48, 443- 453, which is hereby incorporated by reference in its entirety. GAP is used with the following settings for polypeptide TJ JJ O φ β -rl 0 ti rH β
VJ β fd CQ Φ Φ CJ T β 0 CQ A -rl
© -rl ti CM 3 A > rβ -rl β rl A £ rd 3 CQ
3 0 < 3 4J Φ CJ 0 β 0 φ β • ti β
© SH 4H r 0 rti rH CQ 0 (ti TJ -ri O -rl X 0 rd H β • Φ Φ 0
Φ iH -ri 4H 3 - β φ cn CQ β -ri cn -ri 3 4H 01 o -ri s CM JJ CQ Ti 4H ϋ 0 o\° -ri Φ 0 JJ - JJ β -ri CQ CQ . σ> φ 0 rβ Φ ti o CQ tø ! Φ 01 β 0 3 rβ m 3 ti β rd 0 JJ φ rH β rβ ti 35 ti r β o r TJ β rd TJ β cq 01 -ri cn rd XI SH β JJ Φ φ 4H rβ ft Φ
H -rl Φ -rl β CJ 3 JJ a 0 X rH 4J XI o - Xl 0 JJ J J CQ JJ o > φ CJ -ri rβ JJ CQ φ CQ rd XI φ rH X ϋ CQ cn Φ rβ Φ rd J X
0- β -ri JJ • -ri xi φ -ri JJ cq CQ 3 TJ Φ CQ Φ (ti rd Φ β S Ti TJ rH ϋ > φ φ IT ti CJ JJ rH CQ rd • β 0 01 Φ β Xl 3 CQ W β φ XI CQ 0 4H a
CQ CQ Φ ti CJ -ri -ri Ti φ CQ (ti 3 β > 0 JJ 0 CQ rH (ti JJ rd -ri A 0 β o Φ 4H TJ fβ rd Xl CQ Φ -ri Φ rd JJ β rH
Figure imgf000030_0001
fd rH CM rd
> rH 01 0 X! a β JJ ϋ ϋ CQ ti Xi JJ 4H -ri td rβ ,-~, • β -ri Φ 4H β co β β β o 0 td JJ rβ β β 0 J tti β 0 Φ 3 3 Oi rH • 0 o (ti ». T XI o -ri
CJ rH rβ rd rH Ό rd cq Φ -ri > JJ β SH -. CQ rβ rβ rH -ri a > xi Φ 3
4H φ 4J A rβ φ β Φ Φ Φ ti -ri 0 Φ Φ JJ 0 CQ ti rti o XI 0 CQ ti
0 rH 0 rH (β ~ CQ X a ti Φ 0 σ JJ β CQ Φ JJ JJ JJ β rd JJ CQ 0 Φ -rl CQ Φ Φ
0 rH (ti ti 3 fd rH β in JJ Φ 0 0 Φ CQ CQ -rl 4H I Ti Φ Φ CJ Φ JJ ti TJ JJ
3 rH β Φ β rβ 0 > rd CQ Xl β X! !> 0 rH -ri ti JJ N β 0 CJ rd -ri 1
JJ 0 Φ 4H -rl Xl ti CQ a 01 H 0 β CQ O -rl β β Ω -rl rti -rl CQ JJ rH rH φ 4H a Φ SH ΓJ β 0i A >> β β ϋ CQ , X Φ β 0 H X CQ φ a rd TJ ti Φ β (ti Oi rH 0 £ φ -ri . CJ 0 ti > -ri CQ W CQ CQ T rti Φ X >? β -rl φ β a JJ CQ φ -ri A 01 P > CQ CQ rl rd rH X! CQ 4H CQ CQ -ri 01 fβ 3 0
Φ JJ Xl 0 ϋ 0 xi xi 0 SH & fβ β -H φ tti SH Φ Φ 4H rH Tj β rd -ri CQ & A ft 0 JJ -rl CQ rd 3 JJ JJ ti rH JJ A 0 Xl ti ϋ rd β β rβ 0 -rl xi 4J ϋ φ CQ rH ti φ JJ -ri XI β TJ Φ O CΛ 1 -ri 4J JJ 0 -rl CJ -rl TJ £ x; φ o fti 01 Φ O β rH Xl (ti -rl 3 β 4H 3 so TJ CQ rd 0 i r i φ 0 H rH rd xi Oi S β -r β JJ JJ -i 3 ^^ β 01 a CJ
0 CJ JJ Φ Φ td rH 0 tt ti 0 CQ rβ Φ 0 Xl JJ ti rd β
-rl β -rl ti CQ φ A ti ti Xi -rl TJ JJ J β JJ 0 -ri Φ — ' s ti 3 -ri fβ J ! Xi rd ti ti cn JJ β 3s U 3 JJ rd 4H CQ a TJ 35 T TJ β -ri xi SH CM β Xi CJ Xl Φ 0 M fd O ϋ SH -ri -. Φ φ (β -. rd TJ -. 1 JJ β β -rl CM -. CJ 01 φ H CM CM rH ti td Φ Tj E CQ o\° β CQ N Φ H CQ 0 Φ LΩ 0 -ri . -. H 4H > Φ ti 1 ti 0 ^ < 4H A 4H Φ ri Φ co 01 β -rl ti ^-^ 0 β β 3 CM -ri Φ rH • cn 4H rH Xl Xi rd 0 ϋ ft J J Φ Φ JJ 0 cn -ri 0 iH 0 β CM 4H 0 I 4J JJ (ti cn rβ . ti JJ ϋ rH β
• . JJ ti CJ 4H ϋ Oi Φ JJ -ri 3 rH o rβ o rd 01 φ β -ri
CM 4H 01 •• cn (β a Φ -ri φ 4-> rd 0 JJ CQ rd Φ Φ JJ rti rβ CM ϋ ti JJ 01 . > xl CQ 4H 3
=£ 0 β β • JJ A 3 a CQ rH ϋ β β Xl Φ β -ri ft Φ JJ ». β Φ φ 0i o rβ J O -ri 0 σ ϋ rti o •* φ Φ CQ rd β 0 o A JJ rH 4J 4H Φ r -ri *. — cq β ^
>, CQ CQ Φ ti SH CQ CQ -q Φ o 3 ti in Φ 3 β -ri β o TJ o Φ β CQ
• • 4H JJ β -ri 4H a Φ 4H 3 CJ r rH O JJ 0 EH JJ TJ (ti iH o ti JJ 0 TJ rH 0 CQ xl ti 0 rβ β 0 -ri ti 0 4H Φ rH Tj Xl Xl φ β ϋ 3 φ X! β ϋ CQ 1 ϋ ti CQ JJ β o JJ CQ rd Φ Φ Xl <-H rd JJ φ ϋ rH -H Φ φ rH CQ JJ a rβ CQ O m β Φ XI JJ CQ Xl
CQ β TJ i JJ Φ O & 3 JJ a rH -ri rd CQ . Φ 3 Φ 4H rH 1 SH rH rn cn φ rd β (ti β JJ
-r a rH CJ CQ Xl (ti φ TJ CQ 4H rd Ti 0 0 CQ JJ -ri rH rH Φ β 4H 0
H rH TJ Xl 0 rH JJ rd rβ rd 3 CJ . XI rH ti rd ^— 3 β β JJ Φ £ rH •• CQ Q rd -ri 4-> Φ rβ CM a 0 X! rd rd -ri JJ ϋ td 1 -rl cq 3 -rl rH (ti rd . C a -rl Φ ti CQ
PH β φ β TJ 3 ϋ Xl A CQ -rl CQ 4H CQ S 3 a (ti β • >. ti £ CQ 0 rd Φ
3 Φ Φ 3 Φ Φ rH CQ φ 0 Xl -ri 35 -ri 4J CQ β 0 β rH rβ β 4J -rl LΩ φ β P CQ β ti
0 ft ϋ CJ a -rl a JJ CJ CJ ε β Φ 0 0 JJ Φ CQ -ri TJ CO β 0 TJ -rl Xl 0
CJ β rl β 5 β CQ -rl rβ β φ ti rd TJ -rl -rl β TJ Ti β 4H rH -rl cn φ -ri • H β Φ 3 CJ 3 β Φ (ti Φ β rd φ 01 Xl cq -ri 4H 0 JJ -rl JJ rH JJ rd -ri -rl rd 0 -ri JJ H Oi JJ φ rd rd > β φ 0 β rH β 0 Φ 01 β 35 Φ 4π CQ JJ β A β CJ JJ CJ CJ CQ rti CJ -ri rH φ tti CQ © o -rl CJ1 -ri CJ1 -rl Xl ti -. CQ CQ SH -ri X! a JJ rd JJ -rl a rd CQ φ rti -rl -. β CJ β ϋ 01 0 β CQ Φ 3 φ CQ EH 0 CQ 01 β Φ Φ a β β Φ -ri ti -rl 4H Φ rd TJ 4H Xi LΩ -rl -ri φ ti β 0 4H Φ φ β CΛ -ri CQ β 0 β β -ri Φ CΛ β s JJ Φ JJ -rl
CQ 4H CQ β a 0 -rl 1 O 4H ti Φ H K 0 ti CQ o β φ CQ φ ti 01 0 fd CJ ϋ Φ - β XI JJ JJ o -. -ri φ 3 β TJ
CJ1 JJ 4J ϋ β rH ti φ φ ti o rH XI φ X! 01 -ri CJ a (ti rH φ 4H 3 35 φ JJ -ri φ X £ X -ri β Φ JJ a a 0 -ri 0 β SH β -rl o 3 β Φ Xl O • • φ β Φ O Φ in rβ ϋ
CQ φ X! P φ 3 4H A CQ CQ CQ 3 a CQ a CQ CQ a rd CQ a JJ a Ψ 1 CΛ CM ti ϋ £ β rβ
Figure imgf000030_0002
Table 1
Conservative amino acid substitutions
Basic : arginme lysine
Acidic: glutamic acid aspartic acid
Polar: glutamine asparagine serine threonine
Hydrophobic : leucine isoleucine valine
Aromatic/ Heteroaromatic : phenylalanine tryptophan tyrosine histidine
Small glycine alanine methionine
In addition to the 20 standard amino acids, non-standard amino acids (such as 4-hydroxyproline, 6-.N-meth.yl lysine, 2- aminoisobutyric acid, isovaline and a-methyl serine) may be substituted for amino acid residues of a wild-type polypeptide. A limited number of non-conservative amino acids, amino acids that are not encoded by the genetic code, and unnatural amino acids may be substituted for amino acid residues. "Unnatural amino acids" have been modified after protein synthesis, and/or have a chemical structure in their side chain (s) different from that of the standard amino acids. Unnatural amino acids can be chemically synthesized, or preferably, are commercially available, and include pipecolic acid, thiazolidine carboxylic acid, dehydroproline, 3- and 4-methylproline, and 3,3- dimethylproline .
Essential amino acids in the pectate lyase polypeptides of the present invention can be identified according to procedures known in the art, such as site-directed mutagenesis or alanine- scanning mutagenesis (Cunningham and Wells, Science 244 : 1081- 1085, 1989) . In the latter technique, single alanine mutations are introduced at every residue in the molecule, and the 5 resultant mutant molecules are tested for biological activity (i.e pectate lyase activity) to identify amino acid residues that are critical to the activity of the molecule. See also, Hilton et al . , J. Biol. Chem. 271:4699-4708, 1996. The active site of the enzyme or other biological interaction can also be lo determined by physical analysis of structure, as determined by such techniques as nuclear magnetic resonance, crystallography, electron diffraction or photoaffinity labeling, in conjunction with mutation of putative contact site amino acids. See, for example, de Vos et al . , Science 255:306-312, 1992; Smith et
15 al., J. Mol. Biol. 224:899-904, 1992; Wlodaver et al . , FEBS
Lett . 3_09: 59-64, 1992. The identities of essential amino acids can also be inferred from analysis of homologies with polypeptides which are related to a polypeptide according to the invention.
20 Multiple amino acid substitutions can be made and tested using known methods of mutagenesis, recombination and/or shuffling followed by a relevant screening procedure, such as those disclosed by Reidhaar-Olson and Sauer (Science 241:53-57, 1988) , Bowie and Sauer (Proc. Natl . Acad. Sci. USA 86:2152-
25 2156, 1989), W095/17413, or WO 95/22625. Briefly, these authors disclose methods for simultaneously randomizing two or more positions in a polypeptide, or recombination/shuffling of different mutations (W095/17413, W095/22625) , followed by selecting for functional a polypeptide, and then sequencing the
30 mutagenized polypeptides to determine the spectrum of allowable substitutions at each position. Other methods that can be used include phage display (e.g., Lowman et al . , Biochem. 30 : 10832- 10837, 1991; Ladner et al . , U.S. Patent No. 5,223,409; Huse, WIPO Publication WO 92/06204) and region-directed mutagenesis
35 (Derbyshire et al . , Gene 46:145, 1986; Ner et al . , DNA 7:127, 1988) .
Mutagenesis/shuffling methods as disclosed above can be combined with high-throughput, automated screening methods to
Figure imgf000033_0001
G163L,H,I, M167F,I,S, L168N, M169I, E189H,N, N192Y, S197N, F198V, F200N,Y, G203V,A, N207S, S220,V, M222N,Y, N230E, L232N, A236V, K237N, D238N, Y244D, S246R,P, S261I, R262E, M265K, S269P, D282H, N283P, D284P, D285G, K288P and S289P. It is at present contemplated that one or more of these substitutions either alone or in combination increase the thermostability of the pectate lyase variant when compared to the wild-type enzyme .
Preferred multiple substitutions in the aliphatic and aromatic stacks of amino acid side chains believed to stabilize the β-helix structure are:
M169I + F198V
M169I + F198V + S220I
M169I + F198V + S220V S197N + L168N
S197N + L168N + G114N
F200N + M222N
F200Y + M222Y, and other preferred substitutions in the stacks are K83N, M167F,I, E189H,N, G163L, L100N, S72I and V71N.
Preferred multiple substitutions believed to stabilize the C-terminal turn are:
N283P + D285G
D282H + N283P + D284P D282H + N283P + D284P + K288P
Preferred multiple substitutions believed to stabilize the binding cleft are:
K237N + D238N
K237N + D238N + R262E Y244D + S246R
N207S + N230E, and other preferred substitutions are D136Y, N192Y and R262E.
The pectate lyase variant of the invention may, in addition to the enzyme core comprising the catalytically domain, also comprise a cellulose binding domain (CBD) , the cellulose binding domain and enzyme core (the catalytically active domain) of the enzyme being operably linked. The cellulose binding domain (CBD) may exist as an integral part
Figure imgf000035_0001
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3 ti CQ β J JJ rd JJ CQ rl φ -ri JJ & & CQ ft 0 O xi rH fti
0 Φ Φ rH (ti SH -ri -rl Φ rH 01 X! 1 CQ β 3 3 ti CJ υ JJ β -ri
SH JJ ti rd SH rti SH β Xl rti rd rβ CQ Φ -ri -ri Φ Φ 4H ti
4H β Φ > rβ rti ti Jj -ri SH 3 Φ β > £ Φ Φ 4H Φ
-ri JJ ft Φ > 4H ti SH rβ U o β *1 Xl xl 0 ti JJ
Φ β 0 Φ Xl β Φ 0 01 rH 0 & CQ >i o LM JJ EH O (ti
CQ 35 -ri JJ CQ JJ Φ 4H -ri JJ β rβ ti 3 β 4J υ β JJ 4H 3 o 0 β CQ 0 rti CQ -ri ft 0 ti -ri Φ Φ . u
SH rri ti -rl Φ β rti Tj 3 β ti J JJ CJ Φ JJ CQ β CQ O υ rti Xi -ri in β β 0 φ 4H -rl rd l β rd Φ Tj β β β 4H rH CQ EH rH 0 (ti TJ -ri CQ JJ 0 rl ΓJ ft JJ rd rH rH 0 0 -ri
CQ 0 β a β -ri Φ JJ rH rβ Φ rti β XI ti -ri β
CJ 0 35 φ JJ > CJ r 3 CQ xi 3 CJ Φ 4H 01 rd QA JJ -ri
Φ CQ -ri SH CQ o JJ (ti Tj -ri β β TJ JJ 0 > 0 Φ JJ -ri rti
X JJ JJ CJ β β rβ in rH SH J Xi JJ β 0 SH Ol 0 SH Φ rd TJ JJ
ri β SH G X JJ rti Φ Φ 0 β -ri 4H β ti CQ Oi β β rH Φ rd -rl CJ — xi ft ri TJ rl β rti X 4H -ri β ft ΓJ Jj CQ Φ Φ i 1 ft rβ rri 0 CQ TJ Q 3* β 0 Φ φ 0 0
- fti 4J > Xi CJ CJ
0 -ri CJ Tj ft rl rH φ ft JJ β β -rl Φ
JJ ft 4H ti rd 0 ft Φ rH φ XI Φ β β -ri -ri 3 Φ ti o φ β
© CQ 3 0 1 SH Xl Φ CQ rti CJ X Φ φ 0 JJ XI rH 0 JJ -i rd
Φ o rH 4H JJ Xl Φ rd 3s -ri x -ri Xl ti -rl ΓJ CQ in A A 4J
© ti CJ ». -ri φ EH Xl Φ β CQ rH u-l φ JJ Φ ti JJ CQ ri JJ β rd J O Φ 0 0 rH 3 4J ti rri -n r-l 4H ΓJ ft φ β CQ -rl 35 JJ rd
4J Ti CQ r-i CJ rri rri φ 4H rti JJ tti CJ CQ β o -ri rH β β H ti β 4H β β Φ ti β Xl -ri SH 4H rti rH JJ 0 ti Xl β rd
-ri (ti < 0 Xl O -ri -ri 0 X^ JJ TJ JJ 0 35 ft Φ ft 4H CQ
Figure imgf000050_0001
CQ
Figure imgf000050_0002
Figure imgf000051_0001
degrading pectin-containing material contained in the fruit or vegetable juice.
The enzyme or enzyme preparation may be used in the treatment of mash from fruits and vegetables in order, to improve the extractability or degradability of the mash. For instance, the enzyme preparation may be used in the treatment of mash from apples and pears for juice production, and in the mash treatment of grapes for wine production.
DETERMINATION OF CATALYTIC ACTIVITY OF PECTATE LYASE The viscosity assay APSU
APSU units : The APSU assay measures the change in viscosity of a solution of polygalacturonic acid in the absence of added calcium ions. A 5% w/v solution of sodium polygalacturonate (Sigma P- 1879) is solubilised in 0.1 M glycine buffer, pH 10. 4 ml of this solution are preincubated for 5 min at 40 ?C. Then, 250 μl of the enzyme (or enzyme dilution) are added, after which the reaction is mixed for 10 sec on a mixer at the highest speed and incubated for 20 min at 40?C or at another temperature .
Viscosity is measured using a MIVI 600 viscometer (Sofraser, 45700 Villemandeur, France) . Viscosity is measured as mV after 10 sec. For calculation of APSU units the following standard curve is used:
APSU/ml mV
0.00 300
4.00 276
9.00 249
14.00 227
19.00 206
24.00 188
34.00 177
49.00 163
99.00 168 MATERIALS AND METHODS Strains
Bacillus licheniformis ATCC 14580.
B . subtilis P 2306. This strain is the B. subtilis DN1885 with disrupted apr and npr genes (Diderichsen, B., Wedsted, U. , Hedegaard, L. , Jensen, B. R. , Sjøholm, C. (1990) Cloning of aldB, which encodes alpha-acetolactate decarboxylase, an exoenzyme from Bacillus brevis. J. Bacteriol . , 172, 4315-4321) disrupted in the transcriptional unit of the known Bacillus subtilis cellulase gene, resulting in cellulase negative cells. The disruption was performed essentially as described in (Eds. A.L. Sonenshein, J.A. Hoch and Richard Losick (1993) Bacillus subtilis and other Gram-Positive Bacteria, American Society for microbiology, p.618). Competent cells were prepared and transformed as described by Yasbin, R.E., Wilson, G.A. and Young, F.E. (1975) Transformation and transfection in lysogenic strains of Bacillus subtilis : evidence for selective induction of prophage in competent cells. J. Bacteriol, 121:296-304.
Plasmids pMOL944 :
This plasmid is a pUBHO derivative essentially containing elements making the plasmid propagatable in Bacillus subtilis, kanamycin resistance gene and having a strong promoter and signal peptide cloned from the amyL gene of B . licheniformis ATCC14580. The signal peptide contains a SacII site making it convenient to clone the DNA encoding the mature part of a protein in-fusion with the signal peptide. This results in the expression of a Pre-protein which is directed towards the exterior of the cell .
The plasmid was constructed by means of conventional genetic engineering techniques which are briefly described in the following. Construction of pMOL944 :
The pUBHO plasmid (McKenzie, T. et al . , 1986, Plasmid 15:93-103) was digested with the unique restriction enzyme Neil. A PCR fragment amplified from the amyL promoter encoded on the plasmid pDN1981 (P.L. Jørgensen et al . , 1990, Gene, 96, p37-41.) was digested with Neil and inserted in the Neil digested pUBHO to give the plasmid pSJ2624. The two PCR primers used have the following sequences:
# LWN5494 5'-GTCGCCGGGGCGGCCGCTATCAATTGGTAACTGTATCTCAGC -3'
# LWN5 95 5'-GTCGCCCGGGAGCTCTGATCAGGTACCAAGCTTGTCGACCTGCAGAA
TGAGGCAGCAAGAAGAT -3'
The primer #LWN5494 inserts a Notl site in the plasmid. The plasmid pSJ2624 was then digested with Sad and Notl and a new PCR fragment amplified on amyL promoter encoded on the pDN1981 was digested with Sad and Notl and this DNA fragment was inserted in the Sacl-Notl digested pSJ2624 to give the plasmid pSJ2670.
This cloning replaces the first amyL promoter cloning with the same promoter but in the opposite direction. The two primers used for PCR amplification have the following sequences :
#LWN5938 5 " -GTCGGCGGCCGCTGATCACGTACCAAGCTTGTCGACCTGCAGAATG
AGGCAGCAAGAAGAT -3'
#LWN5939 5 " -GTCGGAGCTCTATCAATTGGTAACTGTATCTCAGC -3 "
The plasmid pSJ2670 was digested with the restriction enzymes Pstl and Bell and a PCR fragment amplified from a cloned DNA sequence encoding the alkaline amylase SP722 (disclosed in the International Patent Application published as W095/26397 which is hereby incorporated by reference in its entirety) was digested with Pstl and Bell and inserted to give the plasmid pMOL944. The two primers used for PCR amplification have the following sequence:
#LWN7864 5 " -AACAGCTGATCACGACTGATCTTTTAGCTTGGCAC-3 " #LWN7901 5" -AACTGCAGCCGCGGCACATCATAATGGGACAAATGGG -3"* The primer #LWN7901 inserts a SacII site in the plasmid. Genomic DNA preparation
Strain Bacillus licheniformis ATCC 14580 was propagated in liquid medium 3 as specified by ATCC (American Type Culture
Collection, USA) . After 18 hours incubation at 37°C and 300 rpm, the cells were harvested, and genomic DNA isolated by the method described by Pitcher et al . (Pitcher, D. G., Saunders, N. A., Owen, R. J. (1989) . Rapid extraction of bacterial genomic DNA with guanidium thiocyanate . Lett. Appl . Microbiol . , 8, 151-156) . The pectate lyase encoding DNA sequence of the invention was PCR amplified using the PCR primer set consisting of these two oligo nucleotides :
Peel . B. lich. upper . SacII 5'-CTA ACT GCA GCC GCG GCA GCT TCT GCC TTA AAC TCG GGC -3'
Peel .B.lich. lower .Notl
5' -GCG TTG AGA CGC GCG GCC GCT GAA TGC CCC GGA CGT TTC ACC -3'
Restriction sites SacII and Notll are underlined.
Chromosomal DNA isolated from B . licheniformis ATCC 14580 as described above was used as template in a PCR reaction using Amplitaq DNA Polymerase (Perkin Elmer) according to manufacturers instructions. The PCR reaction was set up in PCR buffer (10 mM Tris-HCl, pH 8.3, 50 mM KCl, 1.5 mM MgCl2, 0.01 % (w/v) gelatin) containing 200 μM of each dNTP, 2.5 units of AmpliTaq polymerase (Perkin-Elmer, Cetus, USA) and 100 pmol of each primer
The PCR reactions was performed using a DNA thermal cycler (Landgraf , Germany) . One incubation at 94°C for 1 min followed by thirty cycles of PCR performed using a cycle profile of denaturation at 94°C for 30 sec, annealing at 60°C for 1 min, and extension at 72°C for 2 min. Five-μl aliquots of the amplification product was analysed by electrophoresis in 0.7 % agarose gels (NuSieve, FMC) . The appearance of a DNA fragment size 1.0 kb indicated proper amplification of the gene segment .
Figure imgf000056_0001
Figure imgf000056_0002
protein represented in SEQ ID NO: 2.
Media
TY (as described in Ausubel, F. M. et al . (eds . ) "Current protocols in Molecular Biology". John Wiley and Sons, 1995) . LB agar (as described in Ausubel, F. M. et al . (eds.) "Current protocols in Molecular Biology". John Wiley and Sons, 1995) . LBPG is LB agar supplemented with 0.5% Glucose and 0.05 M potassium phosphate, pH 7.0 BPX media is described in EP 0 506 780 (WO 91/09129) .
The following examples illustrate the invention.
EXAMPLE 1 Construction of Pectate Lyase variant (M169I, F198V)
The wild-type B. licheniformis pectate lyase encoded by SEQ ID NO: 1 is expressed in B. subtilis from a plasmid denoted pMB541, see Materials and Methods. This plasmid contains a fusion of the signal sequence from B . licheniformis alpha- amylase and the gene encoding the mature protein of B . licheniformis pectate lyase (SEQ ID NO: 2, wild-type pectate lyase) , the expression of which is directed by the B. licheniformis alpha-amylase promoter. Further, the plasmid contains the origin of replication, ori , from plasmid pUBllO and the cat gene from plasmid pC194 conferring resistance towards "chloramphenicol. A specific mutagenesis vector with a 1.2 kb pUC fragment inserted in the unique Pstl restriction site located between the nucleotide sequence coding for the signal sequence and the mature, was prepared. The important features of this vector, denoted pCA134 include an origin of replication derived from the pUC plasmids, the cat gene conferring resistance towards chloramphenicol and gene coding the mature part of the wild-type B. licheniformis pectate lyase.
After verification of the DNA sequence in variant plasmids, the Pstl-Pstl fragment from pUC is removed and the remaining part of the vector is ligated and transformed into the protease- and amylase-depleted Bacillus subtilis strain SHA273 (described in W092/11357 and WO95/10603) in order to express the variant enzyme .
In an attempt to improve the stability of said pectate lyase site-directed mutagenesis was carried out using the Mega- primer method as described by Sarkar and Sommer, 1990, BioTechniques 8: 404-407).
The B . licheniformis pectate lyase variant M169I+F198V was constructed by the use of the gene specific primer PelyOl (SEQ ID NO: 4) and mutagenic primers Pely22 (SEQ ID NO: 5) and Pely23 (SEQ ID NO: 6) to amplify by PCR an approximately 470 bp DNA fragment from the pCA134 plasmid. The 470 bp fragment is purified from an agarose gel and used as a Mega-primer together with primer 113711 in a second PCR carried out on the same template.
The resulting approximately 1050 bp fragment is digested with restriction enzymes Bell and iVotl and the resulting approximately 570 bp DNA fragment is purified and ligated with the pCA134 plasmid digested with the same enzymes. Competent Bacillus subtilis SHA273 (amylase and protease low) cells are transformed with the ligation, and Chloro-amphenicol resistant transformants are checked by DNA sequencing to verify the presence of the correct mutations on the plasmid.
Primer 113711:
5' GAAACAGCTATGACCATGATTACGCC 3' (SEQ ID NO : 3) Primer PelyOl:
5' CGACTGGCAATGCCGGGGCGG 3' (SEQ ID NO : 4)
Primer Pely22 :
5' GGAAATCAATGCTGATCGGTTCATCGGACAGC 3' (SEQ ID NO : 5)
Primer Pely23 : 5' CGTGTGCCGTCAGTACGTTTCGGAGGAGGC 3' (SEQ ID NO : 6)
EXAMPLE 2
Fermentation, purification and characterization of Bacillus licheniformis pectate lyase variant M169I, F198V The clone obtained as described in Example 1 was grown in
25 x 200 ml BPX media with 10 μl/ml of ana ycin in 500ml two baffled shake flasks for 5 days at 37°C at 300 rpm. 140 ml of shake flask culture fluid were diluted to 1000 ml with ion free water and applied to S-Sepharose (50 ml column equilibrated with 25 mM sodium acetate buffer pH 5.5). The pure pectate lyase variant was eluted using a NaCl gradient . The pectate lyase variant gave a single band in SDS-PAGE of 35 kDa, exhibited 23 APSU units per g protein, and a molar extinction coefficient of 57750.
The buffer of the pure enzyme was changed by size chromatography on a high load Superdex S200 column equilibrated with 0.1M EPPS buffer pH 8.0. DSC (Differential Scanning
Calorimetry) was performed using a temperature increase of 1°C per minute. The pure pectate lyase variant unfolds at 77°C on a Microcalc calorimeter. In contrast hereto, the wild-type or parent pectate lyase enzyme melts at 69°C under identical conditions (pH 8) . DSC was also performed using Glycin buffer, 0.68 mM CaCl pH 10, and the pure pectate lyase variant unfolds at 68°C on a Microcalc calorimeter. In contrast hereto, the wild-type or parent pectate lyase enzyme melts at 60°C under identical conditions (pH 10) .
EXAMPLE 3
Construction, fermentation, purification and characterization of further Bacillus licheniformis pectate lyase variants
By using the methods described in Example 1 and 2, the Bacillus licheniformis pectate lyase variants (relative to SEQ ID NO: 2) of Table I below were prepared and subjected to DSC (Differential Scanning Calorimetry) at pH 10 or pH 8 using a temperature increase of 1°C per minute. The wild-type Bacillus licheniformis pectate lyase (SEQ ID NO: 2) has a DSC unfolding temperature of 60°C (pH 10) and 70°C (pH 8) . Table I
Figure imgf000060_0001
Variant 1-6 and 21: stacking positive; variant 7-9: stacking neutral; variant 10-14: proline positive; variant 15-17: proline neutral; variant 18-20: other positive.
By using the methods described in Example 1 and 2, the Bacillus licheniformis pectate lyase variants (relative to SEQ ID NO: 2) of Table II below were also prepared. Table II
Figure imgf000061_0001
Variant no. 22-32: stacking, unknown; variant no. 33: proline, unknown
EXAMPLE 4
Pectate Lyase Treatment of Cellulosic Material: Effect of Pectate Lyase Variants vs. Wild-Type Pectate Lyase (SEQ ID NO: 2) on Residual Pectin The activity of the pectate lyase variants M169I + F198V, M169I + F198V+S220V, M169I + F198V+D136A, M169I + F198V+T55P, all prepared according to Example 1, in textile preparation is determined by measuring the amount of pectin removed from the fabric after treating with the enzyme in a surfactant-buffer solution.
A. Materials Fabric : Swatches (25.4 cm x 91.4 cm) of 100% carded cotton fabric from Test Fabrics, quality 428U (242 g/m2) was used. Equipment : A Labomat (Mathis, Switzerland) was used at a liquor ratio of 12.5:1 (12 g fabric in 150 ml buffer/enzyme solution) .
Pectate lyase : Each of the pectate lyase variants M169I + F198V, M169I + F198V+S220V, M169I + F198V+D136A, M169I + F198V+T55P were used, formulated in a solution containing 10 mM borate buffer and 0.2 % (w/w) non-ionic surfactant (Tergitol 15-S-12 from Union Carbide) and 0.1% (w/w) Geropon SS-O-75, pH 8.2. Samples were compared based on equal protein concentrations .
B. Procedures and Results
The test fabrics were impregnated with the aqueous solution containing the pectate lyase by a determined wet pickup between 95-100%, and incubated for 15 minutes at 90°C followed by a continuously washing using the following rinse cycle:
Tank 1 - Tap water rinse at 90°C (overflow rinsing) Tank 2 - Tap water rinse at 90°C (overflow rinsing) Tank 3 - Tap water rinse at 70°C (overflow rinsing) Tank 4 - Tap water rinse at ambient temperature (overflow rinsing) .
The samples were then heat dried in the pad steam range at 150°C for 6 minutes. The pectin is measured by staining with ruthenium red dye (standard Ruthenium staining procedure EUS- SM-103) and the data transformed in to the amount of pectin remaining on cloth (% Residual Pectin, see Table III) . The data shown in Table III below clearly indicates that the pectate lyase variants of the invention perform better at lower dosages than the wild-type (parent, native) pectate lyase. In contrast, maximum average pectin removal observed for pectate lyases in general are 30% and define as an excellent scouring effect on cotton.
TABLE III Results in APSU/kg cotton
Figure imgf000062_0001
Figure imgf000063_0001
EXAMPLE 5
Construction, fermentation, purification and characterization of Bacillus agaradhaerens pectate lyase variants
The wild-type Bacillus agaradhaerens pectate lyase encoded by SEQ ID NO: 18 is expressed in B. subtilis from a plasmid denoted pCA207, which is similar to pMB541 (see Materials and Methods) except for the pectate lyase gene now originating from Bacillus agaradhaerens . This plasmid contains a fusion of the signal sequence from B. licheniformis alpha-amylase and the gene encoding the mature protein of Bacillus agaradhaerens pectate lyase (SEQ ID NO: 17, wild-type pectate lyase), the expression of which is directed by the B. licheniformis alpha-amylase promoter .
DNA fragments coding for a specific amino acid change were made using the SOE-PCR methods described by Higuchi, R. et al 1988, [Nucleic Acids Research Vol . 16 (15) p.7351-7367] . pCA207 was used as template in the reaction together with the mutagenesis primers and two primers located 5' to the Pst I site and 3' to the Cel II site, respectively. A major part of the pectate lyase gene was removed from plasmid pCA207 by digestion with the restriction enzymes Pst I and Cel II.
To obtain conjugated and pectate lyase expressing plasmids a PCR based multimerization reaction was made as described by Shafikhani, S. et al . , 1997 [BioTechniques 23, 304-310]. The resulting PCR products were transformed into a protease-, amylase-, cellulase and pectate lyase-depleted Bacillus subtilis strain pMB1053-l in order to express the variant enzyme. The sequence pectate lyase gene and variants were confirmed by automatic sequencing.
The B. agaradhaerens pectate lyase variant S82I was 5 constructed by the use of the gene specific primers 101450 (SEQ ID NO: 9) and 6034 (SEQ ID NO: 10) , and the mutagenic primers Pelyl74 (SEQ ID NO: 11) and Pelyl75 (SEQ ID NO: 12) resulting in a 1.4 kb fragment .
The B. agaradhaerens pectate lyase variant D93I was lo constructed by the use of the gene specific primers 101450 and 6034, and the mutagenic primers Pelyl76 (SEQ ID NO: 13) and Pelyl77 (SEQ ID NO: 14) resulting in an 1.4 kb fragment.
The B . agaradhaerens pectate lyase variant M179I was constructed by the use of the gene specific primers 101450 and 15 6034, and the mutagenic primers Pelyl78 (SEQ ID NO: 15) and Pelyl79 (SEQ ID NO: 16) resulting in an 1.4 kb fragment.
Primer 101450:
5' CATGGTGAACCAAAGTGAAACC 3' (SEQ ID NO: 9)
20
Primer 6034:
5' GGAAGAAAATATAGGGAAAATGG 3' (SEQ ID NO : 10)
Primer Pelyl74 : 25 5' GAAATTAAAAACATCATTATTATCGGTGTAG 3' (SEQ ID NO : 11)
Primer Pelyl75 :
5' CTACACCGATAATAATGATGGTTTTAATTTC 3' (SEQ ID NO : 12)
30 Primer Pelyl76:
5' CAAATGGAGAGTTCCATGGCATTGGGATAAG3' (SEQ ID NO: 13)
Primer Pelyl77:
5' CTTATCCCAATGCCATGGAACTCTCCATTTG 3' (SEQ ID NO: 14) 35
Primer Pelyl78 :
5' CATTGGAAAACTATCCTCGTCGGTCATAC 3' (SEQ ID NO : 15)
Primer Pelyl79: 5' GTATGACCGACGAGGATAGTTTTCCAATG 3' (SEQ ID NO : 16)
200 ml of shake flask culture fluid were diluted to 500 ml with ion free water and applied to Q-Sepharose (50 ml column equilibrated with 25 mM Tris (hydroxymethyl) amino-methane buffer, pH 8.0) . The pure pectate lyase variant was eluted using a NaCl gradient.
The pectate lyase variant gave a single band in SDS-PAGE of 36 kDa.
By using the methods described in Example 1 and 2, the Bacillus agaradhaerens pectate lyase variant (numbering relative to SEQ ID NO: 2) of Table IV below was prepared and subjected to DSC (Differential Scanning Calorimetry) at pH 8 using a temperature increase of 1°C per minute. The wild-type Bacillus agaradhaerens pectate lyase (SEQ ID NO: 18) has a DSC unfolding temperature of 60.1°C at pH 8.
Table IV
Figure imgf000065_0001
EXAMPLE 6
Construction, fermentation, purification and characterization of Bacillus subtilis pectate lyase variant
By using the methods described in Example 1 and 2, the Bacillus subtilis pectate lyase stack variant C199N (numbering relative to SEQ ID NO: 2) of Table V below was prepared and subjected to DSC (Differential Scanning Calorimetry) at pH 8 using a temperature increase of 1°C per minute. The wild-type Bacillus subtilis pectate lyase (Nasser et al . : Cloning of a pectate lyase from Bacillus subtilis (1993) FEBS 335:319-326, which is hereby incorporated by reference in its entirety) has a DSC unfolding temperature of 61.1°C at pH 8.
Figure imgf000066_0001
EXAMPLE 7 Determination of stack positions in Bacillus licheniformis pectate lyase
Stack positions in the pectate lyase prepared in example 1 and 2 were determined based on the following rules :
(i) the residue is part of a β-sheet - according to the output of the DSSP program and
(ii) the β-strand is part of a sheet composed of more than two β-strands OR (iii) the residue is without secondary structure but is linking two β-sheet regions horizontally
(iv) or the residue is part of a T2 turn composed by no more than two amino acid residues (v) or the residue has a Cα-atom in line with an already determined stack (i.e. visually it is clearly part of the stack)
Results
3. In: V24, 147, 173, 197, V124, F155, F183, 1205,
1228, V253
2. Out: T23, 46, S72, 196, W123, T154, T182, H204,
R227, H252
1. In: Q22, L45, V71, 195, 1122, 1153, 1181, G203,
1226, W251
17. Out: N70, N94, N121, Y152, T180, E202, R225, Y250
16. Out: S69, N93 , K120, E151 18. Out: V68, A92, S119, A150 15. Out: K66, W90, E116, K147
14. In: V65, 189, 1115, V146, M169, F198, S220 13. Out: D64, K88, G114, D145, L168, S197, N219, V241 12. In: 163, 187, 1113, F144, M167, P196, 1218, 1240
11. In: G163, L191, 1213, A236, S261 10. Out: E104, - , D162, N190, K212, N235, N260 9. Out: T54, K83, H103, Y130, H161, E189, N211, E234, V259 8. In: 153, L82, 1102, L129, V160, F188, F210, F233,
F258
7. Out: T52, E81, K101, E128, Y159, W187, Y209, L232, K257
6. In: L100, N127, N158, N186, N208, N231, N256 5. Out: N99, H126, W157, H185, N207, N230, N255
4. Out: T25, Y48, V7 , R98, D125, S156, H184, Y206, E229, S254 The underlined residues are conserved residues believed to be part of the active site - these would not be chosen for optimisation.
The majority of the residues are classified as stack residues based on rule a.
M167 and P196 are classified according to rule c. S261, E104, N260, and T54 are classified according to rule e.
Stacks #5 and #6 are classified according to rule d.
Some residues are β-strand residues may no t be regarded as stack-residues: 26, 49, 67, 75, 91, 164, 165, 192, 193, 199, and 221. The sequence below depicts the stacks - placed such that the stack residues are on top of each other; the stacks are numbered according to the list above.
