WO2000022103A1 - A modified polypeptide with reduced immune response - Google Patents

A modified polypeptide with reduced immune response Download PDF

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Publication number
WO2000022103A1
WO2000022103A1 PCT/DK1999/000542 DK9900542W WO0022103A1 WO 2000022103 A1 WO2000022103 A1 WO 2000022103A1 DK 9900542 W DK9900542 W DK 9900542W WO 0022103 A1 WO0022103 A1 WO 0022103A1
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atom
polypeptide
ca
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owo wat
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PCT/DK1999/000542
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French (fr)
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Arne Agerlin Olsen
Claus Von Der Osten
Kim Vilbour Andersen
Steffen Ernst
Erwin Ludo Roggen
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Novozymes A/S
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Priority to DKPA199801301 priority
Priority to DKPA199901418 priority
Priority to DKPA199901418 priority
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Publication of WO2000022103A1 publication Critical patent/WO2000022103A1/en

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    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D3/00Other compounding ingredients of detergent compositions covered in group C11D1/00
    • C11D3/16Organic compounds
    • C11D3/38Products with no well-defined composition, e.g. natural products
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL, OR TOILET PURPOSES
    • A61K47/00Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
    • A61K47/50Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates
    • A61K47/51Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent
    • A61K47/56Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent the modifying agent being an organic macromolecular compound, e.g. an oligomeric, polymeric or dendrimeric molecule
    • A61K47/59Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent the modifying agent being an organic macromolecular compound, e.g. an oligomeric, polymeric or dendrimeric molecule obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polyureas or polyurethanes
    • A61K47/60Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent the modifying agent being an organic macromolecular compound, e.g. an oligomeric, polymeric or dendrimeric molecule obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polyureas or polyurethanes the organic macromolecular compound being a polyoxyalkylene oligomer, polymer or dendrimer, e.g. PEG, PPG, PEO or polyglycerol
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL, OR TOILET PURPOSES
    • A61K47/00Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
    • A61K47/50Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates
    • A61K47/51Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent
    • A61K47/62Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent the modifying agent being a protein, peptide or polyamino acid
    • A61K47/64Drug-peptide, drug-protein or drug-polyamino acid conjugates, i.e. the modifying agent being a peptide, protein or polyamino acid which is covalently bonded or complexed to a therapeutically active agent
    • A61K47/646Drug-peptide, drug-protein or drug-polyamino acid conjugates, i.e. the modifying agent being a peptide, protein or polyamino acid which is covalently bonded or complexed to a therapeutically active agent the entire peptide or protein drug conjugate elicits an immune response, e.g. conjugate vaccines
    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D3/00Other compounding ingredients of detergent compositions covered in group C11D1/00
    • C11D3/16Organic compounds
    • C11D3/37Polymers
    • C11D3/3703Macromolecular compounds obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds
    • C11D3/3719Polyamides; Polyimides
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N9/00Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
    • C12N9/14Hydrolases (3)
    • C12N9/24Hydrolases (3) acting on glycosyl compounds (3.2)
    • C12N9/2402Hydrolases (3) acting on glycosyl compounds (3.2) hydrolysing O- and S- glycosyl compounds (3.2.1)
    • C12N9/2405Glucanases
    • C12N9/2408Glucanases acting on alpha -1,4-glucosidic bonds
    • C12N9/2411Amylases
    • C12N9/2414Alpha-amylase (3.2.1.1.)
    • C12N9/2417Alpha-amylase (3.2.1.1.) from microbiological source
    • C12N9/242Fungal source
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12NMICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
    • C12N9/00Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
    • C12N9/14Hydrolases (3)
    • C12N9/48Hydrolases (3) acting on peptide bonds (3.4)
    • C12N9/50Proteinases, e.g. Endopeptidases (3.4.21-3.4.25)
    • C12N9/52Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from bacteria or Archaea
    • C12N9/54Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from bacteria or Archaea bacteria being Bacillus

Abstract

The present invention relates to polypeptides with reduced immune response including reduced allergenicity having one or more amino acid residues being substituted with other amino acid residues and/or having coupled one or more polymeric molecules in the vicinity of the polypeptides metal binding site, a method for preparing modified polypeptides of the invention, the use of said polypeptide for reducing the immunogenicity and allergenicity and compositions comprising said polypeptide.

Description

Title : A MODIFIED POLYPEPTIDE WITH REDUCED IMMUNE RESPONSE

FIELD OF THE INVENTION

The present invention relates to polypeptides having substituted one or more amino acid residues to said polypeptide and/or having coupled polymeric molecules on the surface of the 3 -dimensional structure of the polypeptide, a method for preparing modified polypeptides of the invention, the use of said modified polypeptides for reducing the immunogenicity and allergenicity, and compositions comprising said polypeptide.

BACKGROUND OF THE INVENTION

The use of polypeptides, including enzymes, in the circulatory system to obtain a particular physiological effect is well-known in the medical arts. Further, within the arts of industrial applications, such as laundry washing, textile bleaching, personal care, contact lens cleaning, and food and feed preparation enzymes are used as a functional ingredient. One of the important differences between pharmaceutical and industrial application is that for the latter type of applications (i.e. industrial applications) the polypeptides (often enzymes) are not intended to enter into the circulatory system of the body. Certain polypeptides and enzymes have an unsatisfactory stability and may under certain circumstances - dependent on the way of challenge - cause an immune response, typically an IgG and/or IgE response .

It is today generally recognized that the stability of polypeptides is improved and the immune response is reduced when polypeptides, such as enzymes, are coupled to polymeric molecules. It is believed that the reduced immune response is a result of the shielding of (the) epitope (s) on the surface of the polypeptide responsible for the immune response leading to antibody formation by the coupled polymeric molecules.

Techniques for conjugating polymeric molecules to polypeptides are well-known in the art. One of the first suitable commercially techniques was described back in the early 1970 ' ies and disclosed in e . g. US patent no. 4,179,337. Said patent concerns non-immunogenic polypeptides, such as enzymes and peptide hormones coupled to polyethylene glycol (PEG) or polypropylene glycol (PPG) . At least 15% of the polypeptides' physiological activity is maintained.

GB patent no. 1,183,257 (Crook et al . ) describes chemistry for conjugation of enzymes to polysaccharides via a triazine ring.