ADFSLKGFAALNGGTTGGEGGQ
2 4 6 8 10 1315 17
1 3 5 7 9 11 1214 18 16
-TVT—VTTGDQ LIAA L KMKNANTP
LKIY- -VNG TIT TSNTSASK IDVK-DV SN VSIV- -GSGTKG-ELK GIG IKIW-RA NN IIIRNL KIHE—VASGDKDA IGIEGPS KN
IWVDHN ELY HSLNVDKDYYDGL-FDVKRDA EY
ITFSWN YVHDG-WKS MLM GSSDSDNYNR-T
ITFHHN WFENL-NSRV PSF RFG E
GHIYNN YFNKI-IDSG INS RMGA R
IRIENN LFENA-KDP 1 VSWYSSSPGY
WHVSNN KFVNS-RGSMP TT
STTTYNPPYSYSLDNVDNVKSIVKQNAGVGKINP
APPENDIX 1
The structural coordinates of the three-dimensional structure of the Bacillus licheniformis pectate lyase enzyme
The structural coordinates of the three-dimensional structure of the Bacillus licheniformis pectate lyase enzyme (EC 4.2.2.2) as determined by X-ray crystallography. The format of the coordinates is the conventional PDB format (Protein Data Bank):
ATOM 1 CB ALA A 1 4.950 -3 .535 41 .947 1 .00 29 .97 A
ATOM 2 C ALA A 1 7.141 -3 .311 40 .732 1 .00 28 .81 A
ATOM 3 O ALA A 1 8.284 -3 .564 41 .107 1 .00 25 .91 A
ATOM 4 N ALA A 1 6.466 -5 .476 41 .726 1 .00 25 .62 A
ATOM 5 CA ALA A 1 5.973 -4 .245 41 .053 1 .00 29 .08 A
ATOM 6 N ASP A 2 6.839 -2 .228 40 .029 1 .00 27 .94 A
ATOM 7 CA ASP A 2 7.851 -1 .247 39 .651 1 .00 27 .25 A
ATOM 8 CB ASP A 2 7.260 - .284 38, .628 1, .00 28 .70 A
ATOM 9 CG ASP A 2 8.290 .658 38 .052 1, .00 34 .49 " A
ATOM 10 OD1 ASP A 2 9.438 .686 38 .546 1 .00 33 .41 A
ATOM 11 OD2 ASP A 2 7.936 1 .375 37 .096 1, .00 32 .96 A
ATOM 12 C ASP A 2 8.333 - .463 40 .869 1, .00 23 .10 A
ATOM 13 O ASP A 2 7.601 .359 41 .409 1, .00 27 .55 A
ATOM 14 N PHE A 3 9.560 - .718 41 .296 1. .00 20 .68 A
ATOM 15 CA PHE A 3 10.112 - .025 42 .447 1 .00 23 .98 A
ATOM 16 CB PHE A 3 10.730 -1 .037 43, .413 1, .00 27, .89 A
ATOM 17 CG PHE A 3 9.753 -2 .053 43, .937 1, .00 27, .46 A
ATOM 18 CD1 PHE A 3 8.453 -1 .686 44 .272 1, .00 26 .88 A
ATOM 19 CD2 PHE A 3 10.145 -3. .373 44 .130 1, .00 36 .04 A
ATOM 20 CE1 PHE A 3 7.557 -2 .612 44 .793 1, .00 29 .43 A
ATOM 21 CE2 PHE A 3 9.252 -4 .319 44, .656 1, .00 37 .79 A
ATOM 22 CZ PHE A 3 7.959 -3 .934 44 .987 1, .00 34 .66 A
ATOM 23 C PHE A 3 11.145 1 .058 42 .107 1, .00 26 .95 A
ATOM 24 O PHE A 3 11.914 1, .483 42, .974 1. .00 26, .06 A
ATOM 25 N SER A 4 11.170 1, .503 40, .855 1. .00 23. .64 A
ATOM 26 CA SER A 4 12.110 2, .541 40, .460 1. ,00 26. .91 A
ATOM 27 CB SER A 4 12.250 2 .582 38, .935 1, .00 27, .90 A
ATOM 28 OG SER A 4 11.015 2 .874 38, .318 1. .00 28, .45 A
ATOM 29 C SER A 4 11.648 3 .900 40, .979 1. .00 25, .84 A
ATOM 30 O SER A 4 10.485 4, .078 41, .335 1. .00 24, .99 A
ATOM 31 N LEU A 5 12.573 4 .851 41 .026 1, .00 23 .85 A
ATOM 32 CA LEU A 5 12.287 6. .196 41, .504 1. ,00 23. .44 A
ATOM 33 CB LEU A 5 13.589 6. .998 41. .608 1. ,00 28. .44 A
ATOM 34 CG LEU A 5 13.476 8. .471 42. .016 1. ,00 27. .22 A
ATOM 35 CD1 LEU A 5 12.901 8. .577 43. .410 1. ,00 27. ,74 A
ATOM 36 CD2 LEU A 5 14.841 9. .115 41, .956 1. ,00 30. .88 A
ATOM 37 C LEU A 5 11.311 6. .945 40. .604 1. ,00 21. .27 A
ATOM 38 O LEU A 5 11.503 7. .015 39. .396 1. ,00 23. .47 A
ATOM 39 N LYS A 6 10.269 7. .502 41. .210 1. ,00 18. .82 A
ATOM 40 CA LYS A 6 9.262 8. .276 40. .495 1. ,00 19. ,23 A
ATOM 41 CB LYS A 6 7.908 7. ,555 40. ,503 1. ,00 21. ,65 A
ATOM 42 CG LYS A 6 7.917 6. ,117 40. ,026 1. ,00 25. ,78 A
ATOM 43 CD LYS A 6 8.222 6. ,015 38. ,549 1. 00 32. ,24 A
ATOM 44 CE LYS A 6 8.053 4. ,583 38. ,078 1. 00 37. ,55 A
ATOM 45 NZ LYS A 6 8.373 4. .429 36. .622 1. ,00 44. .03 A
ATOM 46 C LYS A 6 9.085 9. .598 41. .243 1. ,00 22. .99 A
ATOM 47 O LYS A 6 9.458 9. .707 42. .412 1. ,00 21. ,67 A
ATOM 48 N GLY A 7 8.522 10. .592 40. .563 1. ,00 19. ,72 A
ATOM 49 CA GLY A 7 8.243 11. .861 41. .201 1. ,00 22. ,73 A
ATOM 50 C GLY A 7 9.320 12. ,912 41. ,293 1. ,00 26. ,23 A
ATOM 51 O GLY A 7 10.365 12. ,825 40. ,648 1. 00 26. ,17 A
ATOM 52 N PHE A 8 9.042 13. ,902 42. ,133 1. 00 24. ,93 A
ATOM 53 CA PHE A 8 9.915 15. .047 42. .347 1. ,00 24. .97 A
ATOM 54 CB PHE A 8 9.328 15. .946 43. ,438 1. ,00 24. ,71 A
ATOM 55 CG PHE A 8 8.171 16. ,786 42. ,978 1. ,00 22. ,82 A
ATOM 56 CD1 PHE A 8 6.896 16. ,589 43. 500 1. 00 20. 85 A
ATOM 57 CD2 PHE A 8 8.364 17. 803 42. 040 1. 00 24. 14 A ATOM 58 CE1 PHE A 8 5.827 17.392 43.099 1.00 26.19 A
ATOM 59 CE2 PHE A 8 7 .302 18 .610 41 .634 1 .00 23 .90 A
ATOM 60 CZ PHE A 8 6 .028 18 .402 42 .168 1 .00 24 .17 A
ATOM 61 C PHE A 8 11 .381 14 .765 42 .658 1 .00 25 .06 A ATOM 62 O PHE A 8 12 .240 15 .571 42 .301 1 .00 28 .48 A
ATOM 63 N ALA A 9 11 .683 13 .647 43 .316 1 .00 21 .01 A
ATOM 64 CA ALA A 9 13 .079 13 .341 43 .639 1 .00 23 .79 A
ATOM 65 CB ALA A 9 13 .152 12 .296 44 .739 1 .00 21 .26 A
ATOM 66 C ALA A 9 13 .861 12 .869 42 .403 1 .00 26 .51 A ATOM 67 O ALA A 9 15 .089 12 .751 42 .434 1 .00 27 .92 A
ATOM 68 N ALA A 10 13 .144 12 .598 41 .318 1 .00 24 .45 A
ATOM 69 CA ALA A 10 13 .769 12 .169 40 .080 1 .00 27 .35 A
ATOM 70 CB ALA A 10 12 .810 11 .304 39 .283 1 .00 27 .35 A
ATOM 71 C ALA A 10 14 .188 13 .373 39 .246 1 .00 30 .00 A ATOM 72 O ALA A 10 14 .885 13 .221 38 .242 1 .00 31 .02 A
ATOM 73 N LEU A 11 13 .760 14 .563 39 .659 1 .00 27 .87 A
ATOM 74 CA LEU A 11 14 .084 15 .789 38 .941 1 .00 31 .90 A
ATOM 75 CB LEU A 11 12, .915 16 .772 39 .015 1. .00 26 .46 A
ATOM 76 CG LEU A 11 11 .592 16 .322 38 .411 1 .00 29 .00 A ATOM 77 CD1 LEU A 11 10 .559 17 .429 38 .574 1 .00 31 .30 A
ATOM 78 CD2 LEU A 11 11, .793 15 .980 36 .944 1, .00 33 .67 A
ATOM 79 C LEU A 11 15, ,321 16 .465 39, .510 1, .00 37 .10 A
ATOM 80 O LEU A 11 15 .914 16 .001 40 .493 1 .00 37 .78 A
ATOM 81 N ASN A 12 15, .704 17 .565 38 .869 1. .00 39 .12 A ATOM 82 CA ASN A 12 16. .846 18. .353 39. .302 1. .00 40, .01 A
ATOM 83 CB ASN A 12 16, .512 19, .054 40, .622 1, .00 42, .90 A
ATOM 84 CG ASN A 12 17. .503 20, .143 40, .964 1. .00 47, .96 A
ATOM 85 OD1 ASN A 12 18, .297 20, .014 41, .906 1, .00 47 .98 A
ATOM 86 ND2 ASN A 12 17. .470 21, .227 40, .191 1, .00 45 .22 A ATOM 87 C ASN A 12 18. .086 17, ,494 39, .478 1, .00 39, .53 A
ATOM 88 O ASN A 12 18, .859 17 .679 40, .419 1, .00 42 .10 A
ATOM 89 N GLY A 13 18. .266 16, .542 38, .579 1. .00 38 .17 A
ATOM 90 CA GLY A 13 19. .430 15, .682 38, .658 1. .00 36, .46 A
ATOM 91 C GLY A 13 19, .170 14 .279 39, .173 1, .00 38 .00 A ATOM 92 O GLY A 13 20. ,025 13, .408 39. .049 1. .00 38, .23 A
ATOM 93 N GLY A 14 18. ,001 14. .049 39. .761 1. ,00 38, .16 A
ATOM 94 CA GLY A 14 17. .685 12, .724 40. .266 1. ,00 31. .19 A
ATOM 95 C GLY A 14 18. ,250 12. .453 41. .642 1. .00 31, .71 A
ATOM 96 O GLY A 14 18. .946 13, .283 42, .222 1, .00 32, .16 A ATOM 97 N THR A 15 17. .945 11, .277 42. .178 1. .00 31, .26 A
ATOM 98 CA THR A 15 18. .423 10, .908 43. .500 1. .00 28, .08 A
ATOM 99 CB THR A 15 17, .276 10, .955 44, .530 1, .00 26 .89 A
ATOM 100 OG1 THR A 15 16, .766 12, .290 44. .609 1, .00 26, .05 A
ATOM 101 CG2 THR A 15 17. .762 10, .534 45. .899 1. .00 23, .93 A ATOM 102 C THR A 15 19. ,016 9. .510 43. ,465 1. ,00 30. ,83 A
ATOM 103 O THR A 15 18. ,324 8. .541 43. ,163 1. ,00 32, .55 A
ATOM 104 N THR A 16 20. ,304 9. .408 43. ,764 1. ,00 29. .74 A
ATOM 105 CA THR A 16 20. ,974 8. ,116 43. ,766 1. ,00 32. ,12 A
ATOM 106 CB THR A 16 22. ,107 8. .074 42. ,734 1. ,00 33, .40 A ATOM 107 OG1 THR A 16 23. ,101 9. .042 43. ,074 1. ,00 34, .75 A
ATOM 108 CG2 THR A 16 21. ,573 8. .383 41. ,350 1. ,00 34. .80 A
ATOM 109 C THR A 16 21. .554 7, .813 45. .143 1. .00 33, .25 A
ATOM 110 O THR A 16 22. ,132 6. .749 45. .365 1. .00 33, .52 A
ATOM 111 N GLY A 17 21. ,406 8. .760 46. ,063 1. ,00 32, .25 A ATOM 112 CA GLY A 17 21. ,902 8. ,556 47. ,413 1. ,00 32. .17 A
ATOM 113 C GLY A 17 23. 382 8. ,216 47. ,485 1. ,00 37. ,71 A
ATOM 114 O GLY A 17 24. ,209 8. .888 46. ,867 1. ,00 34, .80 A
ATOM 115 N GLY A 18 23. ,721 7. ,162 48. ,223 1. ,00 36. .58 A
ATOM 116 CA GLY A 18 25. ,120 6. ,792 48. ,362 1. ,00 38. .84 A ATOM 117 C GLY A 18 25. ,565 5, .650 47. .480 1. .00 41, .94 A
ATOM 118 O GLY A 18 26. ,571 4. .997 47. ,752 1, ,00 41, .09 A
ATOM 119 N GLU A 19 24. ,824 5. ,417 46. ,409 1. ,00 42, .19 A
ATOM 120 CA GLU A 19 25. ,141 4. ,336 45. ,499 1. ,00 46, .48 A
ATOM 121 CB GLU A 19 23. ,981 4. ,142 44. ,519 1. ,00 44. ,81 A ATOM 122 CG GLU A 19 23. ,918 2. .774 43. .877 1. ,00 51. ,26 A
ATOM 123 CD GLU A 19 23. .361 1. .704 44. ,802 1. ,00 51, .51 A
ATOM 124 OE1 GLU A 19 23. ,344 ,525 44. ,393 1. ,00 56, .08 A
ATOM 125 OE2 GLU A 19 22. ,935 2. ,036 45. ,928 1. ,00 48. .34 A
ATOM 126 C GLU A 19 26. .425 4. .673 44. .742 1. .00 48, .73 A ATOM 127 O GLU A 19 26.686 5.835 44.422 1.00 49.43 A
ATOM 128 N GLY A 20 27 .237 3 .656 44 .473 1 .00 51 .06 A
ATOM 129 CA GLY A 20 28 .467 3 .875 43 .729 1 .00 51 .44 A
ATOM 130 C GLY A 20 29 .649 4 .388 44 .531 1 .00 52 .89 A ATOM 131 O GLY A 20 30 .580 4 .977 43 .969 1 .00 53 .13 A
ATOM 132 N GLY A 21 29 .629 4 .163 45 .842 1 .00 53 .37 A
ATOM 133 CA GLY A 21 30 .725 4 .630 46 .675 1 .00 52 .96 A
ATOM 134 C GLY A 21 31 .136 3 .604 47 .710 1 .00 54 .35 A
ATOM 135 O GLY A 21 31 .163 2 .401 47 .437 1 .00 53 .00 A ATOM 136 N GLN A 22 31 .444 4 .075 48 .913 1 .00 54 .59 A
ATOM 137 CA GLN A 22 31 .855 3 .179 49 .976 1 .00 56 .12 A
ATOM 138 CB GLN A 22 32 .676 3 .944 51 .016 1. .00 60 .58 A
ATOM 139 CG GLN A 22 33 .929 4 .570 50 .445 1 .00 66 .25 A
ATOM 140 CD GLN A 22 34 .930 4 .923 51 .524 1, .00 71 .32 A ATOM 141 OE1 GLN A 22 34 .649 5 .743 52 .407 1 .00 73 .61 A
ATOM 142 NE2 GLN A 22 36 .107 4 .299 51 .466 1, .00 72 .09 A
ATOM 143 C GLN A 22 30 .657 2 .535 50 .640 1, .00 54 .61 A
ATOM 144 O GLN A 22 29 .536 3 .042 50 .559 1, .00 55 .56 A
ATOM 145 N THR A 23 30 .896 1 .413 51 .305 1 .00 51 .09 A ATOM 146 CA THR A 23 29 .826 .710 51 .985 1 .00 51 .15" A
ATOM 147 CB THR A 23 29 .452 - .573 51 .251 1, .00 49 .07 A
ATOM 148 OG1 THR A 23 28 .963 - .249 49 .943 1 .00 49 .98 A
ATOM 149 CG2 THR A 23 28 .380 -1 .327 52 .028 1 .00 51 .23 A
ATOM 150 C THR A 23 30 .242 .341 53 .393 1, .00 51 .40 A ATOM 151 O THR A 23 31. .332 .184 53, .601 1. .00 53, .27 A
ATOM 152 N VAL A 24 29 .372 .618 54 .358 1, .00 50 .47 A
ATOM 153 CA VAL A 24 29 .646 .294 55 .751 1, .00 49 .72 A
ATOM 154 CB VAL A 24 29 .990 1. .555 56, .562 1. .00 48, .78 A
ATOM 155 CGI VAL A 24 30 .517 1 .163 57 .934 1, .00 51 .52 A ATOM 156 CG2 VAL A 24 31 .020 2 .378 55 .819 1, .00 51 .60 A
ATOM 157 C VAL A 24 28, .414 - .347 56, .368 1. .00 50, .01 A
ATOM 158 O VAL A 24 27, .288 .058 55, .963 1. .00 50, .75 A
ATOM 159 N THR A 25 28 .631 -1 .233 57 .335 1, .00 47, .67 A
ATOM 160 CA THR A 25 27 .537 -1, .891 58, .032 1, .00 44, .98 A ATOM 161 CB THR A 25 27, .620 -3, .412 57, .882 1. .00 47, .73 A
ATOM 162 OG1 THR A 25 27, .585 -3, .762 56, .488 1. .00 45, .97 A
ATOM 163 CG2 THR A 25 26, .456 -4, .075 58. .602 1. ,00 46. .06 A
ATOM 164 C THR A 25 27, .668 -1. .526 59. .506 1. ,00 47. .92 A
ATOM 165 O THR A 25 28. .757 -1. .630 60. .083 1. ,00 47. .02 A ATOM 166 N VAL A 26 26, .562 -1. .098 60, .117 1. .00 46, .57 A
ATOM 167 CA VAL A 26 26. .581 .703 61. .518 1. ,00 44, .63 A
ATOM 168 CB VAL A 26 26, .300 .807 61, .674 1. ,00 46, .66 A
ATOM 169 CGI VAL A 26 27, .324 1, .607 60, .877 1. ,00 43, .61 A
ATOM 170 CG2 VAL A 26 24, .877 1. .123 61, .196 1. .00 45, .46 A ATOM 171 C VAL A 26 25. ,543 -1. ,470 62. ,307 1. 00 46. .12 A
ATOM 172 O VAL A 26 24. .608 -2. .024 61. .732 1. ,00 48. .77 A
ATOM 173 N THR A 27 25. .706 -1. .499 63. .630 1. ,00 45. .85 A
ATOM 174 CA THR A 27 24. ,768 -2. .206 64. .487 1. ,00 43. .88 A
ATOM 175 CB THR A 27 25. .387 -3. .514 65. .016 1. .00 47, .14 A ATOM 176 OG1 THR A 27 26. .538 -3. .207 65. .815 1. ,00 52. .74 A
ATOM 177 CG2 THR A 27 25. .819 -4. .403 63. .854 1. ,00 43. .71 A
ATOM 178 C THR A 27 24. .329 -1. .346 65. .665 1. ,00 43. .87 A
ATOM 179 O THR A 27 23, .481 -1. .751 66, .460 1. .00 44, .54 A
ATOM 180 N THR A 28 24. ,892 ,148 65. ,778 1. ,00 43. ,72 A ATOM 181 CA THR A 28 24. ,506 ,739 66. ,877 1. 00 45. ,42 A
ATOM 182 CB THR A 28 25. ,552 ,752 67. ,996 1. 00 44. ,72 A
ATOM 183 OG1 THR A 28 26. ,720 1. ,437 67. ,531 1. 00 45. ,92 A
ATOM 184 CG2 THR A 28 25. ,924 ,669 68. ,404 1. 00 46. ,14 A
ATOM 185 C THR A 28 24. ,365 2. 169 66. ,395 1. 00 44. ,36 A ATOM 186 O THR A 28 24. ,907 2. ,538 65. .355 1. ,00 44. ,85 A
ATOM 187 N GLY A 29 23. ,642 2. ,979 67. .158 1. ,00 46. .41 A
ATOM 188 CA GLY A 29 23. ,481 4. ,369 66. ,773 1. 00 45. .13 A
ATOM 189 C GLY A 29 24. ,824 5. ,071 66. ,729 1. 00 46. ,40 A
ATOM 190 O GLY A 29 25. 094 5. ,866 65. ,822 1. 00 50. ,01 A ATOM 191 N ASP A 30 25. 683 4. 772 67. ,701 1. 00 46. ,78 A
ATOM 192 CA ASP A 30 26. 997 5. 404 67. 760 1. 00 47. ,64 A
ATOM 193 CB ASP A 30 27. ,709 5. ,029 69. ,067 1. ,00 50. .07 A
ATOM 194 CG ASP A 30 27. 211 5. ,846 70. ,250 1. ,00 51. .81 A
ATOM 195 OD1 ASP A 30 27. 492 5. ,463 71. ,411 1. 00 53. ,53 A ATOM 196 OD2 ASP A 30 26,.547 6..881 70..012 1..00 52,.51 A
ATOM 197 C ASP A 30 27, .870 5. .073 66. .565 1. ,00 47, .34 A
ATOM 198 O ASP A 30 28, .645 5, .916 66, .108 1, .00 52, .03 A
ATOM 199 N GLN A 31 27, .769 3. .853 66. .052 1. .00 46, .12 A ATOM 200 CA GLN A 31 28, .573 3. .501 64. .885 1. .00 47, .60 A
ATOM 201 CB GLN A 31 28, .524 1. .996 64. .621 1. ,00 47, .01 A
ATOM 202 CG GLN A 31 28, .945 1, .162 65, .808 1. .00 50, .99 A
ATOM 203 CD GLN A 31 29, .018 .307 65, .483 1. .00 51, .55 A
ATOM 204 OE1 GLN A 31 28, .319 .795 64, .587 1. .00 52, .47 A ATOM 205 NΞ2 GLN A 31 29 .850 -1, .033 66, .220 1, .00 5 .27 A
ATOM 206 C GLN A 31 28 .025 4, .255 63, .676 1. .00 46, .55 A
ATOM 207 O GLN A 31 28, .787 4, .744 62, .832 1. .00 47, .12 A
ATOM 208 N LEU A 32 26, .699 4, .350 63, .598 1. ,00 45, .46 A
ATOM 209 CA LEU A 32 26 .048 5, .053 62, .496 1, .00 42, .05 A ATOM 210 CB LEU A 32 24, .521 4, .922 62, .635 1. .00 40, .02 A
ATOM 211 CG LEU A 32 23. .563 5. ,634 61. ,667 1. ,00 42. ,52 A
ATOM 212 CD1 LEU A 32 24. ,026 5. ,485 60. ,222 1. 00 38. ,27 A
ATOM 213 CD2 LEU A 32 22, .171 5. ,044 61. .844 1. ,00 37, .87 A
ATOM 214 C LEU A 32 26, .487 6. .524 62. .497 1. ,00 42. .82 A ATOM 215 O LEU A 32 26. .905 7. .063 61. .467 1. ,00 45. .16 A
ATOM 216 N 1LE A 33 26. .410 7. ,170 63. ,654 1. ,00 43. .95 A
ATOM 217 CA 1LE A 33 26. ,826 8. ,565 63. ,752 1. ,00 42. .81 A
ATOM 218 CB ILE A 33 26, .627 9. .081 65. .183 1. ,00 44, .86 A
ATOM 219 CG2 I E A 33 27, .337 10. .417 65. .375 1. ,00 46. .69 A ATOM 220 CGI ILE A 33 25. .131 9. .219 65. .464 1. ,00 43. .22 A
ATOM 221 CD1 ILE A 33 24. .810 9. ,624 66. ,895 1. ,00 49. .50 A
ATOM 222 C ILE A 33 28, .293 8, .703 63, .340 1. ,00 44, .54 A
ATOM 223 O ILE A 33 28, .669 9, .638 62. .625 1. .00 43, .81 A
ATOM 224 N ALA A 34 29, .118 7, .755 63. .776 1. ,00 45, .26 A ATOM 225 CA ALA A 34 30, .546 7, .762 63, .448 1, .00 45 .68 A
ATOM 226 CB ALA A 34 31, .241 6, .590 64, .140 1. .00 44, .39 A
ATOM 227 C ALA A 34 30, .779 7, .681 61. .941 1. .00 46, .92 A
ATOM 228 O ALA A 34 31, .615 8. .408 61. .383 1. .00 49, .62 A
ATOM 229 N ALA A 35 30 .042 6, .792 61, .278 1, .00 46, .19 A ATOM 230 CA ALA A 35 30 .173 6, .628 59, .833 1. .00 44, .81 A
ATOM 231 CB ALA A 35 29 .287 5, .477 59, .349 1. .00 41, .18 A
ATOM 232 C ALA A 35 29, .819 7, .920 59, .093 1. .00 44, .98 A
ATOM 233 O ALA A 35 30 .471 8 .275 58, .110 1, .00 46 .04 A
ATOM 234 N LEU A 36 28 .789 8, .626 59, .556 1, .00 45, .72 A ATOM 235 CA LEU A 36 28 .390 9, .870 58, .907 1. .00 43, .97 A
ATOM 236 CB LEU A 36 27, .030 10, .345 59, .443 1. .00 44, .00 A
ATOM 237 CG LEU A 36 25, .813 9, .504 59. .024 1. ,00 40. .34 A
ATOM 238 CD1 LEU A 36 24 .575 9, .975 59, .747 1. .00 38, .08 A
ATOM 239 CD2 LEU A 36 25, .613 9, .606 57, .520 1. .00 41, .95 A ATOM 240 C LEU A 36 29, .453 10, .955 59, .083 1. ,00 48, .11 A
ATOM 241 O LEU A 36 29, .692 11, ,750 58. .170 1. ,00 46. .52 A
ATOM 242 N LYS A 37 30 .113 10, .996 60, .238 1. .00 52, .73 A
ATOM 243 CA LYS A 37 31 .163 12, .004 60, .444 1. .00 57, .77 A
ATOM 244 CB LYS A 37 31, .556 12, .086 61, .919 1. .00 61, .02 A ATOM 245 CG LYS A 37 30 .494 12 .714 62, .802 1, ,00 63 .63 A
ATOM 246 CD LYS A 37 31 .036 12, .981 64, .194 1, .00 68, .53 A
ATOM 247 CE LYS A 37 29 .929 13, .503 65, .104 1. .00 72, .52 A
ATOM 248 NZ LYS A 37 29, .253 14, .681 64, .492 1. .00 75, .63 A
ATOM 249 C LYS A 37 32 .415 11 .694 59, .626 1, .00 59 .17 A ATOM 250 O LYS A 37 33 .058 12 .587 59, .060 1, .00 58 .21 A
ATOM 251 N ASN A 38 32 .761 10 .417 59, .564 1, .00 60 .90 A
ATOM 252 CA ASN A 38 33 .943 9, .994 58, .827 1. .00 62, .24 A
ATOM 253 CB ASN A 38 34 .367 8 .596 59, .288 1, .00 66 .96 A
ATOM 254 CG ASN A 38 34 .811 8 .576 60, .741 1, .00 71 .22 A ATOM 255 OD1 ASN A 38 35 .719 9 .318 61, .130 1, .00 71 .67 A
ATOM 256 ND2 ASN A 38 34 .175 7 .724 61, .555 1, .00 73 .20 A
ATOM 257 C ASN A 38 33 .739 9 .984 57, .323 1, .00 60, .21 A
ATOM 258 O ASN A 38 34 .612 9 .520 56 .587 1 .00 60 .45 A
ATOM 259 N LYS A 39 32 .613 10 .511 56, .849 1. .00 55, .40 A ATOM 260 CA LYS A 39 32 .371 10, .480 55, .416 1. .00 53, .53 A
ATOM 261 CB LYS A 39 30 .925 10, .857 55, .075 1. .00 51, .04 A
ATOM 262 CG LYS A 39 30 .671 10 .796 53 .574 1, .00 47 .45 A
ATOM 263 CD LYS A 39 29 .269 11 .240 53, .189 1, .00 46, .57 A
ATOM 264 CE LYS A 39 29 .066 11 .123 51, .687 1, .00 41, .37 A ATOM 265 NZ LYS A 39 29.949 12.033 50.918 1,.00 42.16 A
ATOM 266 C LYS A 39 33 .292 11 .361 54 .592 1, .00 54 .83 A
ATOM 267 O LYS A 39 33 .509 12 .525 54 .908 1, .00 53 .37 A
ATOM 268 N ASN A 40 33 .815 10 .793 53 .513 1, .00 58 .66 A ATOM 269 CA ASN A 40 34 .691 11 .507 52 .603 1, .00 62 .28 A
ATOM 270 CB ASN A 40 35 .517 10 .491 51 .800 1, .00 68 .87 A
ATOM 271 CG ASN A 40 36 .461 11 .147 50 .798 1, .00 76 .71 A
ATOM 272 OD1 ASN A 40 37 .108 12 .165 51 .094 1, .00 79 .61 A
ATOM 273 ND2 ASN A 40 36 .562 10 .550 49 .604 1, .00 80 .36 A ATOM 274 C ASN A 40 33 .737 12 .288 51 .702 1, .00 62 .09 A
ATOM 275 O ASN A 40 32 .914 11 .692 50 .981 1, .00 62 .39 A
ATOM 276 N ALA A 41 33 .837 13 .616 51 .754 1, .00 56 .18 A
ATOM 277 CA ALA A 41 32 .961 14 .486 50 .974 1 .00 56 .09 A
ATOM 278 CB ALA A 41 33 .351 15 .944 51 .185 1, .00 53 .10 A ATOM 279 C ALA A 41 32 .930 14 .185 49 .488 1, .00 54 .78 A
ATOM 280 O ALA A 41 31. .971 14, .535 48, .792 1. .00 55, .02 A
ATOM 281 N ASN A 42 33, .968 13, .523 49, .002 1. .00 56, .07 A
ATOM 282 CA ASN A 42 34 .077 13 .215 47 .578 1, .00 56 .37 A
ATOM 283 CB ASN A 42 35 .518 13 .412 47 .146 1, .00 61 .10 A ATOM 284 CG ASN A 42 35 .917 14 .852 47 .181 1, .00 67 .74 A
ATOM 285 OD1 ASN A 42 35 .707 15, .587 46 .206 1. .00 70 .38 A
ATOM 286 ND2 ASN A 42 36, .467 15, .293 48 .317 1. .00 69, .40 A
ATOM 287 C ASN A 42 33 .629 11 .826 47 .190 1, .00 53 .20 A
ATOM 288 O ASN A 42 33 .672 11 .463 46 .015 1. .00 53 .84 A ATOM 289 N THR A 43 33 .202 11, .051 48 .172 1. .00 49, .53 A
ATOM 290 CA THR A 43 32, .763 9, .700 47, .900 1. ,00 51, .31 A
ATOM 291 CB THR A 43 33 .774 8 .678 48 .474 1, .00 52 .31 A
ATOM 292 OG1 THR A 43 35 .024 8 .806 47 .783 1. .00 55 .41 A
ATOM 293 CG2 THR A 43 33 .266 7. .256 48 .303 1. .00 54 .61 A ATOM 294 C THR A 43 31 .381 9 .414 48, .470 1, .00 49, .73 A
ATOM 295 O THR A 43 31, .088 9, .749 49, .621 1. .00 49, .54 A
ATOM 296 N PRO A 44 30, .498 8, .827 47, .647 1. ,00 48, .23 A
ATOM 297 CD PRO A 44 30, .645 8, .661 46, .189 1. ,00 46, .76 A
ATOM 298 CA PRO A 44 29, .141 8, .483 48, .079 1. ,00 45, .77 A ATOM 299 CB PRO A 44 28. .527 7. .880 46. .819 1. ,00 45, .61 A
ATOM 300 CG PRO A 44 29, .205 8, .674 45, .719 1. ,00 46, .63 A
ATOM 301 C PRO A 44 29, .286 7, .449 49, .193 1. ,00 43, .06 A
ATOM 302 O PRO A 44 30, .208 6, .634 49, .164 1. ,00 41, .74 A
ATOM 303 N LEU A 45 28, .390 7, .479 50, .172 1. ,00 42, .54 A ATOM 304 CA LEU A 45 28, .456 6. .520 51. .264 1. ,00 37, .62 A
ATOM 305 CB LEU A 45 28, .812 7, .242 52, .567 1. ,00 34, .48 A
ATOM 306 CG LEU A 45 28, .844 6, .371 53, .829 1. ,00 37, .59 A
ATOM 307 CD1 LEU A 45 29, .987 5, .353 53. .736 1. ,00 38, .60 A
ATOM 308 CD2 LEU A 45 29. .009 7. .258 55. .051 1. ,00 37. .86 A ATOM 309 C LEU A 45 27 .140 5, .756 51, .425 1. .00 38, .36 A
ATOM 310 O LEU A 45 26, .063 6, .354 51, .469 1. .00 38, .38 A
ATOM 311 N LYS A 46 27, .232 4, .432 51, .494 1. .00 36, .30 A
ATOM 312 CA LYS A 46 26. .058 3. ,592 51. .672 1. 00 36. ,57 A
ATOM 313 CB LYS A 46 25. .934 2. ,583 50. ,531 1. 00 35. ,15 A ATOM 314 CG LYS A 46 24, .678 1. .732 50. .596 1. ,00 38. .66 A
ATOM 315 CD LYS A 46 24, .522 .925 49. ,324 1. ,00 43. .86 A
ATOM 316 CE LYS A 46 23. .250 ,104 49. ,329 1. 00 44. ,29 A
ATOM 317 NZ LYS A 46 23. .085 ,595 48. ,014 1. 00 48. ,16 A
ATOM 318 C LYS A 46 26. ,240 2. ,875 52. ,993 1. 00 36. ,60 A ATOM 319 O LYS A 46 27, .216 2. .154 53. ,194 1. ,00 40. .17 A
ATOM 320 N ILE A 47 25, .292 3. .079 53. ,894 1. ,00 38. .76 A
ATOM 321 CA ILE A 47 25. .350 2. .496 55. ,225 1. ,00 38. .45 A
ATOM 322 CB ILE A 47 25. .195 3. ,606 56. ,283 1. 00 36. .85 A
ATOM 323 CG2 ILE A 47 25. .331 3. ,026 57. .673 1. 00 40. .36 A ATOM 324 CGI ILE A 47 26. ,239 4. ,704 56. ,041 1. 00 39. .18 A
ATOM 325 CD1 ILE A 47 26, .038 5. .956 56. .896 1. ,00 37, .69 A
ATOM 326 C ILE A 47 24, .245 1. .460 55. .430 1. ,00 42, .76 A
ATOM 327 O ILE A 47 23. ,065 1. .760 55. .237 1. ,00 43, .75 A
ATOM 328 N TYR A 48 24. ,631 ,240 55. ,805 1. 00 42. ,07 A ATOM 329 CA TYR A 48 23. .660 .821 56. .070 1. ,00 41, .82 A
ATOM 330 CB TYR A 48 24. .160 -2. ,177 55. .576 1. ,00 42, .57 A
ATOM 331 CG TYR A 48 24. .069 -2. ,370 54. .087 1. ,00 42. .53 A
ATOM 332 CD1 TYR A 48 25. .107 -1. ,970 53. .247 1. ,00 43. .49 A
ATOM 333 CE1 TYR A 48 25. .022 -2. ,152 51. ,862 1. 00 45. .34 A ATOM 334 CD2 TYR A 48 22.938 -2.954 53.514 1.00 42.25 A
ATOM 335 CE2 TYR A 48 22 .842 -3 .139 52 .133 1 .00 42 .26 A
ATOM 336 CZ TYR A 48 23 .884 -2 .737 51 .318 1 .00 42 .33 A
ATOM 337 OH TYR A 48 23 .781 -2 .911 49 .963 1 .00 47 .07 A ATOM 338 C TYR A 48 23 .435 - .923 57 .563 1 .00 43 .39 A
ATOM 339 O TYR A 48 24 .393 - .999 58 .334 1 .00 45 .87 A
ATOM 340 N VAL A 49 22 .175 - .916 57 .978 1 .00 41 .74 A
ATOM 341 CA VAL A 49 21 .865 -1 .029 59 .389 1 .00 41 .59 A
ATOM 342 CB VAL A 49 20 .717 - .092 59 .789 1 .00 39 .00 A ATOM 343 CGI VAL A 49 20 .329 - .338 61 .248 1 .00 38 .57 A
ATOM 344 CG2 VAL A 49 21 .151 1 .356 59 .598 1 .00 38 .26 A
ATOM 345 C VAL A 49 21 .484 -2 .476 59 .648 1, .00 44 .39 A
ATOM 346 O VAL A 49 20 .400 -2 .942 59 .258 1 .00 41 .59 A
ATOM 347 N ASN A 50 22 .390 -3 .193 60 .304 1 .00 47 .06 A ATOM 348 CA ASN A 50 22 .172 -4 .600 60 .595 1 .00 48 .99 A
ATOM 349 CB ASN A 50 23 .318 -5 .421 60 .003 1 .00 50 .89 A
ATOM 350 CG ASN A 50 23 .021 -6 .899 59 .984 1 .00 56 .75 A
ATOM 351 OD1 ASN A 50 21 .896 -7 .313 59 .683 1 .00 59 .76 A
ATOM 352 ND2 ASN A 50 24 .033 -7 .716 60 .287 1 .00 60 .71 A ATOM 353 C ASN A 50 22 .046 -4 .863 62 .085 1, .00 49, .06 A
ATOM 354 O ASN A 50 22 .671 -5. .779 62 .620 1, .00 53 .82 A
ATOM 355 N GLY A 51 21 .231 -4 .054 62, .756 1, .00 48 .71 A
ATOM 356 CA GLY A 51 21 .032 -4 .228 64 .182 1 .00 48 .43 A
ATOM 357 C GLY A 51 19 .933 -3. .312 64 .668 1 .00 48 .36 A ATOM 358 O GLY A 51 19 .323 -2 .598 63 .871 1, .00 50 .46 A
ATOM 359 N THR A 52 19 .661 -3 .326 65 .966 1, .00 47 .31 A
ATOM 360 CA THR A 52 18 .626 -2 .463 66 .512 1. .00 45 .90 A
ATOM 361 CB THR A 52 17 .774 -3 .205 67, .560 1, .00 44 .26 A
ATOM 362 OG1 THR A 52 17 .130 -4, .326 66, .937 1, .00 44, .02 A ATOM 363 CG2 THR A 52 16 .712 -2, .275 68, .146 1. .00 44, .32 A
ATOM 364 C THR A 52 19, .259 -1, .229 67. .148 1. .00 47, .07 A
ATOM 365 O THR A 52 20 .015 -1 .328 68, .121 1, .00 47 .56 A
ATOM 366 N ILE A 53 18 .960 .069 66, .570 1, .00 45, .15 A
ATOM 367 CA ILE A 53 19 .467 1, .203 67, .062 1. .00 44, .66 A ATOM 368 CB ILE A 53 19, .454 2, .277 65. .964 1. .00 42, .52 A
ATOM 369 CG2 ILE A 53 20, .130 3, .537 66. .477 1. .00 40. .37 A
ATOM 370 CGI ILE A 53 20, .121 1, .743 64. .695 1. ,00 42. .74 A
ATOM 371 CD1 ILE A 53 21. .569 1, .359 64. .855 1. ,00 45. .74 A
ATOM 372 C ILE A 53 18, .530 1. .667 68. .161 1. ,00 45. .52 A ATOM 373 O ILE A 53 17. .313 1. .703 67. .965 1. ,00 47. .42 A
ATOM 374 N THR A 54 19, .089 2, .023 69. .312 1. ,00 45, .89 A
ATOM 375 CA THR A 54 18, .275 2, .481 70. .433 1. ,00 46, .53 A
ATOM 376 CB THR A 54 18, .006 1. .345 71. .432 1. ,00 46. .15 A
ATOM 377 OG1 THR A 54 19. ,252 ,888 71. 972 1. 00 49. ,93 A ATOM 378 CG2 THR A 54 17. ,315 ,180 70. ,738 1. ,00 44. .89 A
ATOM 379 C THR A 54 18. .964 3. ,608 71. ,173 1. ,00 45. .77 A
ATOM 380 O THR A 54 20. .078 4. ,017 70. ,820 1. 00 44. ,58 A
ATOM 381 N THR A 55 18. ,280 4. ,123 72. ,188 1. 00 48. ,39 A
ATOM 382 CA THR A 55 18. ,825 5. ,200 72. 997 1. 00 51. ,24 A ATOM 383 CB THR A 55 17. .747 5. ,795 73. ,924 1. ,00 52. .73 A
ATOM 384 OG1 THR A 55 17. .064 4. ,730 74. ,606 1. ,00 54. .03 A
ATOM 385 CG2 THR A 55 16. ,734 6. 607 73. 103 1. 00 50. ,34 A
ATOM 386 C THR A 55 19. ,964 4. 642 73. 837 1. 00 52. ,28 A
ATOM 387 O THR A 55 20. ,816 5. 395 74. 316 1. 00 53. ,84 A ATOM 388 N SER A 56 19. .975 3. ,319 74. ,003 1. 00 51. ,40 A
ATOM 389 CA SER A 56 21. .005 2. ,628 74. ,776 1. 00 52. ,14 A
ATOM 390 CB SER A 56 20. ,558 1. ,203 75. 112 1. 00 50. ,42 A
ATOM 391 OG SER A 56 19. ,521 1. ,218 76. 077 1. 00 55. ,68 A
ATOM 392 C SER A 56 22. .339 2. ,559 74. ,046 1. ,00 52. ,10 A ATOM 393 O SER A 56 23. ,394 2. 563 74. 685 1. 00 53. 73 A
ATOM 394 N ASN A 57 22. ,304 2. 466 72. 716 1. 00 49. ,19 A
ATOM 395 CA ASN A 57 23. ,547 2. 409 71. 952 1. 00 47. 75 A
ATOM 396 CB ASN A 57 23. 616 1. 132 71. 106 1. 00 43. 72 A
ATOM 397 CG ASN A 57 22. 472 1. 011 70. 114 1. 00 44. 67 A ATOM 398 OD1 ASN A 57 22, ,081 1. 987 69. 473 1. 00 46. .77 A
ATOM 399 ND2 ASN A 57 21. ,948 196 69. 965 1. 00 42. ,55 A
ATOM 400 C ASN A 57 23, ,764 3. 639 71. 064 1. 00 47. 69 A
ATOM 401 O ASN A 57 24. 482 3. 580 70. 063 1. 00 49. 13 A
ATOM 402 N THR A 58 23. 144 4. 754 71. 443 1. 00 47. 99 A ATOM 403 CA THR A 58 23.281 6.008 70.705 1.00 46.33 A
ATOM 404 CB THR A 58 21 .991 6 .358 69 .933 1 .00 46 .92 A
ATOM 405 OG1 THR A 58 21 .673 5 .291 69 .035 1, .00 46 .87 A
ATOM 406 CG2 THR A 58 22 .175 7. .645 69 .138 1, .00 45 .05 A ATOM 407 C THR A 58 23 .551 7 .117 71 .708 1 .00 45 .30 A
ATOM 408 O THR A 58 22 .745 7 .346 72 .612 1, .00 46 .40 A
ATOM 409 N SER A 59 24 .682 7 .801 71 .542 1, .00 46 .96 A
ATOM 410 CA SER A 59 25 .076 8 .888 72 .439 1. .00 50 .13 A
ATOM 411 CB SER A 59 26 .595 9 .079 72 .404 1, :oo 50 .34 A ATOM 412 OG SER A 59 27 .281 7. .930 72 .884 1, .00 54 .01 A
ATOM 413 C SER A 59 24 .409 10 .223 72 .119 1, .00 51 .76 A
ATOM 414 O SER A 59 24 .771 11 .250 72 .702 1. .00 54 .96 A
ATOM 415 N ALA A 60 23 .458 10 .223 71 .188 1, .00 50 .03
ATOM 416 CA ALA A 60 22 .752 11 .451 70 .824 1. .00 47 .22 A ATOM 417 CB ALA A 60 23 .090 11 .844 69 .396 1, .00 46 .88 A
ATOM 418 C ALA A 60 21 .252 11 .206 70 .971 1, .00 48 .26 A
ATOM 419 O ALA A 60 20 .814 10 .060 71 .083 1. .00 46 .96 A
ATOM 420 N SER A 61 20 .462 12 .276 70, .980 1. .00 47 .89 A
ATOM 421 CA SER A 61 19 .019 12 .129 71 .119 1, .00 49 .10 A ATOM 422 CB SER A 61 18 .413 13 .429 71 .658 1, .00 49 .82 A
ATOM 423 OG SER A 61 18 .597 14 .490 70 .734 1. .00 54 .81 A
ATOM 424 C SER A 61 18 .360 11 .752 69, .783 1. .00 48 .17 A
ATOM 425 O SER A 61 17 .168 11 .425 69 .735 1, .00 49 .38 A
ATOM 426 N LYS A 62 19 .143 11 .798 68 .705 1, .00 49 .22 A ATOM 427 CA LYS A 62 18, .655 11, .448 67, .369 1. .00 47 .57 A
ATOM 428 CB LYS A 62 17 .698 12 .532 66 .857 1, .00 44 .52 A
ATOM 429 CG LYS A 62 18 .294 13 .925 66, .825 1. .00 45 .13 A
ATOM 430 CD LYS A 62 17, .267 14, .947 66, .369 1. .00 45, .99 A
ATOM 431 CE LYS A 62 17, .690 16, .361 66. .735 1. .00 49, .54 A ATOM 432 NZ LYS A 62 19 .042 16, .702 66, .204 1. .00 51 .37 A
ATOM 433 C LYS A 62 19, .813 11, .270 66, .382 1. .00 46 .37 A
ATOM 434 O LYS A 62 20, .944 11, .666 66, .663 1. .00 46, .95 A
ATOM 435 N ILE A 63 19, .529 10, .663 65. .231 1. ,00 43, .01 A
ATOM 436 CA ILE A 63 20 .547 10, .467 64, .212 1. .00 43 .30 A ATOM 437 CB ILE A 63 20, .311 9, .176 63, .415 1. .00 41, .49 A
ATOM 438 CG2 ILE A 63 21, .427 8, .981 62. .415 1. ,00 43, .26 A
ATOM 439 CGI ILE A 63 20, .242 7. .980 64. .360 1. ,00 44, .87 A
ATOM 440 CD1 ILE A 63 21, .498 7, .760 65, .172 1. .00 49, .37 A
ATOM 441 C ILE A 63 20, .486 11, .641 63. .251 1. ,00 43, .47 A ATOM 442 O ILE A 63 19, .539 11, .763 62. .472 1. ,00 44, .55 A
ATOM 443 N ASP A 64 21 .497 12, .505 63. .309 1. .00 41, .40 A
ATOM 444 CA ASP A 64 21, .556 13, .682 62. .454 1. .00 39, .74 A
ATOM 445 CB ASP A 64 22, .295 14, .827 63. .152 1. ,00 44. .20 A
ATOM 446 CG ASP A 64 21, .477 15. .483 64. ,237 1. ,00 45. .89 A ATOM 447 OD1 ASP A 64 20, .431 16, .094 63. .921 1. .00 49, .96 A
ATOM 448 OD2 ASP A 64 21, .887 15, .397 65. .411 1. ,00 49, .43 A
ATOM 449 C ASP A 64 22, .250 13. .447 61. ,133 1. ,00 40. .83 A
ATOM 450 O ASP A 64 23. .431 13. ,107 61. ,100 1. ,00 41. .64 A
ATOM 451 N VAL A 65 21, .518 13, .637 60. .044 1. ,00 37, .89 A ATOM 452 CA VAL A 65 22, .088 13. .513 58. .716 1. ,00 37. .35 A
ATOM 453 CB VAL A 65 21. .153 12. .743 57. ,755 1. ,00 32. .89 A
ATOM 454 CGI VAL A 65 21. .801 12. ,617 56. .396 1. ,00 34. .14 A
ATOM 455 CG2 VAL A 65 20. .846 11. .363 58. ,310 1. ,00 32. .51 A
ATOM 456 C VAL A 65 22. .195 14. .976 58. ,274 1. ,00 40. .86 A ATOM 457 O VAL A 65 21, .253 15, .536 57. ,715 1. .00 40, .12 A
ATOM 458 N LYS A 66 23. ,326 15. .611 58. .572 1. .00 43, .11 A
ATOM 459 CA LYS A 66 23. .512 17. .004 58. ,195 1. ,00 44, .83 A
ATOM 460 CB LYS A 66 23. .264 17. .928 59. ,391 1. ,00 46. .81 A
ATOM 461 CG LYS A 66 24, .279 17, .808 60. ,517 1. .00 54, .55 A ATOM 462 CD LYS A 66 24, .200 19, .040 61. ,417 1. ,00 59, .11 A
ATOM 463 CE LYS A 66 25. .362 19. .109 62. ,400 1. ,00 65, .08 A
ATOM 464 NZ LYS A 66 25. .465 20. .481 63. ,022 1. ,00 68. .64 A
ATOM 465 C LYS A 66 24, .887 17. .299 57. ,613 1. ,00 45. .03 A
ATOM 466 O LYS A 66 25, .886 16, .658 57. .959 1. ,00 42, .46 A ATOM 467 N ASP A 67 24. .922 18. .289 56. .730 1. .00 41, .84 A
ATOM 468 CA ASP A 67 26. .153 18. .705 56. .073 1. ,00 45. .14 A
ATOM 469 CB ASP A 67 27. .120 19. .337 57. .081 1. ,00 44. .43 A
ATOM 470 CG ASP A 67 26, .547 20, .571 57. .738 1. ,00 43, .57 A
ATOM 471 OD1 ASP A 67 26, .134 21. .502 57. .010 1. ,00 46. .44 A ATOM 472 OD2 ASP A 67 26.506 20.611 58.985 .00 49.07 A
ATOM 473 C ASP A 67 26.833 17.543 55.364 .00 43.94 A
ATOM 474 O ASP A 67 28.055 17.394 55.430 .00 43.52 A
ATOM 475 N VAL A 68 26.029 16.717 54.698 .00 42.22 A ATOM 476 CA VAL A 68 26.540 15.581 53.940 .00 39.27 A
ATOM 477 CB VAL A 68 26.442 14.267 54.732 .00 40.27 A
ATOM 478 CGI VAL A 68 27.410 14.303 55.912 .00 41.48 A
ATOM 479 CG2 VAL A 68 25.019 14.052 55.213 .00 36.36 A
ATOM 480 C VAL A 68 25.734 15.456 52.656 .00 40.72 A ATOM 481 O VAL A 68 24.628 15.993 52.553 .00 38.86 A
ATOM 482 N SER A 69 26.297 14.757 51.679 .00 37.90 A
ATOM 483 CA SER A 69 25.639 14.572 50.397 .00 36.49 A
ATOM 484 CB SER A 69 26.115 15.621 49.388 .00 36.51 A
ATOM 485 OG SER A 69 25.610 16.906 49.699 .00 42.04 A ATOM 486 C SER A 69 25.935 13.200 49.836 .00 37.37 A
ATOM 487 O SER A 69 26.969 12.611 50.135 .00 38.57 A