Further, techniques for maintaining of the enzymatic activity of enzyme-polymer conjugates are also known in the art.

WO 93/15189 (Veronese et al . ) concerns a method for maintaining the activity in polyethylene glycol-modified proteolytic enzymes by linking the proteolytic enzyme to a macromolecularized inhibitor. The conjugates are intended for medical applications.

It has been found that the attachment of polymeric molecules to a polypeptide often has the effect of reducing the activity of the polypeptide by interfering with the interaction between the polypeptide and its substrate. EP 183 503 (Beecham Group PLC) discloses a development of the above concept by providing conjugates comprising pharmaceutically useful proteins linked to at least one water-soluble polymer by means of a reversible linking group.

EP 471,125 (Kanebo) discloses skin care products comprising a parent protease {Bacillus protease with the trade name Esperase®) coupled to polysaccharides through a triazine ring to improve the thermal and preservation stability. The coupling technique used is also described in the above mentioned GB patent no. 1,183,257 (Crook et al . ) .

JP 3083908 describes a skin cosmetic material which contains a transglutaminase from guinea pig liver modified with one or more water-soluble substance such as PEG, starch, cellulose etc. The modification is performed by activating the polymeric molecules and coupling them to the enzyme. The composition is stated to be mild to the skin.

WO 98/35026 (Novo Nordisk A/S) describes polypeptide- polymer conjugates having added and/or removed one or more attachment groups for coupling polymeric molecules on the surface of the polypeptide structure. The conjugates have reduced immunogenicity and allergenicity.

SUMMARY OF THE INVENTION

It is the object of the present invention to provide improved polypeptides suitable for industrial and pharmaceutical applications . The term "improved polypeptides" means in the context of the present invention polypeptides having a reduced immune response in humans and animals. As will be described further below the immune response is dependent on the way of challenge.

The present inventors have found that polypeptides, such as enzymes, may be made less immunogenic and/or allergenic by substituting one or more amino acid residues on the surface of the polypeptide with other amino acid residues and/or by coupling polymeric molecules on the surface of the enzyme in the vicinity of a bound ligand of the enzyme e.g. a metal ion substantially without affecting the enzymatic activity.

When introducing pharmaceutical polypeptide directly into the circulatory system (i.e. bloodstream) the potential risk is an immunogenic response in the form of mainly IgG, IgA and/or IgM antibodies. In contrast hereto, industrial polypeptides, such as enzymes used as a functional ingredient in e. g. detergents, are not intended to enter the circulatory system. The potential risk in connection with industrial polypeptides is inhalation causing an allergenic response in the form of mainly IgE antibody formation. Therefore, in connection with industrial polypeptides the potential risk is respiratory allergenicity caused by inhalation, intratracheal and intranasal presentation of polypeptides. The main potential risk of pharmaceutical polypeptides is immunogenicity caused by intradermal , intravenous or subcu- taneous presentation of the polypeptide.

The term "immunogenicity" used in connection with the present invention may be referred to as allergic contact dermatitis in a clinical setting and is a cell mediated delayed immune response to chemicals that contact and penetrate the skin. This cell mediated reaction is also termed delayed contact hypersensitivity (type IV reaction according to Gell and Combs classification of immune mechanisms in tissue damage) .

The term "allergenicity" or "respiratory allergenicity" is initially an immediate anaphylactic reaction (type I antibody- mediated reaction according to Gell and Combs) following inhalation of e . g. polypeptides. According to the present invention it is possible to provide polypeptides with a reduced immune response, which has a substantially retained residual activity.

The allergic and the immunogenic response are in one term, at least in the context of the present invention called the "immune response" .

In the first aspect the invention relates to a polypeptide with reduced immune response, having one or more amino acid residues modified, wherein the Cα-atoms of said amino acid residues are located less than 15 A from the ligand bound to said polypeptide.

The reduced immune response is preferably reduced allergenicity.

The modification of the polypeptide is conducted by substituting one or more amino acid residues in the parent polypeptide with other amino acid residues to said polypeptide, and/or by selecting variants from a diverse library of variants of the parent polypeptide and/or by coupling a polymeric molecule to the surface of the parent polypeptide.

The term "parent polypeptide" refers to the polypeptide to be modified by coupling to polymeric molecules or by substituting amino acid residues. The parent polypeptide may be a naturally-occurring (or wild-type) polypeptide or may be a variant thereof prepared by any suitable means. For instance, the parent polypeptide may be a variant of a naturally-occurring polypeptide which has been modified by substitution, deletion or truncation of one or more amino acid residues or by addition or insertion of one or more amino acid residues to the amino acid sequence of a naturally-occurring polypeptide. A "suitable attachment group" means in the context of the present invention any amino acid residue group on the surface of the polypeptide capable of coupling to the polymeric molecule in question. Preferred attachment groups are amino groups of Lysine residues and the N-terminal amino group. Polymeric molecules may also be coupled to the carboxylic acid groups (-COOH) of amino acid residues in the polypeptide chain located on the surface. Carboxylic acid attachment groups may be the carboxylic acid group of Aspartate or Glutamate and the C-terminal COOH-group. Another attachment group is SH-groups in Cysteine.

An "active site" means any amino acid residues and/or molecules which are known to be essential for the performance of the polypeptide, such as catalytic activity, e . g. the catalytic triad residues, Histidine, Aspartate and Serine in Serine proteases, or e. g. the heme group and the distal and proximal Histidines in a peroxidase such as the Arthromyces ramosus peroxidase .

A "ligand" , means in the context of the present invention a metal or metal ion or a cofactor.

In the context of the present invention "modification of amino acid residues" means that amino acid residues are substituted with other amino acid residues and/or a polymeric molecule is coupled to the amino acid residue. The polypeptide of the present invention may according to the invention be modified by substitution alone, by coupling of a polymeric molecule alone or by a combination of substitution and coupling.

In the context of the present invention "located" means the shortest distance from any atom in the ligand to the relevant C- atom in the amino acid residue.