ATOM 488 N ASN A 70 25.011 12.701 49.022 .00 33.82 A
ATOM 489 CA ASN A 70 25.176 11.410 48.384 .00 35.12 A
ATOM 490 CB ASN A 70 26.382 11.489 47.448 .00 33.76 A ATOM 491 CG . ASN A 70 26.435 12.818 46.703 1.00 38.78 A
ATOM 492 OD1 ASN A 70 25.481 13.199 46.019 1.00 37.16 A
ATOM 493 ND2 ASN A 70 27.545 13.540 46.846 .00 38.07 A
ATOM 494 C ASN A 70 25.352 10.330 49.431 .00 34.03 A
ATOM 495 O ASN A 70 26.414 9.722 49.538 .00 34.34 A ATOM 496 N VAL A 71 24.298 10.112 50.212 ,00 34.47 A
ATOM 497 CA VAL A 71 24.299 9.108 51.265 ,00 32.89 A
ATOM 498 CB VAL A 71 24.348 9.778 52.663 .00 32.35 A
ATOM 499 CGI VAL A 71 24.300 8.722 53.749 .00 34.06 A
ATOM 500 CG2 VAL A 71 25.623 10.612 52.806 .00 37.91 A ATOM 501 C VAL A 71 23.047 8.226 51.206 .00 33.60 A
ATOM 502 O VAL A 71 21.964 8.708 50.887 .00 32.30 A
ATOM 503 N SER A 72 23.217 6.934 51.493 1.00 30.03 A
ATOM 504 CA SER A 72 22.114 5.973 51.548 1.00 31.46 A
ATOM 505 CB SER A 72 22.223 4.910 50.444 1.00 32, ,79 A ATOM 506 OG SER A 72 21.869 5.430 49.174 1.00 32, .49 A
ATOM 507 C SER A 72 22.183 5.271 52.904 1.00 35, .34 A
ATOM 508 O SER A 72 23.235 4.765 53.292 1.00 38, .11 A
ATOM 509 N ILE A 73 21.072 5.269 53.633 1.00 34 .37 A
ATOM 510 CA ILE A 73 20.999 4.601 54.918 1.00 32 .19 A ATOM 511 CB ILE A 73 20.591 5.565 56.050 1.00 34, .48 A
ATOM 512 CG2 ILE A 73 20.431 4.788 57.354 1.00 31, .99 A
ATOM 513 CGI ILE A 73 21.654 6.651 56.211 1.00 32, .17 A
ATOM 514 CD1 ILE A 73 21.365 7.645 57.318 1.00 36, .97 A
ATOM 515 C ILE A 73 19.916 3.569 54.710 1.00 33, .15 A ATOM 516 O ILE A 73 18.736 3.908 54.648 1.00 32, .77 A
ATOM 517 N VAL A 74 20.324 2.311 54.585 1.00 34, .34 A
ATOM 518 CA VAL A 74 19.386 1.225 54.327 1.00 33, .77 A
ATOM 519 CB VAL A 74 19.586 .677 52.895 1.00 35. ,75 A
ATOM 520 CGI VAL A 74 19.415 1.791 51.886 1.00 32. .70 A ATOM 521 CG2 VAL A 74 20.976 .084 52.753 1.00 38. .37 A
ATOM 522 C VAL A 74 19.493 .056 55.293 1.00 35. .02 A
ATOM 523 O VAL A 74 20.582 -.307 55.726 1.00 37, .30 A
ATOM 524 N GLY A 75 18.355 -.544 55.615 1.00 33. .91 A
ATOM 525 CA GLY A 75 18.367 -1 ,682 56.509 1.00 35. .02 A ATOM 526 C GLY A 75 18.687 -2 ,940 55.727 1.00 38, .83 A
ATOM 527 O GLY A 75 18.385 -3 ,032 54.536 1.00 38, .11 A
ATOM 528 N SER A 76 19.314 -3 ,908 56.389 1.00 42. .80 A
ATOM 529 CA SER A 76 19.665 -5.170 55.751 1.00 42. .73 A
ATOM 530 CB SER A 76 21.051 618 56.212 1.00 44, .32 A ATOM 531 OG SER A 76 21.488 749 55.477 1.00 53, .38 A
ATOM 532 C SER A 76 18.613 206 56.142 1.00 41. .79 A
ATOM 533 O SER A 76 18.341 411 57.324 1.00 45, .37 A
ATOM 534 N GLY A 77 18.014 856 55.151 1.00 41, .32 A
ATOM 535 CA GLY A 77 16.994 -7.845 55.452 1.00 40. .12 A ATOM 536 C GLY A 77 15.861 -7.181 56.203 1.00 42, .47 A
ATOM 537 O GLY A 77 15.323 6.160 55.755 1.00 43, .53 A
ATOM 538 N THR A 78 15.495 7.747 57.348 1.00 41. .81 A
ATOM 539 CA THR A 78 14.429 7.183 58.159 1.00 40, .95 A
ATOM 540 CB THR A 78 13.266 8.174 58.355 1.00 42, .61 A ATOM 541 OG1 THR A 78 13.733 -9.326 59.066 1.00 44.55 A
ATOM 542 CG2 THR A 78 12.707 -8.617 57.016 1.00 43.39 A
ATOM 543 C THR A 78 14.977 -6.817 59.524 1.00 41.40 A
ATOM 544 O THR A 78 14.225 ,758 60.491 1.00 44.91 A ATOM 545 N LYS A 79 16.280 ,555 59.601 1.00 45.59 A
ATOM 546 CA LYS A 79 16.927 -6 .209 60.877 1.00 47.57 A
ATOM 547 CB LYS A 79 18.230 -7 .006 61.041 1.00 50.86 A
ATOM 548 CG LYS A 79 18.159 -8 .442 60.512 1.00 56.96 A
ATOM 549 CD LYS A 79 19.494 -9 .177 60.713 1 .00 64 .27 A ATOM 550 CE LYS A 79 19.575 10 .447 59.853 1 .00 70, .93 A
ATOM 551 NZ LYS A 79 18.438 11 .401 60.089 1 .00 75, .08 A
ATOM 552 C LYS A 79 17.241 -4 .718 61.003 1 .00 45, .94 A
ATOM 553 O LYS A 79 17.738 -4 .259 62.032 1 .00 46 .91 A
ATOM 554 N GLY A 80 16.970 -3 .953 59.957 1 .00 43 .23 A ATOM 555 CA GLY A 80 17.239 -2 .532 60.047 1 .00 40, .72 A
ATOM 556 C GLY A 80 16.178 -1 .875 60.908 1 .00 41, .12 A
ATOM 557 O GLY A 80 15.098 -1 .537 60.417 1 .00 41 .75 A
ATOM 558 N GLU A 81 16.467 -1 .688 62.192 1 .00 40 .03 A
ATOM 559 CA GLU A 81 15.481 -1 .082 63.083 1 .00 41, .30 A ATOM 560 CB GLU A 81 14.812 -2 .169 63.924 1 .00 40, .04 A
ATOM 561 CG GLU A 81 13.887 -1 .638 64.999 1 .00 42 .03 A
ATOM 562 CD GLU A 81 13.296 -2 .746 65.842 1 .00 42, .58 A
ATOM 563 OE1 GLU A 81 13.979 -3 .780 66.004 1 .00 48, .88 A
ATOM 564 OE2 GLU A 81 12.162 -2 .580 66.350 1 .00 44, .10 A ATOM 565 C GLU A 81 15.977 .026 64.008 1 .00 41, .69 A
ATOM 566 O GLU A 81 17.052 - .072 64.605 1 1 .,00 43, .83 A
ATOM 567 N LEU A 82 15.173 1 1 .083 64.109 1 1 .00 39, .76 A
ATOM 568 CA LEU A 82 15.460 2 2 .216 64.981 1 1..00 39 .11 A
ATOM 569 CB LEU A 82 15.527 3 3 .524 64.193 1 1..00 32 .46 A ATOM 570 CG LEU A 82 16.863 3 3 .838 63.524 1 1..00 36 .24 A
ATOM 571 CD1 LEU A 82 17.125 2 2 .837 62.424 1 1..00 37 .09 A
ATOM 572 CD2 LEU A 82 16.841 5 5 .,261 62.971 1 1..00 38, .34 A
ATOM 573 C LEU A 82 14.307 2 2 .263 65.962 1 1..00 40 .97 A
ATOM 574 O LEU A 82 13.183 2 2 .611 65.593 1 1..00 42, .80 A ATOM 575 N LYS A 83 14.591 1 1 ..898 67.213 1.00 44 .78 A
ATOM 576 CA LYS A 83 13.578 1 1 ..855 68.257 1.00 42 .33 A
ATOM 577 CB LYS A 83 13.618 .479 68.938 1.00 44, .61 A
ATOM 578 CG LYS A 83 12.623 .280 70.065 1.00 47, .05 A
ATOM 579 CD LYS A 83 12.670 - -11 ..168 70.553 1.00 54 .95 A ATOM 580 CE LYS A 83 11.769 --11 ..387 71.771 1.00 58, .19 A
ATOM 581 NZ LYS A 83 11.656 --22, .844 72.124 1.00 63, .24 A
ATOM 582 C LYS A 83 13.776 2 2, .967 69.280 1.00 43, .37 A
ATOM 583 0 LYS A 83 14.785 3 3 .006 69.993 1.00 43, .07 A
ATOM 584 N GLY A 84 12.805 3 3 .877 69.337 1 .00 41 .50 A ATOM 585 CA GLY A 84 12.864 4 4, .983 70.274 1 .00 38 .43 A
ATOM 586 C GLY A 84 13.787 6 6, .085 69.819 1, .00 40, .91 A
ATOM 587 O GLY A 84 13.920 7 7. .118 70.483 1 .00 42 .36 A
ATOM 588 N ILE A 85 14.422 5 5 .868 68.675 1 .00 38, .96 A
ATOM 589 CA ILE A 85 15.346 6 6,. .842 68.119 1, .00 40, .25 A ATOM 590 CB ILE A 85 16.768 6 6, .255 68.102 1, .00 39, .50 A
ATOM 591 CG2 ILE A 85 16.759 4 4. .901 67.421 1 .00 44 .37 A
ATOM 592 CGI ILE A 85 17.733 7 7, .241 67.457 1 .00 38, .98 A
ATOM 593 CD1 ILE A 85 18.015 8 .437 68.338 1 .00 47, .32 A
ATOM 594 C ILE A 85 14.912 7, .227 66.697 1 .00 41, .93 A ATOM 595 0 ILE A 85 14.503 6 .359 65.917 1 .00 40 .01 A
ATOM 596 N GLY A 86 14.998 8 .521 66.370 1 .00 39, .30 A
ATOM 597 CA GLY A 86 14.600 8, .991 65.051 00 38.51 A
ATOM 598 C GLY A 86 15.717 9. .562 64.189 00 40.84 A
ATOM 599 0 GLY A 86 16.869 9, .681 64.624 00 37.96 A ATOM 600 N ILE A 87 15.366 9, .920 62.955 00 37.67 A
ATOM 601 CA ILE A 87 16.318 10, .486 62.003 00 32.62 A
ATOM 602 CB ILE A 87 16.382 9. .633 60.714 00 33.06 A
ATOM 603 CG2 ILE A 87 17.235 10 .328 59.653 00 30.95 A
ATOM 604 CGI ILE A 87 16.940 8 .247 61.043 00 38.70 A ATOM 605 CD1 ILE A 87 16.958 7, .280 59.857 00 38.07 A
ATOM 606 C ILE A 87 15.914 11 .903 61.623 1.00 29.64 A
ATOM 607 0 ILE A 87 14.737 12 .189 61.414 1.00 33.55 A
ATOM 608 N LYS A 88 16.894 1 .792 61.541 00 30.92 A
ATOM 609 CA LYS A 88 16.631 14 .173 61.156 00 31.16 A ATOM 610 CB LYS A 88 16.841 15.118 62.336 1.00 35.55 A
ATOM 611 CG LYS A 88 16 .625 16 .584 61 .975 1 .00 37 .46 A
ATOM 612 CD LYS A 88 17 .062 17 .505 63 .097 1 .00 43 .37 A
ATOM 613 CE LYS A 88 16 .932 18 .973 62 .693 1 .00 49 .25 A ATOM 614 NZ LYS A 88 15 .523 19 .333 62 .304 1 .00 52 .39 A
ATOM 615 C LYS A 88 17 .592 14 .535 60 .035 1 .00 33 .33 A
ATOM 616 O LYS A 88 18 .809 14 .487 60 .217 1 .00 36 .09 A
ATOM 617 N ILE A 89 17, .039 14 .873 58 .873 1, .00 32 .19 A
ATOM 618 CA ILE A 89 17 .827 15 .245 57 .697 1 .00 33 .32 A ATOM 619 CB ILE A 89 17 .237 14 .608 56 .425 1 .00 31 .57 A
ATOM 620 CG2 ILE A 89 18 .017 15 .042 55 .200 1 .00 37 .70 A
ATOM 621 CGI ILE A 89 17, .266 13 .091 56 .561 1 .00 36 .06 A
ATOM 622 CD1 ILE A 89 16 .572 12 .365 55 .432 1 .00 37 .21 A
ATOM 623 C ILE A 89 17 .782 16 .767 57 .586 1 .00 35 .59 A ATOM 624 O ILE A 89 16 .709 17 .362 57 .524 1 .00 35 .86 A
ATOM 625 N TRP A 90 18 .954 1 .387 57 .546 1 .00 36 .73 A
ATOM 626 CA TRP A 90 19 .047 18 .842 57 .508 1 .00 37 .11 A
ATOM 627 CB TRP A 90 18, .963 19 .327 58 .963 1, .00 42 .84 A
ATOM 628 CG TRP A 90 19 .147 20 .790 59 .199 1 .00 49 .35 A ATOM 629 CD2 TRP A 90 19 .864 21 .388 60 .284 1, .00 52 .87 A
ATOM 630 CE2 TRP A 90 19 .726 22 .789 60 .155 1 .00 54 .66 A
ATOM 631 CE3 TRP A 90 20, .609 20 .875 61 .357 1, .00 57 .65 A
ATOM 632 CD1 TRP A 90 18 .618 21 .820 58 .472 1, .00 50 .83 A
ATOM 633 NE1 TRP A 90 18 .963 23 .027 59 .041 1 .00 53 .40 A ATOM 634 CZ2 TRP A 90 20, .307 23 .687 61 .060 1, .00 57 .24 A
ATOM 635 CZ3 TRP A 90 21. .188 21, .769 62, .259 1. .00 58, .23 A
ATOM 636 CH2 TRP A 90 21, .033 23, .159 62, .102 1, .00 57 .53 A
ATOM 637 C TRP A 90 20, .345 19, .300 56, .818 1, .00 35, .72 A
ATOM 638 O TRP A 90 21. .417 18, .769 57, .094 1. .00 38, .20 A ATOM 639 N ARG A 91 20, .248 20 .280 55, .922 1, .00 36 .52 A
ATOM 640 CA ARG A 91 21, ,420 20, .763 55. .188 1, .00 41 .04 A
ATOM 641 CB ARG A 91 22, .397 21, .467 56, .146 1. .00 41, .60 A
ATOM 642 CG ARG A 91 21. .848 22, .759 56. .756 1. .00 42, .35 A
ATOM 643 CD ARG A 91 22, .437 23, .034 58, .139 1, .00 50 .28 A ATOM 644 NE ARG A 91 23. ,829 23. .487 58. .109 1. .00 50, .50 A
ATOM 645 CZ ARG A 91 24. ,214 24. .690 57. ,683 1. ,00 55, .10 A
ATOM 646 NH1 ARG A 91 25. ,501 25. .034 57. .692 1. ,00 55, .97 A
ATOM 647 NH2 ARG A 91 23, .311 25, .555 57. .243 1. .00 59, .56 A
ATOM 648 C ARG A 91 22. .110 19. .573 54. .510 1. .00 41, .57 A ATOM 649 O ARG A 91 23. .326 19. .406 54. .618 1. ,00 43. .00 A
ATOM 650 N ALA A 92 21. ,321 18. ,751 53. .815 1. ,00 41. .55 A
ATOM 651 CA ALA A 92 21. ,827 17. ,557 53, .130 1. .00 37. .52 A
ATOM 652 CB ALA A 92 21. .568 16. .318 53. .995 1. .00 32. .47 A
ATOM 653 C ALA A 92 21. ,152 17. .392 51. .775 1. .00 35. .66 A ATOM 654 0 ALA A 92 19. .996 17. .764 51. .615 1. ,00 38. .99 A
ATOM 655 N ASN A 93 21. ,866 16. .832 50. .802 1. ,00 35. .21 A
ATOM 656 CA ASN A 93 21. ,300 16. ,632 49. .467 1. ,00 35. ,47 A
ATOM 657 CB ASN A 93 21. ,890 17. ,633 48. ,470 1. 00 40. ,52 A
ATOM 658 CG ASN A 93 21. ,680 19. ,070 48. ,897 1. ,00 51. .09 A ATOM 659 OD1 ASN A 93 20. ,546 19. ,498 49. ,160 1. ,00 53. .38 A
ATOM 660 ND2 ASN A 93 22. ,772 19. ,830 48. ,977 1. 00 54. ,12 A
ATOM 661 C ASN A 93 21. 561 15. ,227 48. ,959 1. 00 35. ,48 A
ATOM 662 0 ASN A 93 22. ,562 14. .610 49. .317 1. ,00 32. ,99 A
ATOM 663 N ASN A 94 20. ,661 14. .742 48. .104 1. .00 34. .93 A ATOM 664 CA ASN A 94 20. 769 13. 415 47. 514 1. 00 31. ,08 A
ATOM 665 CB ASN A 94 21. 941 13. 380 46. 533 1. 00 32. 67 A
ATOM 666 CG ASN A 94 22. ,013 12. ,081 45. ,758 1. ,00 34. ,77 A
ATOM 667 OD1 ASN A 94 20. 990 11. ,453 45. ,485 1. ,00 33. ,72 A
ATOM 668 ND2 ASN A 94 23. ,224 11. .679 45. .382 1. ,00 36. .43 A ATOM 669 C ASN A 94 20. ,942 12. .370 48. .602 1. ,00 31. .96 A
ATOM 670 O ASN A 94 22. ,008 11. ,776 48. .755 1. ,00 32. .62 A
ATOM 671 N ILE A 95 19. ,866 12. .158 49. .355 1. ,00 32. .79 A
ATOM 672 CA ILE A 95 19. .836 11. .209 50, .456 1. .00 29, .64 A
ATOM 673 CB ILE A 95 19. ,558 11. 936 51. ,799 1. ,00 29. .86 A ATOM 674 CG2 ILE A 95 19. 649 10. 954 52. ,952 1. ,00 28. ,03 A
ATOM 675 CGI ILE A 95 20. 566 13. 073 52. ,009 1. ,00 31. ,41 A
ATOM 676 CD1 ILE A 95 22. ,007 12. ,614 52. ,084 1. ,00 26. .75 A
ATOM 677 C ILE A 95 18. ,744 10. ,153 50. ,249 1. ,00 33. .04 A
ATOM 678 O ILE A 95 17. ,635 10. ,470 49. ,806 1. ,00 28. .56 A ATOM 679 N ILE A 96 19.065 8.904 50.585 1.00 30.40 A
ATOM 680 CA ILE A 96 18 .121 7 .805 50 .446 1 .00 27 .12 A
ATOM 681 CB ILE A 96 18 .584 6 .799 49 .361 1. .00 25 .27 A
ATOM 682 CG2 ILE A 96 17 .722 5 .543 49 .411 1 .00 29 .82 A ATOM 683 CGI ILE A 96 18 .522 7 .450 47 .975 1 .00 22 .62 A
ATOM 684 CD1 ILE A 96 18 .861 6 .493 46 .827 1, .00 24 .48 A
ATOM 685 C ILE A 96 17 .959 7 .060 51 .764 1 .00 24 .17 A
ATOM 686 O ILE A 96 18 .938 6 .639 52 .371 1 .00 29 .32 A
ATOM 687 N ILE A 97 16 .717 6 .925 52 .209 1 .00 29 .14 A ATOM 688 CA ILE A 97 16 .387 6 .206 53 .439 1 .00 27 .30 A
ATOM 689 CB ILE A 97 15 .607 7 .102 54 .426 1 .00 25 .57 A
ATOM 690 CG2 ILE A 97 15 .408 6 .371 55 .739 1, .00 26 .30 A
ATOM 691 CGI ILE A 97 16 .358 8 .411 54 .663 1, .00 27 .73 A
ATOM 692 CD1 ILE A 97 17 .688 8 .250 55 .370 1 .00 33 .92 A ATOM 693 C ILE A 97 15 .478 5 .053 52 .988 1 .00 28 .25 A
ATOM 694 O ILE A 97 14 .331 5 .286 52 .609 1, .00 20 .04 A
ATOM 695 N ARG A 98 15 .989 3 .821 53 .008 1 .00 30 .58 A
ATOM 696 CA ARG A 98 15 .213 2 .659 52 .560 1 .00 31 .47 A
ATOM 697 CB ARG A 98 15 .666 2 .180 51 .181 1 .00 33 .93 A ATOM 698 CG ARG A 98 15, .367 3 .050 49. .998 1, .00 37, .69 A
ATOM 699 CD ARG A 98 15 .820 2 .323 48 .722 1, .00 33 .96 A
ATOM 700 NE ARG A 98 14 .717 1 .725 47 .969 1, .00 35 .28 A
ATOM 701 CZ ARG A 98 14 .876 .995 46, .866 1, .00 32, .42 A
ATOM 702 NH1 ARG A 98 13 .827 .494 46 .228 1 .00 28 .84 A ATOM 703 NH2 ARG A 98 16 .094 .751 46 .405 1, .00 35 .66 A
ATOM 704 C ARG A 98 15 .288 1 .427 53 .432 1, .00 34 .16 A
ATOM 705 O ARG A 98 16 .335 1 .104 53 .984 1 .00 36 .25 A
ATOM 706 N ASN A 99 14 .173 .716 53, .507 1, .00 30, .39 A
ATOM 707 CA ASN A 99 14 .096 - .538 54, .239 1, .00 32, .90 A ATOM 708 CB ASN A 99 14, .998 -1, .566 53, .544 1. .00 27, .39 A
ATOM 709 CG ASN A 99 14 .611 -2 .990 53, .870 1. .00 33, .45 A
ATOM 710 OD1 ASN A 99 13 .430 -3 .338 53, .858 1, .00 29. .67 A
ATOM 711 ND2 ASN A 99 15 .605 -3, .828 54, .158 1. .00 35, .17 A
ATOM 712 C ASN A 99 14 .418 - .477 55 .730 1, .00 33 .58 A ATOM 713 O ASN A 99 15 .160 -1 .308 56 .246 1, .00 35 .29 A
ATOM 714 N LEU A 100 13, .845 .498 56, .424 1. .00 35. .67 A
ATOM 715 CA LEU A 100 14 .065 .639 57, .858 1, .00 33, .56 A
ATOM 716 CB LEU A 100 14 .809 1, .936 58, .172 1, .00 33, .16 A
ATOM 717 CG LEU A 100 16 .268 2, .066 57, .743 1. .00 34, .93 A ATOM 718 CD1 LEU A 100 16, .730 3, .493 58, .003 1. ,00 34. .78 A
ATOM 719 CD2 LEU A 100 17 .126 1 .060 58, .501 1. .00 30, .92 A
ATOM 720 C LEU A 100 12, .758 .649 58, .621 1. .00 34, .42 A
ATOM 721 O LEU A 100 11, ,726 1, .068 58, .105 1. ,00 32, .49 A
ATOM 722 N LYS A 101 12, .807 .178 59. .858 1. ,00 34. .84 A ATOM 723 CA LYS A 101 11, .634 .179 60. .712 1. ,00 35. .09 A
ATOM 724 CB LYS A 101 11. .384 -1. .213 61. .302 1. .00 36. .72 A
ATOM 725 CG LYS A 101 10, .168 -1, .266 62, .214 1, .00 40, .09 A
ATOM 726 CD LYS A 101 9, .985 -2, .633 62, .880 1. .00 44, .09 A
ATOM 727 CE LYS A 101 9, .606 -3, .708 61, .869 1. .00 46. .68 A ATOM 728 NZ LYS A 101 9. .145 -4. .954 62. .559 1. ,00 48. .42 A
ATOM 729 C LYS A 101 11, .970 1, .172 61, .820 1, ,00 37, .33 A
ATOM 730 O LYS A 101 12. .835 .912 62. .651 1. ,00 39. .76 A
ATOM 731 N ILE A 102 11. .309 2. .324 61. ,811 1. ,00 34. .07 A
ATOM 732 CA ILE A 102 11, .558 3, .355 62. .810 1. ,00 30. .98 A ATOM 733 CB ILE A 102 11, .961 4. .664 62. .130 1. ,00 31. .41 A
ATOM 734 CG2 ILE A 102 12, .411 5. .683 63. .171 1. ,00 32. .47 A
ATOM 735 CGI ILE A 102 13. .079 4. .383 61. .125 1. ,00 32. .05 A
ATOM 736 CD1 ILE A 102 13. .475 5. .577 60, .271 1. ,00 29. .24 A
ATOM 737 C ILE A 102 10, .261 3, .543 63. .573 1. ,00 34. .14 A ATOM 738 O ILE A 102 9. ,219 3. .773 62. ,966 1. 00 32. ,61 A
ATOM 739 N HIS A 103 10. .317 3. .454 64. .903 1. ,00 33. ,67 A
ATOM 740 CA HIS A 103 9. .089 3. .564 65. .690 1. ,00 36. ,37 A
ATOM 741 CB HIS A 103 8. .385 2. .204 65. .687 1. ,00 37. ,60 A
ATOM 742 CG HIS A 103 9, .230 1, .090 66, .228 1. ,00 39. .32 A ATOM 743 CD2 HIS A 103 10, .313 .462 65. .711 1. .00 39. .93 A
ATOM 744 ND1 HIS A 103 9, .018 .525 67. .467 1. .00 40. .16 A
ATOM 745 CE1 HIS A 103 9, .932 .401 67. .691 1. .00 36. .52 A
ATOM 746 NΞ2 HIS A 103 10. .730 .460 66. .641 1. .00 39. .48 A
ATOM 747 C HIS A 103 9. .188 4. .049 67. .139 1. ,00 37, .45 A α) * a cs ln m ι^) n ri m H H m r^ o (D ^ H rn oo o ^l '# (Il o ω o ^ f^ o^ ^ ^D n o ^ (Jl OD o r- H ^ M (η ^H
Figure imgf000080_0001
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^^ (n ^ H H o oD ^ ( O N M O M H r^ o ^ m o ιη ιn ol M M (Λ o σl tD Ol ^ ιIl m ^ ^ m H o ol lfl ^o m ^ ln H ri M O ιn H H N ω o^ o M O [D (η o H f^ m m
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Figure imgf000080_0002
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Figure imgf000080_0003
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Figure imgf000080_0004
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vι ^ ^ ^ ^ ^ ^ ^ ^ ^ ιr) ifi -o -n iJi ω D VO U) VO r ι [ ι ι r co co ra co o^ c crι crι o^ c rH rH H H H H i Ni i cM j rn n rn n m r
O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O rH rH H i-H H H rH rH rH H <-H H H H rH rH H r-I H rH rH rH r-l rH rH H H iH H rH H H H H H H H H rH rH H H H H rH H H rH H H H rH rH rH r-l rH rH rH r-l rH H r-l v-l rH rH r-I H rH r-l rH T-H i-i H rH r-l rH rH i-H H H H H H ri rH i-H H H H rH H rH H H rt| ^ C | ι f ι^ ι f l | r^ ι ι (^ ι <| r rt| ; f^ r rt; r <(; (^ r <d l ι <; ; <| ^
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02 U U U U 0 O ϋ O 2 U U U U ϋ 0 ^ U ϋ U 0 S U U OU O g U ϋ O ^ U U U 0 O U 0 ^ U ϋ U U U ^ U O g O U U 0 O U 02 U U U 02 CJ O J CJ CJ co(llOriN(ι<f m comoHI n*ulω co(ΛOHN^ ^ιΛω lI)moHn( ^lfl^o^ l<noH«n^wιfl I^)iΛOHMn*ln^o^o)OlOHPlI,)^ιn ^^lnιΛln ln-^ul-llflιlωalD^o^fll£ωιoω^D ^^ ^ ^^ oococooococooocococomo^mmmol(nmcήmooooooooooHHHHHH ι ι ι r-ι ι [ ι ι ι ι ι r ι [ [ ι ι [ ι ι ι [ ι ι ι ι r ι t^[ [ ι ι [ ι ι ι ι [ r^ι [ ι ι [ ι ι r ι ι ι cococDco∞ o o O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O B B rH rH H rH H H H rH -H fH rH r B
Figure imgf000080_0005
Figure imgf000080_0006
Figure imgf000080_0007
o o
ATOM 817 O ILE A 113 10.274 12.793 59.965 1,.00 30,.03 A
ATOM 818 N GLY A 114 12 .449 13 .324 60 .226 1, .00 29, .47 A
ATOM 819 CA GLY A 114 12, .200 14 .744 60 .086 1. .00 26, .85 A
ATOM 820 C GLY A 114 13 .151 15 .356 59 .075 1. .00 29, .61 A ATOM 821 O GLY A 114 14 .352 15 .098 59 .106 1, .00 31, .07 A
ATOM 822 N ILE A 115 12, .615 16 .146 58 .156 1, .00 28, .59 A
ATOM 823 CA ILE A 115 13, .439 16, .809 57 .161 1. .00 28, .70 A
ATOM 824 CB ILE A 115 13 .021 16 .435 55 .728 1. .00 27, .59 A
ATOM 825 CG2 ILE A 115 13, .874 17, .196 54 .734 1, .00 27, .93 A ATOM 826 CGI ILE A 115 13, .176 14, .926 55 .510 1. .00 29, .30 A
ATOM 827 CD1 ILE A 115 12 .762 14 .473 54 .127 1, .00 33 .21 A
ATOM 828 C ILE A 115 13, .306 18 .323 57 .325 1, .00 31, .73 A
ATOM 829 O ILE A 115 12, .194 18, .859 57 .385 1, .00 29, .11 A
ATOM 830 N GLU A 116 14, .441 19, .009 57 .397 1, .00 31, .89 A ATOM 831 CA GLU A 116 14 .431 20 .460 57 .543 1, .00 34 .65 A
ATOM 832 CB GLU A 116 14, .993 20, .854 58 .905 1. .00 36, .37 A
ATOM 833 CG GLU A 116 14. .511 22, .212 59, .381 1. .00 46. .04 A
ATOM 834 CD GLU A 116 15. .187 22. .660 60, .663 1. ,00 46. .34 A
ATOM 835 OE1 GLU A 116 15, .326 21, .835 61 .595 1. ,00 43, .32 A ATOM 836 OE2 GLU A 116 15, .567 23, .846 60, .728 1. .00 48, ,80 A
ATOM 837 C GLU A 116 15. .271 21. .088 56, .444 1. .00 33, .52 A
ATOM 838 O GLU A 116 16, .373 20, .618 56 .156 1. .00 34, .32 A
ATOM 839 N GLY A 117 14, .748 22, .139 55 .821 1. .00 30, .79 A
ATOM 840 CA GLY A 117 15, .489 22, .803 54 .767 1. .00 33, .26 A ATOM 841 C GLY A 117 16, .684 23, .545 55, .342 1. .00 35, .78 A
ATOM 842 O GLY A 117 16, .709 23, .827 56 .535 1, .00 33, .16 A
ATOM 843 N PRO A 118 17, .696 23, .861 54 .520 1. .00 36, .52 A
ATOM 844 CD PRO A 118 18. .883 24. .662 54, .877 1. .00 38, .12 A
ATOM 845 CA PRO A 118 17 .704 23 .521 53 .097 1. .00 36, .75 A ATOM 846 CB PRO A 118 18, .691 24, .527 52 .516 1. .00 38, .38 A
ATOM 847 CG PRO A 118 19, .716 24, .617 53, .607 1. .00 39, .57 A
ATOM 848 C PRO A 118 18. .143 22. ,074 52. .877 1. ,00 36. ,69 A
ATOM 849 O PRO A 118 19. .175 21. .642 53, .394 1. .00 38, .13 A
ATOM 850 N SER A 119 17. .339 21. .333 52, .119 1. .00 33, .97 A ATOM 851 CA SER A 119 17. .604 19. .935 51, .798 1. .00 30, .75 A
ATOM 852 CB SER A 119 16, .964 19, .008 52, .833 1. .00 29, .12 A
ATOM 853 OG SER A 119 17. .579 19. .128 54, .104 1. .00 36, .48 A
ATOM 854 C SER A 119 16. .975 19. .678 50, .435 1. ,00 32. .09 A
ATOM 855 O SER A 119 15. .908 20. ,216 50, .129 1. ,00 31. .84 A ATOM 856 N LYS A 120 17. .624 18. .856 49, .618 1. .00 30, .36 A
ATOM 857 CA LYS A 120 17. .107 18. .570 48, .289 1. ,00 30, .72 A
ATOM 858 CB LYS A 120 17, .676 19, .578 47 .287 1. .00 38, .43 A
ATOM 859 CG LYS A 120 16, .994 20, .930 47, .343 1. .00 46, .43 A
ATOM 860 CD LYS A 120 17. .880 22. .088 46, .869 1. ,00 52, .37 A ATOM 861 CE LYS A 120 18. .370 21. .896 45, .448 1. ,00 56. .10 A
ATOM 862 NZ LYS A 120 19, .304 20. .736 45, .375 1. .00 60. .72 A
ATOM 863 C LYS A 120 17, .388 17, ,155 47, .821 1. .00 29, .34 A
ATOM 864 O LYS A 120 18. ,391 16. ,553 48. .194 1. ,00 28. .06 A
ATOM 865 N ASN A 121 16. .477 16. ,640 47. .000 1. ,00 29, .70 A ATOM 866 CA ASN A 121 16. .559 15. .292 46, .442 1. ,00 26. .85 A
ATOM 867 CB ASN A 121 17. .721 15. .186 45, .450 1. ,00 25. .98 A
ATOM 868 CG ASN A 121 17. .524 16. .069 44. .228 1. ,00 28. .59 A
ATOM 869 OD1 ASN A 121 17. .811 17. .258 44. .259 1. ,00 28. .35 A
ATOM 870 ND2 ASN A 121 17. ,012 15. .487 43. .150 1. ,00 35. .52 A ATOM 871 C ASN A 121 16. ,679 14. .220 47. .514 1. ,00 27. .61 A
ATOM 872 O ASN A 121 17. ,759 13. .674 47. .758 1. ,00 26. .25 A
ATOM 873 N ILE A 122 15. ,542 13, .924 48. .140 1. ,00 25. ,42 A
ATOM 874 CA ILE A 122 15. ,445 12. .928 49, .195 1. ,00 26. .10 A
ATOM 875 CB ILE A 122 14. ,966 13. .564 50, .527 1. ,00 29, .13 A ATOM 876 CG2 ILE A 122 15, .112 12. .566 51, .662 1. .00 25, .11 A
ATOM 877 CGI ILE A 122 15. .761 14, .838 50, .832 1. .00 29, .46 A
ATOM 878 CD1 ILE A 122 17. .237 14. .610 51, .039 1. .00 39, .15 A
ATOM 879 C ILE A 122 14. .409 11. .877 48, .778 1. ,00 27, .62 A
ATOM 880 O ILE A 122 13. .316 12. .220 48, .315 1. ,00 22. .25 A ATOM 881 N TRP A 123 14. .762 10. .605 48. .942 1. ,00 22. .91 A
ATOM 882 CA TRP A 123 13. .873 9. .498 48. .604 1. ,00 24. .05 A
ATOM 883 CB TRP A 123 14. .472 8, .678 47, .440 1. ,00 20. .25 A
ATOM 884 CG TRP A 123 13, .586 7, .580 46, .874 1. .00 24, .25 A
ATOM 885 CD2 TRP A 123 14, .001 6. .489 46, .040 1. .00 23, .28 A ATOM 886 CE2 TRP A 123 12.844 5.744 45.718 1.00 22.02 A
ATOM 887 CE3 TRP A 123 15 .237 6 .072 45 .530 1, .00 28 .91 A
ATOM 888 CD1 TRP A 123 12 .232 7 .453 47 .015 1. .00 25 .35 A
ATOM 889 NE1 TRP A 123 11 .779 6 .354 46 .324 1, .00 19 .58 A ATOM 890 CZ2 TRP A 123 12 .887 4 .599 44 .910 1. .00 27, .47 A
ATOM 891 CZ3 TRP A 123 15 .279 4 .932 44 .722 1, .00 32 .25 A
ATOM 892 CH2 TRP A 123 14 .108 4 .211 44 .423 1, .00 26 .71 A
ATOM 893 C TRP A 123 13 .698 8 .626 49 .856 1. .00 22 .34 A
ATOM 894 O TRP A 123 14 .647 7 .997 50 .330 1. .00 26, .32 A ATOM 895 N VAL A 124 12 .490 8 .628 50 .409 1. .00 23 .58 A
ATOM 896 CA VAL A 124 12 .172 7 .829 51 .591 1. .00 22 .20 A
ATOM 897 CB VAL A 124 11 .413 8 .667 52 .631 1. ,00 25, .15 A
ATOM 898 CGI VAL A 124 11, .131 7, .835 53 .873 1. ,00 20, .35 A
ATOM 899 CG2 VAL A 124 12 .247 9 .893 52 .992 1. .00 25 .49 A ATOM 900 C VAL A 124 11, .312 6 .691 51 .067 1. .00 23, .52 A
ATOM 901 O VAL A 124 10 .123 6 .859 50 .800 1, .00 26 .28 A
ATOM 902 N ASP A 125 11 .933 5 .526 50 .936 1, .00 24 .15 A
ATOM 903 CA ASP A 125 11, .282 4, .376 50 .337 1. .00 24, .36 A
ATOM 904 CB ASP A 125 11 .917 .177 48 .954 1, .00 25 .05 A ATOM 905 CG ASP A 125 11 .384 2 .974 48 .221 1, .00 23 .53. A
ATOM 906 OD1 ASP A 125 10, .286 3, .072 47 .643 1, .00 27, .53 A
ATOM 907 OD2 ASP A 125 12 .073 1 .935 48 .221 1, .00 25 .71 A
ATOM 908 C ASP A 125 11 .322 3 .068 51 .132 1, .00 25 .21 A
ATOM 909 O ASP A 125 12 .304 2 .761 51 .803 1, .00 23, .71 A ATOM 910 N HIS A 126 10, .236 2 .305 51 .029 1, .00 22, .17 A
ATOM 911 CA HIS A 126 10, .106 1, ,011 51, .691 1. .00 24, .13 A
ATOM 912 CB HIS A 126 10, .894 - .050 50 .911 1. .00 21, .17 A
ATOM 913 CG HIS A 126 10. ,170 .569 49, .706 1. ,00 22. .74 A
ATOM 914 CD2 HIS A 126 9. ,196 -1. ,505 49. .592 1. ,00 22. ,10 A ATOM 915 ND1 HIS A 126 10. ,374 .073 48, .436 1. ,00 20. .08 A
ATOM 916 CE1 HIS A 126 9. ,558 .680 47, .592 1. ,00 24. .39 A
ATOM 917 NE2 HIS A 126 8. ,832 -1. .553 48. .269 1. ,00 22. ,78 A
ATOM 918 C HIS A 126 10, .487 .957 53, .172 1. .00 26. .83 A
ATOM 919 O HIS A 126 11. .261 .093 53, .600 1, ,00 26. .93 A ATOM 920 N ASN A 127 9. .934 1. .873 53, .957 1, .00 23. .93 A
ATOM 921 CA ASN A 127 10, .202 1. .899 55, .385 1. .00 25. .77 A
ATOM 922 CB ASN A 127 10. .733 3. .265 55. .807 1. ,00 22. .20 A
ATOM 923 CG ASN A 127 11, .994 3, .642 55, .084 1. .00 28. ,34 A
ATOM 924 OD1 ASN A 127 13, .061 3. .105 55. .365 1. ,00 28. ,50 A ATOM 925 ND2 ASN A 127 11. .881 4. .566 54. .135 1. ,00 24. ,33 A
ATOM 926 C ASN A 127 8, .909 1. .639 56, .128 1. .00 26, .02 A
ATOM 927 O ASN A 127 7, .827 1, .743 55, .553 1. ,00 26. .05 A
ATOM 928 N GLU A 128 9, .022 1. .267 57. .399 1. ,00 25. .78 A
ATOM 929 CA GLU A 128 7. .842 1. .067 58. .222 1. ,00 27. .13 A ATOM 930 CB GLU A 128 7. .747 ,352 58. .793 1. ,00 25. ,77 A
ATOM 931 CG GLU A 128 6. .516 .488 59. .699 1. ,00 30. .55 A
ATOM 932 CD GLU A 128 6. .242 -1. .902 60. .177 1. ,00 32. .29 A
ATOM 933 OE1 GLU A 128 6. .956 -2. .835 59. .759 1. ,00 32. .33 A
ATOM 934 OE2 GLU A 128 5. .291 -2, .071 60. .973 1. .00 35. .24 A ATOM 935 C GLU A 128 7, .987 2. .077 59. .354 1. .00 30. .60 A
ATOM 936 O GLU A 128 8. .947 2. .028 60. .130 1. .00 29. .16 A
ATOM 937 N LEU A 129 7. .033 2. .999 59. .432 1. .00 30. .78 A
ATOM 938 CA LEU A 129 7. .061 4. .056 60. .436 1. ,00 29. ,38 A
ATOM 939 CB LEU A 129 7. ,177 5. ,416 59. ,743 1. ,00 24. ,33 A ATOM 940 CG LEU A 129 8. .251 5. ,507 58. ,659 1. ,00 27. .94 A
ATOM 941 GDI LEU A 129 8. .161 6. .855 57. .981 1. ,00 31. .83 A
ATOM 942 CD2 LEU A 129 9. .633 5. .290 59. .260 1. ,00 27. ,64 A
ATOM 943 C LEU A 129 5. .793 4. .026 61. .274 1. ,00 30. .47 A
ATOM 944 O LEU A 129 4. .684 4. .065 60. .736 1. ,00 26. .61 A ATOM 945 N TYR A 130 5. .961 3. .956 62. .592 1. ,00 29. ,51 A
ATOM 946 CA TYR A 130 4. .815 3. .921 63. .489 1. ,00 30. ,15 A
ATOM 947 CB TYR A 130 4, .186 2, .524 63. .505 1. ,00 28. .51 A
ATOM 948 CG TYR A 130 5. .049 1. .422 64. .096 1. ,00 30. .52 A
ATOM 949 CD1 TYR A 130 5. .996 .752 63. .325 1. ,00 34. ,75 A ATOM 950 CE1 TYR A 130 6, ,747 .313 63. .855 1. ,00 34. .56 A
ATOM 951 CD2 TYR A 130 4. .875 1. .017 65. .418 1. ,00 36. .59 A
ATOM 952 CE2 TYR A 130 5. .619 ,039 65. .963 1. ,00 37. .84 A
ATOM 953 CZ TYR A 130 6, .548 .701 65. .175 1. .00 41. .12 A
ATOM 954 OH TYR A 130 7, .260 -1. .760 65. .711 1. .00 41. .48 A ATOM 955 C TYR A 130 .139 .337 64.918 1.00 32.48 A
ATOM 956 O TYR A 130 .289 .301 65.351 1.00 31.10 A
ATOM 957 N HIS A 131 .099 .747 65.634 00 32.83 A
ATOM 958 CA HIS A 131 .206 ,162 67.027 00 36.53 A ATOM 959 CB HIS A 131 ,882 ,653 67.190 00 32.39 A
ATOM 960 CG HIS A 131 ,957 7.572 66.703 00 32.96 A
ATOM 961 CD2 HIS A 131 4.891 8.731 66.002 00 34.66 A
ATOM 962 ND1 HIS A 131 6.290 7.379 66.993 00 32.09 A
ATOM 963 CΞ1 HIS A 131 .998 8.379 66.495 00 34.22 A ATOM 964 NE2 HIS A 131 ,173 9.214 65.890 00 34.58 A
ATOM 965 C HIS A 131 ,155 4.337 67.758 00 37.28 A
ATOM 966 0 HIS A 131 .185 3.108 67.728 00 41.90 A
ATOM 967 N SER A 132 .203 013 68.382 00 37.57 A
ATOM 968 CA SER A 132 ,146 .322 69.096 00 37.92 A ATOM 969 CB SER A 132 ,672 ,810 70.443 00 41.21 A
ATOM 970 OG SER A 132 ,665 ,096 71.150 00 42.70 A
ATOM 971 C SER A 132 ,024 5.270 69.323 00 38.83 A
ATOM 972 O SER A 132 .160 6.487 69.441 00 40.44 A
ATOM 973 N LEU A 133 -1. .228 4. ,714 69.360 00 39.00 A ATOM 974 CA LEU A 133 -2. .415 5. .511 69.613 00 43.28 A
ATOM 975 CB LEU A 133 -3, .572 5. 061 68.712 00 41.96 A
ATOM 976 CG LEU A 133 -3. ,542 5. .576 67.267 00 45.18 A
ATOM 977 CD1 LEU A 133 -4. ,727 5. .027 66.495 00 42.89 A
ATOM 978 CD2 LEU A 133 -3.578 7. ,091 67.261 00 40.15 A ATOM 979 C LEU A 133 -2.817 5. ,367 71.081 00 45.27 A
ATOM 980 O LEU A 133 -3.667 6. ,105 71.577 00 46.89 A
ATOM 981 N ASN A 134 -2.183 4, .427 71.775 1.00 47.10 A
ATOM 982 CA ASN A 134 -2.501 4. .174 73.175 00 50.08 A
ATOM 983 CB ASN A 134 -2.425 2. ,673 73.456 00 53.21 A ATOM 984 CG ASN A 134 -3.352 1, ,875 72.569 00 56.90 A
ATOM 985 OD1 ASN A 134 -4.556 2. .148 72.502 00 60.24 A
ATOM 986 ND2 ASN A 134 -2.803 ,883 71.876 00 61.36 A
ATOM 987 C ASN A 134 -1.613 4. ,926 74.158 1.00 48.81 A
ATOM 988 O ASN A 134 -1.177 4. ,368 75.165 1.00 53.53 A ATOM 989 N VAL A 135 -1.346 6. ,191 73.861 1.00 47.53 A
ATOM 990 CA VAL A 135 -.531 7. ,029 74.724 00 47.42 A
ATOM 991 CB VAL A 135 .952 7. 027 74.308 00 45.60 A
ATOM 992 CGI VAL A 135 .548 5. ,659 74.530 00 46.15 A
ATOM 993 CG2 VAL A 135 .085 7. .441 72.850 00 46.57 A ATOM 994 C VAL A 135 .070 8.442 74.599 00 49.70 A
ATOM 995 O VAL A 135 8.733 73.710 00 47.19 A
ATOM 996 N ASP A 136 -.642 9.326 75.494 00 53.43 A
ATOM 997 CA ASP A 136 -1.117 10.693 75.406 00 56.97 A
ATOM 998 CB ASP A 136 -.408 11.574 76.430 00 61.69 A ATOM 999 CG ASP A 136 -.894 12.997 76.374 00 70.28 A
ATOM 1000 OD1 ASP A 136 -2.137 13.176 76.332 00 72.94 A
ATOM 1001 OD2 ASP A 136 -.049 13.930 76.362 00 73.76 A
ATOM 1002 C ASP A 136 -.820 11.171 73.977 00 55.73 A
ATOM 1003 O ASP A 136 .076 10.641 73.318 00 51.66 A ATOM 1004 N LYS A 137 -1. .575 12.157 73.499 00 55.69 A
ATOM 1005 CA LYS A 137 -1. .396 12.671 72.145 00 55.91 A
ATOM 1006 CB LYS A 137 -2, .538 13.616 71.796 00 59.20 A
ATOM 1007 CG LYS A 137 -3, .912 12.937 71.757 00 68.01 A
ATOM 1008 CD LYS A 137 -5. .030 13.932 71.403 1.00 73.15 A ATOM 1009 CE LYS A 137 -4. .751 14.670 70.077 00 76.69 A
ATOM 1010 NZ LYS A 137 -3, .569 15.600 70.148 00 76.30 A
ATOM 1011 C LYS A 137 -.077 13.382 71.886 00 55.00 A
ATOM 1012 O LYS A 137 .374 13.453 70.737 00 52.93 A
ATOM 1013 N ASP A 138 .546 13.898 72.944 00 52.53 A ATOM 1014 CA ASP A 138 1.814 14.616 72.806 00 53.39 A
ATOM 1015 CB ASP A 138 1.773 15.899' 73.641 1.00 58.02 A
ATOM 1016 CG ASP A 138 .508 16.696 73.413 00 63.59 A
ATOM 1017 OD1 ASP A 138 -.107 17.111 74.423 00 67.71 A
ATOM 1018 OD2 ASP A 138 .127 16.905 72.232 00 64.27 A ATOM 1019 C ASP A 138 3.047 13.805 73.206 00 49.06 A
ATOM 1020 O ASP A 138 4.163 14.319 73.178 00 49.03 A
ATOM 1021 N TYR A 139 2.852 12.550 73.585 00 46.10 A
ATOM 1022 CA TYR A 139 3.970 11.696 73.978 00 45.35 A
ATOM 1023 CB TYR A 139 3.455 10.348 74.478 00 45.49 A ATOM 1024 CG TYR A 139 4.523 9.530 75.154 1.00 47.10 A
ATOM 1025 CD1 TYR A 139 5 .052 9 .924 76 .384 1 .00 51 .00 A
ATOM 1026 CE1 TYR A 139 6 .078 9 .197 76 .996 1 .00 50 .44 A
ATOM 1027 CD2 TYR A 139 5 .039 8 .387 74 .550 1 .00 49 .04 A ATOM 1028 CE2 TYR A 139 6 .063 7 .654 75 .150 1 .00 50 .03 A
ATOM 1029 CZ TYR A 139 6 .577 8 .069 76 .372 1 .00 52 .01 A
ATOM 1030 OH TYR A 139 7 .606 7 .368 76 .961 1 .00 55 ;90 A
ATOM 1031 C TYR A 139 4 .932 11 .478 72 .810 1 .00 45 .22 A
ATOM 1032 O TYR A 139 6 .156 11 .558 72 .980 1 .00 46 .02 A ATOM 1033 N TYR A 140 4 .372 11 .186 71 .633 1 .00 44 .45 A
ATOM 1034 CA TYR A 140 5 .150 10 .978 70 .403 1 .00 39 .55 A
ATOM 1035 CB TYR A 140 4 .820 9 .629 69 .744 1 .00 39 .19 A
ATOM 1036 CG TYR A 140 5 .156 8 .393 70 .554 1 .00 40 .56 A
ATOM 1037 CD1 TYR A 140 4 .177 7 .446 70 .852 1, .00 39 .59 A ATOM 1038 CE1 TYR A 140 4 .486 6 .278 71 .565 1 .00 40 .07 A
ATOM 1039 CD2 TYR A 140 6 .460 8 .150 70 .991 1 .00 41 .32 A
ATOM 1040 CE2 TYR A 140 6 .780 6 .993 71 .702 1, .00 41 .22 A
ATOM 1041 CZ TYR A 140 5 .787 6 .060 71 .986 1, .00 42 .33 A
ATOM 1042 OH TYR A 140 6 .103 4 .907 72 .685 1, .00 47 .99 A ATOM 1043 C TYR A 140 4 .688 12, .081 69 .460 1, .00 38 .73 A
ATOM 1044 O TYR A 140 3 .590 12 .623 69 .629 1, .00 39 .43 A
ATOM 1045 N ASP A 141 5 .499 12 .414 68 .464 1, .00 38 .05 A
ATOM 1046 CA ASP A 141 5 .100 13 .455 67 .530 1, .00 36 .47 A
ATOM 1047 CB ASP A 141 6 .093 14, .615 67 .567 1, .00 36 .93 A ATOM 1048 CG ASP A 141 5, .530 15, .873 66 .951 1. .00 35, .68 A
ATOM 1049 OD1 ASP A 141 4 .330 16 .135 67 .170 1. .00 39 .66 A
ATOM 1050 OD2 ASP A 141 6 .279 16, .603 66 .258 1, .00 42 .79 A
ATOM 1051 C ASP A 141 4 .939 12, .928 66, .104 1. .00 35 .35 A
ATOM 1052 O ASP A 141 4, .256 11, .930 65, .879 1. .00 37, .04 A ATOM 1053 N GLY A 142 5, .579 13. .580 65, .144 1. .00 34, .72 A
ATOM 1054 CA GLY A 142 5, .425 13. .160 63, .761 1. .00 36, .57 A
ATOM 1055 C GLY A 142 6, .075 11. .864 63, .310 1. ,00 32, .81 A
ATOM 1056 O GLY A 142 6, .990 11. .344 63, .950 1. ,00 31, .53 A
ATOM 1057 N LEU A 143 5, .582 11. .334 62, .195 1. ,00 29. .42 A ATOM 1058 CA LEU A 143 6, .143 10. .120 61, ,629 1. ,00 29. .32 A
ATOM 1059 CB LEU A 143 5, .027 9, .187 61, .159 1. ,00 29, .42 A
ATOM 1060 CG LEU A 143 4, .321 8. .441 62, .294 1. ,00 30, .37 A
ATOM 1061 CD1 LEU A 143 3, .075 7. .761 61, .777 1. ,00 27, .05 A
ATOM 1062 CD2 LEU A 143 5. ,287 7. .432 62. .912 1. 00 31. .74 A ATOM 1063 C LEU A 143 7. ,038 10. ,538 60. .465 1. 00 29. ,38 A
ATOM 1064 O LEU A 143 8. ,105 9. ,960 60. .248 1. 00 33. ,45 A
ATOM 1065 N PHE A 144 6. .597 11. ,555 59, .728 1. ,00 28. .68 A
ATOM 1066 CA PHE A 144 7. ,351 12. ,087 58. .593 1. ,00 28. .57 A
ATOM 1067 CB PHE A 144 7. ,024 11. ,329 57. .298 1. 00 27. ,97 A ATOM 1068 CG PHE A 144 7. ,737 11. ,865 56. .080 1. 00 28. ,12 A
ATOM 1069 GDI PHE A 144 7. ,017 12. 404 55. ,015 1. 00 26. ,49 A
ATOM 1070 CD2 PHE A 144 9. .126 11. ,822 55. .990 1. ,00 26. .00 A
ATOM 1071 CE1 PHE A 144 7. ,672 12. ,888 53. .877 1. 00 27. .00 A
ATOM 1072 CE2 PHE A 144 9. ,787 12. ,306 54. .853 1. 00 29. ,95 A ATOM 1073 CZ PHE A 144 9. ,057 12. ,837 53. ,799 1. 00 22. ,95 A
ATOM 1074 C PHE A 144 6. ,974 13. ,544 58. ,429 1. 00 27. ,68 A
ATOM 1075 O PHE A 144 5. ,971 13. 860 57. ,795 1. 00 30. ,30 A
ATOM 1076 N ASP A 145 7. .773 14. ,424 59. ,019 1. 00 28. ,39 A
ATOM 1077 CA ASP A 145 7. ,523 15. ,850 58. .944 1. 00 27. ,85 A ATOM 1078 CB ASP A 145 7. ,474 16. ,465 60. .342 1. 00 31. ,05 A
ATOM 1079 CG ASP A 145 6. ,311 15. 954 61. ,163 1. 00 34. ,74 A
ATOM 1080 OD1 ASP A 145 5. ,348 15. 413 60. ,575 1. 00 33. 87 A
ATOM 1081 OD2 ASP A 145 6. ,346 16. ,106 62. ,403 1. 00 39. ,68 A
ATOM 1082 C ASP A 145 8. ,593 16. ,546 58. ,120 1. 00 30. ,73 A ATOM 1083 O ASP A 145 9. ,751 16. 126 58. ,090 1. 00 28. ,20 A
ATOM 1084 N VAL A 146 8. ,193 17. 622 57. ,459 1. 00 27. 94 A
ATOM 1085 CA VAL A 146 9. ,098 18. .380 56. .616 1. 00 28. ,85 A
ATOM 1086 CB VAL A 146 8. ,838 18. ,083 55. .120 1. 00 26. ,13 A
ATOM 1087 CGI VAL A 146 9. ,886 18. ,751 54. .269 1. 00 28. ,77 A ATOM 1088 CG2 VAL A 146 8. ,815 16. ,590 54. ,876 1. 00 21. ,83 A
ATOM 1089 C VAL A 146 8. ,819 19. ,849 56. ,871 1. 00 30. ,20 A
ATOM 1090 O VAL A 146 7. ,663 20. 272 56. ,866 1. 00 28. ,96 A
ATOM 1091 N LYS A 147 9. ,869 20. ,627 57. .112 1. 00 29. ,62 A
ATOM 1092 CA LYS A 147 9. ,692 22. ,056 57. ,342 1. 00 32. ,71 A ATOM 1093 CB LYS A 147 9.805 22.382 58.832 1.00 35.71 A
ATOM 1094 CG LYS A 147 11.109 21.933 59.462 1.00 43.55 A
ATOM 1095 CD LYS A 147 11.288 22.496 60.869 1.00 51.92 A
ATOM 1096 CE LYS A 147 10.175 22.065 61.807 1.00 53.62 A ATOM 1097 NZ LYS A 147 10.141 20.580 61.992 00 60.62 A
ATOM 1098 C LYS A 147 10.713 22.875 56.560 00 31.08 A
ATOM 1099 O LYS A 147 11.719 22.350 56.095 00 29.04 A
ATOM 1100 N ARG A 148 10.436 24.166 56.423 00 28.98 A
ATOM 1101 CA ARG A 148 11.323 25.074 55.712 00 33.84 A ATOM 1102 CB ARG A 148 12.708 25.125 56.376 00 38.29 A
ATOM 1103 CG 2LRG A 148 12.748 25.665 57.803 00 47.09 A
ATOM 1104 CD ARG A 148 14.088 26.396 58.040 00 53.95 A
ATOM 1105 NE ARG A 148 14.180 27.572 57.158 1.00 64.90 A
ATOM 1106 CZ ARG A 148 15.231 27.884 56.393 00 65.79 A ATOM 1107 NH1 ARG A 148 15.196 28.976 55.629 ,00 63.48 A
ATOM 1108 NH2 ARG A 148 16.317 27.117 56.392 00 66.14 A
ATOM 1109 C ARG A 148 11.489 24.725 54.236 00 33.94 A
ATOM 1110 O ARG A 148 10.599 24.135 53.624 00 28.88 A
ATOM llll N ASP A 149 12.640 25.096 53.675 00 33.28 A ATOM 1112 CA ASP A 149 12.936 24.883 52.262 00 34.04- A
ATOM 1113 CB ASP A 149 13.863 25.995 51.736 00 35.92 A
ATOM 1114 CG ASP A 149 15.043 26.274 52.660 1.00 36.37 A
ATOM 1115 OD1 ASP A 149 15.985 26.956 52.207 00 42.00 A
ATOM 1116 OD2 ASP A 149 15.038 25.837 53.831 00 36.30 A ATOM 1117 C ASP A 149 13.514 23.535 51.874 00 35.09 A
ATOM 1118 O ASP A 149 14.699 23.413 51.572 00 32.16 A
ATOM 1119 N ALA A 150 12.660 22.521 51.867 00 33.19 A
ATOM 1120 CA ALA A 150 13.076 21.186 51.483 00 30.91 A
ATOM 1121 CB ALA A 150 12.658 20.189 52.544 00 32.36 A ATOM 1122 C ALA A 150 12.341 20.931 50.176 00 32.37 A
ATOM 1123 O ALA A 150 11.154 21.224 50.075 00 33.85 A
ATOM 1124 N GLU A 151 13.030 20.408 49.168 00 29.34 A
ATOM 1125 CA GLU A 151 12.368 20.165 47.895 00 28.53 A
ATOM 1126 CB GLU A 151 12.465 21.423 47.016 1.00 33.48 A ATOM 1127 CG GLU A 151 13.850 22.037 46.934 00 39.59 A
ATOM 1128 CD GLU A 151 13.814 23.512 46.541 00 42.23 A
ATOM 1129 OE1 GLU A 151 13.173 23.867 45.528 00 41.31 A
ATOM 1130 OE2 GLU A 151 14.432 24.322 47.253 00 49.30 A
ATOM 1131 C GLU A 151 12.852 .940 47.133 00 28.36 A ATOM 1132 O GLU A 151 13.921 .400 47.419 00 24.68 A
ATOM 1133 N TYR A 152 12.050 18.513 46.159 00 23.56 A
ATOM 1134 CA TYR A 152 12.357 17.341 45.339 00 25.25 A
ATOM 1135 CB TYR A 152 13.675 17.552 44.584 00 26.27 A
ATOM 1136 CG TYR A 152 13.638 18.765 43.680 00 31.30 A ATOM 1137 CD1 TYR A 152 12.773 18.815 42.591 1.00 34.20 A
ATOM 1138 CE1 TYR A 152 12.694 19.943 41.779 1.00 37.80 A
ATOM 1139 CD2 TYR A 152 14.435 19.879 43.939 1.00 36.18 A
ATOM 1140 CE2 TYR A 152 14.368 21.020 43.135 1.00 33.13 A
ATOM 1141 CZ TYR A 152 13.493 21.045 42.057 1.00 41.06 A ATOM 1142 OH TYR A 152 13.390 22.165 41.254 1.00 43.95 A
ATOM 1143 C TYR A 152 12.438 16.113 46.237 00 23.72 A
ATOM 1144 O TYR A 152 13.484 15.494 46.387 00 23.91 A
ATOM 1145 N ILE A 153 11.301 15.776 46.831 00 22.55 A
ATOM 1146 CA ILE A 153 11.195 14.655 47.748 00 20.42 A ATOM 1147 CB ILE A 153 10.786 15.150 49.151 00 22.15 A
ATOM 1148 CG2 ILE A 153 10.616 13.968 50.095 1.00 22.58 A
ATOM 1149 CGI ILE A 153 11.824 16.143 49.672 1.00 25.33 A
ATOM 1150 GDI ILE A 153 11.405 16.834 50.953 1.00 31.14 A
ATOM 1151 C ILE A 153 10.148 13.646 47.301 1.00 22.78 A ATOM 1152 O ILE A 153 9.041 14.020 46.924 1.00 22.11 A
ATOM 1153 N THR A 154 10.503 12.369 47.341 1.00 23.28 A
ATOM 1154 CA THR A 154 9.561 11.318 46.988 1.00 22.67 A
ATOM 1155 CB THR A 154 10.007 10.525 45.742 1.00 22.57 A
ATOM 1156 OG1 THR A 154 9.988 11.383 44.590 1.00 18.77 A ATOM 1157 CG2 THR A 154 9.074 9.330 45.517 1.00 15.72 A
ATOM 1158 C THR A 154 9.447 10.372 48.179 1.00 24.91 A
ATOM 1159 O THR A 154 10.447 9.858 48.687 1.00 23.13 A
ATOM 1160 N PHE A 155 8.213 10.176 48.627 1.00 24.73 A
ATOM 1161 CA PHE A 155 7.883 9.311 49.759 1.00 22.77 A ATOM 1162 CB PHE A 155 7.011 10.094 50,.740 1,.00 19,.95 A
ATOM 1163 CG PHE A 155 6 .789 9 .409 52 .056 1 .00 21 .32 A
ATOM 1164 CD1 PHE A 155 7 .778 9 .408 53 .028 1 .00 19 .84 A
ATOM 1165 CD2 PHE A 155 5 .570 8 .800 52 .336 1, .00 22 .47 A ATOM 1166 CE1 PHE A 155 7 .554 8 .814 54, .270 1, .00 23, .98 A
ATOM 1167 CΞ2 PHE A 155 5 .336 8 .204 53, .570 1, .00 24 .73 A
ATOM 1168 CZ PHE A 155 6 .331 8 .212 54 .541 1 .00 27 .83 A
ATOM 1169 C PHE A 155 7 .084 8 .177 49 .126 1 .00 23 .32 A
ATOM 1170 O PHE A 155 5 .938 8 .379 48 .735 1 .00 21 .46 A ATOM 1171 N SER A 156 7 .679 6 .993 49, .027 1 .00 19 .49 A
ATOM 1172 CA SER A 156 7 .003 5 .880 48 .374 1 .00 18 .64 A
ATOM 1173 CB SER A 156 7 .479 5 .789 46 .919 1 .00 18 .87 A
ATOM 1174 OG SER A 156 8 .869 5 .491 46 .854 1 .00 22 .30 A
ATOM 1175 C SER A 156 7 .151 4 .501 49, .018 1, .00 22, .30 A ATOM 1176 O SER A 156 8 .145 4 .210 49, .663 1, .00 21, .34 A
ATOM 1177 N TRP A 157 6 .142 3 .661 48, .804 1, .00 18, .11 A
ATOM 1178 CA TRP A 157 6 .116 2, .292 49. .306 1. .00 22, .75 A
ATOM 1179 CB TRP A 157 7 .126 1, .439 48. .539 1. .00 18. .56 A
ATOM 1180 CG TRP A 157 6 .873 1 .390 47, .061 1, .00 22, .47 A ATOM 1181 CD2 TRP A 157 5 .899 .588 46, .382 1, .00 20, ,49 A
ATOM 1182 CE2 TRP A 157 6 .021 .861 45, .003 1, .00 22, .41 A
ATOM 1183 CE3 TRP A 157 4 .930 - .336 46, .806 1, .00 23, .66 A
ATOM 1184 CD1 TRP A 157 7 .525 2 .099 46 .093 1, .00 21 .42 A
ATOM 1185 NΞ1 TRP A 157 7 .021 1 .785 44, .855 1, .00 22, .12 A ATOM 1186 CZ2 TRP A 157 5 .212 .242 44, .039 1, .00 22, ,42 A
ATOM 1187 CZ3 TRP A 157 4 .122 - .952 45, .847 1, .00 22, .99 A
ATOM 1188 CH2 TRP A 157 4 .273 .657 44. .478 1. .00 21, .35 A
ATOM 1189 C TRP A 157 6 .353 2 .133 50, .807 1, .00 23 .21 A
ATOM 1190 O TRP A 157 6 .886 1 .121 51, .252 1, .00 24, .46 A ATOM 1191 N ASN A 158 5 .946 3 .135 51, .577 1, .00 23, .79 A
ATOM 1192 CA ASN A 158 6 .095 3 .102 53, .019 1, .00 23 .96 A
ATOM 1193 CB ASN A 158 6, .421 4, .502 53. .542 1. .00 26, .82 A
ATOM 1194 CG ASN A 158 7, .720 5, .045 52. .982 1. .00 25. .52 A
ATOM 1195 OD1 ASN A 158 8, .797 4, .536 53. .290 1. .00 27. .31 A ATOM 1196 ND2 ASN A 158 7, .622 6. .079 52. ,148 1. ,00 22. ,07 A
ATOM 1197 C ASN A 158 4 .827 2, .594 53. .711 1. .00 24. ,17 A
ATOM 1198 O ASN A 158 3, .715 2, .736 53. .200 1. .00 20, .69 A
ATOM 1199 N TYR A 159 5, .015 1, .988 54. .879 1. .00 23. .03 A
ATOM 1200 CA TYR A 159 3, .908 1, ,492 55. .687 1. ,00 26. .62 A ATOM 1201 CB TYR A 159 4 .138 .016 56, .057 1. .00 29, .69 A
ATOM 1202 CG TYR A 159 3 .065 .598 56. .939 1. .00 31, .18 A
ATOM 1203 CD1 TYR A 159 1, .745 .142 56. .898 1. .00 29, .94 A
ATOM 1204 CE1 TYR A 159 .753 .721 57. .694 1. .00 32. .17 A
ATOM 1205 CD2 TYR A 159 3, .367 -1, .654 57. ,800 1. ,00 32. .52 A ATOM 1206 CΞ2 TYR A 159 2 .389 -2 .242 58. .595 1. ,00 30, .15 A
ATOM 1207 CZ TYR A 159 1 .083 -1 .773 58. .542 1. .00 35, .62 A
ATOM 1208 OH TYR A 159 .115 -2, .346 59. .342 1. .00 31, .72 A
ATOM 1209 C TYR A 159 3, .890 2, .384 56. .931 1. .00 24, .38 A
ATOM 1210 0 TYR A 159 4, .683 2, .203 57. ,855 1. .00 28. .88 A ATOM 1211 N VAL A 160 2, .995 3, .366 56. ,925 1. ,00 27. .33 A
ATOM 1212 CA VAL A 160 2, .871 4, .329 58. ,018 1. ,00 24. ,98 A
ATOM 1213 CB VAL A 160 2, .834 5, .767 57. ,453 1. ,00 26. ,64 A
ATOM 1214 CGI VAL A 160 2, .954 6. .786 58. ,575 1. ,00 20. ,10 A
ATOM 1215 CG2 VAL A 160 3, .957 5, .938 56. ,437 1. ,00 22. .68 A ATOM 1216 C VAL A 160 1, .598 4, .052 58. ,807 1. ,00 25. .79 A
ATOM 1217 O VAL A 160 .498 4, .082 58. ,255 1. ,00 24. .23 A
ATOM 1218 N HIS A 161 1 .738 3, .798 60. ,107 1. ,00 26. .86 A
ATOM 1219 CA HIS A 161 .564 3. .468 60. .906 1. .00 26, .55 A
ATOM 1220 CB HIS A 161 .237 1, .987 60. .694 1. .00 28, .15 A ATOM 1221 CG HIS A 161 1, .332 1, .064 61. .133 1. .00 25. ,47 A
ATOM 1222 CD2 HIS A 161 2, .419 .592 60. .476 1. .00 31. .16 A
ATOM 1223 ND1 HIS A 161 1 .416 .565 62. .415 1. .00 29, .56 A
ATOM 1224 CΞ1 HIS A 161 2 .505 .175 62, .529 1, .00 26, .92 A
ATOM 1225 NΞ2 HIS A 161 3, .133 .175 61. ,367 1. .00 33. .10 A ATOM 1226 C HIS A 161 .685 3, .743 62. ,407 1. ,00 29. .14 A
ATOM 1227 O HIS A 161 1 .778 3, .942 62. ,934 1, .00 24, .01 A
ATOM 1228 N ASP A 162 - .463 3, .748 63. .078 1, .00 29, .26 A
ATOM 1229 CA ASP A 162 - .533 3, .956 64. .521 1. .00 29, .89 A
ATOM 1230 CB ASP A 162 .033 2, .716 65. .219 1. .00 30, .61 A ATOM 1231 CG ASP A 162 - .848 1.494 65.018 1.00 33.79 A
ATOM 1232 OD1 ASP A 162 -1 .907 1 .428 65 .669 1 .00 36 .69 A
ATOM 1233 OD2 ASP A 162 - .506 .610 64 .198 1 .00 35 .07 A
ATOM 1234 C ASP A 162 .141 5 .221 65 .035 1 .00 27 .49 A ATOM 1235 O ASP A 162 1 .222 5 .173 65 .611 1 .00 23 .89 A
ATOM 1236 N GLY A 163 - .517 6 .355 64 .820 1 .00 30 .06 A
ATOM 1237 CA GLY A 163 .018 7 .629 65 .269 1 .00 28 .38 A
ATOM 1238 C GLY A 163 -1 .049 8 .706 65 .284 1 .00 27 .77 A
ATOM 1239 O GLY A 163 -1 .975 8 .682 64 .469 1 .00 27 .89 A ATOM 1240 N TRP A 164 - .929 9 .646 66 .218 1, .00 28 .63 A
ATOM 1241 CA TRP A 164 -1 .888 10 .738 66 .339 1, .00 30 .87 A
ATOM 1242 CB TRP A 164 -1 .794 11 .405 67 .719 1, .00 34 .30 A
ATOM 1243 CG TRP A 164 -2 .443 10 .641 68 .827 1 .00 39 .32 A
ATOM 1244 CD2 TRP A 164 -3 .832 10 .647 69 .167 1 .00 39 .66 A ATOM 1245 CE2 TRP A 164 -4 .000 9 .761 70 .255 1, .00 41 .88 A
ATOM 1246 CE3 TRP A 164 -4 .955 11 .314 68 .657 1, .00 40 .79 A
ATOM 1247 CD1 TRP A 164 -1 .838 9 .778 69 .699 1, .00 41 .86 A
ATOM 1248 NE1 TRP A 164 -2. .768 9 .246 70, .561 1, .00 38, .96 A
ATOM 1249 CZ2 TRP A 164 -5 .251 9 .524 70, .844 1. .00 44, .87 A ATOM 1250 CZ3 TRP A 164 -6 .200 11 .080 69 .243 1, .00 41 .'66- A
ATOM 1251 CH2 TRP A 164 -6 .337 10 .192 70 .324 1, .00 43 .03 A
ATOM 1252 C TRP A 164 -1 .668 11 .806 65 .274 1, .00 31 .11 A
ATOM 1253 O TRP A 164 -2 .618 12 .302 64, .672 1, .00 30, .17 A
ATOM 1254 N LYS A 165 - .408 12 .163 65 .061 1, .00 31 .31 A ATOM 1255 CA LYS A 165 - .043 13 .190 64 .087 1, .00 35 .52 A
ATOM 1256 CB LYS A 165 .638 14 .351 64, .817 1, .00 38 .84 A
ATOM 1257 CG LYS A 165 - .239 15 .008 65, .884 1. .00 37, .87 A
ATOM 1258 CD LYS A 165 .587 15, .633 67, .005 1. .00 36, .99 A
ATOM 1259 CE LYS A 165 1 .160 14, .563 67, .929 1. .00 38, .51 A ATOM 1260 NZ LYS A 165 2 .139 15, .116 68, .915 1. .00 40, .83 A
ATOM 1261 C LYS A 165 .911 12 .555 63, .084 1. .00 34 .77 A
ATOM 1262 O LYS A 165 2 .096 12 .403 63, .357 1. .00 41, .22 A
ATOM 1263 N SER A 166 .397 12, .192 61, .918 1. .00 35, .05 A
ATOM 1264 CA SER A 166 1 .213 11, .519 60, .915 1. .00 30, .67 A ATOM 1265 CB SER A 166 .305 10, .841 59. .892 1. .00 32. .43 A
ATOM 1266 OG SER A 166 1, ,062 10, .019 59. .024 1. ,00 34. .88 A
ATOM 1267 C SER A 166 2, .281 12, .323 60. .175 1. .00 27, .61 A
ATOM 1268 O SER A 166 3, .478 12, .102 60. .375 1. ,00 27. .85 A
ATOM 1269 N MET A 167 1, .854 13, .240 59. .310 1. ,00 26. .84 A ATOM 1270 CA MET A 167 2, .800 14. .017 58. .516 1. ,00 26. .21 A
ATOM 1271 CB MET A 167 2, .871 13. .433 57. .104 1. ,00 22. .66 A
ATOM 1272 CG MET A 167 2, .988 11. .920 57. ,074 1. 00 26. .90 A
ATOM 1273 SD MET A 167 3. .002 11, .219 55. ,402 1. ,00 29. ,71 A
ATOM 1274 CE MET A 167 1, .241 11, .059 55. .084 1. ,00 25, ,81 A ATOM 1275 C MET A 167 2, .475 15. .503 58. .428 1. ,00 24, .87 A
ATOM 1276 O MET A 167 1, .401 15. .895 57. .962 1. ,00 24. .54 A
ATOM 1277 N LEU A 168 3, .422 16. .325 58. .864 1. ,00 21. .39 A
ATOM 1278 CA LEU A 168 3 .252 17. .765 58. .829 1. .00 25, .19 A
ATOM 1279 CB LEU A 168 3 .491 18, .350 60. .222 1. .00 28, .68 A ATOM 1280 CG LEU A 168 3, .277 19, .857 60. .420 1. .00 29, .26 A
ATOM 1281 CD1 LEU A 168 1, .791 20, .171 60. .366 1. ,00 29. .16 A
ATOM 1282 CD2 LEU A 168 3, .837 20. .293 61. .766 1. ,00 29. .51 A
ATOM 1283 C LEU A 168 4, .239 18. .375 57. .838 1. ,00 24. .80 A
ATOM 1284 O LEU A 168 5, .451 18. .310 58. .040 1. .00 25. .06 A ATOM 1285 N MET A 169 3, .718 18, .952 56. .762 1. .00 22. .77 A
ATOM 1286 CA MET A 169 4, .559 19, .596 55. .755 1. ,00 20, .49 A
ATOM 1287 CB MET A 169 4, .099 19, .204 54. .345 1. ,00 23, .72 A
ATOM 1288 CG MET A 169 3, .801 17. .707 54. .136 1. ,00 30. .83 A
ATOM 1289 SD MET A 169 5, .239 16. .624 54. ,241 1. ,00 41. .13 A ATOM 1290 CE MET A 169 4, .890 15. .732 55. ,701 1. 00 31. .45 A
ATOM 1291 C MET A 169 4 .367 21. .098 55. .967 1. ,00 22, .82 A
ATOM 1292 O MET A 169 3 .346 21, .658 55. .568 1. ,00 24. .99 A
ATOM 1293 N GLY A 170 5, .346 21, .746 56. .594 1. ,00 27. .82 A
ATOM 1294 CA GLY A 170 5, .241 23. .168 56. .882 1. ,00 22. .52 A ATOM 1295 C GLY A 170 4, .907 23. .319 58. ,359 1. ,00 31. .59 A
ATOM 1296 O GLY A 170 3, .799 22. .983 58. ,782 1. 00 28. .68 A
ATOM 1297 N SER A 171 5 .863 23. .826 59. .138 1. ,00 31, .18 A
ATOM 1298 CA SER A 171 5 .718 23, .992 60. .584 1. ,00 31. .00 A
ATOM 1299 CB SER A 171 7, .051 24, .447 61, .190 1. ,00 32, .83 A ATOM 1300 OG SER A 171 7.540 25.613 60.542 1.00 37.76 A
ATOM 1301 C SER A 171 4 .611 24 .914 61 .077 1 .00 34 .69 A
ATOM 1302 O SER A 171 4 .056 24 .694 62 .161 1 .00 35 .28 A
ATOM 1303 N SER A 172 4 .289 25 .943 60 .301 1 .00 29 .57 A ATOM 1304 CA SER A 172 3 .247 26 .893 60 .687 1 .00 29 .41 A
ATOM 1305 CB SER A 172 3 .811 27 .950 61 .638 1 .00 31 .41 A
ATOM 1306 OG SER A 172 4 .700 28 .809 60 .940 1 .00 37 .80 A
ATOM 1307 C SER A 172 2 .721 27 .601 59 .454 1 .00 25 .61 A
ATOM 1308 O SER A 172 3 .278 27 .460 58 .372 1 .00 23 .52 A ATOM 1309 N ASP A 173 1 .660 28 .380 59 .625 1 .00 26 .67 A
ATOM 1310 CA ASP A 173 1 .091 29 .111 58 .504 1 .00 26 .29 A
ATOM 1311 CB ASP A 173 - .242 29 .765 58 .892 1 .00 26 .54 A
ATOM 1312 CG ASP A 173 -1 .401 28 .770 58 .934 1 .00 27 .00 A
ATOM 1313 OD1 ASP A 173 -1 .240 27 .623 58 .454 1 .00 30 .68 A ATOM 1314 OD2 ASP A 173 -2 .486 29 .145 59 .430 1 .00 26 .14 A
ATOM 1315 C ASP A 173 2. .056 30, ,167 57 .973 1, .00 28, .67 A
ATOM 1316 O ASP A 173 1 .736 30 .882 57 .023 1 .00 25 .82 A
ATOM 1317 N SER A 174 3 .236 30 .259 58 .588 1, .00 27, .18 A
ATOM 1318 CA SER A 174 4 .257 31 .218 58 .163 1, .00 29, .22 A ATOM 1319 CB SER A 174 4 .763 32, .033 59 .350 1, .00 30, .08 A
ATOM 1320 OG SER A 174 3. .831 33, .039 59, .679 1, .00 40, .69 A
ATOM 1321 C SER A 174 5 .451 30, .555 57, .490 1, .00 28, .72 A
ATOM 1322 O SER A 174 6 .331 31 .239 56 .987 1, .00 25, .79 A
ATOM 1323 N ASP A 175 5 .484 29, .226 57 .497 1, .00 30, .40 A ATOM 1324 CA ASP A 175 6 .581 28, .486 56, .878 1, .00 29, .66 A
ATOM 1325 CB ASP A 175 6 .643 27, .067 57, .461 1, .00 27, .08 A
ATOM 1326 CG ASP A 175 7, .848 26, .279 56, .971 1. .00 28. .17 A
ATOM 1327 OD1 ASP A 175 8, .041 25. .135 57, .431 1. .00 31. .07 A
ATOM 1328 OD2 ASP A 175 8, .595 26, .796 56, .127 1, .00 32. .39 A ATOM 1329 C ASP A 175 6, .323 28, .450 55, .368 1, .00 31, .71 A
ATOM 1330 O ASP A 175 6, .042 27. .397 54, .795 1, .00 30, .14 A
ATOM 1331 N ASN A 176 6, .430 29. .618 54, .743 1, .00 26. .30 A
ATOM 1332 CA ASN A 176 6, .177 29. .783 53. .318 1. .00 32. .20 A
ATOM 1333 CB ASN A 176 5 .755 31, .229 53, .032 1, .00 33, .97 A ATOM 1334 CG ASN A 176 5 .251 31, .422 51, .607 1, .00 42, .98 A
ATOM 1335 OD1 ASN A 176 5, .516 30, .601 50, .727 1, .00 45, .93 A
ATOM 1336 ND2 ASN A 176 4, .529 32. .518 51, .371 1. .00 43. .00 A
ATOM 1337 C ASN A 176 7, .346 29. ,424 52. .407 1. ,00 35. .48 A
ATOM 1338 O ASN A 176 8, .195 30. .263 52, .125 1, .00 35. .96 A ATOM 1339 N TYR A 177 7, .385 28, .177 51, ,947 1, .00 32. .51 A
ATOM 1340 CA TYR A 177 8, .433 27, .717 51, .034 1. .00 33. .06 A
ATOM 1341 CB TYR A 177 9, .563 27. .028 51. .807 1. .00 33. .51 A
ATOM 1342 CG TYR A 177 10, .354 27. .946 52. .730 1. .00 44. .22 A
ATOM 1343 GDI TYR A 177 11, .357 28. ,783 52. .233 1. .00 48. .10 A ATOM 1344 CE1 TYR A 177 12. .091 29. ,623 53. ,088 1. ,00 52. .05 A
ATOM 1345 CD2 TYR A 177 10, .101 27. ,974 54. ,106 1. .00 47. .83 A
ATOM 1346 CE2 TYR A 177 10, .824 28. .809 54. .966 1. .00 49. .35 A
ATOM 1347 CZ TYR A 177 11, .818 29. ,628 54. .451 1. ,00 53. .24 A
ATOM 1348 OH TYR A 177 12, .550 30. ,445 55. .300 1. ,00 60. .96 A ATOM 1349 C TYR A 177 7, .757 26. ,737 50. .074 1. ,00 31. ,78 A
ATOM 1350 O TYR A 177 6, .876 25. .978 50. .481 1. .00 28. ,52 A
ATOM 1351 N ASN A 178 8, .152 26. .752 48. .804 1. .00 31. .16 A
ATOM 1352 CA ASN A 178 7, .526 25. .865 47. .830 1. .00 31. .30 A
ATOM 1353 CB ASN A 178 7, .679 26. ,433 46. .425 1. .00 33. .82 A ATOM 1354 CG ASN A 178 6. .705 25. ,815 45. .453 1. ,00 35. .23 A
ATOM 1355 OD1 ASN A 178 5, .490 25. ,883 45, .651 1. ,00 41, .19 A
ATOM 1356 ND2 ASN A 178 7, .226 25. .205 44, .398 1. ,00 40. .46 A
ATOM 1357 C ASN A 178 8, .046 24. .429 47. .862 1. .00 28. .89 A
ATOM 1358 O ASN A 178 8, .767 23. .990 46. .966 1. .00 30. .23 A ATOM 1359 N ARG A 179 7, .674 23. ,698 48. .901 1. .00 24. .52 A
ATOM 1360 CA ARG A 179 8, .090 22. ,317 49. .022 1. .00 23. .95 A
ATOM 1361 CB ARG A 179 7. .663 21. ,777 50. .387 1. ,00 22. .75 A
ATOM 1362 CG ARG A 179 8, .445 22. .393 51, .557 1. ,00 23. .98 A
ATOM 1363 CD ARG A 179 7. .842 22. ,017 52. ,889 1. ,00 20. ,45 A ATOM 1364 NE ARG A 179 6. .643 22. ,799 53. ,183 1. ,00 23. ,33 A
ATOM 1365 CZ ARG A 179 6. .654 24. ,012 53. ,735 1. ,00 24. ,62 A
ATOM 1366 NH1 ARG A 179 5. ,511 24. ,650 53. ,959 1. ,00 18. ,40 A
ATOM 1367 NH2 ARG A 179 7. .807 24. ,582 54. .078 1. ,00 20. .03 A
ATOM 1368 C ARG A 179 7. ,449 21. ,511 47. .888 1. .00 25. .11 A
Figure imgf000089_0001
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Figure imgf000090_0002
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Figure imgf000090_0003
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Figure imgf000090_0006
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Figure imgf000090_0007
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Figure imgf000090_0008
S3"
ATOM 1507 CA VAL A 195 -2.259 12.366 56.323 1.00 21.08 A
ATOM 1508 CB VAL A 195 -3 .234 11 .165 56 .514 1 .00 21 .28 A
ATOM 1509 CGI VAL A 195 -2 .582 9 .856 56 .052 1 .00 22 .15 A
ATOM 1510 CG2 VAL A 195 -3 .649 11 .069 57 .972 1 .00 20 .62 A ATOM 1511 C VAL A 195 -2 .194 12 .754 54 .843 1 .00 22 .50 A
ATOM 1512 0 VAL A 195 -2 .819 12 .119 53 .993 1 .00 19 .95 A
ATOM 1513 N PRO A 196 -1 .426 13 .804 54 .516 1 .00 22' ;2i A
ATOM 1514 CD PRO A 196 - .966 14 .003 53 .127 1 .00 23 .62 A
ATOM 1515 CA PRO A 196 - .634 14 .634 55 .428 1 .00 22 .20 A ATOM 1516 CB PRO A 196 .700 14 .697 54 .718 1 .00 26 .49 A
ATOM 1517 CG PRO A 196 .243 14 .938 53 .294 1 .00 26 .84 A
ATOM 1518 C PRO A 196 -1 .240 16 .032 55 .541 1 .00 23 .00 A
ATOM 1519 0 PRO A 196 -2 .173 16 .366 54 .812 1 .00 19 .52 A
ATOM 1520 N SER A 197 - .709 16, .833 56, .461 1, .00 21 .62 A ATOM 1521 CA SER A 197 -1 .129 18 .221 56 .603 1 .00 24 .42 A
ATOM 1522 CB SER A 197 - .915 18, .727 58, .029 1, .00 25, .20 A
ATOM 1523 OG SER A 197 -1 .191 20, .114 58, .108 1. .00 25, .92 A
ATOM 1524 C SER A 197 - .147 18. .902 55. .648 1. .00 23, .29 A
ATOM 1525 0 SER A 197 1 .071 18, .786 55, .817 1, .00 23 .28 A ATOM 1526 N PHE A 198 - .674 19, .603 54, .649 1, .00 24, .07- A
ATOM 1527 CA PHE A 198 .162 20, .220 53, .622 1. .00 23, .25 A
ATOM 1528 CB PHE A 198 - .141 19, .498 52, .300 1, .00 26 .64 A
ATOM 1529 CG PHE A 198 1 .007 19, .445 51, .332 1, .00 24, ,18 A
ATOM 1530 GDI PHE A 198 1 .306 20. .532 50. .517 1. .00 25, ,20 A ATOM 1531 CD2 PHE A 198 1, .762 18. .287 51. ,202 1. .00 26. .18 A
ATOM 1532 CE1 PHE A 198 2 .335 20. .468 49. .583 1, .00 23. .60 A
ATOM 1533 CΞ2 PHE A 198 2 .796 18. .209 50. .271 1. .00 28. .79 A
ATOM 1534 CZ PHE A 198 3, .081 19. .307 49. .458 1. .00 28. .17 A
ATOM 1535 C PHE A 198 - .038 21. .737 53. .469 1. .00 23. .34 A ATOM 1536 0 PHE A 198 -1, .047 22. .184 52. .928 1. .00 23. .70 A
ATOM 1537 N ARG A 199 .936 22. ,512 53. .949 1. .00 24. .58 A
ATOM 1538 CA ARG A 199 .912 23. ,974 53. ,871 1. ,00 19. .79 A
ATOM 1539 CB ARG A 199 1, .428 24. .594 55. .172 1. .00 22, .90 A
ATOM 1540 CG ARG A 199 .553 24. .445 56. .402 1. .00 23. .00 A ATOM 1541 CD ARG A 199 1 .249 25, .122 57, .575 1, .00 26, .82 A
ATOM 1542 NE ARG A 199 .360 25, .403 58, .700 1, .00 26, .21 A
ATOM 1543 CZ ARG A 199 .416 24, .765 59. .863 1. .00 30. .21 A
ATOM 1544 NH1 ARG A 199 1, .316 23. ,810 60. ,045 1. .00 27. .07 A
ATOM 1545 NH2 ARG A 199 .408 25. ,095 60. .847 1. .00 29. .65 A ATOM 1546 C ARG A 199 1, .815 24. .453 52. .734 1. .00 20. .00 A
ATOM 1547 0 ARG A 199 2, .989 24. ,092 52. ,685 1. ,00 22. .25 A
ATOM 1548 N PHE A 200 1 .272 25. .273 51. .835 1. .00 22. .47 A
ATOM 1549 CA PHE A 200 2, .030 25. .805 50. .700 1. .00 25. .47 A
ATOM 1550 CB PHE A 200 3, .231 26. .644 51. .173 1. .00 25. .51 A ATOM 1551 CG PHE A 200 2, .888 27. ,740 52. .154 1. ,00 27. .55 A
ATOM 1552 CD1 PHE A 200 2 .917 27. .500 53. .524 1. .00 25. .03 A
ATOM 1553 CD2 PHE A 200 2, .588 29. .022 51. .709 1. .00 29. .74 A
ATOM 1554 CE1 PHE A 200 2, .658 28. .527 54. .441 1. ,00 26. ,41 A
ATOM 1555 CE2 PHE A 200 2 .325 30. .057 52. .616 1. .00 28. .45 A ATOM 1556 CZ PHE A 200 2, .362 29. .807 53. .984 1. ,00 24. ,13 A
ATOM 1557 C PHE A 200 2, .577 24. ,680 49. .817 1. ,00 28. ,23 A
ATOM 1558 0 PHE A 200 2, .341 23. ,502 50. .076 1. ,00 25. ,90 A
ATOM 1559 N GLY A 201 3 .310 25. .058 48, .773 1. ,00 22. .42 A
ATOM 1560 CA GLY A 201 3, .915 24. .075 47, .890 1. ,00 20. ,77 A ATOM 1561 C GLY A 201 3, ,069 23. .334 46. .865 1. ,00 20. ,82 A
ATOM 1562 0 GLY A 201 1, ,905 23. ,650 46. .621 1. ,00 17. .98 A
ATOM 1563 N GLU A 202 3 .701 22. .333 46, .256 1. .00 19. .78 A
ATOM 1564 CA GLU A 202 3, .084 21. ,491 45. .239 1. ,00 22. .90 A
ATOM 1565 CB GLU A 202 3, .801 21. .648 43. .897 1. ,00 22. .56 A ATOM 1566 CG GLU A 202 3 .712 23. .019 43, .276 1. .00 29, ,31 A
ATOM 1567 CD GLU A 202 4 .715 23. .200 42, .151 1. .00 30. ,60 A
ATOM 1568 OΞ1 GLU A 202 4, .886 22. .274 41, .335 1. .00 25. .28 A
ATOM 1569 OE2 GLU A 202 5, .337 24. .275 42, .078 1. .00 34. .86 A
ATOM 1570 C GLU A 202 3, .206 20. ,044 45, .676 1. .00 20. .09 A ATOM 1571 0 GLU A 202 4, .277 19. ,600 46. .089 1. ,00 21. ,63 A
ATOM 1572 N GLY A 203 2, .113 19. ,308 45. .569 1. ,00 20. ,20 A ATOM 1573 CA GLY A 203 2 .141 17. .915 45. .962 1. ,00 22. ,92 A
ATOM 1574 C GLY A 203 1, .457 17. .011 44. .956 1. .00 25. .07 A
ATOM 1575 0 GLY A 203 .702 17. .473 44. .094 1. .00 21. ,47 A ATOM 1576 N HIS A 204 1.748 15.719 45.065 1.00 19.79 A
ATOM 1577 CA HIS A 204 1 .162 14 .708 44 .204 1 .00 16 .92 A
ATOM 1578 CB HIS A 204 2 .101 14 .369 43 .040 1 .00 15 .22 A
ATOM 1579 CG HIS A 204 1 .469 13 .521 41 .976 1 .00 17 .25 A ATOM 1580 CD2 HIS A 204 .181 13 .146 41 .778 1, .00 14 .79 A
ATOM 1581 ND1 HIS A 204 2 .187 12 .975 40 .935 1, .00 18 .26 A
ATOM 1582 CE1 HIS A 204 1 .372 12 .303 40 .143 1, .00 17 .62 A
ATOM 1583 NE2 HIS A 204 .149 12 .391 40 .632 1, .00 17 .84 A
ATOM 1584 C HIS A 204 .949 13 .483 45 .082 1, .00 17 .79 A ATOM 1585 0 HIS A 204 1 .904 12 .906 45 .609 1, .00 17 .66 A
ATOM 1586 N ILE A 205 - .308 13 .097 45 .248 1, .00 15 .56 A
ATOM 1587 CA ILE A 205 - .649 11 .948 46 .071 1, .00 16 .07 A
ATOM 1588 CB ILE A 205 -1 .514 12 .386 47, .277 1, .00 19 .14 A
ATOM 1589 CG2 ILE A 205 -1 .804 11 .197 48 .181 1, .00 19 .12 A ATOM 1590 CGI ILE A 205 - .785 13 .484 48 .058 1, .00 18 .75 A
ATOM 1591 CD1 ILE A 205 -1. .572 14 .048 49, .232 1, .00 18 .52 A
ATOM 1592 C ILE A 205 -1 .410 10 .945 45, .214 1. .00 18 .97 A
ATOM 1593 0 ILE A 205 -2 .563 11 .180 44 .850 1, .00 19 .46 A
ATOM 1594 N TYR A 206 - .765 9 .832 44 .878 1, .00 19 .09 A ATOM 1595 CA TYR A 206 -1 .428 8 .832 44, .039 1, .00 19 .08 A
ATOM 1596 CB TYR A 206 -1 .103 9 .094 42 .560 1, .00 19 .46 A
ATOM 1597 CG TYR A 206 .309 8 .763 42 .134 1, .00 19 .31 A
ATOM 1598 CD1 TYR A 206 .634 7 .498 41 .643 1, .00 20 .83 A
ATOM 1599 CE1 TYR A 206 1 .926 7 .204 41, .194 1. .00 18 .19 A ATOM 1600 CD2 TYR A 206 1, .312 9, .725 42, .173 1. .00 18, .04 A
ATOM 1601 CE2 TYR A 206 2, .602 9, .446 41, .729 1. .00 18, .31 A
ATOM 1602 CZ TYR A 206 2 .900 8 .185 41, .239 1. .00 22 .20 A
ATOM 1603 OH TYR A 206 4 .170 7 .911 40, .783 1. .00 25, .63 A
ATOM 1604 C TYR A 206 -1 .123 7, .376 44, .380 1. .00 20, .31 A ATOM 1605 0 TYR A 206 - .085 7 .058 44, .962 1. .00 16 .29 A
ATOM 1606 N ASN A 207 -2 .058 6 .507 44, .001 1. .00 21, .83 A
ATOM 1607 CA ASN A 207 -1 .946 5, .074 44, .226 1. ,00 20, ,84 A
ATOM 1608 CB ASN A 207 .928 4, .470 43. .250 1. ,00 16. ,70 A
ATOM 1609 CG ASN A 207 -1 .472 4 .334 41. .822 1, .00 21, .19 A ATOM 1610 OD1 ASN A 207 .707 4, .193 40, .871 1. .00 19, .23 A
ATOM 1611 ND2 ASN A 207 -2, .787 4, .359 41. .677 1. ,00 17, .72 A
ATOM 1612 C ASN A 207 -1, .564 4, .721 45. .667 1. ,00 18. .26 A
ATOM 1613 0 ASN A 207 .753 3, .826 45, .892 1. ,00 23. .53 A
ATOM 1614 N ASN A 208 -2, .138 5, .434 46. .632 1. ,00 19. .34 A ATOM 1615 CA ASN A 208 -1, .885 5, .165 48. .047 1. ,00 19. .45 A
ATOM 1616 CB ASN A 208 -1, .672 6 .460 48. .843 1. .00 20. .00 A
ATOM 1617 CG ASN A 208 ,456 7 .237 48. .394 1. ,00 20, .98 A
ATOM 1618 OD1 ASN A 208 ,682 6, .847 48. .662 1. ,00 22. .40 A
ATOM 1619 ND2 ASN A 208 ,692 8, .340 47. .700 1. ,00 19. .20 A ATOM 1620 C ASN A 208 -3, ,116 4, .469 48. .610 1. 00 23. .47 A
ATOM 1621 0 ASN A 208 -4. .221 4. .616 48. .082 1. 00 21. ,55 A
ATOM 1622 N TYR A 209 -2, .924 3, .716 49. .686 1. ,00 22. .42 A
ATOM 1623 CA TYR A 209 -4. .028 3, .026 50. .334 1. ,00 23. .96 A
ATOM 1624 CB TYR A 209 -3. .748 1, .520 50. ,394 1. 00 23. ,00 A ATOM 1625 CG TYR A 209 -4. .721 .737 51. .248 1. ,00 23. ,28 A
ATOM 1626 GDI TYR A 209 -6. .090 .912 51. .114 1. ,00 27. .75 A
ATOM 1627 CE1 TYR A 209 -6. .986 .190 51. .887 1. ,00 34. .06 A
ATOM 1628 CD2 TYR A 209 -4. .263 .191 52. ,180 1. 00 27. .63 A
ATOM 1629 CΞ2 TYR A 209 -5, .148 .930 52. .963 1. ,00 26. .68 A ATOM 1630 CZ TYR A 209 -6, .507 .731 52. .815 1. ,00 33. .00 A
ATOM 1631 OH TYR A 209 -7, .392 -1, .431 53. .602 1. ,00 39. .00 A
ATOM 1632 C TYR A 209 -4, .208 3, .596 51. ,742 1. 00 21. ,89 A
ATOM 1633 0 TYR A 209 -3, .309 3, .501 52. .576 1. ,00 22. .58 A
ATOM 1634 N PHE A 210 -5, .360 4, .218 51. .985 1. 00 23. .25 A ATOM 1635 CA PHE A 210 -5. .659 4, .801 53. ,292 1. 00 23. .43 A
ATOM 1636 CB PHE A 210 -6, .240 6. .217 53. ,170 1. ,00 23. ,68 A
ATOM 1637 CG PHE A 210 -5, .329 7, .221 52. .519 1. ,00 25. .54 A
ATOM 1638 CD1 PHE A 210 -5, .134 7, .214 51. .144 1. ,00 23. .54 A
ATOM 1639 CD2 PHE A 210 -4. .717 8, .216 53. ,279 1. ,00 25. ,45 A ATOM 1640 CE1 PHE A 210 -4, .350 8, .184 50. .532 1. ,00 23. ,31 A
ATOM 1641 CE2 PHE A 210 -3, .930 9, .192 52. .678 1. ,00 25. .27 A
ATOM 1642 CZ PHE A 210 -3, .748 9. .175 51. .303 1. ,00 26. .92 A
ATOM 1643 C PHE A 210 -6, .704 3, .950 53. ,998 1. ,00 24. .47 A
ATOM 1644 0 PHE A 210 -7. .781 3. .716 53. ,454 1. 00 26. ,37 A ATOM 1645 N ASN A 211 -6.405 3.507 55.210 1.00 23.37 A
ATOM 1646 CA ASN A 211 -7 .366 2 .701 55 .955 1 .00 25 .63 A
ATOM 1647 CB ASN A 211 -7 .012 1 .216 55 .857 1 .00 24 .24 A
ATOM 1648 CG ASN A 211 -8 .006 .329 56 .601 1 .00 27 .65 A ATOM 1649 OD1 ASN A 211 -9 .216 .469 56 .445 1 .00 28 .51 A
ATOM 1650 ND2 ASN A 211 -7 .492 - .591 57 .403 1 .00 26 .94 A
ATOM 1651 C ASN A 211 -7 .422 3 .133 57 .416 1 .00 21 .84 A
ATOM 1652 O ASN A 211 -6 .393 3 .283 58 .074 1 .00 21 .94 A
ATOM 1653 N LYS A 212 -8 .639 3 .338 57 .905 1 .00 24 .84 A ATOM 1654 CA LYS A 212 -8 .863 3 .770 59 .279 1 .00 26 .83 A
ATOM 1655 CB LYS A 212 -8 .349 2 .715 60 .260 1. .00 25 .58 A
ATOM 1656 CG LYS A 212 -9 .061 1 .379 60 .121 1 .00 36 .55 A
ATOM 1657 CD LYS A 212 -9 .286 .703 61 .461 1 .00 49 .30 A
ATOM 1658 CE LYS A 212 -7 .980 .344 62 .144 1 .00 53 .55 A ATOM 1659 NZ LYS A 212 -8 .219 - .384 63 .434 1 .00 60 .03 A