Furthermore, in the context of the present invention e.g. "R250K" means that the amino acid Arginine in position 250 of the polypeptide has been substituted with the amino acid Lysine according to the one-letter-code of amino acids. In the second aspect the invention relates to a method for preparing polypeptides with reduced immune response comprising the steps of : a) identifying amino acid residues located on the surface of the 3 -dimensional structure of the parent polypeptide in question, b) selecting target amino acid residues on the surface of said

3 -dimensional structure of said parent polypeptide to be modified, c) substituting one or more amino acid residues selected in step b) with other amino acid residue, and/or d) coupling polymeric molecules to the amino acid residues in step b) and/or step c) .

The invention also relates to the use of a modified polypeptide of the invention and the method of the invention for reducing the immunogenicity of pharmaceuticals and reducing the allergenicity of industrial products.

Finally the invention relates to compositions comprising a modified polypeptide of the invention and further ingredients used in industrial products or pharmaceuticals.

BRIEF DESCRIPTION OG THE DRAWINGS

Figure 1 shows integrated IgE antibudy levels in rats. Figure 2 shows integrated specific IgE levels in mice.

DETAILED DESCRIPTION OF THE INVENTION

It is the object of the present invention to provide improved polypeptides suitable for industrial and pharmaceutical applications . Even though polypeptides used for pharmaceutical applications and industrial application can be quite different the principle of the present invention may be tailored to the specific type of parent polypeptide (i.e. enzyme, hormone peptides etc.).

The present inventors have found that polypeptides, such as enzymes, may be made less immunogenic and/or less allergenic by substituting amino acid residues in the vicinity of the ligand e.g. metal ion at the metal ion binding site and/or by coupling one or more polymeric molecules on the surface of the parent polypeptide. In addition thereto the inventors have found that a high percentage of maintained residual catalytic activity may be maintained in these modified polypeptides.

In the first aspect the invention relates to an improved polypeptide having one or more amino acid residues modified, wherein the Cα-atom of said amino acid residues is located less than 15 A from the ligand bound to said polypeptide.

The substitution of amino acid residues and coupling of polymeric molecule may be carried out in a conventional manner as described below.

Reduced immune response vs. maintained residual enzymatic activity

For enzymes, there is a conflict between reducing the immune response and maintaining a substantial residual enzymatic activity.

Without being limited to any theory it is believed that the loss of enzymatic activity of enzyme-polymer conjugates might be a consequence of impeded access of the substrate to the active site in the form of spatial hindrance of the substrate by especially bulky and/or heavy polymeric molecules to the catalytic cleft. It might also, at least partly, be caused by disadvantageous minor structural changes of the 3 -dimensional structure of the enzyme due to the stress made by the coupling of the polymeric molecules .

Also, polypeptides modified by substituting one or more amino acid residues may have reduced enzymatic activity.

Maintained residual activity A modified polypeptide of the invention has a substantially maintained catalytic activity.

A "substantially" maintained catalytic activity is in the context of the present invention defined as an activity which is above 20%, at least between 20% and 30%, preferably between 30% and 40%, more preferably between 40% and 60%, better from 60% up to 80%, even better from 80% up to about 100%, in comparison to the activity of the modified polypeptide prepared on the basis of corresponding parent polypeptides.

In the case of polypeptide-polymer conjugates of the invention where no polymeric molecules are coupled at or close to the active site(s) the residual activity may even be up to 100% or very close thereto. If attachment group (s) of the parent polypeptide is (are) removed from the active site the activity might even be more than 100% in comparison to modified (i.e. polymer coupled) parent polypeptide conjugate.

The attachment group Virtually all ionized groups, such as the amino groups of Lysine residues, are located on the surface of the polypeptide molecule (see for instance Thomas E. Creighton, (1993), "Proteins", W.H. Freeman and Company, New York) .

Therefore, the number of readily accessible attachment groups { e . g. amino groups) on a modified or parent polypeptide equals generally the number of Lysine residues in the primary structure of the polypeptide plus the N-terminus amino group.

The chemistry of coupling polymeric molecules to amino groups is quite simple and well established in the art. Therefore, it is preferred to add Lysine residues (i.e. attachment groups) to the parent polypeptide in question to obtain improved conjugates with reduced immunogenicity and/or allergenicity and/or improved stability and/or high percentage maintained catalytic activity. Polymeric molecules may also be coupled to the carboxylic groups (-COOH) of amino acid residues on the surface of the polypeptide. Therefore, if using carboxylic groups (including the C-terminal group) as attachment groups addition and/or removal of Aspartate and Glutamate residues may also be a suitable according to the invention.

If using other attachment groups, such as -SH groups, they may be added and/or removed analogously.

Substitution of the amino acid residues is preferred over insertion, as the impact on the 3 -dimensional structure of the polypeptide normally will be less pronounced.

The parent polypeptide

In the context of the present invention, the term "polypeptides" includes proteins, peptides and/or enzymes for pharmaceutical or industrial applications. Typically the polypeptides in question have a molecular weight in the range between about 1 to 1000 kDa, preferred 4 to 100 kDa, more preferred 12 to 60 kDa.

Pharmaceutical polypeptides

The term "pharmaceutical polypeptides" is defined as polypep- tides, including peptides, such as peptide hormones, proteins and/or enzymes, being physiologically active when introduced into the circulatory system of the body of humans and/or animals .

Pharmaceutical polypeptides are potentially immunogenic as they are introduced into the circulatory system.

Examples of "pharmaceutical polypeptides" contemplated according to the invention include insulin, ACTH, glucagon, somatostatin, somatotropin, thymosin, parathyroid hormone, pigmentary hormones, somatomedin, erythropoietin, luteinizing hormone, chorionic gonadotropin, hypothalmic releasing factors, antidiuretic hormones, thyroid stimulating hormone, relaxin, interferon, thrombopoietin (TPO) and prolactin.

Industrial polypeptides Polypeptides used for industrial applications often have an enzymatic activity. Industrial polypeptides (e.g. enzymes) are (in contrast to pharmaceutical polypeptides) not intended to be introduced into the circulatory system of the body.

It is not very like that industrial polypeptides, such as enzymes used as ingredients in industrial compositions and/or products, such as detergents and personal care products, including cosmetics, come into direct contact with the circulatory system of the body of humans or animals, as such enzymes (or products comprising such enzymes) are not injected (or the like) into the bloodstream.