ATOM 1660 C LYS A 212 -8 .239 5 .133 59 .597 1, .00 28, .04 A
ATOM 1661 O LYS A 212 -7, .308 5 .241 60, .395 1, .00 26, .12 A
ATOM 1662 N ILE A 213 -8, .745 6 .167 58, .936 1. .00 29, .69 A
ATOM 1663 CA ILE A 213 -8 .283 7 .526 59, .180 1, .00 29, .17 A ATOM 1664 CB ILE A 213 -8, .295 8 .366 57 .891 1, .00 28. .23 A
ATOM 1665 CG2 ILE A 213 -7 .689 9 .730 58, .156 1, .00 27. .71 A
ATOM 1666 CGI ILE A 213 -7, .514 7 .633 56, .797 1, .00 30. .52 A
ATOM 1667 GDI ILE A 213 -6, .093 7 .258 57, .180 1, .00 28, .90 A
ATOM 1668 C ILE A 213 -9 .336 8 .020 60 .161 1, .00 28, .41 A ATOM 1669 O ILE A 213 -10 .491 8 .241 59, .795 1, .00 24, .32 A
ATOM 1670 N ILE A 214 -8, .925 8 .157 61, .414 1, .00 28, .32 A
ATOM 1671 CA ILE A 214 -9, .820 8 .544 62, .497 1. .00 29, .16 A
ATOM 1672 CB ILE A 214 -9, .110 8, .413 63, .860 1. .00 31. .74 A
ATOM 1673 CG2 ILE A 214 -10, .149 8, .344 64. .980 1. .00 31. .23 A ATOM 1674 CGI ILE A 214 -8, .243 7 .154 63, .885 1, .00 33, .15 A
ATOM 1675 CD1 ILE A 214 -8, .961 5 .900 63, .447 1. .00 35, .01 A
ATOM 1676 C ILE A 214 -10, .493 9 .912 62, .450 1. .00 27, .00 A
ATOM 1677 O ILE A 214 -11, .715 9, .991 62. .507 1. .00 29, .50 A
ATOM 1678 N ASP A 215 -9, .722 10 .990 62, .358 1, .00 28, .06 A ATOM 1679 CA ASP A 215 -10, .336 12 .312 62, .350 1, .00 23, .94 A
ATOM 1680 CB ASP A 215 -9, .682 13 .188 63, .415 1. .00 28. .45 A
ATOM 1681 CG ASP A 215 -10, .525 14, .401 63. .756 1. .00 35. .85 A
ATOM 1682 OD1 ASP A 215 -11 .750 1 .236 63, .935 1, .00 39. .14 A
ATOM 1683 OD2 ASP A 215 -9, .972 15 .514 63, .844 1. .00 39, .83 A ATOM 1684 C ASP A 215 -10, .333 13 .024 60, .998 1. .00 26. .59 A
ATOM 1685 O ASP A 215 -11, .342 13, .592 60. .593 1. .00 26. .86 A
ATOM 1686 N SER A 216 -9, .204 12, .997 60. .299 1. ,00 26. .57 A
ATOM 1687 CA SER A 216 -9. .109 13, .624 58. .987 1. ,00 22. ,27 A
ATOM 1688 CB SER A 216 -9. .122 15, .153 59. .116 1. ,00 24. .64 A ATOM 1689 OG SER A 216 -8, .025 15, .614 59. .874 1. ,00 25. ,08 A
ATOM 1690 C SER A 216 -7, .837 13, .159 58. .287 1. ,00 23. ,71 A
ATOM 1691 O SER A 216 -6. .840 12, .831 58. .936 1. ,00 20. ,77 A
ATOM 1692 N GLY A 217 -7. .875 13, .132 56. ,961 1. ,00 22. ,80 A
ATOM 1693 CA GLY A 217 -6. .719 12, .681 56. .211 1. .00 23. .77 A ATOM 1694 C GLY A 217 -5, .882 13, .773 55. .571 1. .00 21. .52 A
ATOM 1695 O GLY A 217 -5. .114 14, .455 56, .247 1. ,00 20. ,73 A
ATOM 1696 N ILE A 218 -6. .027 13. .927 54. .260 1. ,00 20. ,64 A
ATOM 1697 CA ILE A 218 -5. .277 14. .927 53. ,515 1. ,00 19. ,50 A
ATOM 1698 CB ILE A 218 -5. .369 14, .674 52. .008 1. ,00 17. .48 A ATOM 1699 CG2 ILE A 218 -4. .500 15, .672 51. .258 1. .00 18. .81 A
ATOM 1700 CGI ILE A 218 -4. .929 13. .246 51. .690 1. .00 19. .30 A
ATOM 1701 CD1 ILE A 218 -5. .189 12. .851 50. ,257 1. ,00 22. .16 A
ATOM 1702 C ILE A 218 -5. ,814 16. .325 53. ,798 1. ,00 20. ,32 A
ATOM 1703 O ILE A 218 -6, .973 16, .620 53. .522 1. .00 21. ,51 A ATOM 1704 N ASN A 219 -4. .968 17, .182 54. .351 1. .00 22. .47 A
ATOM 1705 CA ASN A 219 -5. .374 18, .544 54. .656 1. ,00 21. .92 A
ATOM 1706 CB ASN A 219 -5. .225 18. .831 56. .156 1. ,00 20. ,26 A
ATOM 1707 CG ASN A 219 -5. .784 20, .185 56. ,549 1, ,00 22. ,01 A
ATOM 1708 OD1 ASN A 219 -6. .430 20. .862 55. ,747 1. ,00 18. ,67 A ATOM 1709 ND2 ASN A 219 -5. .543 20. .584 57. ,788 1. ,00 22. ,12 A
ATOM 1710 C ASN A 219 -4. .528 19. .516 53. ,840 1. ,00 23. ,49 A
ATOM 1711 O ASN A 219 -3. .373 19. .792 54. ,169 1. ,00 20. ,73 A
ATOM 1712 N SER A 220 -5. ,112 20. .012 52. ,757 1. ,00 17. .83 A
ATOM 1713 CA SER A 220 -4. .430 20, .949 51. ,892 1. ,00 21. ,44 A ATOM 1714 CB SER A 220 -4.973 20.841 50.472 1.00 18.06 A
ATOM 1715 OG SER A 220 -4. .261 21.684 49.593 1.00 20.00 A
ATOM 1716 C SER A 220 -4, .665 22.351 52.440 1.00 22.92 A
ATOM 1717 O SER A 220 -5 .804 22.746 52.682 1.00 23.16 A ATOM 1718 N ARG A 221 -3 .592 23.105 52.634 1.00 24.19 A
ATOM 1719 CA ARG A 221 -3 .738 24.449 53.178 1.00 26.19 A
ATOM 1720 CB ARG A 221 -3, .796 24.377 54.710 1.00 29.78 A
ATOM 1721 CG ARG A 221 -2, .798 23.426 55.332 1 .00 30.44 A
ATOM 1722 CD ARG A 221 -3 .272 22.713 56.611 1, .00 25.72 A ATOM 1723 NE ARG A 221 -3, .177 23.470 57.814 1 .00 23.61 A
ATOM 1724 CZ ARG A 221 -2 .884 23.139 59.069 1, .00 29.45 A
ATOM 1725 NH1 ARG A 221 -2 .941 24.155 59.905 1, .00 28.93 A
ATOM 1726 NH2 ARG A 221 -2, .529 21.936 59.519 1 .00 23.01 A
ATOM 1727 C ARG A 221 -2. .717 25.493 52.745 1 .00 25.85 A ATOM 1728 O ARG A 221 -1. .685 25.188 52.145 1 .00 21.79 A
ATOM 1729 N MET A 222 -3 .045 26.742 53.056 1 .00 23.33 A
ATOM 1730 CA MET A 222 -2, .204 27.887 52.727 1 .00 22.37 A
ATOM 1731 CB MET A 222 .977 27.912 53.642 1 .00 19.79 A
ATOM 1732 CG MET A 222 -1. .325 28.143 55.120 1 .00 22.92 A ATOM 1733 SD MET A 222 -2. .231 29.699 55.409 1 .00 25.-93 A
ATOM 1734 CE MET A 222 -.893 30.882 55.158 1 .00 26.81 A
ATOM 1735 C MET A 222 -1.783 27.936 51.255 1 .00 20.65 A
ATOM 1736 O MET A 222 -.611 28.085 50.938 1 .00 18.70 A
ATOM 1737 N GLY A 223 -2.759 27.794 50.366 1 .00 19.69 A ATOM 1738 CA GLY A 223 -2.489 27.865 48.941 1, .00 22.92 A
ATOM 1739 C GLY A 223 -1.792 26.679 48.298 1. .00 24.13 A
ATOM 1740 O GLY A 223 -1.315 26.781 47.166 1 .00 22.09 A
ATOM 1741 N ALA A 224 -1.727 25.556 49.000 1.00 17 68 A
ATOM 1742 CA ALA A 224 -1.087 24.375 48.441 1.00 18 58 A ATOM 1743 CB ALA A 224 -.993 23.272 49.501 1.00 20.14 A
ATOM 1744 C ALA A 224 -1.882 23.872 47.229 1.00 19.67 A
ATOM 1745 O ALA A 224 -3.107 23.984 47.186 1.00 18.44 A
ATOM 1746 N ARG A 225 -1.170 23.357 46.234 1.00 17.63 A
ATOM 1747 CA ARG A 225 -1.808 22.796 45.046 1.00 22.58 A ATOM 1748 CB ARG A 225 -1.326 23.512 43.786 1.00 22.92 A
ATOM 1749 CG ARG A 225 -1.850 24.941 43.647 1, .00 25.13 A
ATOM 1750 CD ARG A 225 -1.113 25.682 42.533 1..00 32.38 A
ATOM 1751 NE ARG A 225 .304 25.813 42.847 1, ,00 32.69 A
ATOM 1752 CZ ARG A 225 1.283 25.758 41.949 1..00 38.83 A ATOM 1753 NH1 ARG A 225 2.545 25.893 42.345 1.00 40.85 A
ATOM 1754 NH2 ARG A 225 1 .008 25.567 40.663 1.00 30.17 A
ATOM 1755 C ARG A 225 -1.,422 21.319 45.019 1.00 21.45 A
ATOM 1756 O ARG A 225 .256 20.972 44.819 1.00 21.15 A
ATOM 1757 N ILE A 226 -2.401 20.454 45.252 1.00 19.50 A ATOM 1758 CA ILE A 226 -2.,144 19.026 45.298 1.00 20.77 A
ATOM 1759 CB ILE A 226 -2.,406 18.459 46.706 1 00 17.00 A
ATOM 1760 CG2 ILE A 226 -1,.906 17.029 46.782 1 00 18.12 A
ATOM 1761 CGI ILE A 226 -1..722 19.331 47.759 1 00 19.81 A
ATOM 1762 GDI ILE A 226 -1..943 18.856 49.184 1 00 23.76 A ATOM 1763 C ILE A 226 -2..976 18.213 44.322 1 00 22.65 A
ATOM 1764 O ILE A 226 -4.,200 18.324 44.281 1 00 22.92 A
ATOM 1765 N ARG A 227 -2.289 17.390 43.541 1 00 21.22 A
ATOM 1766 CA ARG A 227 -2.933 16.505 42.585 1 00 19.03 A
ATOM 1767 CB ARG A 227 -1,.995 16.263 41.403 1 00 22.63 A ATOM 1768 CG ARG A 227 -2.499 15.295 40.369 1.00 25.97 A
ATOM 1769 CD ARG A 227 -3.674 15.852 39.606 1.00 28.32 A
ATOM 1770 NE ARG A 227 -3.974 14.979 38.487 00 39.21 A
ATOM 1771 CZ ARG A 227 -3.738 15.269 37.214 ,00 33.81 A
ATOM 1772 NH1 ARG A 227 -3.206 16.431 36.879 ,00 32.29 A ATOM 1773 NH2 ARG A 227 -4.018 14.372 36.279 ,00 35.47 A
ATOM 1774 C ARG A 227 -3.158 15.213 43.371 ,00 17.99 A
ATOM 1775 O ARG A 227 -2.201 14.586 43.822 ,00 18.38 A
ATOM 1776 N ILE A 228 -4.417 14.831 43.545 ,00 17.92 A
ATOM 1777 CA ILE A 228 -4.768 13.626 44.302 ,00 18.43 A ATOM 1778 CB ILE A 228 -5.622 13.997 45.530 .00 20.12 A
ATOM 1779 CG2 ILE A 228 -5..804 12.776 46.428 .00 19.24 A
ATOM 1780 CGI ILE A 228 -4.948 15.142 46.299 .00 21.74 A
ATOM 1781 CD1 ILE A 228 -5.,848 15.824 47.316 .00 21.21 A
ATOM 1782 C ILE A 228 -5.,566 12.678 43.407 .00 21.20 A ATOM 1783 O ILE A 228 -6.723 .12.947 43.088 1.00 21.54 A
ATOM 1784 N GLU A 229 -4 .964 11 .563 43 .018 1 .00 17 .62 A
ATOM 1785 CA GLU A 229 -5 .651 10 .652 42 .114 1 .00 22 .42 A
ATOM 1786 CB GLU A 229 -5 .281 11 .036 40 .673 1 .00 24 .37 A ATOM 1787 CG GLU A 229 -3 .834 10 .726 40 .304 1 .00 26 .99 A
ATOM 1788 CD GLU A 229 -3 .286 11 .600 39 .185 1, .00 22 .81 A
ATOM 1789 OE1 GLU A 229 -4 .064 12 .039 38 .322 1 .00 23 .87 A
ATOM 1790 OE2 GLU A 229 -2 .067 11 .839 39 .165 1 .00 19 .72 A
ATOM 1791 C GLU A 229 -5 .400 9 .151 42 .338 1 .00 21 .08 A ATOM 1792 O GLU A 229 -4 .363 8 .745 42 .863 1, .00 19 .85 A
ATOM 1793 N ASN A 230 -6 .380 8 .341 41 .947 1 .00 23 .01 A
ATOM 1794 CA ASN A 230 -6 .286 6 .890 42 .051 1 .00 20 .20 A
ATOM 1795 CB ASN A 230 -5 .332 6 .360 40 .976 1, .00 16 .89 A
ATOM 1796 CG ASN A 230 -5 .880 6 .530 39 .568 1, .00 25 .22 A ATOM 1797 OD1 ASN A 230 -6 .420 7 .585 39 .217 1 .00 26 .28 A
ATOM 1798 ND2 ASN A 230 -5. .734 5. .489 38 .747 1, .00 26, .56 A
ATOM 1799 C ASN A 230 -5 .849 6 .378 43 .424 1. .00 20, .33 A
ATOM 1800 O ASN A 230 -5, .009 5, .479 43, .528 1. .00 23, .53 A
ATOM 1801 N ASN A 231 -6, .415 6, .963 44, .471 1. .00 18, .23 A ATOM 1802 CA ASN A 231 -6 .120 6 .544 45 .837 1, .00 20, .81- A
ATOM 1803 CB ASN A 231 -5, .907 7 .750 46 .761 1. .00 17, .70 A
ATOM 1804 CG ASN A 231 -4, .666 8, .538 46, .427 1. .00 19, .25 A
ATOM 1805 OD1 ASN A 231 -3. .548 8 .107 46 .704 1. .00 16 .94 A
ATOM 1806 ND2 ASN A 231 -4 .858 9 .703 45 .818 1, .00 17, .58 A ATOM 1807 C ASN A 231 -7, .343 5 .788 46, .338 1. .00 22, .87 A
ATOM 1808 O ASN A 231 -8, .451 6, .036 45, .876 1. .00 24, .26 A
ATOM 1809 N LEU A 232 -7, .143 4, .872 47, .278 1. ,00 21. .95 A
ATOM 1810 CA LEU A 232 -8 .260 4 .140 47 .856 1. .00 25, .72 A
ATOM 1811 CB LEU A 232 -8, .075 2, .622 47, .725 1. .00 28, .58 A ATOM 1812 CG LEU A 232 -9, .120 1, .848 48, .550 1. ,00 33. .77 A
ATOM 1813 CD1 LEU A 232 -10 .500 2 .094 47 .977 1, .00 30. .45 A
ATOM 1814 CD2 LEU A 232 -8, .801 .361 48, .553 1. .00 33, .21 A
ATOM 1815 C LEU A 232 -8, .360 4, .497 49, .332 1. .00 22. .86 A
ATOM 1816 O LEU A 232 -7, .390 4, .344 50, .082 1. ,00 23. .72 A ATOM 1817 N PHE A 233 -9. .527 4. .985 49. .744 1. ,00 23. .90 A
ATOM 1818 CA PHE A 233 -9. .755 5. .345 51. .144 1. ,00 25. .59 A
ATOM 1819 CB PHE A 233 -10, .310 6, .773 51, .287 1. ,00 26. .06 A
ATOM 1820 CG PHE A 233 -9, .440 7. .848 50. .695 1. ,00 25. .69 A
ATOM 1821 CD1 PHE A 233 -9. .521 8. .166 49. .346 1. ,00 21. ,43 A ATOM 1822 CD2 PHE A 233 -8, .560 8, .563 51, .496 1. ,00 26. .42 A
ATOM 1823 CE1 PHE A 233 -8, .736 9, .187 48, .802 1. ,00 24. .88 A
ATOM 1824 CE2 PHE A 233 -7, .771 9, .583 50. .962 1. ,00 25. .84 A
ATOM 1825 CZ PHE A 233 -7, .863 9. .894 49. .612 1. ,00 23. .17 A
ATOM 1826 C PHE A 233 -10. .785 4. ,386 51. ,740 1. 00 26. ,90 A ATOM 1827 O PHE A 233 -11. .902 4. .270 51. .233 1. ,00 28. .21 A
ATOM 1828 N GLU A 234 -10. .410 3. .696 52. .806 1. ,00 26. .34 A
ATOM 1829 CA GLU A 234 -11. .327 2. .780 53. .478 1. ,00 31. .73 A
ATOM 1830 CB GLU A 234 -10. .806 1. .339 53. .434 1. ,00 36. .57 A
ATOM 1831 CG GLU A 234 -11. .103 .596 52. ,151 1. .00 44. .30 A ATOM 1832 CD GLU A 234 -10. .628 .856 52. ,191 1. ,00 44. .61 A
ATOM 1833 OE1 GLU A 234 -10. .875 -1. .569 51. .194 1. ,00 50. .77 A
ATOM 1834 OE2 GLU A 234 -10. .012 -1. .282 53. .200 1. ,00 41. .13 A
ATOM 1835 C GLU A 234 -11. .458 3. .191 54. .932 1. ,00 26. .89 A
ATOM 1836 O GLU A 234 -10. .460 3. .494 55. .575 1. ,00 29. .08 A ATOM 1837 N ASN A 235 -12. .685 3. .181 55. .443 1. ,00 28. .60 A
ATOM 1838 CA ASN A 235 -12. .942 3. .537 56. .835 1. ,00 30. .55 A
ATOM 1839 CB ASN A 235 -12. .418 2. .438 57, .773 1. .00 32. .66 A
ATOM 1840 CG ASN A 235 -12, .932 1, .053 57, .397 1. .00 40. .61 A
ATOM 1841 OD1 ASN A 235 -14, .133 .861 57, .209 1. ,00 44. .95 A ATOM 1842 ND2 ASN A 235 -12, .025 .081 57. .291 1. ,00 36. .48 A
ATOM 1843 C ASN A 235 -12, .243 4, .850 57. .149 1. .00 26. .93 A
ATOM 1844 O ASN A 235 -11, .427 4, .929 58, .061 1. .00 24, .98 A
ATOM 1845 N ALA A 236 -12, .561 5, .878 56, .373 1. .00 29. .55 A
ATOM 1846 CA ALA A 236 -11. .944 7. .177 56. .561 1. ,00 30. ,18 A ATOM 1847 CB ALA A 236 -11. .094 7. ,531 55. ,339 1. 00 29. 05 A
ATOM 1848 C ALA A 236 -12. .958 8. .274 56. .809 1. ,00 27. ,65 A
ATOM 1849 O ALA A 236 -14. .012 8. .317 56. .178 1. ,00 31. ,17 A
ATOM 1850 N LYS A 237 -12. .623 9. ,161 57. .738 1. ,00 29. ,77 A
ATOM 1851 CA LYS A 237 -13, .467 10. .299 58, ,063 1. ,00 28. .35 A ATOM 1852 CB LYS A 237 -13.647 10.416 59.576 1.00 29.79 A
ATOM 1853 CG LYS A 237 -14 .333 11 .703 60 .009 1 .00 31 .96 A
ATOM 1854 CD LYS A 237 -14 .465 11 .782 61 .512 1 .00 35 .37 A
ATOM 1855 CE LYS A 237 -14, ,910 13, .168 61. .928 1, .00 33, .16 A ATOM 1856 NZ LYS A 237 -13 .957 14 .206 61 .455 1 .00 29 .06 A
ATOM 1857 C LYS A 237 -12 .769 11 .551 57 .534 1, .00 29 .10 A
ATOM 1858 O LYS A 237 -11 .604 11 .790 57 .845 1 .00 27 .41 A
ATOM 1859 N ASP A 238 -13, .476 12 .336 56, .732 1, .00 27 .06 A
ATOM 1860 CA ASP A 238 -12 .910 13 .555 56, .171 1 .00 27 .75 A ATOM 1861 CB ASP A 238 -12 .798 14 .614 57 .277 1, .00 26 .88 A
ATOM 1862 CG ASP A 238 -14, .157 15 .070 57, .782 1, .00 29 .98 A
ATOM 1863 OD1 ASP A 238 -14, .938 15, .608 56, .968 1, .00 29, .32 A
ATOM 1864 OD2 ASP A 238 -14, .446 14, .880 58, .982 1, .00 28, .61 A
ATOM 1865 C ASP A 238 -11 .540 13 .284 55 .535 1 .00 27 .54 A ATOM 1866 O ASP A 238 -10 .524 13 .852 55 .942 1, .00 30 .61 A
ATOM 1867 N PRO A 239 -11 .503 12 .402 54 .523 1, .00 27 .59 A
ATOM 1868 CD PRO A 239 -12, .643 11 .652 53 .967 1, .00 27 .53 A
ATOM 1869 CA PRO A 239 -10, .255 12, .050 53, .835 1, .00 25, .34 A
ATOM 1870 CB PRO A 239 -10 .680 10 .900 52 .915 1 .00 26 .26 A ATOM 1871 CG PRO A 239 -12 .118 11 .222 52 .613 1 .00 30 .67'. A
ATOM 1872 C PRO A 239 -9 .569 13 .195 53 .091 1, .00 19 .57 A
ATOM 1873 O PRO A 239 -8, .362 13 .180 52, .914 1, .00 20, .57 A
ATOM 1874 N ILE A 240 -10, .338 14, .188 52, .661 1, .00 22, .19 A
ATOM 1875 CA ILE A 240 -9 .766 15 .330 51 .960 1, .00 22 .54 A ATOM 1876 CB ILE A 240 -9 .956 15 .214 50 .436 1, .00 24 .29 A
ATOM 1877 CG2 ILE A 240 -9, .340 16, .423 49, .737 1, .00 25, .22 A
ATOM 1878 CGI ILE A 240 -9, .302 13, .926 49, .923 1, .00 22, .98 A
ATOM 1879 GDI ILE A 240 -9. .543 13. .686 48. .450 1. ,00 26. .19 A
ATOM 1880 C ILE A 240 -10. ,427 16. ,621 52. ,435 1. ,00 22. .16 A ATOM 1881 O ILE A 240 -11. ,623 16, .832 52, ,216 1. .00 21. .64 A
ATOM 1882 N VAL A 241 -9. ,645 17. .483 53. ,080 1. .00 20. .41 A
ATOM 1883 CA VAL A 241 -10. ,173 18. .749 53. .587 1. .00 24. .90 A
ATOM 1884 CB VAL A 241 -10. ,552 18. ,646 55. .093 1. ,00 23. .21 A
ATOM 1885 CGI VAL A 241 -11, ,618 17, .595 55, .310 1. .00 29, .11 A ATOM 1886 CG2 VAL A 241 -9, .321 18, .326 55, .911 1. .00 24, .66 A
ATOM 1887 C VAL A 241 -9. .175 19. .896 53. .466 1. .00 23, .84 A
ATOM 1888 O VAL A 241 -8. ,040 19. .720 53. .031 1. .00 21, .96 A
ATOM 1889 N SER A 242 -9, .625 21, .078 53, .856 1, .00 24, .95 A
ATOM 1890 CA SER A 242 -8, .778 22. .261 53. .886 1. .00 27, .82 A ATOM 1891 CB SER A 242 -9. .072 23. .180 52. .708 1. .00 27, .02 A
ATOM 1892 OG SER A 242 -8, .219 24. .310 52. .761 1. .00 27. .89 A
ATOM 1893 C SER A 242 -9. .173 22. .938 55. .202 1. ,00 26. .21 A
ATOM 1894 O SER A 242 -10. .000 23. .844 55. .212 1. ,00 26. .14 A
ATOM 1895 N TRP A 243 -8. .587 22. .477 56, .303 1. .00 25. .81 A ATOM 1896 CA TRP A 243 -8, .907 23, .003 57, .624 1. .00 28. .94 A
ATOM 1897 CB TRP A 243 -9, .466 21. .903 58. .536 1. .00 28. .32 A
ATOM 1898 CG TRP A 243 -10, .735 21. .232 58. .139 1. .00 24. .34 A
ATOM 1899 CD2 TRP A 243 -11, .254 20, .029 58, ,706 1. .00 26. .28 A
ATOM 1900 CE2 TRP A 243 -12, ,501 19, .785 58, ,100 1, .00 27. .40 A ATOM 1901 CE3 TRP A 243 -10, ,782 19, .129 59. ,675 1. .00 33. .54 A
ATOM 1902 GDI TRP A 243 -11, .659 21, .662 57, ,235 1. .00 26. .89 A
ATOM 1903 NE1 TRP A 243 -12. .727 20. ,797 57, ,204 1. ,00 25. ,72 A
ATOM 1904 CZ2 TRP A 243 -13. ,289 18. ,677 58. ,430 1. ,00 31. ,19 A
ATOM 1905 CZ3 TRP A 243 -11. .569 18. ,025 60. ,001 1. ,00 29. .42 A ATOM 1906 CH2 TRP A 243 -12. ,805 17. ,812 59. ,378 1. ,00 26. ,13 A
ATOM 1907 C TRP A 243 -7. .739 23. ,588 58. ,390 1. ,00 27. ,27 A
ATOM 1908 O TRP A 243 -6. .578 23. ,364 58. ,060 1. ,00 24. ,46 A
ATOM 1909 N TYR A 244 -8. ,090 24. ,327 59. ,440 1. ,00 27. ,14 A
ATOM 1910 CA TYR A 244 -7. .139 24. .904 60. ,380 1. .00 27. .59 A ATOM 1911 CB TYR A 244 -6. .302 23. .773 60. ,971 1. .00 25. .82 A
ATOM 1912 CG TYR A 244 -7. .119 22. .609 61. ,476 1. .00 33. .08 A
ATOM 1913 CD1 TYR A 244 -6. .746 21. .296 61. ,182 1. .00 34. .75 A
ATOM 1914 CE1 TYR A 244 -7. .481 20. .211 61. ,658 1. .00 30. .72 A
ATOM 1915 CD2 TYR A 244 -8, .255 22, .811 62, .264 1. .00 31. .38 A ATOM 1916 CE2 TYR A 244 -8, .996 21, .739 62, .746 1. .00 34, .32 A
ATOM 1917 CZ TYR A 244 -8, .606 20, .438 62, .441 1. .00 38, .44 A
ATOM 1918 OH TYR A 244 -9, .341 19. .369 62, .916 1. .00 33, .27 A
ATOM 1919 C TYR A 244 -6, .205 26. .031 59. .959 1. .00 26, .41 A
ATOM 1920 O TYR A 244 -5, .357 26, .434 60, .751 1. .00 30, .28 A ATOM 1921 N SER A 245 -6.328 26.542 58.741 1.00 25.31 A
ATOM 1922 CA SER A 245 -5 .453 27 .637 58 .328 1 .00 25 .94 A
ATOM 1923 CB SER A 245 -4 .468 27 .173 57 .247 1 .00 28 .65 A
ATOM 1924 OG SER A 245 -3 .485 26 .305 57 .793 1 .00 27 .86 A ATOM 1925 C SER A 245 -6 .234 28 .858 57 .844 1 .00 29 .95 A
ATOM 1926 O SER A 245 -7 .391 28 .754 57, .433 1 .00 25 .58 A
ATOM 1927 N SER A 246 -5 .589 30 .018 57, .910 1 .00 28 .72 A
ATOM 1928 CA SER A 246 -6 .191 31 .280 57 .494 1 .00 29 .87 A
ATOM 1929 CB SER A 246 -5 .264 32 .435 5 .863 1 .00 30 .51 A ATOM 1930 OG SER A 246 -3 .958 32 .211 57 .346 1 .00 41 .80 A
ATOM 1931 C SER A 246 -6 .507 31 .328 55 .998 1 .00 28 .94 A
ATOM 1932 O SER A 246 -7 .444 32 .006 55, .582 1 .00 26 .44 A
ATOM 1933 N SER A 247 -5 .713 30 .627 55, .194 1 .00 25 .00 A
ATOM 1934 CA SER A 247 -5. .939 30, .573 53, .745 1 .00 29 .18 A ATOM 1935 CB SER A 247 -4 .728 31, .112 52, .973 1 .00 29 .94 A
ATOM 1936 OG SER A 247 -4 .638 32 .521 53 .056 1 .00 38 .70 A
ATOM 1937 C SER A 247 -6 .198 29 .132 53 .322 1 .00 24 .86 A
ATOM 1938 O SER A 247 -5 .580 28 .200 53 .834 1 .00 26 .50 A
ATOM 1939 N PRO A 248 -7 .120 28 .930 52 .379 1 .00 26 .33 A ATOM 1940 CD PRO A 248 -8 .056 29, .891 51. .770 1, .00 29, .46 A
ATOM 1941 CA PRO A 248 -7 .408 27, .570 51, .940 1 .00 27 .61 A
ATOM 1942 CB PRO A 248 -8. .744 27, .725 51, .221 1 .00 30, .78 A
ATOM 1943 CG PRO A 248 -8 .655 29, .094 50, .647 1, .00 32, .87 A
ATOM 1944 C PRO A 248 -6 .336 26, .949 51, .047 1, .00 30, .21 A ATOM 1945 O PRO A 248 -5. .508 27, .650 50, .462 1, .00 20, .35 A
ATOM 1946 N GLY A 249 -6 .358 25 .618 50, .983 1 .00 26 .55 A
ATOM 1947 CA GLY A 249 -5 .441 24 .884 50, .136 1 .00 26 .90 A
ATOM 1948 C GLY A 249 -6 .300 24, .356 49. .002 1, .00 28. .34 A
ATOM 1949 O GLY A 249 -7. .527 24, .335 49, .133 1 .00 26, .16 A ATOM 1950 N TYR A 250 -5 .689 23, .927 47, .901 1, .00 23, .14 A
ATOM 1951 CA TYR A 250 -6 .464 23, .431 46, .766 1, .00 24, .57 A
ATOM 1952 CB TYR A 250 -6 .245 24. .327 45, .543 1, .00 22, .59 A
ATOM 1953 CG TYR A 250 -6, .476 25. .784 45. .841 1. .00 28. .67 A
ATOM 1954 CD1 TYR A 250 -5. .419 26, .623 46. .188 1, .00 29, .48 A ATOM 1955 CE1 TYR A 250 -5 .639 27, .936 46, .567 1, .00 31, .35 A
ATOM 1956 CD2 TYR A 250 -7, .764 26. ,305 45. ,873 1. .00 32. .49 A
ATOM 1957 CE2 TYR A 250 -7, .998 27. ,611 46. ,252 1. .00 32. ,13 A
ATOM 1958 CZ TYR A 250 -6, .933 28. ,423 46. ,602 1. .00 35. ,99 A
ATOM 1959 OH TYR A 250 -7, .187 29. .713 47. .009 1. .00 40. .28 A ATOM 1960 C TYR A 250 -6, .151 21. .991 46. .390 1. .00 23. .78 A
ATOM 1961 O TYR A 250 -5, .181 21. .406 46. .873 1. .00 20. .76 A
ATOM 1962 N TRP A 251 -6, .986 21. .429 45. .522 1. .00 19. .34 A
ATOM 1963 CA TRP A 251 -6, .779 20. ,070 45. .067 1. .00 20. ,03 A
ATOM 1964 CB TRP A 251 -7, .393 19. ,064 46. ,054 1. .00 20. ,29 A ATOM 1965 CG TRP A 251 -8, .830 19. ,318 46. ,390 1. ,00 20. ,84 A
ATOM 1966 CD2 TRP A 251 -9. ,340 19. ,762 47. ,653 1. ,00 25. ,16 A
ATOM 1967 CE2 TRP A 251 -10, .742 19. .878 47. .522 1. .00 26. ,95 A
ATOM 1968 CE3 TRP A 251 -8, .745 20. .073 48. .885 1. .00 25. ,11 A
ATOM 1969 CD1 TRP A 251 -9, .911 19. ,186 45. .565 1. .00 22. ,83 A ATOM 1970 NE1 TRP A 251 -11. .065 19. ,522 46. ,238 1. .00 25. ,67 A
ATOM 1971 CZ2 TRP A 251 -11. .560 20. ,292 48. ,579 1. ,00 30. ,64 A
ATOM 1972 CZ3 TRP A 251 -9. .559 20. ,486 49. ,938 1. ,00 29. ,51 A
ATOM 1973 CH2 TRP A 251 -10. .954 20. ,590 49. ,776 1. ,00 28. ,14 A
ATOM 1974 C TRP A 251 -7. .322 19. ,807 43. ,674 1. ,00 23. ,68 A ATOM 1975 O TRP A 251 -8. .346 20. 359 43. ,260 1. ,00 22. 93 A
ATOM 1976 N HIS A 252 -6. ,599 18. 965 42. ,952 1. ,00 21. 15 A
ATOM 1977 CA HIS A 252 -6, .989 18. ,552 41. ,627 1. .00 20. ,95 A
ATOM 1978 CB HIS A 252 -5. .863 18. ,846 40. ,634 1. ,00 20. ,31 A
ATOM 1979 CG HIS A 252 -6. .179 18. ,472 39. ,217 1. ,00 21. ,82 A ATOM 1980 CD2 HIS A 252 -7. .052 17. 575 38. ,701 1. ,00 21. ,05 A
ATOM 1981 ND1 HIS A 252 -5. .520 19. ,025 38. ,140 1. ,00 21. ,90 A
ATOM 1982 CE1 HIS A 252 -5. .972 18. 484 37. ,023 1. ,00 22. ,28 A
ATOM 1983 NE2 HIS A 252 -6. .902 17. 601 37. .335 1. ,00 20. 22 A
ATOM 1984 C HIS A 252 -7. ,192 17. 059 41. ,835 1. ,00 22. 82 A ATOM 1985 O HIS A 252 -6, ,227 16. ,299 41. ,920 1. .00 23. ,22 A
ATOM 1986 N VAL A 253 -8, ,451 16. ,654 41. ,964 1. .00 23. ,82 A
ATOM 1987 CA VAL A 253 -8. .782 15. ,259 42. ,2.02 1. .00 25. ,43 A
ATOM 1988 CB VAL A 253 -9. ,916 15. 107 43. 241 1. 00 27. 09 A
ATOM 1989 CGI VAL A 253 -9. ,451 15. 613 44. 597 1. 00 25. 70 A ATOM 1990 CG2 VAL A 253 -11.155 15.859 42.776 1.00 29.06 A
ATOM 1991 C VAL A 253 -9.201 14.528 40.941 1.00 29.50 A
ATOM 1992 0 VAL A 253 -9.710 15.128 39.986 1.00 22.22 A
ATOM 1993 N SER A 254 -8.979 13.221 40.954 1.00 26.50 A ATOM 1994 CA SER A 254 -9.335 12.383 39.827 1.00 27.23 A
ATOM 1995 CB SER A 254 -8.378 12.612 38.660 .00 31.48 A
ATOM 1996 OG SER A 254 -8.671 11.709 37.608 .00 34.90 A
ATOM 1997 C SER A 254 -9.344 10.907 40.173 .00 26.91 A
ATOM 1998 0 SER A 254 -8.367 10.358 40.688 .00 21.99 A ATOM 1999 N ASN A 255 -10.476 10.277 39.890 .00 27.94 A
ATOM 2000 CA ASN A 255 -10.657 8.859 40.104 .00 25.53 A
ATOM 2001 CB ASN A 255 -9.994 8.100 38.959 .00 32.79 A
ATOM 2002 CG ASN A 255 -10.364 6.638 38.944 .00 39.05 A
ATOM 2003 OD1 ASN A 255 -11.457 6.256 39.381 .00 38.05 A ATOM 2004 ND2 ASN A 255 -9.461 5.804 38.430 .00 41.64 A
ATOM 2005 C ASN A 255 -10.182 8.306 41.449 1.00 28.87 A
ATOM 2006 0 ASN A 255 -9.361 7.397 41.504 1.00 26.55 A
ATOM 2007 N ASN A 256 -10.695 8.870 42.534 1.00 25.90 A
ATOM 2008 CA ASN A 256 -10.365 8.379 43.867 1.00 26.88 A ATOM 2009 CB ASN A 256 -10.164 9.532 44.859 .00 26.24 A
ATOM 2010 CG ASN A 256 -8.856 10.271 44.638 .00 23.62 A
ATOM 2011 OD1 ASN A 256 -7.776 9.702 44.778 .00 20.26 A
ATOM 2012 ND2 ASN A 256 -8.952 11.549 44.283 .00 23.69 A
ATOM 2013 C ASN A 256 -11.551 7.533 44.312 .00 26.53 A ATOM 2014 0 ASN A 256 -12.690 811 43.943 .00 28.52 A
ATOM 2015 N LYS A 257 -11.289 505 45.103 .00 27.28 A
ATOM 2016 CA LYS A 257 -12.365 651 45.571 .00 29.67 A
ATOM 2017 CB LYS A 257 -12.122 208 45.114 .00 30.13 A
ATOM 2018 CG LYS A 257 -13.334 316 45.272 .00 35.82 A ATOM 2019 CD LYS A 257 -13.195 028 44.472 1.00 40.34 A
ATOM 2020 CE LYS A 257 -14.544 307 44.385 1.00 45.92 A
ATOM 2021 NZ LYS A 257 -14.570 283 43.300 1 .00 45.80 A
ATOM 2022 C LYS A 257 -12.517 707 47.087 1.00 28.28 A
ATOM 2023 0 LYS A 257 -11.552 519 47.832 1.00 28.10 A ATOM 2024 N PHE A 258 -13.736 978 47.538 1, .00 27.49 A
ATOM 2025 CA PHE A 258 -14.022 050 48.968 1, .00 28.58 A
ATOM 2026 CB PHE A 258 -14.726 366 49.310 1, .00 29.89 A
ATOM 2027 CG PHE A 258 -14.030 8.586 48.772 1..00 29.51 A
ATOM 2028 GDI PHE A 258 -14.296 9.045 47.483 1.00 28.03 A ATOM 2029 CD2 PHE A 258 -13.086 9.259 49.541 1..00 30.34 A
ATOM 2030 CE1 PHE A 258 -13.632 10.156 46.970 1.00 31.31 A
ATOM 2031 CE2 PHE A 258 -12.414 10.374 49.038 1, .00 30.25 A
ATOM 2032 CZ PHE A 258 -12.688 10.822 47.751 1.00 30.78 A
ATOM 2033 C PHE A 258 -14.906 4.874 49.384 1.00 28.35 A ATOM 2034 0 PHE A 258 -15.982 4 673 48.832 1.00 28.20 A
ATOM 2035 N VAL A 259 -14.445 4 100 50.359 1.00 30.00 A
ATOM 2036 CA VAL A 259 -15.193 2 943 50.830 .00 33.86 A
ATOM 2037 CB VAL A 259 -14.433 1 630 50.523 .00 33.76 A
ATOM 2038 CGI VAL A 259 -15.239 432 50.994 .00 31.77 A ATOM 2039 CG2 VAL A 259 -14.168 1, 529 49.036 .00 32.62 A
ATOM 2040 C VAL A 259 -15.446 3, 041 52.328 .00 34.06 A
ATOM 2041 0 VAL A 259 -14.513 3, 202 53.115 .00 35.14 A
ATOM 2042 N ASN A 260 -16.714 2, 931 52.718 .00 34.44 A
ATOM 2043 CA ASN A 260 -17.092 3.028 54.125 .00 36.76 A ATOM 2044 CB ASN A 260 -16.670 1.773 54.890 .00 43.66 A
ATOM 2045 CG ASN A 260 -17.631 .629 54.688 .00 52.65 A
ATOM 2046 OD1 ASN A 260 -18.847 .814 54.775 1.00 59.18 A
ATOM 2047 ND2 ASN A 260 -17.100 -.566 54.430 1.00 54.78 A
ATOM 2048 C ASN A 260 -16.456 250 54.762 .00 34.06 A ATOM 2049 0 ASN A 260 -15.950 195 55.882 .00 29.45 A
ATOM 2050 N SER A 261 -16.488 352 54.028 .00 34.37 A
ATOM 2051 CA SER A 261 -15.922 601 54.495 .00 36.33 A
ATOM 2052 CB SER A 261 -14.869 7.091 53.495 .00 30.37 A
ATOM 2053 OG SER A 261 -13.835 6.133 53.343 .00 29.11 A ATOM 2054 C SER A 261 -17.034 7.633 54.634 .00 36.66 A
ATOM 2055 0 SER A 261 -18.101 7.494 54.036 .00 37.04 A
ATOM 2056 N ARG A 262 -16.782 8.667 55.426 .00 35.39 A
ATOM 2057 CA ARG A 262 -17.770 9.723 55.621 .00 36.84 A
ATOM 2058 CB ARG A 262 -18.581 9.469 56.882 1.00 40.66 A ATOM 2059 CG ARG A 262 -17.722 9.300 58.115 1.00 43.81 A
ATOM 2060 CD ARG A 262 -17 .859 7 .892 58 .677 1 .00 52 .39 A
ATOM 2061 NE ARG A 262 -16 .937 7 .629 59 .786 1 .00 56 .18 A
ATOM 2062 CZ ARG A 262 -16 .818 8 .399 60 .869 1 .00 57 .27 A ATOM 2063 NH1 ARG A 262 -17 .561 9 .497 60 .998 1 .00 55 .24 A
ATOM 2064 NH2 ARG A 262 -15 .961 8 .063 61 .834 1 .00 54 .82 A
ATOM 2065 C ARG A 262 -17 .091 11 .076 55 .736 1 .00 35 .15 A
ATOM 2066 0 ARG A 262 -15 .876 11 .161 55 .915 1 .00 30 .12 A
ATOM 2067 N GLY A 263 -17 .886 12 .135 55 .640 1 .00 34 .17 A ATOM 2068 CA GLY A 263 -17 .333 13 .467 55 .746 1 .00 32 .70 A
ATOM 2069 C GLY A 263 -16 .957 14 .035 54 .396 1 .00 28 .85 A
ATOM 2070 0 GLY A 263 -17 .571 13 .716 53 .387 1 .00 28 .95 A
ATOM 2071 N SER A 264 -15 .934 14 .876 54 .377 1 .00 30 .16 A
ATOM 2072 CA SER A 264 -15 .484 15 .507 53 .145 1 .00 30 .06 A ATOM 2073 CB SER A 264 -14 .503 16 .635 53 .491 1 .00 28 .87 A
ATOM 2074 OG SER A 264 -14 .188 17 .408 52 .348 1. .00 35 .14 A
ATOM 2075 C SER A 264 -14 .837 14 .516 52 .167 1. .00 27 .54 A
ATOM 2076 O SER A 264 -13 .780 13 .951 52 .449 1 .00 27 .44 A
ATOM 2077 N MET A 265 -15 .477 14 .324 51 .015 1 .00 29 .88 A ATOM 2078 CA MET A 265 -14 .981 13 .409 49 .983 1, .00 32 .08- A
ATOM 2079 CB MET A 265 -15 .766 12 .093 50 .020 1 .00 30 .49 A
ATOM 2080 CG MET A 265 -15. .626 11 .347 51 .330 1 .00 37 .31 A
ATOM 2081 SD MET A 265 -16 .735 9 .921 51 .478 1, .00 40 .46 A
ATOM 2082 CE MET A 265 -18 .226 10 .735 52 .014 1, .00 41 .13 A ATOM 2083 C MET A 265 -15 .171 14 .081 48 .633 1, .00 31 .45 A
ATOM 2084 0 MET A 265 -15 .955 13 .617 47 .807 1, .00 29, .13 A
ATOM 2085 N PRO A 266 -14, .441 15 .186 48 .390 1. .00 32, .82 A
ATOM 2086 CD PRO A 266 -13, .381 15 .704 49 .276 1, .00 33, .76 A
ATOM 2087 CA PRO A 266 -14, .505 15 .965 47, .149 1. .00 32, .10 A ATOM 2088 CB PRO A 266 -13, .416 17 .021 47, .342 1. .00 33, .53 A
ATOM 2089 CG PRO A 266 -13, .281 17 .133 48, .835 1. .00 38, .84 A
ATOM 2090 C PRO A 266 -14, .265 15, .152 45, .881 1. .00 31, .43 A
ATOM 2091 O PRO A 266 -13. .338 14, .351 45, .822 1. ,00 29, .33 A
ATOM 2092 N THR A 267 -15, .102 15 .360 44 .871 1. .00 28, .49 A ATOM 2093 CA THR A 267 -14, .931 14 .670 43, .598 1. .00 33, .15 A
ATOM 2094 CB THR A 267 -16. .146 13. .788 43. .230 1. ,00 34. .23 A
ATOM 2095 OGl THR A 267 -17. ,294 14. .617 43. .009 1. 00 37. ,49 A
ATOM 2096 CG2 THR A 267 -16. ,449 12. .804 44. ,342 1. 00 35. ,82 A
ATOM 2097 C THR A 267 -14. ,752 15. .737 42. ,526 1. 00 34. ,29 A ATOM 2098 0 THR A 267 -14. .602 15, .432 41, .351 1. ,00 34, .85 A
ATOM 2099 N THR A 268 -14. .785 16, .998 42. .944 1. ,00 30. .97 A
ATOM 2100 CA THR A 268 -14. .598 18, ,113 42. .026 1. ,00 32. .84 A
ATOM 2101 CB THR A 268 -15. .815 19, .076 42. .045 1. ,00 35. ,83 A
ATOM 2102 OGl THR A 268 -16. 205 19. ,320 43. ,399 1. 00 42. 15 A ATOM 2103 CG2 THR A 268 -16. 994 18. ,471 41. ,295 1. 00 39. 82 A
ATOM 2104 C THR A 268 -13. 334 18. ,854 42. ,456 1. 00 30. 79 A
ATOM 2105 O THR A 268 -13. ,045 18. .967 43. ,646 1. 00 26. ,42 A
ATOM 2106 N SER A 269 -12. ,585 19. .356 41. ,481 1. 00 27. ,47 A
ATOM 2107 CA SER A 269 -11. ,329 20. .050 41. ,758 1. 00 28. ,01 A ATOM 2108 CB SER A 269 -10. ,355 19. .810 40. ,603 1. 00 27. 31 A
ATOM 2109 OG SER A 269 -10. ,294 18. .429 40. ,281 1. 00 24. 27 A
ATOM 2110 C SER A 269 -11. 468 21. 548 42. 002 1. 00 30. 07 A
ATOM 2111 0 SER A 269 -12. 324 22. ,205 41. 414 1. 00 32. 94 A
ATOM 2112 N THR A 270 -10. 622 22. ,083 42. 876 1. 00 27. 01 A ATOM 2113 CA THR A 270 -10. 638 23. ,507 43. 186 1. 00 27. 02 A
ATOM 2114 CB THR A 270 -10. 689 23. ,754 44. ,705 1. 00 25. 49 A
ATOM 2115 OGl THR A 270 -9. 611 23. ,059 45. ,335 1. 00 24. 38 A
ATOM 2116 CG2 THR A 270 -12. 006 23. ,262 45. 279 1. 00 23. 39 A
ATOM 2117 C THR A 270 -9. 398 24. ,190 42. 610 1. 00 28. 16 A ATOM 2118 O THR A 270 -9. 085 25. 331 42. 956 1. 00 29. 02 A
ATOM 2119 N THR A 271 -8. 682 23. 472 41. 751 1. 00 25. 27 A
ATOM 2120 CA THR A 271 -7. 501 24. 014 41. 094 1. 00 25. 29 A
ATOM 2121 CB THR A 271 -6. 338 24. 277 42. 073 1. 00 26. 55 A
ATOM 2122 OGl THR A 271 -5. 373 25. 125 41. 439 1. 00 21. 88 A ATOM 2123 CG2 THR A 271 -5. 647 22. 975 42. 456 1. 00 27. 58 A
ATOM 2124 C THR A 271 -7. 006 23. ,039 40. ,049 1. 00 25. 54 A
ATOM 2125 O THR A 271 -7. 372 21. ,870 40. ,059 1. 00 24. 89 A
ATOM 2126 N THR A 272 -6. 179 23. 536 39. 141 1. 00 23. 11 A
ATOM 2127 CA THR A 272 -5. 605 22. 699 38. 108 1. 00 25. 14 A ATOM 2128 CB THR A 272 -5.800 23.307 36.700 1.00 28.58 A
ATOM 2129 OGl THR A 272 -7 .191 23 .309 36 .357 1 .00 27 .70 A
ATOM 2130 CG2 THR A 272 -5 .042 22 .497 35 .668 1 .00 27 .82 A
ATOM 2131 C THR A 272 -4 .110 22 .550 38 .377 1 .00 29 .23 A ATOM 2132 O THR A 272 -3 .374 23 .533 38 .420 1 .00 24 .37 A
ATOM 2133 N TYR A 273 -3 .663 21 .320 38 .592 1 .00 25 .89 A
ATOM 2134 CA TYR A 273 -2 .250 21 .085 38 .824 1 .00 24 .99 A
ATOM 2135 CB TYR A 273 -1 .933 21 .016 40 .312 1 .00 24 .00 A
ATOM 2136 CG TYR A 273 - .455 20 .837 40 .560 1 .00 26 .27 A ATOM 2137 CD1 TYR A 273 .454 21 .822 40 .182 1 .00 24 .51 A
ATOM 2138 CE1 TYR A 273 1 .831 21 .622 40 .309 1 .00 23 .59 A
ATOM 2139 CD2 TYR A 273 .047 19 .644 41 .084 1, .00 23 .94 A
ATOM 2140 CE2 TYR A 273 1 .422 19 .434 41 .211 1 .00 24 .12 A
ATOM 2141 CZ TYR A 273 2 .305 20 .428 40 .818 1 .00 26 .72 A ATOM 2142 OH TYR A 273 3 .660 20 .221 40 .909 1 .00 23 .30 A
ATOM 2143 C TYR A 273 -1 .790 19 .801 38 .145 1 .00 27 .56 A
ATOM 2144 O TYR A 273 -2 .343 18 .724 38 .377 1 .00 21 .79 A
ATOM 2145 N ASN A 274 - .780 19 .939 37 .293 1 .00 26 .73 A
ATOM 2146 CA ASN A 274 - .215 18 .815 36 .558 1. .00 27 .82 A ATOM 2147 CB ASN A 274 - .276 19 .065 35 .048 1 .00 28 .89 - A
ATOM 2148 CG ASN A 274 -1. .676 19 .379 34 .560 1 .00 33 .35 A
ATOM 2149 OD1 ASN A 274 -2 .610 18 .601 34 .764 1, .00 33 .86 A
ATOM 2150 ND2 ASN A 274 -1 .826 20 .526 33 .906 1 .00 32 .07 A
ATOM 2151 C ASN A 274 1 .237 18 .666 36 .982 1 .00 28 .18 A ATOM 2152 O ASN A 274 2 .046 19 .563 36 .762 1, .00 25 .68 A
ATOM 2153 N PRO A 275 1 .583 17, .533 37, .611 1, .00 28 .36 A
ATOM 2154 CD PRO A 275 .728 16 .412 38 .036 1 .00 26 .11 A
ATOM 2155 CA PRO A 275 2 .967 17, .332 38, .044 1, .00 26, .76 A
ATOM 2156 CB PRO A 275 2, .936 15, .939 38, .665 1. .00 28, .99 A ATOM 2157 CG PRO A 275 1 .530 15, .825 39, .182 1. .00 29 .12 A
ATOM 2158 C PRO A 275 3 .913 17, .417 36, ,851 1. .00 26, .57 A
ATOM 2159 O PRO A 275 3, .615 16, .913 35, ,778 1. .00 24, .87 A
ATOM 2160 N PRO A 276 5, .065 18. .073 37. .030 1. .00 27, .28 A
ATOM 2161 CD PRO A 276 5 .399 18, .848 38, .235 1. .00 31, .49 A ATOM 2162 CA PRO A 276 6, .089 18. .255 36, .000 1. .00 29, .92 A
ATOM 2163 CB PRO A 276 6, .900 19. .429 36. .538 1. .00 27. .26 A
ATOM 2164 CG PRO A 276 6, .858 19. .187 38. .005 1. ,00 32. .63 A
ATOM 2165 C PRO A 276 6, .971 17. .032 35. .702 1. ,00 30. .14 A
ATOM 2166 O PRO A 276 8, .176 17. .158 35. .508 1. ,00 31. .18 A ATOM 2167 N TYR A 277 6, .376 15. .850 35. ,679 1. ,00 29. .20 A
ATOM 2168 CA TYR A 277 7, .121 14. .633 35. ,377 1. .00 24, .17 A
ATOM 2169 CB TYR A 277 7, .858 14. .102 36. ,610 1. .00 26, .40 A
ATOM 2170 CG TYR A 277 7, .023 14. .015 37. .865 1. ,00 22. .56 A
ATOM 2171 GDI TYR A 277 7, .165 14. ,963 38. ,878 1. ,00 21. .60 A ATOM 2172 CE1 TYR A 277 6, .387 14. ,911 40. .036 1. .00 20. .55 A
ATOM 2173 CD2 TYR A 277 6, .080 13. .003 38. .035 1. .00 20, .04 A
ATOM 2174 CE2 TYR A 277 5, .296 12. .936 39. .184 1. .00 23. .64 A
ATOM 2175 CZ TYR A 277 5, .455 13. ,896 40. ,182 1. ,00 22. .56 A
ATOM 2176 OH TYR A 277 4, .691 13. .848 41. ,319 1. .00 21, .13 A ATOM 2177 C TYR A 277 6, .141 13. .590 34. ,897 1. .00 26, .17 A
ATOM 2178 O TYR A 277 4, .936 13. .711 35. ,125 1. ,00 21, .33 A
ATOM 2179 N SER A 278 6. .640 12. 561 34. 227 1. 00 23. .88 A
ATOM 2180 CA SER A 278 5. .739 11. ,530 33. ,759 1. ,00 21. .44 A
ATOM 2181 CB SER A 278 6. .277 10. ,873 32. ,493 1. ,00 27. .50 A ATOM 2182 OG SER A 278 7, .367 10. .027 32. .783 1. ,00 30, .01 A
ATOM 2183 C SER A 278 5, .595 10. .496 34. ,863 1. ,00 22. .21 A
ATOM 2184 O SER A 278 6, .437 10. .404 35. ,758 1. ,00 20. .59 A
ATOM 2185 N TYR A 279 4. .514 9. .731 34. ,803 1. ,00 21. .21 A
ATOM 2186 CA TYR A 279 4, .256 8. .691 35. .783 1. ,00 22, .81 A ATOM 2187 CB TYR A 279 3, .873 9. .306 37. .140 1. ,00 24. .00 A
ATOM 2188 CG TYR A 279 2, .660 10. .211 37. .087 1. ,00 19. .88 A
ATOM 2189 CD1 TYR A 279 2, .776 11. ,542 36. ,695 1. ,00 23. .76 A
ATOM 2190 CE1 TYR A 279 1. .661 12. .376 36. .625 1. ,00 25. .52 A
ATOM 2191 CD2 TYR A 279 1, .393 9. .729 37. .410 1. ,00 19. .40 A ATOM 2192 CE2 TYR A 279 .271 10. ,550 37. ,343 1. ,00 21. .38 A
ATOM 2193 CZ TYR A 279 .415 11. ,871 36. ,951 1. ,00 23. .93 A
ATOM 2194 OH TYR A 279 .678 12. .687 36. ,894 1. ,00 23. .53 A
ATOM 2195 C TYR A 279 3, .129 7. .794 35. ,288 1. ,00 24, .43 A
ATOM 2196 O TYR A 279 2, .335 8. ,194 34. .441 1. ,00 25, .42 A t t o LΠ o 01 o o
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Figure imgf000101_0001
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Figure imgf000101_0002
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Figure imgf000101_0003
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Figure imgf000101_0004
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Figure imgf000101_0005
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Figure imgf000101_0007
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Figure imgf000101_0008
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Figure imgf000102_0002
Figure imgf000102_0001
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Figure imgf000102_0004
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Figure imgf000102_0005
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Figure imgf000102_0006
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Figure imgf000102_0007
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Figure imgf000102_0009
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Figure imgf000103_0002
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Figure imgf000103_0003
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Ω 2! OΩ P P Ω Ω Ω ≥; P Ω ΩΩ nθ O ≥; p n ≥; Ω O O Ω Ω ≥; P Ω θ n Ω ≥: θ Ω Ω Ω ≥; P O P ΩΩ l2; P O ΩP Ω Ω -3 P O ≥; P Ω Ω Ω l2; θ ΩO ΩΩ ≥! O Ωπ θ α α Ω tfl ϋ Ω Ω tfl rsi H α Ω tfl Ω td tfl Ω tfl QQ W> O D Ω tfl Ω lfl < Ω Ω tO M M M tO tO M tO M to μ M H H H M H |-ι t-i | , ir, L-, t1 l , lr, lr n ω ω m ω ra μy > Ω ω ω ω m cD ra ra ω ω m ω L L71 L7, Lr, L7l L-1 L Lτ1 κ: κ| ι- κi κi ^ ι<! ι-<! H H M lr,tl ,τjidrdrαrrjrrjrrjrrjMt? MHMHMHraωωωωraω tfl tO tfl tfl Lfl Lfl tθ Lfl Lfl tU Lfl tfl tU Lfl tθ fl Lfl tfl Lti Lfl W cn σ\CΛ σ\ c cn σ\ c cn w cΛ c cn c cΛ o^ cn c Λ θ^ cΛ c crι
Ln W ^ ιf^ ιt^ ιt^ φ. μ> ^ Φ> l L l L LO LO L L t M W t tO M tO tO tO M M M M M M O O O O θ ω O
LO rf^ to μ ι θ M σι M I
* uι ι o μ ω
Figure imgf000109_0003
Lπ LD O Lπ
M M M M tO tO tO tO M M M M M M M M M M M M tO tO tO tO M M M M M tO tO tO tO M tO tO tO tO tO tO ISJ tO tO M M M M M M M M M M M M M M M M M M M M M M M M M M
(D oo ^ α) u μ μ o ιt) ∞ j uι ^ iΛ Ui -j j ^ ffi w μ o o o αi B Q io M μ o μ ιo o o M H o μ o ^ α) (i) ^ ιi» oι m ιn uι ij o w w ι * fr uι * u ω ^ * m tjι (jι * o ^ M ω ) cn σ> ω Φ> ] o crι Φ. oo lf- ιn o t t ^ CD ω o crι ω ω w o^ cn L ω o L ^ i Lπ ι ι ^ ω 3 L cn Lπ M ι oo Lo ω ι i Lo Ln ^ LD to ι cΛ θ to ^ t Lπ Lo o w L Ln o i£i
M O tO l ] t CD Lπ cn Lπ 10 ^ Lπ l LO O LO L ιf^ α30 CD OO CX) Lπ lJ-l M I tO Cn lo ω
M M M M M M M M M M M M M M M ^J O CTi Lπ tO LO LO ^ ^ LO LO ISJ O O LO M M O SO SO O ω ιo ω (B (s ι ω (Λ m ^ uι iΛ Ui m ιi) t!i m ϋι uι uι σι uι ϋι ω ui i m uι ui ιii ui ιii *> αi ιf> φ. ω ι μ μ μ
CO ιfi O l tO tO M tO LO tO M l LO l M LD Ln LO CD Lπ l I cn LO l LO LO Cn M O ∞ tO LD LO LO M CΛ tO Cn π ro i M Lπ t -o. ι ^ Lπ L L τj M CΛ o ω cn ^ ∞ co cri M t to t ι crι to ^ ι ^ M cr> M ^ Lπ L m VD ι >fc- CΛ t to w Lθ M ω ω i ιf^ θ l t Lπ -j cn Lo ι cι 1f- o i LD Lθ M cn LD Co Lπ φ. i L
M M M M M M M M M M M M M M M M M M M M MMMMMMMMMM MMMMMMMMMM ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo
M W LO LO LO LO W LO W
Figure imgf000109_0004
ι ι cn l
Figure imgf000109_0005
m ω M L π u3 m M ω
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fl fl tO tfl tO tO tO tθ Lfl Lfl tfl tθ Lfl tO tfl fl tfl tθ fl ffl
UI t M
LΠ LΠ LΠ LΠ
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Figure imgf000110_0001
Figure imgf000110_0002
< H H H H H H H H ω ω m ω ω cn <! <: ; ; ω m ra m ω m <; -' L-< t7l t^ lr1 L L L-1 H tfl M M H M ω ω ω
L-< L-| tH |-, t1 H M M H H H M M Pd pd ^ ^ ^ ^ L7l t lr, L^ tH L^ ra tfl tO td fl B Lfl Lfl Lfl tO tO K tfl Lfl tU Lti ffl
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^ ^ ^ * ^ w u u w u ω u u M M W M M w μ H μ μ μ H μ o o o o o o o o » «ι ιo » ιo » θ) (D ii) αι co o] oι i i -j ^ ^ ! i si (iι o\ o\ o\ oι oι oι oι (iι uι uι uι uι uι
tO M M M M M M M I M M M M LO M M M LO to M t\J to t ιf5. LO t t ιf- tO tO M M tO M t0 LO 1fc. L t0 L0 hf- t L 1f- LO J L01fi 1f2. LO Lπ φ. L0 lf2. μ ιn tD io o i m rΛ ffi ω ω ^ w ^ u ιo ιθ H o iD ^ ι w u ω o u ^ w μ ω μ ffi ω o w μ m μ o ^ ι μ ιo ι μ w ω ιf> ϋi uι w o μ ω o ω ω (n i t oι <Λ ιf> co o iΛ)
M O t ^l tt^ Lπ ^ -J Lπ LO ^l O M tO O ^l CD Lπ OD ^ t LO ^ ω ω ^l LO M CD ω o CO ω CΛ J O ω CD Lπ O CO o ω
Lo o lπ Φ> to ι to to to Φ> ι o lπ Lπ iπ Λ iπ to W Ln αo -o Lo J ω ^ to lt^ o i£> M ! θD M Cθ ] crι ω
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M tO tO W tO tO tO t tO tJ tsJ tO tO tO lsJ tO tO tO tO M M M M φ. d^ μ> Lπ cn ^ l t M LO LD Crj Cθ ω CD ^ ^ OD O O M Φ' t L tO M LO L Lπ #> 1f^ L l μ Lπ Lπ m o oi μ o ^ μ u ω μ ui K i oj o ω w ^ io o o iΛ iB ω ω oi o o oi ω w cΛ w ω ∞ ω ^ ra μ o ^ vi i oi ω oi i ω a ω iii ω w io ^ ω io ro σi ui ^ ^ i u o μ oi ω j CD θ M ιf^ M c ιπ ω iβ to M t M θθ Lπ L o cD crι ] L Λ ^ ι lπ u> θ Lπ ω M ^ U) to o m
M μ u ιn oι o ιo μ * o μ μ oi H W (iι U M U W θ θ ι(> iD ii) ι ιi) si μ -J M o ιo o oι »μ oι μ o. u ιi) o ω uι uι ι ιt> θ ιt> ^ ι o μ uι ijι μ sj ^ o μ (ι) U) mu ui D μ μ μtoμμμμμμμμμμtoi ioioωtotoiotototowiotoioioω iωioiowtoioioioi ioutotoiototoioiototoioiotJioioiotoμμμμμHμμμμμμ O O CD 10D 100 l Cj CΛ I CD O O M
Figure imgf000110_0003
000 φ. O O l O O tO CO LD ω LO J> LO I LO Crι O
Figure imgf000110_0005
rΛ3 Λ tø CO
Figure imgf000110_0004
ω
MMMMMMMMM M M M M M 1 l-1 I-' t-> M M M M M M MMMMMMMM r^ -' t-' t-' l-' -' ' t-' l-' H' i-' t-' ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo
M M t tO M t M LO tO M M M tO tO tO tO M tO M tO tO tO tO M tO tO M tO tO M tO tO tO tO M tO LO tO M tO M ω tO LO LO LO LO D U3 Lπ M vo t Lo o ^ Lπ Lπ Lo o 4^ Λ ιf^ ω to t Lθ Lπ ^ M Lπ to n Lπ crι o c c tθ ιf^ M Lπ cn μ^ ra Lπ ι ι cxι ^ o ι c φ. crι to Lπ ^ o u> ^ M t to to to ι ι ω to Lo cn o to cA ιf^ co crι io ω o to t o -J iπ Lπ l M ^ o co ^ L Lπ Lπ σ m o M θθ Lπ ω i£> M ιf^ Lθ Lθ M crj . Ln crι M W
Lfl Lfl fl ffl ffl ro Lfl tO fl tfl Lfl fl ffl fl Lfl ti tO ffl
Figure imgf000111_0001
H >-3 >^ ι^ 3 H β μ3 H H H H β H ι-. 3 H H H H 3 ι^ ι-9 3 H H H H β H H H H H 3 H H H β H β 3 ι^ 3 ι^ H 3 μ3 H 0000 P 00 P P 0 P P P P P P P 0 P P 0 P P P P P P P P P P P 000 P P P P P 00 P P P P P P P P 0 P P P P P P P P P 0 P P P P P P 0 P
t to to to to to lΛ ι uι lΛ Ui iΛ l Uni *ιt. ωω ttoo μμ oo
Figure imgf000111_0002
Ω O ≥I P Ω Ω ≥I P Ω ≥i Ω Ω Ω Ω O a O OOΩ ΩΩ O OΩ O O O O ΩΩ S O Ω Ω ≥i O Ω ≥l Ω Ω ΩΩ Ω ≥i O Ω Ω O Ω Ω S O Ω O ≥; 00000-3000300 > N is α Ω tfl U U Q W M M ϋ Ω tfl N M O Ω tfl Ω Ω tfl > Ω tfl > > tO M tO M tO M
H Ω Ω Ω Ω L-, Lr1 -1 L-< lr, r^ lr, L7H lr, L-, L^ |-, -| lr1 L→ L-1 L-| Ω Ω Ω Ω Ω Ω Ω Ω L-| lr, L-, L-, L-, r7, L-, κ; κ; ι^ ι- κ; κ| κJ κl ! M M H H H M M H
MMHKj KjKjωωωramrorararaαqciαCL-jαcjαUC
LfltflLflLfltflLfltfltfltflLfltfltflLflLfltdtfltflωtflωLfltfltflω m co ro cx> θD CO Cx> α> ra oo oo cx> CD Co cD Co ω w ω oo ro c£> CD ω αo ω oD α> αo
Ln ln lπ φ. ιl-^ μ> lo ω ω ω LO LO LO Lo ω M M tO tO tO tO tJ tO M M M M M M M M M O O O θ ω O LD ω
to *>
Figure imgf000111_0003
LO tO M I
LD * CΛ l tø OO ω θ N3
Figure imgf000111_0004
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LO tø O M ιf^ tO O ι^ ! ω M LD O OO Cn CO Lπ to CX> LO O <£> Ln Ln θ ιJi O θ ω cΛ o t ^ to i Φ. to t cn CΛ cn Lπ L ra M ι oo cn M M CD to t ι co M ι W Lπ i Φ. Lπ Lπ ∞ cn i M MMMMMMMMMMMMMMMMM
Lπ Lπ ^ m W M ιf' tJ vi (iι uι ι o oo o o oι μ t>) j uι rΛ O *. OD
W M Oo
Figure imgf000111_0005
M M M M M M M M M MMMMMMMMMMMM i-1 t-^ i-> 1 i-' i-> -i i-' ^ l-' l-i -i -' M M M M M M M M M M M M M M MMMMMMMMMMM oooooooooooooooooooooooooσooooooooooooooooooooooooooooooooooooooooooo ooooooooooooooooooooσoooooooooooooooooooooooooooooooooooooooooooooooo
LO LO LO LO LO tO t tO tO Lπ Ln ^ if^ LO LO LO M LO tO tO tO tO LO tO tO tO ^ L ^ LO tO tO tO tO tO M Cn L0 ω . l U3 CD ! L0 l ^ rj L0 m L0 O U3 M ^ Λ ! μ> M l 100 L0 L0 O O Cn CD l O ιo w σι ιo μ -J . n c π tθ LD
Figure imgf000111_0006
fl fl ω ω to tfl LTJ tfl tfl tfl fl ω tfl tfl ω ω tfl tD ω
ATOM 2956 CG2 ILE B 85 2.597 12.852 889 1,.00 45,.01 B
ATOM 2957 CGI ILE B 85 2.658 15.193 005 1, .00 41, .89 B
ATOM 2958 CD1 ILE B 85 2.425 16.015 765 1, .00 40, .82 B
ATOM 2959 C ILE B 85 5.293 13.179 587 1, .00 34, .94 B ATOM 2960 O ILE B 85 5.312 12.003 975 1, .00 34, .23 B
ATOM 2961 N GLY B 86 5..952 14.148 7.213 1, .00 29, .10 B
ATOM 2962 CA GLY B 86 6,.753 13.844 8.384 1, .00 28, .36 B
ATOM 2963 C GLY B 86 6..236 14.413 9.692 .00 30.26 B
ATOM 2964 O GLY B 86 5.216 15.098 9.730 .00 30.69 B ATOM 2965 N ILE B 87 6.956 14.127 10.768 .00 25.91 B
ATOM 2966 CA ILE B 87 6.600 14.602 12.098 .00 25.13 B
ATOM 2967 CB ILE B 87 6.384 13.411 13.069 .00 25.26 B
ATOM 2968 CG2 ILE B 87 6.196 13.916 14.495 .00 26.57 B
ATOM 2969 CGI ILE B 87 5.172 12.594 12.632 .00 28.59 B ATOM 2970 GDI ILE B 87 4.948 11.338 13.456 .00 33.41 B
ATOM 2971 C ILE B 87 7.700 15.495 12.676 .00 25.27 B
ATOM 2972 O ILE B 87 8.890 15.190 12.573 1.00 26.31 B
ATOM 2973 N LYS B 88 7.297 16.597 13.291 1.00 24.70 B
ATOM 2974 CA LYS B 88 8.250 17.504 13.908 1.00 25.87 B ATOM 2975 CB LYS B 88 8.294 18.838 13.160 1.00 29.93' B
ATOM 2976 CG LYS B 88 9.248 19.844 13.782 .00 34.93 B
ATOM 2977 CD LYS B 88 9.091 21.222 13.167 .00 42.12 B
ATOM 2978 CE LYS B 88 9.983 22.248 13.851 .00 42.20 B
ATOM 2979 NZ LYS B 88 11.414 21.849 13.771 .00 47.27 B ATOM 2980 C LYS B 88 7.824 17.739 15.357 1.00 28.00 B
ATOM 2981 O LYS B 88 6.721 18.233 15.618 1.00 26.78 B
ATOM 2982 N ILE B 89 8.695 17.361 16.289 1.00 24.62 B
ATOM 2983 CA ILE B 89 8.446 17.533 17.721 1.00 25.38 B
ATOM 2984 CB ILE B 89 8.897 16.287 18.505 1.00 24.39 B ATOM 2985 CG2 ILE B 89 8.668 16.490 19.991 1.00 25.66 B
ATOM 2986 CGI ILE B 89 8.118 15.069 18.011 1.00 26.14 B
ATOM 2987 GDI ILE B 89 8.615 13.761 18.564 1 .00 27.51 B
ATOM 2988 C ILE B 89 9.230 18.752 18.196 1.00 26.58 B
ATOM 2989 O ILE B 89 10.448 18.815 18.039 1.00 28.11 B ATOM 2990 N TRP B 90 8.530 19.709 18.793 1.00 26.79 B
ATOM 2991 CA TRP B 90 9.151 20.954 19.232 1.00 28.37 B
ATOM 2992 CB TRP B 90 151 21.896 18.018 1.00 34.71 B
ATOM 2993 CG TRP B 90 659 23.277 18.216 1.00 47.15 B
ATOM 2994 CD2 TRP B 90 111 24.473 17.642 1.00 50.58 B ATOM 2995 CE2 TRP B 90 929 25.549 18.054 1.00 53.78 B
ATOM 2996 CE3 TRP B 90 8.008 24.735 16.816 1.00 55.56 B
ATOM 2997 CD1 TRP B 90 10.760 23.665 18.931 1.00 49.54 B
ATOM 2998 NE1 TRP B 90 10.927 25.030 18.838 1.00 51.05 B
ATOM 2999 CZ2 TRP B 90 9.679 26.877 17.670 1.00 57.72 B ATOM 3000 CZ3 TRP B 90 7.755 26.056 16.428 1.00 58.41 B
ATOM 3001 CH2 TRP B 90 8.590 27.111 16.859 1.00 59.86 B
ATOM 3002 C TRP B 90 8.403 21.549 20.439 1.00 26.49 B
ATOM 3003 O TRP B 90 7.181 21.630 20.448 1.00 26.38 B
ATOM 3004 N ARG B 91 9.151 21.960 21.455 1.00 25.51 B ATOM 3005 CA ARG B 91 8.576 22.515 22.676 1.00 29.08 B
ATOM 3006 CB ARG B 91 7.936 23.878 22.413 1.00 29.52 B
ATOM 3007 CG ARG B 91 8.890 24.905 21.829 1.00 39.35 B
ATOM 3008 CD ARG B 91 8.457 26.319 22.187 1.00 40.13 B
ATOM 3009 NE ARG B 91 .071 26.581 21.815 1.00 42.61 B ATOM 3010 CZ ARG B 91 .650 26.772 20.567 1.00 49.58 B
ATOM 3011 NH1 ARG B 91 .507 26.732 19.558 1.00 51.49 B
ATOM 3012 NH2 ARG B 91 5.367 27.010 20.326 1.00 51.74 B
ATOM 3013 C ARG B 91 7.533 21.552 23.227 1.00 29.72 B
ATOM 3014 O ARG B 91 .412 21.943 23.550 1.00 26.80 B ATOM 3015 N ALA B 92 .921 20.285 23.324 1.00 27.79 B
ATOM 3016 CA ALA B 92 .042 19.229 23.815 1.00 28.29 B
ATOM 3017 CB ALA B 92 .507 18.424 22.649 1.00 21.22 B
ATOM 3018 C ALA B 92 .809 18.312 24.769 1.00 28.00 B
ATOM 3019 O ALA B 92 .011 18.106 24.609 1.00 30.10 B ATOM 3020 N ASN B 93 .121 17.764 25.761 1.00 23.77 B
ATOM 3021 CA ASN B 93 .773 16.878 26.719 1.00 26.01 B
ATOM 3022 CB ASN B 93 .929 17.576 28.072 1.00 34.26 B
ATOM 3023 CG ASN B 93 8.718 18.861 27.971 1.00 44.02 B
ATOM 3024 OD1 ASN B 93 9.837 18.874 27.449 1.00 52.92 B ATOM 3025 ND2 ASN B 93 8.142 19.954 28.463 1.00 49.69 B
ATOM 3026 C ASN B 93 6.989 15.594 26.916 1.00 25.13 B
ATOM 3027 O ASN B 93 5.767 15.586 26.791 1.00 22.46 B
ATOM 3028 N ASN B 94 7.702 14.517 27.239 .00 22.68 B ATOM 3029 CA ASN B 94 7.085 13.215 27.479 .00 22.90 B
ATOM 3030 CB ASN B 94 6, .244 13.260 28.763 .00 19.65 B
ATOM 3031 CG ASN B 94 5.721 11.893 29.160 .00 24.72 B
ATOM 3032 OD1 ASN B 94 6.347 10.878 28.869 .00 21.72 B
ATOM 3033 ND2 ASN B 94 4.578 11.860 29.833 .00 18.28 B ATOM 3034 C ASN B 94 6.222 12.787 26.294 1.00 24.00 B
ATOM 3035 O ASN B 94 4.994 12.717 26.387 1.00 21.38 B
ATOM 3036 N ILE B 95 6.895 12.494 25.187 .00 22.47 B
ATOM 3037 CA ILE B 95 6.245 12.104 23.949 ,00 20.41 B
ATOM 3038 CB ILE B 95 6.560 13.129 22.818 ,00 23.75 B ATOM 3039 CG2 ILE B 95 5.802 12.765 21.556 .00 22.30 B
ATOM 3040 CGI ILE B 95 6.193 14.549 23.264 .00 19.90 B
ATOM 3041 CD1 ILE B 95 4..745 14.743 23.586 .00 19.71 B
ATOM 3042 C ILE B 95 6.715 10.720 23.493 .00 22.50 B
ATOM 3043 O ILE B 95 7.896 10.381 23.594 ,00 20.80 B ATOM 3044 N ILE B 96 5.779 9.925 22.993 ,00 18.66 B
ATOM 3045 CA ILE B 96 6.088 8.599 22.499 00 20.23 B
ATOM 3046 CB ILE B 96 5.424 7.514 23.363 1.00 21.47 B
ATOM 3047 CG2 ILE B 96 5.572 6.150 22.694 1.00 18.02 B
ATOM 3048 CGI ILE B 96 6.056 7.494 24.761 1.00 22.39 B ATOM 3049 CD1 ILE B 96 5.519 6.393 25.649 1.00 18.24 B
ATOM 3050 C ILE B 96 5.610 8.435 21.050 1.00 20.32 B
ATOM 3051 O ILE B 96 4.450 8.703 20.739 1.00 22.01 B
ATOM 3052 N ILE B 97 6.522 8.016 20.177 1.00 18.30 B
ATOM 3053 CA ILE B 97 6.219 7.774 18.766 1.00 19.28 B ATOM 3054 CB ILE B 97 7.126 8.596 17.823 1.00 18.70 B
ATOM 3055 CG2 ILE B 97 6.690 8.383 16.381 1.00 19.06 B
ATOM 3056 CGI ILE B 97 7.060 10.085 18.180 1.00 20.72 B
ATOM 3057 CD1 ILE B 97 5, 706 10.708 17.987 1.00 16.35 B
ATOM 3058 C ILE B 97 6.507 6 .298 18.549 1.00 20.79 B ATOM 3059 O ILE B 97 7.660 5 .867 18.601 1.00 21.89 B
ATOM 3060 N ARG B 98 5.462 5 .526 18.279 1.00 21.12 B
ATOM 3061 CA ARG B 98 5.634 4 .089 18.134 1.00 22.33 B
ATOM 3062 CB ARG B 98 5.369 3 .421 19.491 1.00 19.43 B
ATOM 3063 CG ARG B 98 5.239 1 .898 19.448 1.00 26.43 B ATOM 3064 CD ARG B 98 5.761 1 .267 20.741 1.00 30.85 B
ATOM 3065 NE ARG B 98 5.052 1. .767 21.909 1.00 33.80 B
ATOM 3066 CZ ARG B 98 5.622 2 .068 23.074 1, .00 33.88 B
ATOM 3067 NH1 ARG B 98 4.871 2 ..516 24.061 1..00 32.21 B
ATOM 3068 NH2 ARG B 98 931 1 .934 23.253 1, .00 28.42 B ATOM 3069 C ARG B 98 829 3 .368 17.077 1, .00 23.52 B
ATOM 3070 O ARG B 98 698 3. .727 16.772 1..00 22.54 B
ATOM 3071 N ASN B 99 443 2 .,330 16.526 1..00 21.35 B
ATOM 3072 CA ASN B 99 793 1 .,491 15.541 1, 00 20.35 B
ATOM 3073 CB ASN B 99 3.677 .707 16.233 1.00 20.96 B ATOM 3074 CG ASN B 99 3.263 -.513 15.460 1.00 21.55 B
ATOM 3075 OD1 ASN B 99 4.106 -1.274 14.988 1.00 21.34 B
ATOM 3076 ND2 ASN B 99 1.962 - .717 15.333 1.00 22.34 B
ATOM 3077 C ASN B 99 4.245 2 .235 14.327 1.00 22.29 B
ATOM 3078 O ASN B 99 3.111 2 .,018 13.913 1.00 23.63 B ATOM 3079 N LEU B 100 5.060 3, .114 13.756 1.00 26.28 B
ATOM 3080 CA LEU B 100 652 3, .866 12.578 1.00 23.88 B
ATOM 3081 CB LEU B 100 568 5, .358 12.890 1.00 25.97 B
ATOM 3082 CG LEU B 100 466 5 ..865 13.814 1.00 24.16 B
ATOM 3083 GDI LEU B 100 689 7.352 14.078 1.00 24.67 B ATOM 3084 CD2 LEU B 100 105 5.623 13.179 1.00 23.65 B
ATOM 3085 C LEU B 100 622 3.673 11.428 1.00 24.85 B
ATOM 3086 O LEU B 100 6.811 3.453 11.631 1.00 23.85 B
ATOM 3087 N LYS B 101 5.101 3.750 10.213 1.00 25.42 B
ATOM 3088 CA LYS B 101 5.934 3.641 9.032 1.00 27.44 B ATOM 3089 CB LYS B 101 5.376 2.596 8.062 1.00 29.44 B
ATOM 3090 CG LYS B 101 6.206 2.453 6.798 1.00 35.65 B
ATOM 3091 CD LYS B 101 5.575 1.488 5.796 1.00 39.27 B
ATOM 3092 CE LYS B 101 5.572 .051 6.302 1.00 44.47 B
ATOM 3093 NZ LYS B 101 5.198 -.897 5.202 B in t in o O
HoHoιo-aHoιo-3Hoιo-3βoβoo3ιo-3ιo-3μo3ιo-3Ho!o-3ιo--
Figure imgf000114_0001
o>o-3oιo-3ιo-3oι--HoHoιo-3oHooι-3Hooooooooooooooooooooooooooooooooooo ggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg
LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO ω M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M O O O O O O cri CΛ cn iπ iπ iπ Lπ Lπ Lπ iπ iπ iπ in ω Lo ω i i ω io L ω w
M M O 3 03 l CΛ Lπ 1fi lO t M O
Figure imgf000114_0002
U) CO l CΛ lπ ιfc. lO W M O £> Crj
≥l O Ω ≥i Ω Ω Ω O Ω ≥I O Ω O O Ω Ω O S O Ω Ω S O O O Ω Ω ≥J O Ω Ω Ω ≥l O Ω Ω Ω O O a O Ω O O Ω Ω Ω O ≥i O Ω a Ω ≥l Ω Ω Ω Ω -a O O Ω Ω Ω Ω Ω lS O Ω
N c α Ω tfl - a α Ώ to Ω to tu ι Ω Ώ ω HH D QB HMDD Q Ø D Ω Ώ to tO μ tO M tO M tO M M tO M M tO t< L-| lrl rrl L7, F L-, L-1 L-, > Ω Ω Ω θ ω ra m ω m ra
CΩ Ki Kj Kj i^ ωω O nLQ ωraLQ L-' lr' lr' → M M H - tS H τ3 ω ra m m ω ra m ra m id iϋ rϋ τ3 >τj rϋ rd τ3 i-< κ! κ; ι- :s ^ :Λ
Lfl tfl tfl Lfl tfl Lfl M Lfl Lfl tO tfl Lfl Lfl tfl W
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O M O O O O O O O O O <-3 I£> IO IO LD 3 10 U3 CD CO ∞ ∞ --J --J ] .J -J ^ C^ CΓI C^
M M M M M M M M M M M M M M M M M M w w to t w ω M t M M ω to o M M M ω o o ra ι m m ιπ cΛ ι cD ω ιo iO ω ω o ω ∞ o ^ Lπ ! i Lo w cD CD ω ω M -J θ M Lπ ^ ω ω Lπ o Λ co M CD M cn tθ Lπ M Lπ i M io ∞ CΛ Ln to c M M M Ln M ω ω μ w m * ^ i j s] ^ ω μ w μ iD μ ιo μ uι uι ι ι μ w ω * σ) θo iD <Λ j .j o o a ω ιt> o tn M μ *. μ o (i\ H i μ iD ^ ^ o μ u ιo ιf> o ω lΛ ιt> H μ μ o μ ι a o o ! 3 ω ιl^ L c cn Lo i£i o3 t Lπ M >f^ Lπ cn o ι i M ^ ι to tθ Lo M L D M cn LD M c cn M i M ι ω
M M M M M M M M M M M M tO tO tO M M tO tO tO tO M M M M M M M M M M M M M M M M M M M M M
Lπ lπ lπ cD θo iO θo ι c ι α) ω w o M U) U5 θ θ θ o i£> oo cD cn oo oo ι ι cΛ lπ w ] 0 l ^ O O l l ω U) Cn I O <£> 000 <O O U5 ^ ιt^ lO O 1000 tO O U3 lO t^ o to cτι Φ. cΛ ι i Lo Lo cD Lπ v£i Lπ ω ^ M Ln o to LD iD *> cn Lπ ^ σi cn M cn c oo ω ιo ^ ω ι co ιo ^ ι ι to ιn ιo Ln α) o w o ω o ιo ∞ ^ ι to ι ι ιπ (jι ι ιo ιπ m to Λ ω M O CO OO 1 00 1 00
Figure imgf000114_0003
MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMI M M M M MMMMMMMMM ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo tO CΛ CΛ M CT\ φ. M O M tO CD tO θ ω iπ l U3 -J θ ω i£ι lO M LO OO tO CXJ lD ∞ lO M O l ^ i ω uι uι ω uι uι ι» ιt> ιo μ o ω <Λ o ω ιi) io ιo v] ^ ι|i ω o ιo ι ii) s! *, o) (jι o (Λ μ ιo μ ιo (Ji ϋι o μ αnjι ω uι oo i£i M 00 L LD ιfc. M LO l Ln l Lπ φ> LD C0 LO l I -J . C0 lO M tO o μ i μ ^ o μ iMi o iti ω iii μ ω ω σi ^ ω o o tiKJi t uKKi o ^ αno iD io ^ ^ ifs t o ^ onD σi μ μ i tO ! Cn 100 L LO tO l lD O M LO M LO l o rf=. O L Ln tO LO
tfl tfl tO tfl tfl Lfl tfl Lfl Lfl Lfl tD tO tfl fl tfl Lfl tfl Lti tU ffl
ATOM 3163 CA ASP B 111 12.593 14.734 7.513 1.00 27.28 B
ATOM 3164 CB ASP B 111 13 .110 15 .446 8 .765 1, .00 29 .16 B
ATOM 3165 CG ASP B 111 14 .152 16 .502 8 .455 1. .00 29 .28 B
ATOM 3166 OD1 ASP B 111 14 .176 17 .541 9 .159 1, .00 29 .64 B ATOM 3167 OD2 ASP B 111 14 .954 16 .291 7 .520 1, .00 32 .03 B
ATOM 3168 C ASP B 111 11 .454 13 .809 7 .923 1, .00 27 .35 B
ATOM 3169 O ASP B 111 10 .306 14 .244 8 .024 1, .00 27 .64 B
ATOM 3170 N ALA B 112 11 .757 12 .535 8 .144 1, .00 23 .18 B
ATOM 3171 CA ALA B 112 10 .725 11 .602 8 .578 1, .00 24 .98 B ATOM 3172 CB ALA B 112 11 .284 10 .182 8 .634 1, .00 25 .70 B
ATOM 3173 C ALA B 112 10 .291 12 .060 9 .970 1, .00 25 .56 B
ATOM 3174 O ALA B 112 9 .108 12 .288 10 .233 1, .00 25 .31 B
ATOM 3175 N ILE B 113 11 .272 12 .204 10 .853 1, .00 26 .08 B
ATOM 3176 CA ILE B 113 11 .031 12 .663 12 .209 1, .00 27 .92 B ATOM 3177 CB ILE B 113 11 .135 11 .529 13 .250 1. .00 25 .54 B
ATOM 3178 CG2 ILE B 113 10 .918 12 .103 14 .649 1. .00 27 .71 B
ATOM 3179 CGI ILE B 113 10 .094 10 .450 12, .974 1. .00 28 .69 B
ATOM 3180 CD1 ILE B 113 10 .138 9, .290 13, .960 1. ,00 25, .50 B
ATOM 3181 C ILE B 113 12 .083 13 .696 12 .566 1, .00 26 .53 B ATOM 3182 O ILE B 113 13 .282 13, .454 12, .402 1. .00 26 .45 B
ATOM 3183 N GLY B 114 11, .625 14, .839 13, .059 1. .00 26, .36 B
ATOM 3184 CA GLY B 114 12 .534 15, .889 13 .463 1. .00 24 .14 B
ATOM 3185 C GLY B 114 12 .218 16, .383 14, .865 1. .00 26, .76 B
ATOM 3186 O GLY B 114 11, .063 16, .639 15, ,199 1. .00 24, .25 B ATOM 3187 N ILE B 115 13 .246 16, .501 15, .697 1. .00 24, .27 B
ATOM 3188 CA ILE B 115 13, .059 16, .989 17, .056 1. .00 26, .57 B
ATOM 3189 CB ILE B 115 13, .521 15, .967 18, .113 1. .00 26, .42 B
ATOM 3190 CG2 ILE B 115 13 .339 16, .551 19, .504 1. .00 24, .03 B
ATOM 3191 CGI ILE B 115 12, .704 14, .679 17, ,993 1. ,00 26, .18 B ATOM 3192 CD1 ILE B 115 13, .124 13. .605 18. .974 1. ,00 27. .16 B
ATOM 3193 C ILE B 115 13, .858 18. .268 17, .255 1. ,00 28. .36 B '
ATOM 3194 O ILE B 115 15, .052 18. .316 16, .968 1. ,00 28, .73 B
ATOM 3195 N GLU B 116 13, .194 19. .304 17. .749 1. ,00 28. .12 B
ATOM 3196 CA GLU B 116 13, .861 20, .576 17. .980 1. ,00 31. .56 B ATOM 3197 CB GLU B 116 13, .295 21, .648 17. .045 1. ,00 31. .98 B
ATOM 3198 CG GLU B 116 14. .256 22. .789 16. .788 1. ,00 40. .66 B
ATOM 3199 CD GLU B 116 13, .627 23. .919 15, ,987 1. ,00 45, .84 B
ATOM 3200 OE1 GLU B 116 12, .929 23. .642 14. ,983 1. ,00 45. .42 B
ATOM 3201 OE2 GLU B 116 13. .837 25. ,091 16. ,361 1. 00 47. .61 B ATOM 3202 C GLU B 116 13, .654 21. .000 19. ,426 1. ,00 29. .28 B
ATOM 3203 O GLU B 116 12, .549 20. .909 19. ,951 1. ,00 29. .19 B
ATOM 3204 N GLY B 117 14. .723 21. .447 20. ,069 1. ,00 31. .75 B
ATOM 3205 CA GLY B 117 14, .617 21. .884 21. .445 1. ,00 27, .56 B
ATOM 3206 C GLY B 117 13, .843 23. .189 21. .528 1. ,00 33. .43 B ATOM 3207 O GLY B 117 13, .718 23. .902 20. .528 1. ,00 28. .65 B
ATOM 3208 N PRO B 118 13, .297 23. .527 22. .708 1. .00 31. .86 B
ATOM 3209 CD PRO B 118 12, .594 24. .792 23. .003 1. ,00 32. .36 B
ATOM 3210 CA PRO B 118 13. .413 22. ,700 23. ,910 1. ,00 31. .85 B
ATOM 3211 CB PRO B 118 13. .171 23. .707 25. ,035 1. .00 33. .45 B ATOM 3212 CG PRO B 118 12, .129 24. .600 24. ,441 1. ,00 30. .11 B
ATOM 3213 C PRO B 118 12, .391 21. .558 23. .903 1. ,00 31. .09 B
ATOM 3214 O PRO B 118 11, .193 21. .781 23. .713 1. ,00 33. .18 B
ATOM 3215 N SER B 119 12, .886 20. .338 24. .089 1. ,00 27. .10 B
ATOM 3216 CA SER B 119 12, .058 19. .137 24. .130 1. ,00 26. .96 B ATOM 3217 CB SER B 119 11, .946 18. .493 22. .744 1. ,00 24. .46 B
ATOM 3218 OG SER B 119 11, .198 19. .289 21. .845 1. ,00 32. .24 B
ATOM 3219 C SER B 119 12, .750 18. ,163 25. .079 1. ,00 29. .97 B
ATOM 3220 O SER B 119 13, .983 18, ,087 25, ,106 1. .00 27. .78 B
ATOM 3221 N LYS B 120 11, .966 17. .414 25. .847 1. .00 26. .85 B ATOM 3222 CA LYS B 120 12, .530 16. .462 26. .792 1. ,00 28. .38 B
ATOM 3223 CB LYS B 120 12. .717 17. .138 28. .151 1. ,00 31. .21 B
ATOM 3224 CG LYS B 120 13. .942 18. .042 28, .200 1. .00 43. .39 B
ATOM 3225 CD LYS B 120 13, .820 19. .172 29, .227 1. ,00 50. .16 B
ATOM 3226 CE LYS B 120 13. ,609 18. 649 30. ,621 1. 00 51. ,00 B ATOM 3227 NZ LYS B 120 12. .267 18. ,012 30. ,741 1. ,00 59. ,68 B
ATOM 3228 C LYS B 120 11. .706 15. ,196 26. ,954 1. 00 24. ,77 B
ATOM 3229 O LYS B 120 10. ,485 15. 211 26. ,827 1. 00 25. .32 B
ATOM 3230 N ASN B 121 12. .404 14. ,104 27. ,240 1. ,00 21. ,77 B
ATOM 3231 CA ASN B 121 11. .801 12. ,791 27. ,432 1. ,00 21. ,01 B
Figure imgf000116_0001
LO LO LO LO LO UJ LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO LO L LO LO LO IO LO W ω to to to to to M to to to to to to to to to to t to to to to M to to to to t to to to w to to to to to to to to M o ιo ω ω ω ω o to ιo ' ω cD θD CD m oo oo ro oo oD oo ] ι ] ^ ^ ] ! ] ] ^ cΛ m o ω co ι cn ιπ ιt^ ι tθ M o u) CD ι cn ιπ μ ι tθ o v£> m ] crι iπ μ> ι to M o iD ∞
O P P O Π O O S P Ω ≥I P Ω Ω Π ≥; PO≥IO≥;θΩOΩ≥iPΩPPΩπΩ≥iPπΩθnQ≥iPΩOΩΩ≥;θΩΩOΩΩΩ≥;PΩOOΩΩΩ--;PΩ≥;θΩΩ HHtiQω ααΩω td H d ϋ Ω tfl O ϋ Ω tfl ΩΩt ffiNNMαKMOΩtfl DΩQtd> ϋϋffltύ to M M M tO M M tO tO M tO M tO LO tO M M LO tO tO M M tO tO M
FiT'Ft' ωmωωωωmω MH HH HHHmraLαωωro cαααCcriαL-j^S^ai^S-^smraωωωωraωωmrdroTjTjiTjrdTJO
Lfl tD tD tύ tfl Lfl Lfl fl tfl tfl tfl tfl tfl tfl Lfl tfl ffl M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M to to to to to to M to to to to to to to to to to to to to to to M to to to to to to to w to to to to to to to to to to w m cD CD ra D CD ra ra ι -j ! ι ι ι ι -j Λ σ cn cΛ cn cΛ σi crι
Figure imgf000116_0002
iπ w
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M
O O OO LO O IO O LD oioω-JKnonno icoiDioio nDαnoocinocoμio iooioμμ O M L0 O U3 C0 O M M C0 O O O O O to M LO M O M M O to to M O to t -j cΛ ra o ω ω
LO C M 1 03 I cr» L O OO O W
M cn o io
Figure imgf000116_0003
cn n ω
M M M M M M M M
L i μj i M tO M tO tf=. ιfi μ> *> tO M ω to M to M I μ to ω *. ιMπ u) ! ι m ! i i μ ι μ u ι|i ιt!. ω ιi!. uι cΛ θ iD ω u) ιMo μ tO M to to M ιf^ to to ω ιn o ω ι ω Lθ to ιn o Lo Λ iπ o Lπ ∞ Λ o CΛ ro ι ω ι ιπ ω to crι t ιt- w
L I M-, C CΛ lD LO OO Cn CrJ N} tO Crι lO ^ -O. C^ ^ α> lt^ lπ Lπ I M O C U) IO CΛ ^ M M tO Lo ω C 03 CD ιJ^ l Cn θ LO tO Lπ CΛ IΛ ω ω M lθ L O LO θ ω L M LO Ln Lπ L M O O O
M M M M M M M M M M M M M M M M M M M M M M M tO W tO M M M M M M M M tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO rO tO tO LO LO tO t LO CTl l l ! lO O M tO tO C. iπ Lπ lO l0 ^ lπ lπ Cθ ω iO 1 00 -J Cn l -O CX> O M O O lD O
(t- O ιt^ o ω tO M ω l Lπ M O M U5 i ω tO CΛ OO U> (Jl ] tO iπ CX> ra ω tO trj O D i ω ιt- M ir> fl OΛ ιt^ CΛ l >f^ l iπ U) O M CΛ Cn l t L M to ω n cn Lπ M LO U3 0 lπ M σ\ M θ M to ι o i M m w ∞ o cΛ cχ] to cΛ ω t ιo c ^ o ιπ o ω ι c M ω ιf^ Lπ M W
MMMMMMMMMMMMMM MMMMMMMMMMMMMMMMMMMMMMM MMMMMMMMMMMMMMMMMMMMMMMM oooooooooooσooooooooooooσooooooooooooooooo oooooooooooooooooooooooooo oooooooooooσoooooσooooooσooooooooooooooooo oooooooooooooooooooooooooo
NJ LO W W W tO tO M tO tO M M M M tO t M M tO tO tO tO M l tO tO tO I tO tO IO tO tO tO tO tO tO tO tO M tO tO to to to to to to to to to to to ι M M Φ. to to t to t M to to to to to w μ o o oi ^ ^ ili ^ tJi oo io co o to o oo ifl iMn ^ μ ui μ io μ μ to ω co ω u μ μ to μ io o to cD to io σi i uι μ to ^ ω uι σ\ μ ιo μ o ιo o vi uι uι tj μ oι μ uι ^ w ω ι ιo to ιπ ιo ιπ to ω ιo o ι ιo Lo Lπ c» o ι^ ιo ι co ιj^ cΛ o crι iπ o ιo cΛ <£> iD θ tJ o
C M lα3 l LO ιfi CO 00 Cr) tO L0 Λ C0 L l Φ. CD M > Lπ l l^ 0D Crj M ιf^ -J Crι ιJi Lπ C^ ω
tO tfl Lfl Lfl tfl tfl tfl Lfl tO Lfl tfl tfl Lfl tfl tfl ro
Figure imgf000117_0001
H H β H H iH H H iH H H H H id ^ i ^ H H ^ ^ β H H ^ J H H iH ooooooooo ooooooooooooooooooooo O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O g g g g g g g gggggggggggggggggggggggggggggggg
LO LO LO LO cΛ CΛ 3 ro
Figure imgf000117_0002
LO tO M θ ω
SOOPPΩΩΩ≥; p o n O O Ω Si P O ≥S P Ω O O ≥l ooonno--Popnoi2iPns;oaonoo2:poPoooonooas;p oooono≥iP α α Ω tfl Ω Ω tfl Ώ o a Ώ ω Ωtfl tdtdoaotfl a a Ώ to tO M to M α tO α M tfl tO M tO M M tO
Figure imgf000117_0003
to M t ip< : < >' : t-| ir, L-, L7, L F κjramraωωωωω 'ωcQraraωωωraHMHHHM-dH ra'ϋτ3'flπjr a r rjr rjr 0|→^tr,ι→tHirιL- 3-3-3ag-3-3-3c!G aa » fltflωtflLfltfltflLfltfltfltotoωLfltflLflLflωω
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tO M M M M M M M M M M M M M M M M M M M M M M M M M tO tO tO M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M O TO \D CD ] CD CD lO l C0 ^ Lπ ι^ lri CΛ ) CΛ Cn CΛ CD ] σ\ l ] VI) m θ M O tO I OO LD M LO O M tO L tO LO tO O tO M t M M LD
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Figure imgf000117_0004
m tD μ ι o o ω μ iD ω iD o μ t-' rΔ l-' t-i -i t- ιo ιo ιo ιo ιπ Φ. ^ ω ) ω uι m m ι m Λ ω ^ ^ muι mw o m <Λ uι uι ωω
CΛ M LO l i lxi oO O Cn cn I CΛ ro M O lπ
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Figure imgf000117_0005
I I I I I I I I I I I I I I I I I I I I I I I I I I M ιt^ ω ιt-. D CD C» CΛ Λ iπ ιπ ω ιπ w c iπ ι c iπ c C C ι^ ^ ^ I tO W tO M M LO tO M φ. . LO ^ LO tO M L rf- ^ tO LO tO tO ^ ^ LO ^ Lπ Λ ^l o o M M SO CO LO LO
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tf ro Lfl tfl ro Lfl tO Lfl ra tfl to to M Lfl tfl Lfl tfl Lfl ro
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Figure imgf000118_0001
lO LO μ lfi u ω j j ! ∞ !