Therefore, in the case of the industrial polypeptide the potential risk is respiratory allergy (i.e. IgE response) as a consequence of inhalation of polypeptides through the respiratory passage. In the context of the present invention "industrial polypeptides" are defined as polypeptides, including peptides, proteins and/or enzymes, which are not intended to be administered to humans and/or animals. Examples of such polypeptides are polypeptides, especially enzymes, used in products such as detergents, household article products, agrochemicals, personal care products, such as skin care products, including cosmetics and toiletries, oral and dermal pharmaceuticals, composition use for processing textiles, compositions for hard surface cleaning, and compositions used for manufacturing food and feed etc.

Enzymatic activity Pharmaceutical or industrial polypeptides exhibiting enzymatic activity will often belong to one of the following groups of enzymes including Oxidoreductases (E.C. 1, "Enzyme Nomenclature, (1992), Academic Press, Inc.), such as laccase and Superoxide dismutase (SOD); Transferases, (E.C. 2), such as transglutaminases (TGases) ; Hydrolases (E.C. 3), including proteases, especially subtilisins, and lipolytic enzymes; Isomerases (E.C. 5), such as Protein disulfide Isomerases (PDI) .

Hydrolases Proteolytic enzymes

Contemplated proteolytic enzymes include proteases selected from the group of Aspartic proteases, such as pepsins, Cysteine proteases, such as Papain, Serine proteases, such as subtilisins, or metallo proteases, such as Neutrase®. Specific examples of parent proteases include PD498 (WO 93/24623 and SEQ ID NO. 2), Savinase® (von der Osten et al . (1993), Journal of Biotechnology, 28, p. 55+, SEQ ID NO 3) Proteinase K (Gunkel et al . , (1989), Eur. J. Biochem, 179, p 185-194), Proteinase R (Samal et al , (1990), Mol. Microbiol, 4 p. 1789-1792), Proteinase T (Samal et al . , (1989), Gene, 85, p 329-333), Subtilisin DY (Betzel et al . (1993), Arch. Biophys 302, no. 2, p. 499-502), Lion Y (JP 04197182-A) , Rennilase® (Available from Novo Nordisk A/S) , JA16 (WO 92/17576) , Alcalase® (a natural subtilisin Carlberg variant) (von der Osten et al . , (1993), Journal of Biotechnology, 28, p. 55+), Subtilisin BPN' J. Mol. Biol. 178:389-413 (1984); Hirono S., Akagawa H. , Mitsui Y., Iitaka Y. (Available from Novo Nordisk A/S) . Carbo ydrases

Parent carbohydrases may be defined as all enzymes capable of hydrolyzing carbohydrate chains (e.g. starches) of especially five and six member ring structures (i.e. enzymes classified under the Enzyme Classification number E.C. 3.2 (glycosidases) in accordance with the Recommendations (1992) of the International Union of Biochemistry and Molecular Biology (IUBMB) ) . Examples include carbohydrases selected from those classified under the Enzyme Classification (E.C.) numbers:

a-amylase (3.2.1.1) b-amylase (3.2.1.2), glucan 1,4-a- glucosidase (3.2.1.3), cellulase (3.2.1.4), endo-1, 3 (4) -b- glucanase (3.2.1.6), endo-1, 4-b-xylanase (3.2.1.8), dextranase (3.2.1.11), chitinase (3.2.1.14), polygalacturonase (3.2.1.15), lysozyme (3.2.1.17), b-glucosidase (3.2.1.21), a-galactosidase

(3.2.1.22), b-galactosidase (3.2.1.23), amylo-1, 6-glucosidase

(3.2.1.33), xylan 1, 4-b-xylosidase (3.2.1.37), glucan endo-1, 3- b-D-glucosidase (3.2.1.39), a-dextrin endo-1, 6-glucosidase (3.2.1.41), sucrose a-glucosidase (3.2.1.48), glucan endo-l,3-a- glucosidase (3.2.1.59), glucan 1 , 4-b-glucosidase (3.2.1.74), glucan endo-1 , 6-b-glucosidase (3.2.1.75), arabinan endo-1, 5-a- arabinosidase (3.2.1.99), lactase (3.2.1.108), chitonanase

(3.2.1.132) .

Examples of relevant carbohydrases include a-1, 3-glucanases derived from Trichoderma harzianum; a-1, 6-glucanases derived from a strain of Paecilomyces; b-glucanases derived from Bacillus subtilis ; b-glucanases derived from Humicola insolens; b-glucanases derived from Aspergillus niger; b-glucanases derived from a strain of Trichoderma; b-glucanases derived from a strain of Oerskovia xanthineolytica; exo-1, 4-a-D-glucosidases (glucoamylases) derived from Aspergillus niger; a-amylases derived from Bacillus subtilis; a-amylases derived from Bacillus amyloliq efaciens; a-amylases derived from Bacillus stearothermophilus ; a-amylases derived from Aspergillus oryzae; a-amylases derived from non-pathogenic microorganisms; a- galactosidases derived from Aspergillus niger; Pentosanases, xylanases, cellobiases, cellulases, hemi-cellulases deriver from Humicola insolens; cellulases derived from Trichoderma reesei ; cellulases derived from non-pathogenic mold; pectinases, cellulases, arabinases, hemi-celluloses derived from Aspergillus niger; dextranases derived from Penicillium lilacinum; endo- glucanase derived from non-pathogenic mold; pullulanases derived from Bacillus acidopullyticus ; b-galactosidases derived from Kluyveromyces fragilis; xylanases derived from Trichoderma reesei ;

Specific examples of readily available commercial carbohydrases include Alpha-GalO, Bio-Feedδ Alpha, Bio-Feedδ Beta, Bio-Feedδ Plus, Bio-Feedδ Plus, Novozyme® 188, Carezyme®, Celluclast®, Cellusoft®, Ceremyl®, CitrozymO, Denimaxδ, DezymeO, DextrozymeO, Finizym®, FungamylO, Gamanaseδ, Glucanex®, Lactozym®, MaltogenaseO, PentopanO, Pectinexδ, Promozyme®, PulpzymeO, Novamylδ, Termamyl®, AMG (Amyloglucosidase Novo) , Maltogenase® ,

Aquazym®, Natalase® (all enzymes available from Novo Nordisk A/S). Other carbohydrases are available from other companies.

It is to be understood that also carbohydrase variants are contemplated as the parent enzyme .