Figure imgf000118_0002
Ω OΩΩ Ω Ω O Ω ≥; P ΩΩ Ω Ω ΩΩ ≥! 000 -3 P Ω P P Ω OΩ ≥; P O O Ω Ω O OΩΩ Ω Ω ≥i O Ω O Ω Ω Ω Ω O Ω Ω Ω ≥; θO O O Ω O O ≥; θ Ω a Ω O Ω O Ω NHH CiαθW tj O O tfl >" O O Ω tfl K ISl M α M O Ω tfl ; ffi N Ed σ td ϋ Ω tfl μ^ O O Ω tfl >> N H tJ Q B tO M tO M tO M tO M tO tO M M l M μ H b t-> τ3 πJ πJ τJ O τ3 τJ τJ τJ |-' |-' |-' |-ι t< F t1 F Ω O O Ω ; ^
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LflωLtitflωtflωωωω fltdLfltotfltdtflwtfltoω MMMMMMMMMMMMMMMMMMMMMMMMMMMMMM
Figure imgf000118_0003
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M tO tO tO tsJ tO tO ιπ ιf^ cn ιt^ crι ιπ ιπ lπ ιn ι d-. ^ cΛ in ιπ ιπ cΛ Φ> Lπ c Λ C CΛ ^ co ι cΛ cn ιn cn ιπ o lπ ιJ^ ] lπ CD ^ OO -J OO ^ CO l Cn CI) CD tO M lπ ^ CX3 C CD C tO in ιf-. tO ιπ ιt^ lO ∞ iπ μ> M M ^ ^ ] OO Ch LO CΛ OO LO tO CD lo l >£> ιπ tO M O μ> lO in Φ' lo tO ] OD lO tO O O CD OO tO ιfi lO lπ M ω ω ro cD cn ^ σ* ω ω Lπ ω lfi μ> ιπ oo ιfi to to ω M θ to ω crι Φ> o to n Lπ ^
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M
O O O O O O LO M O O O CD ^l ∞ ∞ O M tO tO lO tf- tO LO ^l CΛ CΛ Cn ^ φ. ^ ^
C iΛ M C θ M !O to <£> ω ιπ M M ιf-. CD t ω Lπ ω w ω ] m Lπ ι ω ω u) lπ ιf^
CD M tO VO M ιt^ Oθ LO LO Ln tO U3 C^ LO LO OO M ω oθ LO tO M lD tO l M tO ι^ OD ω l tO LO Lπ LO O U3 C^ M ^ l ∞ M M M Crι tO tO ln LO LO M W tO l ω tO LO CX> M C^ Φ> tO lπ o Cn tO CD 1 0 t CΛ U) CD l ] OD
M M l l l l l l l l I I I I I I I I I CΛ i M Lπ ^ jfϊ. Lo iπ jp. rf- o to t M M ifc. ^ io to M lsJ ' I-1 ' |-J ' l-^ t to
Lπ ι
Lπ. tυ M t
Figure imgf000118_0004
CD l
MMMMMM M M M M M M M M M M MMMM M MMMMMMMMM i-1 -' -' t-1 l-i i-' t-1 Λ r-' >-^ r-' t-Λ t-> l-' Λ t-' oσooooooooooooooooσoooooooooooooooooooooooooσoooooooooooooooooooooooo oooooooooooooσooooooooooooooooooooooooooooooooooooooooooooooooooooooo tO LO tO M lO M tO tO tO W
-j o ι ro
Figure imgf000118_0005
L lO tO M -O t M Ln θO CΛ lO ∞ Crι tO Lπ M tO LO M M Cn M lO Cn LO >fi M -J ιf^ μ O lO tO tO M tO CD O lf^ M CT\ CO Lπ . CD OO M φ. Cn Crj CΛ OD lO LO LO O CD ro LO Lπ tO Lπ C tO ] tO LO O tO -O . O . . LO Ln C ∞
Lfl Lfl fl tfl tfl tfl Lfl Lfl tfl tfl Lfl tfl tfl tfl tfl tfl tfl Lβ ω
ATOM 3439 C PHE B 144 16.775 12.258 12.828 1.00 26.95 B
ATOM 3440 0 PHE B 144 17 .914 11 .908 13 .129 1 .00 28 .13 B
ATOM 3441 N ASP B 145 16 .389 13 .526 12 .795 1 .00 28 .28 B
ATOM 3442 CA ASP B 145 17 .301 14 .605 13 .135 1 .00 27 .21 B ATOM 3443 CB ASP B 145 17 .363 15 .649 12 .007 1 .00 28 .42 B
ATOM 3444 CG ASP B 145 17 .942 15 .090 10 .721 1 .00 29 .32 B
ATOM 3445 OD1 ASP B 145 18 .663 14 .071 10 .775 1 .00 30 :25 B
ATOM 3446 OD2 ASP B 145 17 .687 15 .677 9 .650 1 .00 34 .16 B
ATOM 3447 C ASP B 145 16 .876 15 .278 14 .428 1 .00 30 .21 B ATOM 3448 0 ASP B 145 15 .693 15 .354 14 .747 1 .00 29 .37 B
ATOM 3449 N VAL B 146 17 .862 15 .772 15 .163 1 .00 30 .16 B
ATOM 3450 CA VAL B 146 17 .625 16 .433 16 .430 1. .00 29 .53 B
ATOM 3451 CB VAL B 146 18 .011 15 .511 17 .609 1 .00 28 .68 B
ATOM 3452 CGI VAL B 146 17 .618 16 .152 18 .920 1 .00 30 .18 B ATOM 3453 CG2 VAL B 146 17 .343 14 .157 17 .456 1 .00 26 .99 B
ATOM 3454 C VAL B 146 18 .510 17 .665 16 .471 1 .00 31 .71 B
ATOM 3455 0 VAL B 146 19 .697 17, .578 16, .172 1, .00 33 .00 B
ATOM 3456 N LYS B 147 17, .938 18, .809 16, .834 1, .00 31 .70 B
ATOM 3457 CA LYS B 147 18, .717 20, .033 16, .907 1, .00 34 .22 B ATOM 3458 CB LYS B 147 18, .472 20, .918 15, .680 1, .00 35, .14 B
ATOM 3459 CG LYS B 147 17, .013 21. .281 15, .452 1, .00 42 .55 B
ATOM 3460 CD LYS B 147 16, .849 22. .370 14, .397 1, .00 50, .31 B
ATOM 3461 CE LYS B 147 17 .411 21, .949 13, .046 1, .00 53 .42 B
ATOM 3462 NZ LYS B 147 16, .697 20, .754 12, .504 1, .00 61 .09 B ATOM 3463 C LYS B 147 18, .407 20, .812 18, .172 1, .00 34 .27 B
ATOM 3464 0 LYS B 147 17, .369 20, .621 18, .811 1, .00 32, .11 B
ATOM 3465 N ARG B 148 19, .343 21, .677 18. .536 1. .00 32, .91 B
ATOM 3466 CA ARG B 148 19. .220 22. .511 19. .714 1. .00 35, .12 B
ATOM 3467 CB ARG B 148 18. .042 23. ,463 19. .551 1. .00 39, .92 B ATOM 3468 CG ARG B 148 18, .265 24. ,778 20. .266 1, .00 55 .90 B
ATOM 3469 CD ARG B 148 17, .391 25, .865 19, .675 1, .00 62 .74 B
ATOM 3470 NE ARG B 148 17, .351 25, .778 18, .219 1, .00 67 .89 B
ATOM 3471 CZ ARG B 148 16, .214 25. .694 17. .539 1, .00 75 .54 B
ATOM 3472 NH1 ARG B 148 16, .214 25. .618 16. .208 1. .00 78, .49 B ATOM 3473 NH2 ARG B 148 15. .063 25. .686 18. .208 1. .00 78, .93 B
ATOM 3474 C ARG B 148 19. .118 21. ,752 21. .036 1. .00 33, ,09 B
ATOM 3475 0 ARG B 148 19. .680 20. ,664 21. ,181 1. ,00 32, .62 B
ATOM 3476 N ASP B 149 18. .399 22. .323 21. .999 1. .00 31, .57 B
ATOM 3477 CA ASP B 149 18, .296 21. .720 23. .322 1. .00 34, .42 B ATOM 3478 CB ASP B 149 18, .140 22. .811 24. .396 1. .00 36, .47 B
ATOM 3479 CG ASP B 149 17. .077 23. ,842 24. .054 1. .00 37, .71 B
ATOM 3480 OD1 ASP B 149 16. .679 24. ,597 24. .963 1. ,00 39, .17 B
ATOM 3481 OD2 ASP B 149 16. .646 23. ,917 22. ,883 1. ,00 39, .15 B
ATOM 3482 C ASP B 149 17. .241 20. ,647 23. ,544 1. ,00 34. .18 B ATOM 3483 0 ASP B 149 16, .236 20. ,879 24. ,215 1. ,00 33, .58 B
ATOM 3484 N ALA B 150 17. .487 19. ,466 22. .990 1. .00 31, .44 B
ATOM 3485 CA ALA B 150 16. .576 18. ,347 23. ,145 1. ,00 31, .03 B
ATOM 3486 CB ALA B 150 16. .240 17. ,746 21. .790 1. ,00 28, .78 B
ATOM 3487 C ALA B 150 17. .354 17. ,359 23. .983 1. ,00 33. .40 B ATOM 3488 0 ALA B 150 18. .526 17. ,111 23. .704 1. ,00 36. .62 B
ATOM 3489 N GLU B 151 16. .730 16. ,806 25. ,016 1. ,00 33. .08 B
ATOM 3490 CA GLU B 151 17, ,429 15. ,854 25. .878 1. ,00 32, .03 B
ATOM 3491 CB GLU B 151 18. .114 16. ,606 27. .018 1. .00 32, .94 B
ATOM 3492 CG GLU B 151 17. .236 17. ,612 27. .731 1. .00 40, .65 B ATOM 3493 CD GLU B 151 18. .051 18. ,688 28. ,433 1. ,00 42, .03 B
ATOM 3494 OE1 GLU B 151 18. .976 18. ,326 29. ,192 1. ,00 38, .31 B
ATOM 3495 OE2 GLU B 151 17. .759 19. ,887 28. ,220 1. ,00 42, .69 B
ATOM 3496 C GLU B 151 16. ,574 14. ,724 26. ,441 1. ,00 27, .10 B
ATOM 3497 O GLU B 151 15. ,342 14. ,799 26. .448 1. .00 25 .88 B ATOM 3498 N TYR B 152 17, ,254 13. ,680 26. .913 1. .00 25, .89 B
ATOM 3499 CA TYR B 152 16. .603 12. ,497 27. .471 1. .00 22, .83 B
ATOM 3500 CB TYR B 152 15. .727 12. ,892 28. .664 1. .00 27, .84 B
ATOM 3501 CG TYR B 152 16. .512 13. ,558 29. .762 1. .00 26, .93 B
ATOM 3502 CD1 TYR B 152 17. .506 12. 858 30. ,449 1. ,00 34. .41 B ATOM 3503 CE1 TYR B 152 18. ,279 13. 476 31. ,431 1. ,00 33. ,94 B
ATOM 3504 CD2 TYR B 152 16. .302 14. ,899 30. ,086 1. ,00 30. .75 B
ATOM 3505 CE2 TYR B 152 17. .067 15. ,532 31. .063 1. .00 31, .89 B
ATOM 3506 CZ TYR B 152 18. .056 14. ,815 31. ,729 1. ,00 37, .79 B
ATOM 3507 OH TYR B 152 18. .842 15. ,440 32. ,670 1. ,00 41, .03 B φ- to o in o ι-3>-3ι-3Hι-3Ht-3ι-aHHH βHι-d 3ι-3 3 3ι-3ι-3ι-3H 3ι-3HH>-3 3ι-3 3 ι-3H 3ι-3ι- ^ O0OPPPPPO000000O000OO0OO00OPPPPPP00POOP0000PPOPOOPPOPPOOOOP0POOP00OOP
LO ϋO LO LO ω ω LO ω LO LO LO LO ω ιn Lπ ιπ ιπ ιπ w ιπ ιπ ιn ln Lπ ιn ιπ ι ι -o -o ι -j -o c CΛ C cΛ CΛ CΛ
CTι ιπ )fr ω M M σ VO OO ! CΛ iπ d-.
Figure imgf000120_0001
LO W
≥I P O O Ω Ω Ω O Ω Ω Ω O -30 Ω -30 Ω O Ω -30 Ω Ω Ω Ω -3 Ω Ω Ω Ω O Ω Ω l2; θ Ω O Ω O -30 Ω Ω Ω O Ω Ω Ω Ω Ω ≥; θ Ω Ω O Ω Ω -300 Ω Ω Ω Ω Ω ≥i O Ω
K N H tJ H O tfl a α Ω to > cα N N td ci is t D Ω to Ω tfl N td is α α Ω a O Q M α o Ω ω to CO M M tO M CO LO tO M M LO tO tO tO M tO M tO M M M tO 3 3 β H H β ^ 3 H ι^ H ι^ ' 3 ι^ 3 H μ3 H H H 3 3 H H H ω LΩ ω ω m m τ3 iϋ κ; κ; i κ: κi ι^ κ; i ι<; κ! ra ra ω m m ω ω m ^ ^ ^ ^ |S 3 ^ 3 ^ ^ ^ 3 rfl fl H M t M
|-ι pd ^ |a ^ 3 !Λ f0 ^ 3 ^ rfl » a -33 l2i -3 l-, 33 O 3 r rj r 0 rrj τ3 ir) τd 'fl πJ O tfl tfl tO Lfl Lfl tO Ofl tfl tfl Lfl tO Lfl Lfl tO Lti tO Lfl tO Lfl W M cΛ iMπ LMπ Min Miπ Miπ iMn iMn Mw iMπ Miπ MLπ MLn iMπ Miπ MLπ Min LMπ Miπ Mlπ MLπ Min LMπ iMπ Miπ Min Miπ Miπ iMπ Mw M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M
O lO V£> lD lD LO LO lO lD VO VO V£> lO CD OD CD CX> θα θO OD CO l l ] l -0 -J l ! I I l l l l CI CΛ C^
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M Lπ L
Figure imgf000120_0002
iti L L ifi σι ιfi ω θO hfi M l ιf^ O Crι tO M Crι ι)-, LO 3 LO M CrJ CΛ O L L o ω θO OO t t t LO L CO U3 C^
O L l l l tO tO tO M CΛ M LO ι^ ω tO O tO Ln iD M Lπ cΛ Cθ ω θ M LO U3 M M M M L Lπ CD Ln cr> OO M O L ^ LD L Co ω
VO O VD t ^ M M i ω o iO M l lπ θ M VO l tO CD l C tO CX> lπ Φ' ^ iπ lo l£> M lD ιt^ ιfi CΛ VO tO l ^
I I I I I I I I I I I I I i-1 M M M LO tO tO tO tO M M M I LO LO LO to M I CΛ Lπ Lπ tO M
Figure imgf000120_0003
O σ> Lπ M LO OO l M LO OO C M M l^ O ^ CD L L Ln θ lf^ VO W O CD M ω θO CΛ VO CΛ ω cΛ O O Lπ M l W t U3 M CΛ M M μ> ∞ tO VO M O L l tO M CI) 0 l l VO VO O Lπ tf^ O O -O Lπ M O-l Lπ Lπ L Lπ o tO l tO cn M LO M tO I VO O M l L W
M θ Lπ ^ J^ t Ln Ln CD Vθ . O l Crι Lπ [O L M CΛ tO tθ ω M OD O Λ C iΛ l t CI) O CD O ιfi VO tO CrJ O ∞
M M tO tO M M M M M M M M M M M M tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO
O to o
L OO
Figure imgf000120_0004
Lπ tO
MMMMMMMMMMMM MMMMMMMMMMMM M M M M M MMMMMMMMMMMMMMM M M M M M oooooooooooooooooooooooooooσooooooooooooooooooooooooooo oooooooooooooo ooooooooooooooooooooooooooooooooooooooooooooooooooooooo oooooooooooooo to to to ω ω ω w ιπ ω ι m to to iO
L M Lπ M ιfi |fi φ' μ * o t ω o ω
Figure imgf000120_0005
fl tO tD fl tfl tfl lfl tfl ifl tfl rfl tfl tβ tβ lfl td rø
Figure imgf000121_0001
lO l lo l LO > l L lO lO lO lO {jO l L l Lθ ω LO lo {jJ lo ω ω iO l L l ω iO CΛ CΛ O m CΛ CΛ CΛ CΛ CΛ C CΛ CΛ Cn CΛ CΛ Cn cn CΛ C CΛ CA CΛ Cn C^
^ ^ ^ ιii ι. ^ u ω w u ω w u ω u ω ι M u κ) M W N) M K) W H μ μ μ μ H μ μ o o o o o o o o o o ^ iD ^ ω ιo i() iD io a ιc oJ co o3 α) iιi (B co co (D cθ j ^ ^
Ln Φ. LO tO M O VO OO 10 Lπ ^ LO tO M O U3 CD i σ\ Lπ ιf^ ω tO M σ VD Cri l CΛ Lπ M-. lO tO M O VO CIJ l C
O Ω Ω ≥S O O Ω LO π π Ω a O Ω O O O ≥l O Ωig Ω Ω Ω Ωπ S O ΩΩ ΩΩ -ϊl Ω O Ω ΩΩ Ω O ≥I O Ω Ω ≥I O Ω O O Ω ΩΩ ΩΩ O Ω ≥; Ω Ω Ω Ω !∑; O Ω O Ω Ω Ω Ω tfl >' td α Ω tfl Ω tfl N H ϋ Ω BJ c csi N td α td dd α Ω tϋ ϋ OOt hύ-t>*i>j ≥; w≥; Ω td h tdi M α M D n Ω m to Η o Ω Π Ω M tfl J tO LO tO M M LO tO tO tO M lo μ μ to to M
L-| L-, L-' L7, g S g g ra co ro m ra m L-| lr, L-, Lr< L7, L-H lrl Lrl L-H H3 i^ H
M M M M H M M M M -d H H M M td M H H κ; κ| κi α C c_; C ι-3 ι-3 3 ι-3 β 3 H ι-3 :a ^ ^ ;# 3 :fl ra ω ra cA m ω ω m ω >fl
Lfl tfl tfl llf Lfl tfl Lfl Lfl tO tO tfl tfl tfl Lfl tO W
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M CΛ CΛ C CΛ C CΛ C C Cn CΛ C^ CΛ CΛ C CΛ C CΛ Cϊ Cn CΛ cn cΛ CΛ CΛ C^ oo oo co oo ι ι ι ι ι ι ι ι c c C crι Λ C iπ lπ lπ ιn Lπ ιπ ιn ι Lπ ^ >t^ ιf^ ^ ιt^ Φ> ^ φ> ιJ^ ^
tO tO tO M M M M M M M M M M M M M M M M M M M M M M M M M M W CO m
Lπ σi CO
Lo cn vo
Lπ Cn θ
Figure imgf000121_0002
M MMMMMMMMMMM M r^ M t-1 M i-^ M I-1 M t-^ M M i-^MMt-'MMi-'MMr^MMr^MMt-'MMi-'MM^Mr^ M M M M
CΛ ( l ιfi LO M tO CΛ -J OO O M O O O I CO LD VO M O Ln ιfc- ^ LO tO M O VO O OO VD OO VO O VO LO VO O O VO CO I I I LΠ LΠ LΠ h-i M LO LO to LO LO tO tO M tO LO Ln lO tO D CTι Lπ ^ lD ! C CO M M μ ^ M M O LO a lθ LO l lπ ra in ω Φ' αo lO M l£> tO lO W O ] μ> OO tO C^ ω -j W M to cD ιf^ Λ θ o o ι to ιn M ω ι to o cΛ ιJ^ ι vo ! CΛ to ιπ ω o ω cn ω c^ ] l£> l00 tO lD O O O O ' O lO CΛ tO lO tO Crι CΛ Co ω c» M ^ CD lO CD VO ιti I M OD O VO lO
M M M M M M M M M M l l l l l l l l
M L L tO M M O VO VO U300 CD l CΛ C tO tO LO LO Lπ Lπ L L LO L tO LO tO M M tO M M tO tO tO tO tO tO tO M M M tO LO hf-. ιf-. Lπ ιfc. >fc. CΛ Lπ iπ iπ l lτJ CD M lD O lO
LO tO tO ∞ OD -J M lπ tO Ln lO M Φ' LO M ^ O O lo tO O ^ lO VO O M OO ^ M ^ M CΛ Cn. lO M Cri lo Ch
M O t 0D ! l0 O ln t ιf-. V0 lπ C0 O ln ^ iπ Λ CΛ ιl^ L0 ιπ CΛ M L0 CΛ V0 lD iπ l 0000 ω ω
Cn θ O VO >f^ lo ω l ! 00 ^ 00 ] M CD ^ CΛ tO ^ L ω cr> M lo ω iO M O lD O l l L CΛ U)
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M oooooooooooooooooooooooooσooooooooooooooooooooooooooooooooooooooooooo ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo
LO LO LO LO lO LO ω ω M M LO tO tO LO U1 tO M O tO M tO ι^ 3 VO M VO OD M tO CX) O tO CX> lπ VO OO C I O lO O lπ CD tO tO tO l LO LO LO crι LO LO tO Lπ LO
Figure imgf000121_0003
Lfl tfl tfl Lfl tO tfl Lfl tfl tfl tfl tfl tfl tfl Lfl Lfl tO Lfl tfl
ATOM 3646 CD1 LEU B 168 23.958 16.605 10.915 1.00 39.31 B
ATOM 3647 CD2 LEU B 168 21 .991 18 .040 10 .397 1 .00 35 .27 B
ATOM 3648 C LEU B 168 21 .532 15 .055 13 .613 1 .00 31 .05 B
ATOM 3649 O LEU B 168 20 .415 15 .509 13 .843 1 .00 33 .62 B ATOM 3650 N MET B 169 22 .479 14 .958 14 .538 1, .00 31 .22 B
ATOM 3651 CA MET B 169 22 .273 15 .420 15 .902 1, .00 30 .07 B
ATOM 3652 CB MET B 169 22 .768 14 .364 16 .900 1, .00 29, .41 B
ATOM 3653 CG MET B 169 22 .321 12, .926 16 .615 1, .00 33, .31 B
ATOM 3654 SD MET B 169 20 .547 12 .596 16 .780 1 .00 41 .44 B ATOM 3655 CE MET B 169 20 .139 12 .232 15 .114 1, .00 34 .10 B
ATOM 3656 C MET B 169 23 .110 16 .695 16 .018 1, .00 32. .14 B
ATOM 3657 O MET B 169 24 .330 16, .635 16 .146 1, .00 34, .47 B
ATOM 3658 N GLY B 170 22 .454 17 .848 15 .959 1 .00 32 .20 B
ATOM 3659 CA GLY B 170 23 .163 19 .114 16 .015 1, .00 32 .55 B ATOM 3660 C GLY B 170 23 .205 19 .668 14 .600 1, .00 34 .56 B
ATOM 3661 O GLY B 170 23 .871 19 .108 13 .732 1, .00 36, .21 B
ATOM 3662 N SER B 171 22 .487 20 .762 14 .370 1, .00 38, .57 B
ATOM 3663 CA SER B 171 22 .388 21 .397 13 .053 1 .00 40 .20 B
ATOM 3664 CB SER B 171 21 .369 22 .539 13 .105 1. .00 42 .81 B ATOM 3665 OG SER B 171 21 .691 23 .461 14 .140 1, .00 44, .13 B
ATOM 3666 C SER B 171 23 .684 21, .932 12 .456 1, .00 43, .17 B
ATOM 3667 O SER B 171 23 .856 21, .913 11, .237 1, .00 42, .37 B
ATOM 3668 N SER B 172 24 .588 22 .411 13 .306 1, .00 42, .08 B
ATOM 3669 CA SER B 172 25 .859 22 .961 12 .830 1, .00 42, .34 B ATOM 3670 CB SER B 172 25 .676 24, .421 12 .437 1, .00 40, .60 B
ATOM 3671 OG SER B 172 25 .413 25, .200 13, .595 1, .00 42, .86 B
ATOM 3672 C SER B 172 26 .897 22 .883 13 .939 1, .00 41 .95 B
ATOM 3673 O SER B 172 26. .562 22. .565 15, .085 1. .00 39. .78 B
ATOM 3674 N ASP B 173 28, .150 23. .189 13, .609 1, .00 41. .95 B ATOM 3675 CA ASP B 173 29, .213 23. .145 14, .605 1. ,00 41. .15 B
ATOM 3676 CB ASP B 173 30. .591 23. .336 13. .950 1. ,00 41. .54 B
ATOM 3677 CG ASP B 173 31. .088 22, ,079 13, .240 1. ,00 45. .76 B
ATOM 3678 OD1 ASP B 173 30, .500 20. .990 13, .445 1. ,00 46. .48 B
ATOM 3679 OD2 ASP B 173 32, .083 22. .172 12, .484 1. ,00 48. .79 B ATOM 3680 C ASP B 173 29. .002 24. ,195 15, .693 1. ,00 38. .82 B
ATOM 3681 O ASP B 173 29, .797 24. .294 16, .627 1. .00 41, ,00 B
ATOM 3682 N SER B 174 27, .928 24. .972 15, .581 1. .00 41. .15 B
ATOM 3683 CA SER B 174 27, .630 25. .998 16, .580 1. ,00 44. .12 B
ATOM 3684 CB SER B 174 27, .464 27. .372 15. .911 1. ,00 45. .42 B ATOM 3685 OG SER B 174 26. .378 27. .375 14. .995 1. ,00 50. .32 B
ATOM 3686 C SER B 174 26, .375 25, .668 17. .406 1. .00 46. .38 B
ATOM 3687 O SER B 174 25, .996 26. .435 18, .302 1. .00 44. .84 B
ATOM 3688 N ASP B 175 25, .736 24. .536 17, .103 1. .00 44. .82 B
ATOM 3689 CA ASP B 175 24, .541 24. .103 17. ,837 1. ,00 44. .13 B ATOM 3690 CB ASP B 175 23, .708 23, .144 16, .984 1. .00 40. .45 B
ATOM 3691 CG ASP B 175 22, .401 22, .746 17, .661 1. .00 43. .36 B
ATOM 3692 OD1 ASP B 175 21, .583 22, .035 17, ,033 1. .00 37. .84 B
ATOM 3693 OD2 ASP B 175 22, .196 23. .151 18. ,830 1. ,00 42. .36 B
ATOM 3694 C ASP B 175 25, .038 23. .394 19. ,090 1. ,00 45. .05 B ATOM 3695 O ASP B 175 24, .896 22, .174 19. .243 1. .00 46. .98 B
ATOM 3696 N ASN B 176 25, .626 24, .178 19, .984 1. .00 49. .38 B
ATOM 3697 CA ASN B 176 26. .215 23. ,652 21. ,205 1. ,00 51. ,25 B
ATOM 3698 CB ASN B 176 27. .373 24. ,554 21. ,640 1. ,00 56. ,02 B
ATOM 3699 CG ASN B 176 26. .892 25. ,859 22. ,262 1. 00 61. ,89 B ATOM 3700 OD1 ASN B 176 25. .993 26. ,529 21. .727 1. ,00 63. ,33 B
ATOM 3701 ND2 ASN B 176 27. .485 26. ,227 23. ,402 1. ,00 65. ,21 B
ATOM 3702 C ASN B 176 25. .267 23. ,466 22. ,380 1. ,00 52. ,14 B
ATOM 3703 O ASN B 176 24. .965 24. ,412 23. ,115 1. ,00 51. ,18 B
ATOM 3704 N TYR B 177 24. ,785 22. ,242 22. ,547 1. ,00 49. ,95 B ATOM 3705 CA TYR B 177 23. ,919 21. ,927 23. ,670 1. ,00 49. ,76 B
ATOM 3706 CB TYR B 177 22. .437 22. .115 23. .356 1. .00 54. .57 B
ATOM 3707 CG TYR B 177 21, .613 22. .057 24. .626 1. .00 62. .59 B
ATOM 3708 GDI TYR B 177 21, .523 23. ,166 25. .472 1. ,00 66. ,78 B
ATOM 3709 CE1 TYR B 177 20. .830 23. ,096 26. .700 1. ,00 69. ,15 B ATOM 3710 CD2 TYR B 177 20, .991 20. .867 25. .029 1. .00 66. .42 B
ATOM 3711 CE2 TYR B 177 20, .299 20. .780 26. .249 1. .00 67. .80 B
ATOM 3712 CZ TYR B 177 20, .221 21. .897 27. .080 1. .00 69. .92 B
ATOM 3713 OH TYR B 177 19, .539 21. .814 28. .285 1. .00 66. .92 B
ATOM 3714 C TYR B 177 24, .188 20. .479 23. .986 1. .00 44. .38 B
Figure imgf000123_0001
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ATOM 3853 O ASN B 192 27.095 6.673 4.184 1.00 34.71 B
ATOM 3854 N SER B 193 25 .431 8 .042 4 .808 1 .00 31 .42 B
ATOM 3855 CA SER B 193 26 .207 8 .600 5 .909 1 .00 30 .69 B
ATOM 3856 CB SER B 193 27 .096 9 .735 5 .404 1, .00 33 .08 B ATOM 3857 OG SER B 193 26, .302 10 .806 4 .918 1, .00 35 .89 B
ATOM 3858 C SER B 193 25 .325 9 .117 7 .038 1, .00 29 .52 B
ATOM 3859 O SER B 193 24, .100 9 .068 6, .945 1, .00 31 .64 B
ATOM 3860 N ARG B 194 25 .963 9 .616 8 .097 1, .00 28 .63 B
ATOM 3861 CA ARG B 194 25, .269 10 .147 9. .275 1, .00 29 .52 B ATOM 3862 CB ARG B 194 24 .279 11 .248 8 .885 1, .00 31 .04 B
ATOM 3863 CG ARG B 194 24, .862 12 .441 8 .159 1, .00 35 .19 B
ATOM 3864 CD ARG B 194 23, .751 13, .447 7, .934 1. .00 39, .60 B
ATOM 3865 NE ARG B 194 24 .202 14 .670 7. .278 1, .00 40 .44 B
ATOM 3866 CZ ARG B 194 23, .401 15 .692 6 .981 1, .00 39 .78 B ATOM 3867 NH1 ARG B 194 22 .110 15 .636 7 .285 1 .00 36 .38 B
ATOM 3868 NH2 ARG B 194 23, .889 16 .767 6 .372 1, .00 36 .92 B
ATOM 3869 C ARG B 194. 24 .496 9 .028 9 .964 1 .00 31 .44 B
ATOM 3870 O ARG B 194 23 .271 9 .043 9 .990 1, .00 29 .79 B
ATOM 3871 N VAL B 195 25 .201 8 .060 10 .534 1 .00 30 .43 B ATOM 3872 CA VAL B 195 24 .521 6 .945 11 .179 1, .00 26 .25 B
ATOM 3873 CB VAL B 195 24 .759 5 .642 10 .369 1 .00 28 .49 B
ATOM 3874 CGI VAL B 195 23 .683 4 .609 10 .693 1, .00 27 .66 B
ATOM 3875 CG2 VAL B 195 24, .777 5 .961 8 .873 1, .00 26 .62 B
ATOM 3876 C VAL B 195 24, .947 6, .740 12. .635 1. .00 26, .95 B ATOM 3877 O" VAL B 195 25 .354 5 .646 13 .026 1, .00 28 .68 B
ATOM 3878 N PRO B 196 24, .859 7, .796 13. .461 1. .00 26 .99 B
ATOM 3879 CD PRO B 196 24, .815 7 .591 14 .920 1, .00 26 .66 B
ATOM 3880 CA PRO B 196 24. .400 9. .149 13, .134 1. .00 30, .83 B
ATOM 3881 CB PRO B 196 23. ,436 9. .440 14. .258 1. ,00 34. .29 B ATOM 3882 CG PRO B 196 24. .227 8. .921 15. .434 1. .00 34, .26 B
ATOM 3883 C PRO B 196 25. .557 10. .138 13. .174 1. .00 33, .26 B
ATOM 3884 O PRO B 196 26. .663 9. .790 13, .583 1. .00 34, .09 B
ATOM 3885 N SER B 197 25. ,298 11. ,367 12. .738 1. ,00 31. .02 B
ATOM 3886 CA SER B 197 26. ,294 12. .429 12, .804 1. ,00 32, .73 B ATOM 3887 CB SER B 197 26. ,060 13. ,474 11. .715 1. ,00 33. .61 B
ATOM 3888 OG SER B 197 26. .929 14. ,585 11. .897 1. ,00 38. .53 B
ATOM 3889 C SER B 197 25. .974 13. .009 14. .175 1. ,00 32. .05 B
ATOM 3890 O SER B 197 24. ,844 13. ,442 14. .423 1. ,00 32. .36 B
ATOM 3891 N PHE B 198 26. .961 13. .016 15. .062 1. ,00 32. .83 B ATOM 3892 CA PHE B 198 26. ,749 13. .454 16. .432 1. ,00 32. .42 B
ATOM 3893 CB PHE B 198 26. .933 12. .224 17, .334 1. ,00 33. .49 B
ATOM 3894 CG PHE B 198 26. .124 12. .249 18, .597 1. ,00 37. .37 B
ATOM 3895 CD1 PHE B 198 26. .544 12, .986 19, .702 1. .00 37, .07 B
ATOM 3896 CD2 PHE B 198 24. .959 11, .490 18, .699 1. ,00 37, .67 B ATOM 3897 CE1 PHE B 198 25. .816 12. .959 20, .894 1. ,00 36. .80 B
ATOM 3898 CE2 PHE B 198 24. ,227 11. ,459 19. .882 1. ,00 38. .22 B
ATOM 3899 CZ PHE B 198 24. ,656 12. .193 20. .982 1. ,00 35, .07 B
ATOM 3900 C PHE B 198 27. ,662 14. .595 16. .888 1. ,00 35. .47 B
ATOM 3901 O PHE B 198 28, ,843 14, .382 17, .155 1. .00 36, .39 B ATOM 3902 N ARG B 199 27. .098 15. .800 16, .983 1. .00 33, .78 B
ATOM 3903 CA ARG B 199 27, .833 16, .986 17, .417 1. .00 35, .35 B
ATOM 3904 CB ARG B 199 27. ,419 18. .204 16. .583 1. ,00 34. ,80 B
ATOM 3905 CG ARG B 199 27. ,871 18. .216 15. .130 1. .00 38. .30 B
ATOM 3906 CD ARG B 199 27. ,352 19. ,485 14. .483 1. ,00 36. .34 B ATOM 3907 NE ARG B 199 28. ,019 19. ,831 13. .233 1. 00 40. ,17 B
ATOM 3908 CZ ARG B 199 27. ,440 19. .761 12. .041 1. ,00 42. .40 B
ATOM 3909 NH1 ARG B 199 26. ,186 19. ,348 11. .947 1. ,00 39. .30 B
ATOM 3910 NH2 ARG B 199 28. .103 20. ,129 10, .949 1. ,00 39. .43 B
ATOM 3911 C ARG B 199 27. .526 17. ,294 18. .886 1. ,00 37. .60 B ATOM 3912 O ARG B 199 26. .356 17, ,421 19. .261 1. ,00 35, .69 B
ATOM 3913 N PHE B 200 28. .565 17, .432 19. .706 1. ,00 35, .25 B
ATOM 3914 CA PHE B 200 28. .398 17, .740 21, .133 1. .00 35 .74 B
ATOM 3915 CB PHE B 200 27, .668 19, .085 21, .342 1. .00 38, .33 B
ATOM 3916 CG PHE B 200 28. .285 20, .259 20. .615 1. .00 39, .24 B ATOM 3917 GDI PHE B 200 27, .886 20, .580 19, .321 1. .00 36 .86 B
ATOM 3918 CD2 PHE B 200 29, .237 21, .065 21, .244 1. .00 39, .40 B
ATOM 3919 CE1 PHE B 200 28, .423 21. .697 18, .654 1. .00 40, .58 B
ATOM 3920 CE2 PHE B 200 29, .781 22, .183 20 .591 1. .00 38 .87 B
ATOM 3921 CZ PHE B 200 29, .372 22, .501 19, .293 1. .00 38 .57 B
Figure imgf000126_0001
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M M M M M M M i-' t-' -' t-' l-' t-' l-' i-' Λ Λ \-^ t-' t-' i-> l-' t-' i-> -> -' ^ i-> -1 i-' b-' r r-' t-> l-i -> i-> -' -> r t-> l-' rΔ Λ t-' }-i ri i-' ooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo ooooooooooooooooooooooooooooooooooooooooooooσoooooooooooooooooooooooo
LO tO LO tO tO M tO LO M tO tO tO tO tO lO LO LO tO tO tO M LO LO W lO to ω LO tO tO tO LO LO LO W tO tO W tO tO VO M CXl Crι lO Cn tO l 10D l Vθ ω M LO l cO l I CXl M Cn VO M -J tO M Lπ CΩ Cβ O M O VO Lπ L l cr) θ m θD M iπ ιπ cD o ^ σι i Φ. c ω o Lo ι u5 io Lπ vo vD U3 θ Lπ -o t c iD to -j to ^ M c Lπ i Lπ ci) W tO CX> CD M I O C LD l CΛ ω VO ln I O tO CΛ lπ θD lO 10 lO lπ W O t lD CΛ μ. lo l Cθ ω
tfl tfl tfl ljO lfl tfl lfl tfl tti lti lti tfl tfl tti ffl
Figure imgf000127_0001
PPPPPPPPOPPPOPPOPPPPPPPP ggg ggggg g g
o o o o o l VDπ ιCD ιnι ιcπ ιLππ
Figure imgf000127_0002
Ω Ω 3OΩO Ω Ω 3 O ΩO O Ω Ω Ω 3 O Ω Ω Ω Ω Ω Ω 30 Ω Ω Ω Ω ΩΩ 30 Ω 3 Ω Ω Ω Ω Ω 30 Ω 30 Ω Ω Ω 30 Ω Ω Ω Ω Ω Ω Ω Ω Ω 3 O Ω 0 Ω ΩΩ ΩΩ Ω tfl O D Ω tfl ϋ Ω Ω tfl > D Ω Ω tfl N td D Ω tti α O Ω tfl > N td t ϋ d Ω tfl K N td d td d tO M M M tO M M tO tO M tO M tO M 10 tO μ μ
Ω ΩΩω ω ra co ω ro H H H H H H M H H H H H H H HH L-| |-| tl t-| |-, t, lr, tH lrl l tr,L-| L-| M M td H M M ω ω ωω ω m ω ra ir< L-, tr, F L7, L-, F
Kl ^ Kj ^ ^ lti ^ ^ ^ rrJ rrJ l^ Tj rrJ rrJ trJ rrJ ljH M t -d H tfl H t M H tfl Lfl tfl tfl tfl tri tO Lfl W Lfl Lfl Lti tfl ro tfl ro Lfl Lfl tfl tfl W
M tO M tO tO tO tO tO tO tO M tO tO tO M tO tO tO M tO tO tO tO tO tO CO tO tO CO t tO rO t tO rO tO W M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M O O O O O O O O o o o m σ m Λ m w uι w ιn w m ιπ ιn ^ * ^ ι^ ^ * ^ ^ u ω ω ω J ω ω ω M M M t u w ω M M μ μ μ μ μ μ μ μ o o o o o o o o o o o kD ω vo u) vo iD ) vo
CO tO M tO tO LO LO LO M LO LO IjJ Lo ω tO LO tO LO tO tO tO tO tO tO tO tO M tO tO tO M M tO tO tO tO tO to ω m 00 VD ω VD O M O VD t O M M M V0 O V0 O 3 Lπ Lπ l CΛ l l CD l Lπ 0 I l CΛ CΛ ιfi Lπ M t0 L0 ^ 1f- Ln Lπ L0 φ. t0 ^ ω
*> in iπ M O L M ιt lO O CX) M lO θ ω tO O tO M l CΛ C VD lO tO VO l tO CΛ lπ Φ> m CΛ l ln C CD
O Lπ lO ! tO l ιf^ CΛ ιfi M lO lD ro lπ θ * tO C φ. ω o i ω o t ιt^ O l l ] O O O C ^ l ^ ιl^ O CΛ Lπ tO LO VD l CD O LO tO VD O O tO M VO M VO lO I O LO Lπ CΛ O Lπ CX) M l tO LO VD VO --J LO c θ ln tO O CD C
I I I I I I I I I I
CΛ iπ lπ σi CΛ 00 I CΛ CΛ σi CΛ V0 l C0 I cn iπ lO Φ' M lO lO lO lO t0 M tO M M lO M M tθ M t Lπ ιπ Lπ Φ> ιo to ιo to M to to to ι ! σi Lπ cn cΛ
^ ^ ^ CΛ M CO ^l ^ lO M tO lπ ∞ ω iπ M tO ^l M CΛ M CO lO tO CO ^ O Lπ M ω co CΛ tO CΛ M Cn CΛ lo tO ι ι o to m ιπ ^ t ιπ ι tθ Ff^ M CΛ ^ ι<^ ! σι t ι ι co M ιf^ ι^ to vo o ^ -o ιo oo ι ω ιo ro L cΛ Ln ω vo L Lπ o t vo to iπ L M O M M ^ t cΛ Co vo ^ Lπ vD ^ oo ra M ^ if^ M C Lπ ^ Lo αj C Lπ w ^ ^ -^ ^ i-^ -^ ^ i-^
O VD OO l l CΛ CΛ Crι Lπ ιfi φ. tO M tO tO t tO M tO to ιo 1fc. ht- ι ι cΛ CΛ iπ ιn ιo φ> t ω^ iuioiijiσiuioocoωvD^ω^toωt μo M to 00 VO VD M O vo ι oo ω cn CΛ
L0 VD t0 t0 ιl M lπ θ ∞ CΛ
Figure imgf000127_0003
M M M M i-' l-' l-i Λ \-' i-' ^ l-Λ \-Λ l MMMMMMMM MMMMMMMMMM M M M M M MMMMM M M M M M M M t-1 i-' h-> ^ ^ ^ i-' oooooσooooooooooooσooooooooooooooooooooooooooooooooooooσoooooooooσooo oooooσoooooooooooσσooooooooooooooooooooooooooooooooooooooooooooooσooo
L LO LO l L LO LO L L μ^ . ^ ^ l^ LO ^ ^ ^ ιfi ^ ^ LO l LO l LO l LO l LO LO L LO L W
Lπ Ln cn o cΛ Ln Ln ^ vD to to Lπ o Ln M vo o LO σ o o Lo vo VD VD CXi ω to iπ to ^ LO Lo iπ Lπ co to c
^ 0 I l M ^ VD (fi LO W tO O M M Lπ θ l VO ιfi LO O CO lO O VD M l VD l tθ l VD M M M VO M OO tO OO LO O ' L Lπ VD μ> l LO φ. ω ω ιπ ! θD to to Lπ cΛ θ ∞ ιn ιπ cΛ o ω ιπ vo oo M ι ω to cΛ cn ιo o vo cΛ l Lπ o Lo
tti tfl tO tfl tO Lfl Lfltfl Lti Lfl tfl Lfl Lfl Lfl tO tO tti tjd tfl tfl ω
ATOM 4060 O GLY B 217 28.033 7.611 10.755 1.00 38.53 B
ATOM 4061 N ILE B 218 28 .901 6 .038 12 .106 1 .00 34 .18 B
ATOM 4062 CA ILE B 218 28 .891 6 .891 13 .285 1 .00 30 .69 B
ATOM 4063 CB ILE B 218 29 .152 6 .065 14 .558 1 .00 28 .86 B ATOM 4064 CG2 ILE B 218 29 .047 6 .948 15 .778 1 .00 30 .24 B
ATOM 4065 CGI ILE B 218 28 .158 4 .909 14 .642 1 .00 29 .60 B
ATOM 4066 CD1 ILE B 218 28 .467 3 .924 15 .756 1 .00 32 .56 B
ATOM 4067 C ILE B 218 29 .960 7 .965 13 .181 1 .00 35 .90 B
ATOM 4068 O ILE B 218 31 .153 7 .658 13 .085 1 .00 37 .46 B ATOM 4069 N ASN B 219 29 .538 9 .223 13 .200 1 .00 34 .19 B
ATOM 4070 CA ASN B 219 30 .481 10 .327 13 .122 1 .00 33 .70 B
ATOM 4071 CB ASN B 219 30 .188 11 .196 11 .890 1 .00 38 .20 B
ATOM 4072 CG ASN B 219 31 .224 12 .296 11 .689 1 .00 38 .89 B
ATOM 4073 OD1 ASN B 219 32 .256 12 .325 12 .365 1 .00 38 .00 B ATOM 4074 ND2 ASN B 219 30 .957 13 .200 10 .750 1. .00 35 .49 B
ATOM 4075 C ASN B 219 30, .390 11. .164 14, .390 1, .00 34, .62 B
ATOM 4076 O ASN B 219 29, .483 11. .982 14, .545 1, .00 36, .48 B
ATOM 4077 N SER B 220 31 .327 10 .934 15 .301 1 .00 34 .21 B
ATOM 4078 CA SER B 220 31. .361 11, .660 16 .554 1. .00 34 .57 B ATOM 4079 CB SER B 220 32. .068 10, .831 17, .627 1, .00 33, .37 B
ATOM 4080 OG SER B 220 32, .057 11, .505 18, .869 1, .00 35, .89 B
ATOM 4081 C SER B 220 32, .113 12, .951 16, .325 1, .00 37, .24 B
ATOM 4082 O SER B 220 33 .212 12, .937 15 .765 1, .00 41 .29 B
ATOM 4083 N ARG B 221 31 .533 14, .068 16, .754 1, .00 37, .21 B ATOM 4084 CA ARG B 221 32, .193 15, .344 16, .570 1, .00 36, .89 B
ATOM 4085 CB ARG B 221 31, .935 15, .860 15, .168 1, .00 40, .58 B
ATOM 4086 CG ARG B 221 30 .556 15, .654 14. .588 1, .00 40 .70 B
ATOM 4087 CD ARG B 221 30 .831 16, .024 13, .173 1, .00 40, .65 B
ATOM 4088 NE ARG B 221 29, .803 15, .959 12, .213 1, .00 43, .00 B ATOM 4089 CZ ARG B 221 29, .531 16. .763 11, .193 1. .00 42, .04 B
ATOM 4090 NH1 ARG B 221 30, .195 17. .873 10. .875 1. ,00 42. .14 B
ATOM 4091 NH2 ARG B 221 28 .564 16, .333 10, .409 1. .00 41, .04 B
ATOM 4092 C ARG B 221 31, .905 16, .447 17, .563 1. .00 39, .89 B
ATOM 4093 O ARG B 221 30, .998 16. .354 18. .392 1. .00 41, .52 B ATOM 4094 N MET B 222 32, .709 17. .499 17. .467 1. ,00 39, .30 B
ATOM 4095 CA MET B 222 32, .604 18, .659 18. .340 1, ,00 38, .12 B
ATOM 4096 CB MET B 222 31, .388 19, .506 17. .957 1. .00 38, .66 B
ATOM 4097 CG MET B 222 31, .499 20. .147 16. .570 1. .00 43, .79 B
ATOM 4098 SD MET B 222 32, .953 21. .262 16. .403 1. ,00 50. .29 B ATOM 4099 CE MET B 222 32. .408 22. ,641 17, .363 1. ,00 39. .01 B
ATOM 4100 C MET B 222 32, .570 18, ,307 19. .827 1. .00 39, .38 B
ATOM 4101 O MET B 222 31, .720 18, .790 20. .578 1. .00 40, .80 B
ATOM 4102 N GLY B 223 33, .508 17. .460 20. .245 1. .00 39, .84 B
ATOM 4103 CA GLY B 223 33, .609 17. .089 21. .647 1. ,00 40. .20 B ATOM 4104 C GLY B 223 32, .586 16. .107 22, .174 1. .00 41. .00 B
ATOM 4105 O GLY B 223 32, .463 15. .934 23. .387 1. .00 39, .73 B
ATOM 4106 N ALA B 224 31. .852 15. .464 21. .276 1. .00 37, .23 B
ATOM 4107 CA ALA B 224 30, .850 14. .507 21. .694 1. .00 38, .50 B
ATOM 4108 CB ALA B 224 30, .040 14. .035 20. .486 1. ,00 33. .26 B ATOM 4109 C ALA B 224 31, .521 13. .316 22. .365 1. .00 41, .57 B
ATOM 4110 O ALA B 224 32, .636 12, .926 22. .015 1. .00 42, .34 B
ATOM 4111 N ARG B 225 30, .841 12. .743 23. ,344 1. .00 39, .68 B
ATOM 4112 CA ARG B 225 31, .363 11. .576 24. .017 1. .00 40, .77 B
ATOM 4113 CB ARG B 225 31. .566 11. .855 25. .497 1. .00 46. .54 B ATOM 4114 CG ARG B 225 32, .841 12, .634 25. ,777 1. .00 57. .21 B
ATOM 4115 CD ARG B 225 33, .030 12, .766 27. ,259 1. .00 63, .18 B
ATOM 4116 NE ARG B 225 31, .912 13. .494 27. .844 1. .00 69. .42 B
ATOM 4117 CZ ARG B 225 31. .455 13. .283 29. .074 1. ,00 72. .70 B
ATOM 4118 NH1 ARG B 225 30, .430 13, .998 29. .532 1. .00 73, .86 B ATOM 4119 NH2 ARG B 225 32, .017 12, .347 29. .837 1. .00 72, .11 B
ATOM 4120 C ARG B 225 30, .326 10. .500 23. .806 1. .00 38, .37 B
ATOM 4121 O ARG B 225 29. .188 10. .616 24. .262 1. .00 36. .28 B
ATOM 4122 N ILE B 226 30. .723 9. .451 23. .106 1. ,00 34. .97 B
ATOM 4123 CA ILE B 226 29, .802 8. .377 22. .812 1. ,00 30. .53 B ATOM 4124 CB ILE B 226 29. .478 8. .341 21. ,311 1. ,00 31. .73 B
ATOM 4125 CG2 ILE B 226 28. .343 7. .357 21. ,048 1. ,00 23. .31 B
ATOM 4126 CGI ILE B 226 29. .098 9. ,742 20. ,826 1. ,00 31. .40 B
ATOM 4127 CD1 ILE B 226 28. .785 9. .807 19. .353 1. ,00 30. .60 B
ATOM 4128 C ILE B 226 30. .316 7. .005 23. .200 1. .00 35. .97 B
Figure imgf000129_0001
H ι-3 3 β H ι-3 ι-3 i-3 3 >-3 ι-3 ι-3 >-3 μ3 r3 ι-3 H 3 ι-3 3 >-3 3 ι-3 ι-3 3 ι- 3 3 3 ι-3 3 3 H >-3 O 000 O 00 O 000 O 0 O 000 O 0 O O 00 O 000000 P O 0 O O O O P O 00 O P P P P P P 0 O O 00 P P
Figure imgf000129_0002
. ι{i lfi ^ ιt^ vri J ^ . ϋ . J^ O .1r^ t^ . ι^ .1fi .1fi 1fi . . ιf- φ. . . φ^
M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M VD VD VD VD VO VO VO VD CXj ra θO CO Cθ ω ra CO CO CD l l l l I l l l I l CΛ CΛ CΛ 01 CΛ crι CΛ CΛ CΛ CΛ Ln W l CΛ Lπ μ LO tO M O LO OO I CΛ lπ ιf- lO tO M O VD CD l Cn lπ ιfi lo to M O VO CX) ] CΛ iπ ιti lO tO M O
Ω ΩΩΩ 30 Ω Ω Ω Ω Ω ΩΩ Ω Ω 30Ω Ω Ω Ω Ω Ω 3 P Ω 3 P Ω Ω O O Ω 3 P ΩΩ Ω 3 P Ω P P Ω ΩΩ Ω 3 P Ω Ω Ω Ω Ω Ω 3 P Ω 33 Ω 3 Ω Ω Ω Ω 3 P t) QB Ϊ» NMHtjαO tl)^ d d Ω tti O d Ω tfl < d d Ω tti HH tJ Ω W d Ω Ω tfl I K K N td D Ω tfl ^ tO M tO M tO M to M to M t M M M to to M
Ω Ω Ω O Ω n3 ,ti τ3 W πd lti τ3 τ3 π3 O Lr, L-, |-, |-| |-| F L |-| tr1 tri |-i |-| L-, ffi li! ffi K K K ffi ffi ffi ffi ffi M -d td H td td M M qαc!αHHMtaBHHHHBHααGααGC!G3322332323^32322αCααϋαdG HMiaHHHHMOQQQQQQOQQQB ω ω ω Lfl tfl tfl Lfl ω ω Lfl Li- Lfl Lfl ω Lti Lfl to tO M to to to to to to co to to to to to to to to to tJ to to to to to M to to to M to to to to to to to to M ω ω ω ω ω io ω io io ω ω io ω io io ω ω io io i ω io io io ω io io io ω ω io ω w
^ fc ^ ^ Φ, w u ω ω w u u w u ) ω w w ω M U kj w M μ μ μ μ μ μ μ o o o o o o o o ιo ^ ω ιo ιo ιo ifl io ιo (iι ιιι αj (a (iι m ffl [B ι .j ^ ι i j i i i ι ^ m
tO tO tJ tO tO tO tO tO tO LO tO lO tO M IO tO M tO tO tO tO tO tO tO tO tO tO tO tO M tO tO W tO tO r tO tO tO W CΛ l l CD OO lO CO VO lD O VO O lO lO CO CD CΛ l lπ CX3 CΛ CΛ I CΛ CX3 l l iπ crι l l ^ tO L t O VO VO ιi^ O O O M C^ l C l7l l l VD l VD lJl ιfi VO CD ] in ln ] l M OO o o ιπ l lπ ιπ ω vΩ M ιt oo M ω ιπ ω μ ιn vo ω ω to ι to to ] M ] M ω ιπ to ιπ ω o ω o CΛ CD to o vo c vo θ3 Ln cD CΛ to ι oι ' Cn o i M θi Lo o L M Lπ ι cn oo ι ιn cn ra M ιf^ to Ln Lo vD V^ l l l l l l l l I I I I I I I I I I I I I cn ~o. CΛ LΠ ^ in rf^ M I tO M tO LO φ. ^ lfi 0000 ~J C π ιt> ιfi ιfi I i M io i ji ^ o-i in in in i^ i to t ι M lπ ιf=> tO tO tO lO ιfi ιfc. tO M M tO LO . ^ cΛ CΛ I M * O ifi O I -O CO in M Cn in O I in cri ! lO l CD lO lD l l lO ro lπ l CΛ CO VD lO ιf!. lπ O lπ ω | VD tO lπ o ω iO ιfi O M CX) CXJ M -J ! ω
Figure imgf000129_0003
lO Φ" CΛ O lo tO VO O ln M O O lO
Figure imgf000129_0004
C t CΛ lπ lo tO tO M l
Figure imgf000129_0005
tO -J lO M l tθ ω
M M M M M M M M M M M M M M M M M M M M M M M M M M ' W tO tO tO tO tO tO M tO M tO tO tO tO tO tO tO tO tO M M M tO tO tO tO tO tO tO tO tO tO tO tO tO tO tO ∞ CD l cn VO O O ιf^ ω Φ« NJ LO tO M M tO L LO M LO LO ι!^ ι^ Lπ CΛ CΛ VD CO OO l l ι O O ιt^ ω LO tO M M M M Cn CΛ Crι ιf- LO tO M M M ω VD CD O M tO LO LO VD VD CD I CΛ CΛ Lπ ιJi. L tO
CΛ CD lθ M ω i LO CΛ lO OO lO OO Cn lπ ^ -J O lO oO t M lf CΛ 10D ] O lO lo lo ro ω ιn o ^ M W M ω cΛ Vo c ι o o c^ M θ ! i M ω Φ. ιπ w ιf^ ιπ ι ω o ι t ιn ^ c m ro
C^ VO t CΛ lπ lπ M lO ιπ M O l iπ t tO l l ] o lO CD ^ Cn tO lO ιπ CΛ tO l M l CΛ Cr> m vo ^
M M M M M M M M M M M M M M M M M M M M M M ^ l-^ i-' ^ l-^ )-' J l-J t-' J i-' ^ J i-i >--' J J r-' -' ^ -' i-' r-' l--> t-' -> l-' rJ i-' i-' ->
OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO ooooooooσoooooooo
"o~o o— o^ooooσoσooooooooooooooooooooooooooo oooooooooooo ooooooooooσoooooooo
If-. |k l0 l0 l0 l0 l0 l0 l0l0 l0 l0 l0 l0 l0 l0 l0l0 l^ ι^ l0 l0 l0 l0 l0 l0 t0 t0 t0 l0 l ω CD 00 CD 0D i ω c ω t0 tf^ CΛ t0 φ l0 Lπ ιf^ ln L0θ O CΛ L0 M t0 l L0 cΛ C CnM M tO W μ ro ω ιn >- ιπ vDm Lπ ιti M ι i-3 i M ω ω ιπ ω ω M ω ] io cD μ t -j M θ θ3 o o t ω o Φ^ oι » ι μω iji ιiι o *^uι o ooι μ μ(iι μφθ(LmHW oιi)(D oω (n -j Poω (iι sjMμ wιι μuιμoo ^ moco ooιoιμιf>(noα) vi (iι -j ^ uι *. μ m l
tfl tti Lfl tfl tfl Lfl tfl tti tO Lfl tO tfl Lfl Lfl Lfl