The activity of carbohydrases can be determined as described in "Methods of Enzymatic Analysis", third edition, 1984, Verlag Chemie, Weinheim, vol. 4.

Oxidoreductases Laccases

Contemplated laccases include Polyporus pinisi tus laccase (WO 96/00290) , Myceliophthora laccase (WO 95/33836) , Schytalidium laccase (WO 95/338337) , and Pyricularia oryzae laccase (Available from Sigma) .

Peroxidase

Contemplated peroxidases include B. pumilus peroxidases (WO

91/05858) , Myxococcaceae peroxidase (WO 95/11964) , Coprinus cinereus (WO 95/10602) and Arthromyces ramosus peroxidase (Kunishi a et al . (1994), J. Mol. Biol. 235, p. 331-344).

Transferases Transglutaminases

Suitable transferases include any transglutaminases disclosed in WO 96/06931 (Novo Nordisk A/S) and WO 96/22366 (Novo Nordisk A/S) .

Isomerases

Protein Disulfide Isomerase

Without being limited thereto suitable protein disulfide isomerases include PDIs described in WO 95/01425 (Novo Nordisk A/S) . Contemplated isomerases include xylose/glucose Isomerase

(5.3.1.5) including Sweetzyme®.

Lyases

Suitable lyases include Polysaccharide lyases: Pectate lyases (4.2.2.2) and pectin lyases (4.2.2.10), such as those from Bacillus licheniformis disclosed in WO 99/27083.

The polymeric molecule The polymeric molecules coupled to the polypeptide may be any suitable polymeric molecule, including natural and synthetic homo-polymers, such as polyols (i.e. poly-OH) , polyamines (i.e. poly-NH2) and polycarboxyl acids (i.e. poly-COOH), and further hetero-polymers i.e. polymers comprising one or more different coupling groups e . g. a hydroxyl group and a ine groups.

Examples of suitable polymeric molecules include polymeric molecules selected from the group comprising polyalkylene oxides

(PAO) , such as polyalkylene glycols (PAG) , including polyethylene glycols (PEG) , methoxypolyethylene glycols (mPEG) and polypropylen glycols, PEG-glycidyl ethers (Epox-PEG) , PEG- oxycarbonylimidazole (CDI-PEG) , Branced PEGs, poly-vinyl alcohol (PVA) , poly-carboxylates, poly- (vinylpyrolidone) , poly-D, L-amino acids, polyethylene-co-maleic acid anhydride, polystyrene-co- malic acid anhydrid, dextrans including carboxymethyl-dextrans, heparin, homologous albumin, celluloses, including methylcellulose, carboxymethylcellulose, ethylcellulose, hydroxyethylcellulose carboxyethylcellulose and hydroxypropylcellulose, hydrolysates of chitosan, starches such as hydroxyethyl-straches and hydroxy propyl-starches, glycogen, agaroses and derivates thereof, guar gum, pullulan, inulin, xanthan gum, carrageenin, pectin, alginic acid hydrolysates and bio-polymers . Preferred polymeric molecules are non-toxic polymeric molecules such as (m) polyethylene glycol ( (m) PEG) which further requires a relatively simple chemistry for its covalently coupling to attachment groups on the enzyme's surface.

Generally seen polyalkylene oxides (PAO) , such as polyethylene oxides, such as PEG and especially mPEG, are the preferred polymeric molecules, as these polymeric molecules, in comparison to polysaccharides such as dextran, pullulan and the like, have few reactive groups capable of cross-linking.

Even though all of the above mentioned polymeric molecules may be used according to the invention the methoxypolyethylene glycols (mPEG) may advantageously be used. This arise from the fact that methoxyethylene glycols have only one reactive end capable of conjugating with the enzyme. Consequently, the risk of cross-linking is less pronounced. Further, it makes the product more homogeneous and the reaction of the polymeric molecules with the enzyme easier to control .

An example of a branched PEG conjugate is Branched PEG2-NHS- ester of Lysine (available from Shearwater) .

Activation and coupling of polymers to polypeptides

If the polymeric molecules to be conjugated with the polypeptide in question are not active, they must be activated by the use of a suitable technique. It is also contemplated according to the invention to couple the polymeric molecules to the polypeptide through a linker. Suitable linkers are well- known to the skilled person. Methods and chemistry for activation of polymeric molecules as well as for conjugation of polypeptides are intensively described in the literature. Commonly used methods for activation of insoluble polymers include activation of functional groups with cyanogen bromide, periodate, glutaraldehyde, biepoxides, epichlorohydrin, divinylsulfone, carbodiimide, sulfonyl halides, trichlorotriazine etc. (see R.F. Taylor, (1991) , "Protein immobilisation. Fundamental and applications", Marcel Dekker, N.Y. ; S.S. Wong, (1992), "Chemistry of Protein Conjugation and Crosslinking" , CRC Press, Boca Raton; G.T. Hermanson et al . , (1993), "Immobilized Affinity Ligand Techniques", Academic Press, N.Y.) . Some of the methods concern activation of insoluble polymers but are also applicable to activation of soluble polymers e . g. periodate, trichlorotriazine, sulfonylhalides, divinylsulfone, carbodiimide etc. The functional groups being amino, hydroxyl, thiol , carboxyl, aldehyde or sulfydryl on the polymer and the chosen attachment group on the protein must be considered in choosing the activation and conjugation chemistry which normally consist of i) activation of polymer, ii) conjugation, and iii) blocking of residual active groups.

In the following a number of suitable polymer activation methods will be described shortly. However, it is to be understood that also other methods may be used. Coupling polymeric molecules to the free acid groups of polypeptides may be performed with the aid of diimide and for e- xample amino-PEG or hydrazino-PEG (Pollak et al . , (1976), J. Amr. Chem. Soc, 98, 289-291) or diazoacetate/amide (Wong et al . , (1992), "Chemistry of Protein Conjugation and Crosslinking", CRC Press).

Coupling polymeric molecules to hydroxy groups are generally very difficult as it must be performed in water. Usually hydrolysis predominates over reaction with hydroxyl groups.

Coupling polymeric molecules to free sulfhydryl groups can be reached with special groups like maleimido or the ortho- pyridyl disulfide. Also vinylsulfone (US patent no. 5,414,135, (1995), Snow et al . ) has a preference for sulfhydryl groups but is not as selective as the other mentioned. Accessible Arginine residues in the polypeptide chain may be targeted by groups comprising two vicinal carbonyl groups.

Techniques involving coupling electrophilically activated PEGs to the amino groups of Lysines may also be useful. Many of the usual leaving groups for alcohols give rise to an amine linkage. For instance, alkyl sulfonates, such as tresylates (Nilsson et al . , (1984), Methods in Enzymology vol. 104, Jacoby, W. B., Ed., Academic Press: Orlando, p. 56-66; Nilsson et al . , (1987), Methods in Enzymology vol. 135; Mosbach, K. , Ed.; Aca- demic Press: Orlando, pp. 65-79; Scouten et al . , (1987), Methods in Enzymology vol. 135, Mosbach, K. , Ed., Academic Press: Orlando, 1987; pp 79-84; Crossland et al . , (1971), J. Amr. Chem. Soc. 1971, 93, pp. 4217-4219), mesylates (Harris, (1985), supra ; Harris et al . , (1984), J. Polym. Sci. Poly . Chem. Ed. 22, pp 341-352) , aryl sulfonates like tosylates, and para-nitrobenzene sulfonates can be used.

Organic sulfonyl chlorides, e . g. Tresyl chloride, effectively converts hydroxy groups in a number of polymers, e . g. PEG, into good leaving groups (sulfonates) that, when reacted with nucleophiles like amino groups in polypeptides allow stable linkages to be formed between polymer and polypeptide. In addition to high conjugation yields, the reaction conditions are in general mild (neutral or slightly alkaline pH, to avoid denaturation and little or no disruption of activity) , and satisfy the non-destructive requirements to the polypeptide.

Tosylate is more reactive than the mesylate but also more unstable decomposing into PEG, dioxane, and sulfonic acid (Zalipsky, (1995), Bioconjugate Chem., 6, 150-165). Epoxides may also been used for creating amine bonds but are much less reactive than the above mentioned groups.

Converting PEG into a chloroformate with phosgene gives rise to carbamate linkages to Lysines. This theme can be played in many variants substituting the chlorine with N-hydroxy succinimide (US patent no. 5,122,614, (1992); Zalipsky et al . , (1992), Biotechnol. Appl . Biochem., 15, p. 100-114; Monfardini et al . , (1995), Bioconjugate Chem., 6, 62-69, with imidazole (Allen et al . , (1991), Carbohydr. Res., 213, pp 309-319), with para-nitrophenol , DMAP (EP 632 082 Al, (1993), Looze, Y.) etc. The derivatives are usually made by reacting the chloroformate with the desired leaving group. All these groups give rise to carbamate linkages to the peptide. Furthermore, isocyanates and isothiocyanates may be employed yielding ureas and thioureas, respectively.

Amides may be obtained from PEG acids using the same leaving groups as mentioned above and cyclic imid thrones (US patent no. 5,349,001, (1994), Greenwald et al . ) . The reactivity of these compounds are very high but may make the hydrolysis to fast.

PEG succinate made from reaction with succinic anhydride can also be used. The hereby comprised ester group make the conjugate much more susceptible to hydrolysis (US patent no. 5,122,614, (1992), Zalipsky). This group may be activated with N-hydroxy succinimide.

Furthermore, a special linker can be introduced. The most commonly used is cyanuric chloride (Abuchowski et al . , (1977), J. Biol. Chem., 252, 3578-3581; US patent no. 4,179,337, (1979), Davis et al . ; Shafer et al . , (1986), J. Polym. Sci. Polym. Chem. Ed., 24, 375-378.

Coupling of PEG to an aromatic amine followed by diazotation yields a very reactive diazonium salt which in si tu can be reacted with a peptide. An amide linkage may also be obtained by reacting an azlactone derivative of PEG (US patent no. 5,321,095, (1994), Greenwald, R. B.) thus introducing an additional amide linkage.

As some peptides do not comprise many Lysines it may be advantageous to attach more than one PEG to the same Lysine. This can be done e . g. by the use of 1, 3-diamino-2-propanol . PEGs may also be attached to the amino-groups of the enzyme with carbamate linkages (WO 95/11924, Greenwald et al . ) . Lysine residues may also be used as the backbone.

The coupling technique used in the examples is the N- succinimidyl carbonate conjugation technique descried in WO 90/13590 (Enzon) .

Method for preparing improved polypeptides It is also an object of the invention to provide a method for preparing improved polypeptides comprising the steps of: a) identifying amino acid residues located on the surface of the 3 -dimensional structure of the parent polypeptide in question, b) selecting target amino acid residues on the surface of said 3 -dimensional structure of said parent polypeptide to be modified, c) substituting one or more amino acid residues selected in step b) with other amino acid residue, and/or d) coupling polymeric molecules to the amino acid residues in step b) and/or step c) .

Step a) Identifying amino acid residues located on the surface of the parent polypeptide

3 -dimensional structure

To perform the method of the invention a 3 -dimensional structure of the parent polypeptide in question is required. This structure may for example be an X-ray structure, an NMR structure or a model-built structure. The Brookhaven Databank is a source of X-ray- and NMR-structures .

A model -built structure may be produced by the person skilled in the art if one or more 3-dimensional structure (s) exist (s) of homologous polypeptide (s) sharing at least 30% sequence identity with the polypeptide in question. Several software packages exist which may be employed to construct a model structure. One example is the Homology 95.0 package from MSI Inc.

Typical actions required for the construction of a model structure are: alignment of homologous sequences for which 3- dimensional structures exist, definition of Structurally Conserved Regions (SCRs) , assignment of coordinates to SCRs, search for structural fragments/loops in structure databases to replace Variable Regions, assignment of coordinates to these regions, and structural refinement by energy minimization.

Regions containing large inserts (>3 residues) relative to the known 3-dimensional structures are known to be quite difficult to model, and structural predictions must be considered with care .

Having obtained the 3-dimensional structure of the polypeptide in question, or a model of the structure based on homology to known structures, this structure serves as an essential prerequisite for the fulfillment of the method described below.

Step b) Selection of target amino acid residues Target amino acid residues to be modified are according to the invention selected from those amino acid residues, wherein the Cα-atom is located less than 15 A from a ligand. In a preferred embodiment a possible Cβ-atom should be closer to the ligand than the Cα-atom. In a more preferred embodiment the Cα- atom of the amino acid residue is located less than 10 A from the ligand and said amino acid residues have an accessibility of at least 15%, preferably at least 20% and more preferably at least 30%.