ATOM 4198 OE1 GLU B 234 26.264 -10.020 9.259 1.00 55.52 B
ATOM 4199 OE2 GLU B 234 25 .280 -8 .671 7 .841 1 .00 52 .74 B
ATOM 4200 C GLU B 234 28 .290 -4 .805 6 .901 1, .00 38 .56 B
ATOM 4201 O GLU B 234 27 .463 -3 .901 6 .760 1, .00 38 .35 B ATOM 4202 N ASN B 235 29 .224 -5 .093 5 .995 1, .00 38 .65 B
ATOM 4203 CA ASN B 235 29 .351 -4 .346 4 .744 1. .00 35 .66 B
ATOM 4204 CB ASN B 235 28, .202 -4 .710 3 .797 1. .00 39 .28 B
ATOM 4205 CG ASN B 235 28, .047 -6 .210 3 .619 1. .00 49 .24 B
ATOM 4206 OD1 ASN B 235 29 .024 -6 .909 3 .337 1, .00 52 .50 B ATOM 4207 ND2 ASN B 235 26 .820 -6 .715 3 .777 1. .00 52 .09 B
ATOM 4208 C ASN B 235 29 .316 -2 .855 5 .043 1. .00 34 .30 B
ATOM 4209 O ASN B 235 28, .477 -2 .132 4 .519 1. .00 32 .86 B
ATOM 4210 N ALA B 236 30 .230 -2 .403 5 .892 1, .00 35 .31 B
ATOM 4211 CA ALA B 236 30 .285 - .999 6 .275 1. .00 37 .71 B ATOM 4212 CB ALA B 236 29 .982 - .855 7 .754 1. .00 36 .48 B
ATOM 4213 C ALA B 236 31 .627 - .361 5 .973 1. .00 40 .92 B
ATOM 4214 O ALA B 236 32, .681 - .966 6 .192 1. .00 43 .12 B
ATOM 4215 N LYS B 237 31 .579 .866 5 .468 1, .00 38 .18 B
ATOM 4216 CA LYS B 237 32 .782 1 .613 5 .158 1. .00 39 .22 B ATOM 4217 CB LYS B 237 32 .691 2 .214 3 .758 1. .00 41 .83 B
ATOM 4218 CG LYS B 237 33 .805 3 .202 3 .440 1. .00 40 .49 B
ATOM 4219 CD LYS B 237 33 .634 3 .807 2 .063 1. .00 39 .68 B
ATOM 4220 CE LYS B 237 34 .597 4 .964 1 .877 1, .00 40 .05 B
ATOM 4221 NZ LYS B 237 34 .389 6 .005 2 .913 1. .00 38 .95 B ATOM 4222 C LYS B 237 32 .877 2. .724 6 .190 1. .00 42 .78 B
ATOM 4223 O LYS B 237 31 .921 3 .478 6 .384 1. .00 45 .57 B
ATOM 4224 N ASP B 238 34 .018 2 .816 6 .864 1. .00 40 .68 B
ATOM 4225 CA ASP B 238 34, .222 3, .842 7, .877 1. ,00 41, .80 B
ATOM 4226 CB ASP B 238 34, .425 5, .195 7, .190 1. ,00 41, .31 B ATOM 4227 CG ASP B 238 35, .711 5, .237 6, .365 1. ,00 44, .11 B
ATOM 4228 OD1 ASP B 238 36, .795 5. .073 6. .964 1. ,00 39, .60 B
ATOM 4229 OD2 ASP B 238 35, .640 5, ,421 5, .126 1. ,00 44, .74 B
ATOM 4230 C ASP B 238 33, .053 3, ,890 8, .865 1. ,00 42, .33 B
ATOM 4231 O ASP B 238 32, .383 4. .916 9. .018 1. ,00 41, .92 B ATOM 4232 N PRO B 239 32. .808 2. .772 9. .571 1. ,00 42, .52 B
ATOM 4233 CD PRO B 239 33, .530 1, .491 9, .475 1. ,00 40, .83 B
ATOM 4234 CA PRO B 239 31. .713 2. .687 10. .548 1. ,00 37, .76 B
ATOM 4235 CB PRO B 239 31, .709 1. .209 10, .938 1. ,00 37, .22 B
ATOM 4236 CG PRO B 239 33, .142 .809 10, .770 1. ,00 44, .37 B ATOM 4237 C PRO B 239 31, .823 3. .624 11. .746 1. ,00 37, .43 ' B
ATOM 4238 O PRO B 239 30, .811 3, .990 12. .342 1. ,00 40, .22 B
ATOM 4239 N ILE B 240 33, .040 4, .017 12. .105 1. ,00 36, .22 B
ATOM 4240 CA ILE B 240 33, .237 4, .931 13. .226 1. ,00 34, .25 B
ATOM 4241 CB ILE B 240 33, .653 4. .178 14. .505 1. ,00 31, .58 B ATOM 4242 CG2 ILE B 240 33, .838 5. .155 15. .653 1. ,00 29. .63 B
ATOM 4243 CGI ILE B 240 32 .588 3, .146 14, .869 1. .00 32, .90 B
ATOM 4244 GDI ILE B 240 32, .970 2, .274 16, ,055 1. .00 35, .67 B
ATOM 4245 C ILE B 240 34, .323 5, ,950 12, .884 1. ,00 38, .78 B
ATOM 4246 O ILE B 240 35, .491 5. ,591 12, .711 1. ,00 43. .53 B ATOM 4247 N VAL B 241 33 .943 7, .220 12, .792 1. ,00 37, .00 B
ATOM 4248 CA VAL B 241 34, .896 8, .274 12, .463 1. ,00 36, .64 B
ATOM 4249 CB VAL B 241 34. .870 8. ,624 10. .948 1. 00 35. .76 B
ATOM 4250 CGI VAL B 241 35. .235 7. ,408 10. ,107 1. 00 35. .20 B
ATOM 4251 CG2 VAL B 241 33. ,492 9. ,135 10. ,561 1. 00 37. .72 B ATOM 4252 C VAL B 241 34, .606 9. .564 13. ,221 1. ,00 40, .82 B
ATOM 4253 O VAL B 241 33. .660 9. .648 14. ,011 1. ,00 41. .98 B
ATOM 4254 N SER B 242 35. .453 10. .559 12. ,982 1. 00 39. .67 B
ATOM 4255 CA SER B 242 35. .302 11. .885 13. ,562 1. 00 43. .35 B
ATOM 4256 CB SER B 242 36. .241 12. .086 14. .753 1. ,00 38. .88 B ATOM 4257 OG SER B 242 36. .014 13. .361 15. .339 1. ,00 43. .26 B
ATOM 4258 C SER B 242 35. .700 12. .808 12. .418 1. ,00 45. .17 B
ATOM 4259 O SER B 242 36. .837 13. .285 12. .353 1. ,00 49. .25 B
ATOM 4260 N TRP B 243 34. .764 13. .039 11. .501 1. ,00 46. .17 B
ATOM 4261 CA TRP B 243 35. .032 13, .874 10. .327 1. ,00 44, .62 B ATOM 4262 CB TRP B 243 34, .810 13, .098 9, .025 1. ,00 41, .31 B
ATOM 4263 CG TRP B 243 35, .646 11, .892 8, .781 1. ,00 43, .31 B
ATOM 4264 CD2 TRP B 243 35, .400 10. .890 7. .792 1. ,00 39, .99 B
ATOM 4265 CE2 TRP B 243 36. .468 9, .968 7. .854 1. ,00 37, .74 B
ATOM 4266 CE3 TRP B 243 34, .376 10, .684 6, .854 1. ,00 41, .38 B ATOM 4267 CD1 TRP B 243 36.821 11.549 9.394 1.00 43.75 B
ATOM 4268 NE1 TRP B 243 37 .321 10 .392 8 .840 1 .00 43 .35 B
ATOM 4269 CZ2 TRP B 243 36 .546 8 .853 7 .013 1 .00 40 .78 B
ATOM 4270 CZ3 TRP B 243 34 .453 9 .572 6 .012 1 .00 40 .25 B ATOM 4271 CH2 TRP B 243 35 .533 8 .671 6 .100 1 .00 41 .94 B
ATOM 4272 C TRP B 243 34 .169 15 .111 10 .193 1 .00 43 .86 B
ATOM 4273 O TRP B 243 33 .140 15 .252 10 .850 1, .00 46 .76 B
ATOM 4274 N TYR B 244 34 .613 15 .994 9, .303 1, .00 44 .34 B
ATOM 4275 CA TYR B 244 33 .892 17 .212 8 .942 1 .00 44 .57 B ATOM 4276 CB TYR B 244 32 .514 16 .819 8 .415 1, .00 42 .89 B
ATOM 4277 CG TYR B 244 32 .551 15 .709 7 .391 1, .00 44 .37 B
ATOM 4278 GDI TYR B 244 31 .663 14 .631 7, .467 1, .00 43 .54 B
ATOM 4279 CE1 TYR B 244 31 .673 13 .617 6 .512 1 .00 46 .78 B
ATOM 4280 CD2 TYR B 244 33 .455 15 .746 6 .332 1, .00 46 .26 B ATOM 4281 CE2 TYR B 244 33 .475 14 .732 5 .366 1 .00 46 .89 B
ATOM 4282 CZ TYR B 244 32 .579 13, .674 5. .464 1, .00 47 .64 B
ATOM 4283 OH TYR B 244 32. .583 12, .676 4, .510 1, .00 50 .27 B
ATOM 4284 C TYR B 244 33, .716 18, .353 9, .933 1, .00 46 .86 B
ATOM 4285 O TYR B 244 33 .031 19 .324 9 .609 1. .00 50 .18 B ATOM 4286 N SER B 245 34 .296 18 .267 11 .126 1, .00 45 .08 B
ATOM 4287 CA SER B 245 34 .143 19 .366 12 .082 1, .00 47 .53 B
ATOM 4288 CB SER B 245 33 .307 18. .925 13 .295 1, .00 46 .59 B
ATOM 4289 OG SER B 245 31 .947 18 .712 12 .928 1 .00 43 .91 B
ATOM 4290 C SER B 245 35 .492 19 .911 12 .549 1 .00 49 .04 B ATOM 4291 O SER B 245 36, .517 19. .222 12, .474 1. .00 51, .58 B
ATOM 4292 N SER B 246 35, .478 21. .158 13, .018 1. .00 47, .32 B
ATOM 4293 CA SER B 246 36 .678 21, .835 13. .504 1. .00 48 .47 B
ATOM 4294 CB SER B 246 36, .343 23, .290 13, .806 1. .00 48, .52 B
ATOM 4295 OG SER B 246 35, .198 23, .347 14, .648 1. .00 49, .62 B ATOM 4296 C SER B 246 37 .270 21, .178 14 .750 1, .00 50 .56 B
ATOM 4297 O SER B 246 38 .491 21, .232 14 .978 1, .00 53 .16 B
ATOM 4298 N SER B 247 36 .411 20, .583 15. .574 1, .00 49. .12 B
ATOM 4299 CA SER B 247 36, .865 19, .894 16, .781 1. .00 47, .41 B
ATOM 4300 CB SER B 247 36 .242 20 .517 18 .032 1, .00 50 .26 B ATOM 4301 OG SER B 247 36, .836 21, .771 18, .313 1. .00 55, .19 B
ATOM 4302 C SER B 247 36, .496 18. .418 16, .700 1. .00 46, .86 B
ATOM 4303 O SER B 247 35, .440 18. .050 16. .181 1. ,00 48. .73 B
ATOM 4304 N PRO B 248 37, .375 17, ,544 17, .197 1. .00 46, .53 B
ATOM 4305 CD PRO B 248 38, .760 17, .765 17, .663 1. .00 43, .73 B ATOM 4306 CA PRO B 248 37, .064 16. .119 17, .136 1. .00 44, .39 B
ATOM 4307 CB PRO B 248 38, .432 15, .468 17, .356 1. .00 43, .90 B
ATOM 4308 CG PRO B 248 39, .107 16, .429 18, .284 1. .00 41, .51 B
ATOM 4309 C PRO B 248 36. .026 15. .664 18, .161 1. .00 43, .34 B
ATOM 4310 O PRO B 248 35. .758 16. ,355 19. .144 1. .00 47, .61 B ATOM 4311 N GLY B 249 35. .441 14. ,501 17. .904 1. ,00 40. .31 B
ATOM 4312 CA GLY B 249 34. ,472 13. ,925 18. .812 1. ,00 40. .15 B
ATOM 4313 C GLY B 249 35. ,175 12. ,705 19. .381 1. ,00 42. .68 B
ATOM 4314 O GLY B 249 36. ,172 12. 255 18. .810 1. ,00 43. ,39 B
ATOM 4315 N TYR B 250 34. .676 12. ,156 20. .484 1. ,00 40. .24 B ATOM 4316 CA TYR B 250 35. .324 10. ,999 21. .099 1. ,00 39. .41 B
ATOM 4317 CB TYR B 250 35. ,814 11. ,361 22. .505 1. ,00 41. .48 B
ATOM 4318 CG TYR B 250 36. .633 12. ,625 22. .524 1. ,00 46. ,37 B
ATOM 4319 GDI TYR B 250 36. .044 13. ,865 22. .787 1. ,00 45. .14 B
ATOM 4320 CE1 TYR B 250 36. ,784 15. 047 22. ,697 1. 00 48. ,95 B ATOM 4321 CD2 TYR B 250 37. .984 12. ,594 22. ,183 1. ,00 48. .17 B
ATOM 4322 CE2 TYR B 250 38. .729 13. ,763 22. .089 1. ,00 50. .24 B
ATOM 4323 CZ TYR B 250 38, ,128 14. ,987 22. .340 1. ,00 49. .09 B
ATOM 4324 OH TYR B 250 38. ,867 16. ,146 22. ,186 1. ,00 53. .93 B
ATOM 4325 C TYR B 250 34. .440 9. .766 21. .188 1. .00 41. .81 B ATOM 4326 O TYR B 250 33. .232 9. .819 20. .934 1. ,00 43. .09 B
ATOM 4327 N TRP B 251 35. .054 8. ,645 21. .547 1. ,00 39. .81 B
ATOM 4328 CA TRP B 251 34. .319 7. ,402 21. .679 1. 00 39. ,71 B
ATOM 4329 CB TRP B 251 34, .172 6, .706 20. .322 1, ,00 40. .46 B
ATOM 4330 CG TRP B 251 35. ,464 6. .505 19. .576 1. 00 45. ,50 B ATOM 4331 CD2 TRP B 251 35. ,859 7. 169 18. ,369 1. 00 48. ,00 B
ATOM 4332 CE2 TRP B 251 37. 144 6. 682 18. ,021 1. 00 48. 29 B
ATOM 4333 CE3 TRP B 251 35, ,250 8. .131 17. ,545 1. 00 46. 11 B
ATOM 4334 GDI TRP B 251 36. ,492 5. ,664 19. .906 1. 00 45. .18 B
ATOM 4335 NE1 TRP B 251 37. ,509 5. ,765 18. .972 1. 00 47. .11 B in Φ. Φ- to M o in o I UI ι-3 ι-3 3 3 >-3 H H μ3 3 >-3 3 >-3 ι-3 3 ι-3 H H ι-3 3 H ι-3 H H 3 ι-3 H 3 H ι-3 μ3 3 3 H ι-3 μ3 ι-3 μ3 ι-3 H P P P P P P P P P P P P P P P P P P P P P P O P P P P P O P P O P O P P P O P P O P P O P P O P P P O P P O P P P O P P P P P P P P O P P
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Figure imgf000132_0002
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Figure imgf000132_0003
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Figure imgf000132_0004
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Figure imgf000132_0005
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Figure imgf000133_0001
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Figure imgf000133_0002
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Figure imgf000133_0003
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ro Lti tfl tO Lfl tfl tti tti tB tB tti Lfl tfl tfl Lfl tfl Lfl tfl M
ATOM 4474 OG SER B 269 37.528 2.865 24.343 1,.00 45,.98 B
ATOM 4475 C SER B 269 39, .656 5. .700 23 .145 1. .00 42, .98 B
ATOM 4476 O SER B 269 40 .828 5 .706 23 .516 1 .00 47 .07 B
ATOM 4477 N THR B 270 38 .999 6 .807 22 .806 1, .00 41 .60 B ATOM 4478 CA THR B 270 39 .627 8 .120 22 .869 1, .00 40, .04 B
ATOM 4479 CB THR B 270 39 .483 8 .889 21 .537 1 .00 41 .11 B
ATOM 4480 OGl THR B 270 38 .101 8 .962 21 .161 1 .00 41 .09 B
ATOM 4481 CG2 THR B 270 40 .259 8 .185 20 .432 1. .00 38 .80 B
ATOM 4482 C THR B 270 39 .021 8 .949 23 .999 1, .00 41, .99 B ATOM 4483 O THR B 270 39 .245 10 .156 24 .090 1, .00 41 .98 B
ATOM 4484 N THR B 271 38 .243 8 .289 24 .855 1, .00 42. .35 B
ATOM 4485 CA THR B 271 37 .633 8 .945 26 .004 1, .00 40, .99 B
ATOM 4486 CB THR B 271 36 .570 9 .980 25 .595 1. .00 42 .78 B
ATOM 4487 OGl THR B 271 36 .290 10 .840 26 .713 1, .00 43, .61 B ATOM 4488 CG2 THR B 271 35 .270 9 .275 25 .185 1. .00 42, .66 B
ATOM 4489 C THR B 271 36 .953 7 .900 26 .862 1. .00 41, .45 B
ATOM 4490 O THR B 271 36 .712 6, .771 26 .418 1. .00 44, .24 B
ATOM 4491 N THR B 272 36, .637 8, .285 28, .092 1. .00 43. .89 B
ATOM 4492 CA THR B 272 35 .961 7 .393 29 .012 1, .00 44, .80 B ATOM 4493 CB THR B 272 36 .704 7, .298 30 .359 1, .00 46, .18 B
ATOM 4494 OGl THR B 272 37, .976 6, .669 30, .156 1. .00 48, .66 B
ATOM 4495 CG2 THR B 272 35 .890 6 .482 31 .364 1, .00 46, .96 B
ATOM 4496 C THR B 272 34 .569 7, .941 29 .263 1. .00 44, .19 B
ATOM 4497 O THR B 272 34, .413 9, .069 29, .738 1. .00 47, .54 B ATOM 4498 N TYR B 273 33, .552 7, .160 28. .916 1. .00 44, .99 B
ATOM 4499 CA TYR B 273 32, .188 7, .601 29, .156 1. .00 41. .75 B
ATOM 4500 CB TYR B 273 31 .582 8. .237 27 .907 1. .00 42, .30 B
ATOM 4501 CG TYR B 273 30 .179 8, .740 28 .163 1. .00 43, .35 B
ATOM 4502 CD1 TYR B 273 29, .948 9, .772 29, .074 1. .00 39. .85 B ATOM 4503 CE1 TYR B 273 28 .655 10, .178 29 .391 1. .00 41. .66 B
ATOM 4504 CD2 TYR B 273 29 .077 8, .128 27 .564 1. .00 42. .79 B
ATOM 4505 CE2 TYR B 273 27. .777 8. .526 27. .874 1. ,00 40. ,62 B
ATOM 4506 CZ TYR B 273 27, .574 9. .546 28, .789 1. .00 40. .66 B
ATOM 4507 OH TYR B 273 26, .295 9. .926 29, .121 1. .00 41. .74 B ATOM 4508 C TYR B 273 31 .325 6. .444 29, .615 1. .00 37. .63 B
ATOM 4509 O TYR B 273 31, .253 5, .408 28, .956 1. .00 39. .83 B
ATOM 4510 N ASN B 274 30, .700 6, .619 30, .774 1. .00 40. .67 B
ATOM 4511 CA ASN B 274 29 .818 5. .604 31 .339 1. .00 40, .30 B
ATOM 4512 CB ASN B 274 30 .281 5, .197 32, .745 1. .00 42, .59 B ATOM 4513 CG ASN B 274 31, .737 4. .742 32, .779 1. ,00 46, .33 B
ATOM 4514 OD1 ASN B 274 32, .128 3. .808 32, .065 1. ,00 47. .41 B
ATOM 4515 ND2 ASN B 274 32, .545 5. .400 33, .606 1. ,00 42. .91 B
ATOM 4516 C ASN B 274 28, .417 6. .198 31, .423 1. ,00 39, .60 B
ATOM 4517 O ASN B 274 28, .193 7. .193 32, .120 1. ,00 40. .37 B ATOM 4518 N PRO B 275 27, .455 5. .613 30, .693 1. ,00 38. .86 B
ATOM 4519 CD PRO B 275 27 .566 4, .511 29, .724 1. .00 36, .63 B
ATOM 4520 CA PRO B 275 26, .087 6. .136 30, .738 1. .00 38. .65 B
ATOM 4521 CB PRO B 275 25. .324 5. ,188 29. ,819 1. 00 35. ,80 B
ATOM 4522 CG PRO B 275 26. .371 4. .764 28. .832 1. ,00 36. .72 B ATOM 4523 C PRO B 275 25. .563 6. .102 32. .174 1. ,00 39. .13 B
ATOM 4524 O PRO B 275 25. .803 5. ,145 32. .914 1. ,00 39. ,91 B
ATOM 4525 N PRO B 276 24, .852 7. .161 32. .586 1. ,00 38. .91 B
ATOM 4526 CD PRO B 276 24, .719 8. .419 31. .826 1. ,00 42. .08 B
ATOM 4527 CA PRO B 276 24, .274 7. ,308 33. .919 1. ,00 37. .54 B ATOM 4528 CB PRO B 276 24. .048 8. .813 34, .018 1. .00 39. .87 B
ATOM 4529 CG PRO B 276 23, .669 9. .166 32, .622 1. .00 40. .32 B
ATOM 4530 C PRO B 276 22, .992 6. .510 34. ,184 1. ,00 38. .82 B
ATOM 4531 O PRO B 276 22 .057 7. .012 34. .810 1. .00 38. .72 B
ATOM 4532 N TYR B 277 22, .943 5. .273 33. .711 1. .00 35. .95 B ATOM 4533 CA TYR B 277 21, .777 4. .428 33. .947 1. .00 35. .57 B
ATOM 4534 CB TYR B 277 20, .649 4. .735 32, .958 1. .00 33. .68 B
ATOM 4535 CG TYR B 277 21 .082 4. .827 31, .506 1. .00 30, .14 B
ATOM 4536 CD1 TYR B 277 21 .225 6. .069 30, .880 1. .00 30, .71 B
ATOM 4537 CE1 TYR B 277 21. .638 6. .165 29. .546 1. ,00 26. .68 B ATOM 4538 CD2 TYR B 277 21, .359 3. .678 30. .761 1. ,00 30. .15 B
ATOM 4539 CE2 TYR B 277 21, .770 3. .765 29. .429 1. ,00 27. .70 B
ATOM 4540 CZ TYR B 277 21, .907 5. ,014 28. .830 1. 00 28. .37 B
ATOM 4541 OH TYR B 277 22, .308 5. .111 27. .513 1. ,00 30, .31 B
ATOM 4542 C TYR B 277 22, .224 3. .002 33. .778 1. ,00 36. .64 B ATOM 4543 O TYR B 277 23.281 2.753 33.199 1..00 39,.57 B
ATOM 4544 N SER B 278 21, .443 2 .061 34, .289 1, .00 34, .07 B
ATOM 4545 CA SER B 278 21. .818 .672 34. .148 1. .00 37, .57 B
ATOM 4546 CB SER B 278 21 .308 - .147 35 .336 1, .00 35, .71 B ATOM 4547 OG SER B 278 19, .899 .270 35, .288 1, .00 48, .95 B
ATOM 4548 C SER B 278 21, .198 .165 32, .854 1, .00 36, .64 B
ATOM 4549 O SER B 278 20. .218 .739 32 .354 1. .00 39 .08 B
ATOM 4550 N TYR B 279 21, .781 .895 32 .310 1. .00 35, .68 B
ATOM 4551 CA TYR B 279 21, .293 -1. .494 31, .080 1. ,00 35. .58 B ATOM 4552 CB TYR B 279 21. .653 - .626 29 .871 1 .00 34 .69 B
ATOM 4553 CG TYR B 279 23 .131 - .352 29 .719 1. .00 30 .53 B
ATOM 4554 CD1 TYR B 279 23. .744 .667 30 .441 1, .00 31. .56 B
ATOM 4555 CE1 TYR B 279 25 .104 .916 30 .316 1 .00 35 .36 B
ATOM 4556 CD2 TYR B 279 23 .921 -1 .121 28 .862 1, .00 34 .18 B ATOM 4557 CE2 TYR B 279 25 .287 - .881 28 .733 1, .00 30. .07 B
ATOM 4558 CZ TYR B 279 25 .865 .136 29, .462 1, .00 30, .53 B
ATOM 4559 OH TYR B 279 27. .211 .386 29, .347 1. .00 40, .94 B
ATOM 4560 C TYR B 279 21, .907 -2, .866 30, .913 1. .00 34. .98 B
ATOM 4561 O TYR B 279 22 .954 -3 .163 31, .480 1, .00 38. .78 B ATOM 4562 N SER B 280 21 .241 -3, .696 30, .129 1. .00 39, .45 B
ATOM 4563 CA SER B 280 21, .708 -5, .047 29, .862 1. .00 42. .48 B
ATOM 4564 CB SER B 280 20 .532 -6 .010 30, .015 1. .00 42, .97 B
ATOM 4565 OG SER B 280 19 .492 -5. .660 29, .103 1. .00 48, .69 B
ATOM 4566 C SER B 280 22 .233 -5, .097 28, .424 1. .00 41, .04 B ATOM 4567 O SER B 280 21 .617 -4 .512 27 .528 1. .00 43, .32 B
ATOM 4568 N LEU B 281 23 .360 -5, .774 28, .198 1, .00 40, .26 B
ATOM 4569 CA LEU B 281 23 .922 -5, .897 26, .850 1, .00 37, .48 B
ATOM 4570 CB LEU B 281 25 .414 -5 .543 26 .843 1. .00 37 .60 B
ATOM 4571 CG LEU B 281 25 .812 -4. .066 26. .933 1, ,00 37, ,89 B ATOM 4572 CD1 LEU B 281 27 .324 -3, .950 26, .914 1. .00 38, ,66 B
ATOM 4573 CD2 LEU B 281 25 .218 -3 .295 25. .768 1, .00 38 .71 B
ATOM 4574 C LEU B 281 23, .754 -7. .308 26. .305 1. .00 38. .63 B
ATOM 4575 O LEU B 281 24, .116 -8. .279 26. .972 1. ,00 42. .02 B
ATOM 4576 N ASP B 282 23, .188 -7. .425 25. .110 1. ,00 35, ,10 B ATOM 4577 CA ASP B 282 23, .028 -8. .728 24. .469 1. .00 37, ,91 B
ATOM 4578 CB ASP B 282 22, .004 -8. .669 23. .329 1. .00 35. .67 B
ATOM 4579 CG ASP B 282 20 .575 -8, .581 23. .824 1, .00 38, .93 B
ATOM 4580 OD1 ASP B 282 20, .199 -9, .370 24, .715 1. .00 41, ,42 B
ATOM 4581 OD2 ASP B 282 19, .817 -7, .734 23, .316 1. .00 37, ,98 B ATOM 4582 C ASP B 282 24 .388 -9, .099 23, .881 1. .00 40, ,25 B
ATOM 4583 O ASP B 282 25. .204 -8, .221 23, .593 1. .00 42, .46 B
ATOM 4584 N ASN B 283 24, .630 -10, .393 23, .706 1. .00 41, .62 B
ATOM 4585 CA ASN B 283 25 .885 -10 .872 23, .129 1, .00 41, .25 B
ATOM 4586 CB ASN B 283 25 .884 -12, .409 23, .081 1. .00 45, .43 B ATOM 4587 CG ASN B 283 27 .184 -12, .987 22, .528 1. .00 49, .61 B
ATOM 4588 OD1 ASN B 283 27 .801 -12, .424 21, .617 1. .00 52, .33 B
ATOM 4589 ND2 ASN B 283 27 .598 -14, .132 23, .071 1. .00 59, .46 B
ATOM 4590 C ASN B 283 25, .962 -10. .310 21. .706 1. ,00 40. .54 B
ATOM 4591 O ASN B 283 24 .984 -10, .385 20. .957 1. .00 39. .53 B ATOM 4592 N VAL B 284 27, .118 -9, .768 21. .328 1. ,00 38. .10 B
ATOM 4593 CA VAL B 284 27, .265 -9, .194 19. .998 1. ,00 39. .54 B
ATOM 4594 CB VAL B 284 28, .693 -8, .658 19. .775 1. .00 39. .37 B
ATOM 4595 CGI VAL B 284 29, .671 -9, .811 19, .614 1. .00 38. .66 B
ATOM 4596 CG2 VAL B 284 28, .707 -7, .734 18. .560 1. .00 43. .55 B ATOM 4597 C VAL B 284 26 .912 -10, .193 18, .899 1. .00 40. .12 B
ATOM 4598 O VAL B 284 26 .458 -9, .812 17, .822 1. .00 38. .06 B
ATOM 4599 N ASP B 285 27, .106 -11, .477 19, ,181 1. .00 40, .23 B
ATOM 4600 CA ASP B 285 26 .800 -12, .522 18, .209 1, .00 42. .50 B
ATOM 4601 CB ASP B 285 27 .468 -13, .840 18, .609 1. .00 49, .23 B ATOM 4602 CG ASP B 285 28 .893 -13, .932 18, .133 1. .00 52, .34 B
ATOM 4603 OD1 ASP B 285 29, .765 -13. .249 18, .706 1. .00 51, .42 B
ATOM 4604 OD2 ASP B 285 29 .133 -14, .690 17, .166 1. .00 59 .38 B
ATOM 4605 C ASP B 285 25 .312 -12, .769 18, .029 1, .00 41 .41 B
ATOM 4606 O ASP B 285 24, .904 -13. .392 17. .039 1. .00 40, .03 B ATOM 4607 N ASN B 286 24 .508 -12, .301 18. .987 1. .00 39, .96 B
ATOM 4608 CA ASN B 286 23, .054 -12, .485 18. .926 1. .00 40, .98 B
ATOM 4609 CB ASN B 286 22, .498 -12, .758 20. .331 1. .00 44, .72 B
ATOM 4610 CG ASN B 286 23 .007 -14, .068 20, .931 1, .00 49, .13 B
ATOM 4611 OD1 ASN B 286 23, .173 -14, .178 22, .154 1. .00 52, .22 B ATOM 4612 ND2 ASN B 286 23.239 -15.069 20.083 1.00 49.87 B
ATOM 4613 C ASN B 286 22 .303 -11 .280 18 .334 1 .00 39 .99 B
ATOM 4614 O ASN B 286 21 .140 -11 .395 17 .941 1 ,00 40 .31 B
ATOM 4615 N VAL B 287 22 .977 -10 .137 18 .265 1, .00 37 .31 B ATOM 4616 CA VAL B 287 22 .383 -8 .895 17 .770 1 .00 37 .49 B
ATOM 4617 CB VAL B 287 23 .462 -7 .794 17 .634 1, .00 37 .03 B
ATOM 4618 CGI VAL B 287 22 .879 -6 .561 16 .946 1. .00 37 .73 B
ATOM 4619 CG2 VAL B 287 24 .000 -7 .431 19 .008 1, .00 35 .14 B
ATOM 4620 C VAL B 287 21 .605 -8 .965 16 .464 1, .00 37 .17 B ATOM 4621 O VAL B 287 20 .444 -8 .562 16 .402 1, .00 36 .15 B
ATOM 4622 N LYS B 288 22 .250 -9 .459 15 .418 1, .00 33 .47 B
ATOM 4623 CA LYS B 288 21 .604 -9 .549 14 .118 1. .00 35 .81 B
ATOM 4624 CB LYS B 288 22 .506 -10 .302 13 .133 1. .00 33, .48 B
ATOM 4625 CG LYS B 288 21 .982 -10 .338 11 .705 1, .00 37 .23 B ATOM 4626 CD LYS B 288 23 .048 -10 .874 10 .757 1, .00 40 .09 B
ATOM 4627 CE LYS B 288 22 .547 -10 .928 9 .327 1 .00 42 .70 B
ATOM 4628 NZ LYS B 288 23 .613 -11 .442 8 .425 1, .00 47 .13 B
ATOM 4629 C LYS B 288 20 .256 -10 .237 14 .209 1, .00 34 .98 B
ATOM 4630 O LYS B 288 19 .233 -9 .682 13 .811 1 .00 37 .78 B ATOM 4631 N SER B 289 20 .265 -11 .452 14 .741 1 .00 34 .22 B
ATOM 4632 CA SER B 289 19 .057 -12 .252 14 .874 1, .00 33 .34 B
ATOM 4633 CB SER B 289 19 .416 -13 .601 15 .512 1, .00 35 .25 B
ATOM 4634 OG SER B 289 18 .266 -14 .397 15 .690 1, .00 39 .92 B
ATOM 4635 C SER B 289 17 .946 -11 .576 15 .683 1, .00 31 .86 B ATOM 4636 O SER B 289 16 .777 -11 .591 15 .288 1, .00 31 .07 B
ATOM 4637 N ILE B 290 18 .313 -10 .986 . 16 .814 1, .00 30 .63 B
ATOM 4638 CA ILE B 290 17 .328 -10 .339 17 .677 1. .00 32, .84 B
ATOM 4639 CB ILE B 290 17 .944 -9 .983 19 .039 1, .00 31 .20 B
ATOM 4640 CG2 ILE B 290 16 .956 -9 .165 19 .865 1, .00 36 .60 B ATOM 4641 CGI ILE B 290 18 .305 -11 .273 19 .783 1. .00 37, .83 B
ATOM 4642 CD1 ILE B 290 19 .050 -11 .049 21. .092 1, .00 33, .75 B
ATOM 4643 C ILE B 290 16 .716 -9 .092 17 .065 1, .00 31, .00 B
ATOM 4644 O ILE B 290 15 .501 -8 .912 17 .097 1. .00 32, .04 B
ATOM 4645 N VAL B 291 17 .563 -8, .244 16, .490 1. .00 29, .00 B ATOM 4646 CA VAL B 291 17. .108 -7, .003 15, .874 1. ,00 30, .08 B
ATOM 4647 CB VAL B 291 18, .312 -6, .082 15. .563 1. ,00 27. .81 B
ATOM 4648 CGI VAL B 291 17 .863 -4, .853 14, .773 1. .00 28, .89 B
ATOM 4649 CG2 VAL B 291 18, .968 -5, .656 16, .862 1. ,00 27, .40 B
ATOM 4650 C VAL B 291 16, .278 -7, .224 14, .610 1. ,00 28. .72 B ATOM 4651 O VAL B 291 15, .193 -6, .661 14. .479 1. ,00 27. .15 B
ATOM 4652 N LYS B 292 16. .773 -8. .054 13. .694 1. ,00 31. .12 B
ATOM 4653 CA LYS B 292 16. .053 -8, .316 12. .453 1. ,00 34. .72 B
ATOM 4654 CB LYS B 292 16. .847 -9, .275 11. .554 1. ,00 34. .68 B
ATOM 4655 CG LYS B 292 18. .173 -8. .709 11. .077 1. ,00 31. .47 B ATOM 4656 CD LYS B 292 18. .797 -9. .566 9. .985 1. ,00 39. .29 B
ATOM 4657 CE LYS B 292 18. .013 -9, .485 8. .674 1, ,00 41. .18 B
ATOM 4658 NZ LYS B 292 18. .633 -10. .343 7. .620 1. ,00 42. .61 B
ATOM 4659 C LYS B 292 14. .653 -8. .878 12. .681 1. ,00 34. .74 B
ATOM 4660 O LYS B 292 13. .723 -8. .576 11. ,929 1. 00 36. ,49 B ATOM 4661 N GLN B 293 14. .493 -9. ,687 13. ,721 1. 00 31. ,80 B
ATOM 4662 CA GLN B 293 13. .188 -10. .279 13. ,999 1, ,00 35. .63 B
ATOM 4663 CB GLN B 293 13. .357 -11. .642 14. .670 1. ,00 38. .14 B
ATOM 4664 CG GLN B 293 13. .947 -12. ,709 13. ,762 1. 00 50. .41 B
ATOM 4665 CD GLN B 293 13. ,994 -14. ,068 14. ,437 1. 00 56. .39 B ATOM 4666 OE1 GLN B 293 14. .360 -15. .079 13. .821 1. ,00 59. .25 B
ATOM 4667 NE2 GLN B 293 13. .620 -14. .103 15. .715 1, ,00 60. .94 B
ATOM 4668 C GLN B 293 12. .252 -9. .443 14. ,858 1. .00 29. ,05 B
ATOM 4669 O GLN B 293 11. .035 -9. .584 14. ,762 1. 00 31. ,94 B
ATOM 4670 N ASN B 294 12. ,805 -8. ,564 15. ,686 1. 00 29. 40 B ATOM 4671 CA ASN B 294 11. .961 -7. .769 16. ,578 1. 00 31. ,65 B
ATOM 4672 CB ASN B 294 12. .352 -8. .077 18. ,032 1. 00 31. ,69 B
ATOM 4673 CG ASN B 294 12. ,124 -9. ,536 18. ,395 1. 00 32. ,72 B
ATOM 4674 OD1 ASN B 294 10. ,991 -9. ,970 18. 593 1. 00 36. 23 B
ATOM 4675 ND2 ASN B 294 13. .200 -10. .302 18. ,463 1. 00 32. .81 B ATOM 4676 C ASN B 294 11. .884 -6, .250 16. .372 1. ,00 33. .15 B
ATOM 4677 O ASN B 294 11. .122 -5. .574 17. .062 1. ,00 32. .50 B
ATOM 4678 N ALA B 295 12. .654 -5. .706 15. .436 1. ,00 29. .61 B
ATOM 4679 CA ALA B 295 12. .609 -4. .260 15. .197 1. ,00 32. ,24 B
ATOM 4680 CB ALA B 295 13. .991 -3, .744 14. .802 1, ,00 27. .12 B n in Φ- φ. to to M in o o in o o
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Figure imgf000137_0002
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Figure imgf000137_0003
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Figure imgf000137_0006
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Figure imgf000138_0001
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Figure imgf000138_0002
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Figure imgf000138_0003
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Figure imgf000139_0001
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Figure imgf000139_0002
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^ CD L lJl ι^ ω VO lD iπ ω cΛ ] l^ O CΛ lO l CO M C^ θ M O lD W VD l lπ ω LO CΛ Ln ιf^ σ\ VO CΛ LO C LO CX) CΛ lO M O CO LO VO M ιf^ CO O CΛ CΛ CΛ CO CΛ Ln ι71 tO l lO Lπ in CΛ LO CΛ co θ ιfv l o to
Figure imgf000139_0003
l-' J l-i l-^ -' l-i l-> ^ ^ -i l-' i-i \-' i-' ^ ^' Λ l-' ^ r-> tr-i r r-' t-' i-> ι M M M M M M M M M M M M M M M M M M M M M M M M Lπ LO ιf-. O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O θ σ
Figure imgf000139_0004
ifi σi LO O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O w ω ω ω Φ> ιi uι ^ ιf* ιi^ ιti >t^ ^ >f φ. ι^ ιf^ !J^ >^ ιfi iπ #> ι^ Φ ^
M O M VO CΛ CO O ln CΛ C ιf ι^ M >f^ l VO CD l VO O O ^ t M M O l l OO lπ CΛ C CΛ ^ w cΛ θi ω ^ -j μ o θ ] θ *. ιo o m oj ιι m o vo μ μ ra ^ ^ w cn ro vo ω co ω ιo ϋι w uι iΛ tπ ιo ιf> u * oo ω c θ ιli t μ μ ω ιt> t o * ιii (xι ω ui ^ m t ui o u ko kD ^ iΛ w ^ o ^ o ui o o o iii i ^ ^ os μ μ m ω o ω ^ M ω ifl io w ui w iD ω t o i ^ o ^ oi m ^ μ ω μ ω ifi i
i> ωωω Dωmmωωωωωm oωωraωωωωraωmωmraωωωωωωmω D
Ω Ω Ω Ω CO to M M

Claims

1. A variant of a wild-type parent pectate lyase (EC 4.2.2.2) having the conserved amino acid residues Dill, D141 or E141, D145, K165, R194 and R199 when aligned with the pectate lyase comprising the amino acid sequence of SEQ ID NO: 2, in which the variant is substituted in at least one position selected from the group consisting of the positions 5, 8, 9, 10, 19, 38, 39, 40, 41, 55, 56, 59, 61, 64, 71, 72, 82, 83, 90, 100, 102, 109, 112, 114, 117, 129, 133, 136, 137, 139, 142, 144, 160,
163, 164, 66 , 167, 168, 169, 171, 173, 179, 189, 192, 197, 198, 200, 203, 207, 214, 220, 222, 224, 230, 232, 236, 237, 238, 244, 246, 261, 262, 264, 265, 266, 269, 278, 282, 283, 284, 285, 288, 289 and 297.
2. The variant according to claim 1, which is derived from a wild-type variant holding the conserved amino acid residues W123, D125 and H126.
3. The variant according to claim 1 comprising at least one substituted amino acid residue selected from the group consisting of A41P, T55P, V71N, S72I,T, L82I, K83N,H, W90H, L100N, I102F, G114N, L129F, L133N, D136A, P, S , T, V, F144V, V160F, G163L,H,I, M167F,I,S, L168N, M169I, E189H,N, N192Y, S197N, F198V, F200N,Y, G203V,A, N207S, S220,V, M222N,Y, N230E, L232N, A236V, K237N, D238N, Y244D, S246R,P, S261I, R262E, M265K, S269P, D282H, N283P, D284P, D285G, K288P and S289P.
4. The variant according to claim 1 comprising the amino acid sequence of SEQ ID NO: 7.
5. The variant according to claim 1 comprising the amino acid sequence of SEQ ID NO : 8.
6. The variant according to claim 4 comprising one of the following substitutions:
M169I + F198V + E189H M169I + F198V + S72I M169I + F198V + F144V + M167I
7. The variant according to claim 5 comprising one of the following substitutions: M169I + F198V + S72I + M265K M169I + F198V + S72I + G203V M169I + F198V + S72I + K83H
8. The variant according to claim 4 comprising one of the following substitutions:
M169I + F198V + S72T
M169I + F198V + M167I
M169I + F198V + S72I + L82I + I102F + L129F + V160F
9. The variant according to claim 3 comprising one of the following substitutions :
N207S
N230E
N207S + N230E M169I + F198V + V71N
M169I + F198V + 90H
Ml691 + F198V + L100N
M169I + F198V + S72I + W90H
M169I + F198V + S72I + G163I M169I + F198V + S72I + G203A
M169I + F198V + S72I + F144V + M167S
M169I + F198V + S72I + G163I + A236V + S261I
10. The variant according to claim 1 comprising one of the following substitutions:
M169I + F198V + T55P
M169I + F198V + S269P
D282H + N283P + D284P
D282H + N283P + D284P + K288P M169I + F198V + N283P + D284P + K288P + S289P
11. The variant according to claim 1 comprising one of the following substitutions: M169I + F198V + A41P M169I + F198V + D136P M169I + F198V + N283P N283P + D285G
12. The variant according to claim 1 comprising one of the following substitutions:
M169I + F198V + D136S M169I + F198V + D136T M169I + F198V + S72I + M265K M169I + F198V + S72I + K83N
13. The variant according to claim 1 comprising one of the following substitutions: R262T
K237N + D238N
K237N 4- D238N + R262T
Y244D + S246R
N283P + D285G
14. An isolated polynucleotide molecule encoding the pectate lyase variant according to claim 1, which molecule is prepared from the molecule comprising the DNA sequence of SEQ ID NO : 1 by conventional methods such as site-directed mutagenesis.
15. An expression vector comprising the following operably linked elements: (a) a transcription promoter, (b) the polynucleotide molecule of claim 6 , and (c) degenerate nucleotide sequences of (a) or (b) ; and a transcription terminator.
16. A cultured cell into which has been introduced an expression vector according to claim 14, wherein said cell expresses the polypeptide encoded by the DNA segment .
17. A method of producing a polypeptide having pectate lyase activity comprising culturing a cell into which has been introduced an expression vector according to claim 14, whereby said cell expresses a polypeptide encoded by the DNA segment; and recovering the polypeptide.
18. An enzyme preparation comprising the pectate lyase variant 5 according to claim 1.
19. The preparation according to claim 18 which further comprises one or more enzymes selected from the group consisting of proteases, cellulases (endoglucanases) , β-
10 glucanases, hemicellulases, lipases, peroxidases, laccases, α- amylases, glucoamylases, cutinases, pectinases, reductases, oxidases, phenoloxidases, ligninases, pullulanases, arabinosidases, mannanases, xyloglucanases, xylanases, pectin acetyl esterases, polygalacturonases, rhamnogalacturonases,
15 galactanases, pectin lyases, other pectate lyases, pectin methylesterases, cellobiohydrolases, transglutaminases ; or mixtures thereof .
20. An isolated enzyme having pectate lyase activity, in which 20 the enzyme is (i) free from homologous impurities, and (ii) produced by the method according to claim 17.
21. A detergent composition comprising the enzyme preparation according to claim 18 or the enzyme according to claim 1.
25
22. A method for improving the properties of cellulosic fibres, yarn, woven or non-woven fabric in which method the fibres, yarn or fabric is treated with an effective amount of the preparation according to claim 15 or an effective amount of the
30 enzyme variant according to claim 1.
23. The method according to claim 22, wherein the enzyme preparation or the enzyme is used in a scouring process step.
35 24. A method for degradation or modification of plant material in which method the plant material is treated with an effective amount of the preparation according to claim 18 or an effective amount of the enzyme variant according to claim 1.
25. The method according to claim 24 wherein the plant material is recycled waste paper, mechanical paper-making pulps or fibres subjected to a retting process.
5
26. A variant of a cell-wall degrading enzyme having a beta- helix structure, which variant holds at least one substituent in a position determined by:
(i) Identifying all residues potentially belonging to a stack;
10 (ii) Characterising the stack as interior or exterior;
(iii) Characterising the stack as polar (typically asparagine, serine, threonine) or hydrophobic (either aliphatic: leucine, isoleucine or valine; or aromatic/heteroaromatic: phenylalanine, tyrosine, histidine, tryptophan) based on is the dominating characteristics of the parent or wild-type enzyme stack residues and/or its orientation relative to the beta-helix (interior or exterior) ; (iv) Optimising all stack positions of a stack either to hydrophobic aliphatic amino acids, hydrophobic aromatic
20 amino acids (preferably histidine alone, tyrosine and phenylalanine alone or in combination) or polar amino acids (preferably asparagine) by allowing mutations within one or all positions to amino acids belonging to one of these groups;
25 (v) Measuring thermostability of the variants by DSC or an application-related assay such as a Pad-Steam application test; and (vi) Selecting the stabilized variants.
30 27. A method of providing an improved variant of a cell-wall degrading enzyme having a beta-helix structure, the method comprising the steps of:
(i) Identifying all residues potentially belonging to a stack; (ii) Characterising the stack as interior or exterior; 35 (iii) Characterising the stack as polar (typically asparagine, serine, threonine) or hydrophobic (either aliphatic: leucine, isoleucine or valine; or aromatic/heteroaromatic: phenylalanine, tyrosine, histidine, and less often tryptophan) based on the dominating characteristics of the parent or wild-type enzyme stack residues and/or its orientation relative to the beta-helix (interior or exterior) ; (iv) Optimising all stack positions of a stack either to hydrophobic aliphatic amino acids, hydrophobic aromatic amino acids (preferably histidine alone, tyrosine and phenylalanine alone or in combination) or polar amino acids (preferably asparagine) by allowing mutations within one or all positions to amino acids belonging to one of these groups; (v) Measuring thermostability of the variants by DSC or an application-related assay such as a Pad-Steam application test ; and (vi) Selecting the stabilized variants.
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