Step c) Substitution

Conservative substitution

It is preferred to make conservative substitutions in the polypeptide when the polypeptide has to be conjugated, as conservative substitutions secure that the impact of the substitution on the polypeptide structure is limited.

In the case of providing additional amino groups this may be done by substitution of Arginine to Lysine, both residues being positively charged, but only the Lysine having a free amino group suitable as an attachment groups.

In the case of providing additional carboxylic acid groups the conservative substitution may for instance be an Asparagine to Aspartic acid or Glutamine to Glutamic acid substitution.

These residues resemble each other in size and shape, except from the carboxylic groups being present on the acidic residues . In the case of providing SH-groups the conservative substitution may be done by substitution of Threonine or Serine to Cysteine.

Which amino acids to substitute depends in principle on the coupling chemistry to be applied.

When no coupling is performed after substitution there is in general no limit on the selection of amino acids for substitution. However, preferred amino acids for substitutions are substitutions to polar residues e.g. K, R, D, E, H, Q, N, S, T, C. Also substitutions to residues with short side chains G and A are preferred.

Further, when no coupling is to be performed, the changes may be in the form of addition or deletion of at least one amino acid for which the C atom is located within 15A from the bound ligand, preferably deleting an amino acid.

Furthermore, the parent protein may be changed by substituting some amino acids and deleting/adding other.

Only substitutions which provide polypeptides with reduced immune response when evaluated in animal models are within the concept of the present invention.

The mutation (s) performed in step c) may be performed by standard techniques well known in the art, such as site-directed mutagenesis (see, e . g. , Sambrook et al . (1989), Molecular

Cloning. A Laboratory Manual, Cold Spring Harbor, NY. A general description of nucleotide substitution can be found in e.g. Ford et al . , 1991, Protein Expression and

Purification 2, p. 95-107.

In a preferred embodiment of the invention, more than one amino acid residue is substituted, added or deleted, these amino acids possibly being located close to different bound ligands. In that case, it may be difficult to assess a priori how well the functionality of the protein is maintained while antigenicity, immunogenicity and/or allergenicity is reduced.

This can be achieved by establishing a library of diversified mutants each having one or more changed amino acids introduced and selecting those variants which show good retention of function and at the same time a good reduction in antigenicity.

In the case of protease, this can be tested by assaying the secreted variants for enzyme activity (as described below in the experimental section) and for antigen binding (e.g. by competitive ELISA using methods known in the art. (see e.g J. Clausen, Immunochemical Techniques For The Identification and Estimation of Macromolecules, Elsevier, Amsterdam, 1988 pp.187- 188) . Specifically, the competivity ELISA can be performed with the wild-type protease coated on ELISA plates, and incubated with specific polyclonal anti-protease antiserum from rabbits in the presence of protease variant . The scope of these embodiments of the invention is by no means limited to protease, which serves only to provide an example. A diversified library can be established by a range of techniques known to the person skilled in the art (Reetz MT; Jaeger KE, in Biocatalysis - from Discovery to Application edited by Fessner WD, Vol. 200, pp. 31-57 (1999); Stemmer, Nature, vol. 370, p.389-391, 1994; Zhao and Arnold, Proc. Natl. Acad. Sci., USA, vol. 94, pp. 7997-8000, 1997; or Yano et al . , Proc. Natl. Acad. Sci., USA, vol. 95, pp 5511-5515, 1998). In a more preferable embodiment, substitutions are found by a method comprising the following steps: 1) a range of substitutions, additions, and/or deletions are listed, 2) a library is designed which introduces a randomized subset of these changes in the amino acid sequence into the target gene, e.g. by random mutagenesis, 3) the library is expressed, and preferred variants are selected. In a most preferred embodiment, this method is supplemented with additonal rounds of screening and/or family shuffling of hits from the first round of screening (J.E. Ness, et al , Nature Biotechnology, vol. 17, pp. 893-896, 1999) and/or combination with other methods of reducing allergenicity by genetic means (such as that disclosed in WO92/10755) .

Generation of site directed mutations

Prior to mutagenesis the gene encoding the polypeptide of interest must be cloned in a suitable vector. Methods for generating mutations in specific sites is described below.

Once the polypeptide-encoding gene has been cloned, desirable sites for mutation identified, and the residue (s) to substitute for the original one(s) have been decided, these mutations can be introduced using synthetic oligonucleotides. These oligonucleotides contain nucleotide sequences flanking the desired mutation sites; mutant nucleotides are inserted during oligo-nucleotide synthesis. In a preferred method, Site-directed mutagenesis is carried out by SOE-PCR mutagenesis technique described by Kammann et al . (1989) Nucleic Acids Research 17(13), 5404, and by Sarkar G. and Sommer, S.S. (1990); Biotechniques 8, 404-407.

Step d) Coupling polymeric molecules to the optionally modified parent enzyme

Polypeptide-polymer conjugates of the invention may be prepared by any coupling method known in the art including the above mentioned techniques.

Preparation of enzyme variants

Enzyme variants to be conjugated may be constructed by any suitable method. A number of methods are well established in the art. For instance enzyme variants according to the invention may be generated using the same materials and methods described in e.g. WO 89/06279 (Novo Nordisk A/S), EP 130,756 (Genentech) , EP 479,870 (Novo Nordisk A/S), EP 214,435 (Henkel) , WO 87/04461 (Amgen) , WO 87/05050 (Genex) , EP application no. 87303761 (Genentech), EP 260,105 (Genencor) , WO 88/06624 (Gist-Brocades NV) , WO 88/07578 (Genentech) , WO 88/08028 (Genex) , WO 88/08033 (Amgen) , WO 88/08164 (Genex) , Thomas et al . (1985) Nature, 318 375-376; Thomas et al . (1987) J. Mol. Biol., 193, 803-813; Russel and Fersht (1987) Nature 328 496-500.

Coupling of polymeric molecules to the polypeptide in question See previous paragraphs

Immunogenicity and Allergenicity

"Immunogenicity" is a wider term than "antigenicity" and "allergenicity", and expresses the immune system's response to the presence of foreign substances . Said foreign substances are called immunogens, antigens and allergens depending of the type of immune response the elicit.

An "immunogen" may be defined as a substance which, when introduced into circulatory system of animals and humans, is capable of stimulating an immunologic response resulting in formation of immunoglobulin.

The term "antigen" refers to substances which by themselves are capable of generating antibodies when recognized as a non- self molecule. Further, an "allergen" may be defined as an antigen which may give rise to allergic sensitization or an allergic response by IgE antibodies (in humans, and molecules with comparable effects in animals) .

Assessment of immunogencity

Assessment of the immunogenicity may be made by injecting animal subcutaneously to enter the immunogen into the circulation system and comparing the response with the response of the corresponding parent polypeptide. The "circulatory system" of the body of humans and animals means, in the context of the present invention, the system which mainly consists of the heart and blood vessels. The heart delivers the necessary energy for maintaining blood circulation in the vascular system. The circulation system functions as the organism's transportation system, when the blood transports 02, nutritious matter, hormones, and other substances of importance for the cell regulation into the tissue. Further the blood removes C02 from the tissue to the lungs and residual substances to e. g. the kidneys. Furthermore, the blood is of importance for the temperature regulation and the defence mechanisms of the body, which include the immune system.

A number of in vivo animal models exist for assessment of the immunogenic potential of polypeptides. Some of these models give a suitable basis for hazard assessment in man. Suitable models include a mice model .

This model seek to identify the immunogenic response in the form of the IgG response in Balb/C mice being injected subcutaneously with modified and unmodified polypeptides. Also other animal models can be used for assessment of the immunogenic potential.

A polypeptide having "reduced immunogenicity" according to the invention indicates that the amount of produced antibodies, 5 e . g. immunoglobulin in humans, and molecules with comparable effects in specific animals, which can lead to an immune response, is significantly decreased, when introduced into the circulatory system, in comparison to the corresponding parent polypeptide. lo For Balb/C mice the IgG response gives a good indication of the immunigenic potential of polypeptides.

Assessment of allergenicity

Assessment of allergenicity may be made by inhalation tests, is comparing the effect of mtratracheally (into the trachea) administrated parent enzymes with the corresponding modified enzymes according to the invention.

A number of in vivo animal models exist for assessment of the allegenicity of enzymes. Some of these models give a suitable

20 basis for hazard assessment in man. Suitable models include a guinea pig model and a mouse model. These models seek to identify respiratory allergens as a function of elicitation reactions induced in previously sensitised animals. According to these models the alleged allergens are introduced intratrach-

25 eally into the animals.

A suitable strain of guinea pigs, the Dunkin Hartley strain, do not as humans, produce IgE antibodies in connection with the allergic response. However, they produce another type of antibody the IgGIA and IgGIB (see e. g. Prentø, ATLA, 19, p. 8-14,

30 1991) , which are responsible for their allergenic response to inhaled polypeptides including enzymes. Therefore, when using the Dunkin Hartley animal model, the relative amount of IgGIA and IgGIB is a measure of the allergenicity level . The Balb/C mice strain is suitable for intratracheal,

35 intredermal or subcutaneous exposure . Balb/C mice produce IgE as the allergic response.

More details on assessing respiratory allergens in guinea pigs and mice is described by Kimber et al . , (1996), Fundamental and Applied Toxicology, 33, p. 1-10.

Other animals such as rats, rabbits etc. may also be used for comparable studies .

Composition

The invention relates to a composition comprising a modified polypeptide of the invention.

The composition may be a pharmaceutical or industrial composition, The composition may further comprise other polypeptides, proteins or enzymes and/or ingredients normally used in e. g. detergents, including soap bars, household articles, agrochemicals, personal care products, including skin care compositions, cleaning compositions for e . g. contact lenses, oral and dermal pharmaceuticals, composition use for treating textiles, compositions used for manufacturing food, e . g. baking, and food/feed etc.

Use of the polypeptide The invention also relates to the use of the method of the invention for reducing the immune response of polypeptides.

It is also an object of the invention to use the polypeptide-polymer conjugate or the polypeptide otherwise modified according to the invention to reduce the allergenicity of industrial products, such as detergents, such as laundry, disk wash and hard surface cleaning detergents, food or feed products, personal care products and textile products.

MATERIAL AND METHODS Materials

Enzymes :

PD498: Protease of subtilisin type shown in WO 93/24623. The sequence of PD498 is shown in SEQ ID NO. 1 and 2. Savinase®: The sequence is shown in SEQ ID NO 3 (Available from Novo Nordisk A/S)

Subtilisin BPN' : The sequence can be found in the SWISS-PROT database. The sequence is also disclosed in: GALLAGHER T., OLIVER J., BOTT R., BETZEL C, GILLILAND G.L.; "Subtilisin BPN' at 1.6-A resolution: analysis for discrete disorder and comparison of crystal forms."; Acta Crystallogr. D 52:1125-1135(1996). The enzyme is available from Novo Nordisk A/S.

Amylase AA560: The alkaline α-amylase may be derived from a strain of Bacillus sp. DSM 12649. The strain was deposited on 25th January 1999 by the inventors under the terms of the Budapest Treaty on the International Recognition of the Deposit of Microorganisms for the Purposes of Patent Procedure at Deutshe Sammmlung von Microorganismen und Zellkulturen GmbH (DSMZ) , Mascheroder Weg lb, D-38124 Braunschweig DE.The sequence is shown in SEQ ID NO. 4.

Strains :

B . subtilis 309 and 147 are variants of Bacillus lentuε, deposited with the NCIB and accorded the accession numbers NCIB 10309 and 10147, and described in US Patent No. 3,723,250 incorporated by reference herein. E. coli MC 1000 (M.J. Casadaban and S.N. Cohen (1980); J. Mol . Biol . 138 179-207), was made r~,m+ by conventional methods and is also described in US Patent Application Serial No. 039,298.

Vectors : pPD498: E. coli - B . subtilis shuttle vector (described in US patent No. 5,621,089 under section 6.2.1.6) containing the wild-type gene encoding for PD498 protease (SEQ ID NO. 2) . The same vector is use for mutagenesis in E. coli as well as for expression in B . subtilis .

Materials, chemicals and solutions:

Horse Radish Peroxidase labeled anti-rat-Ig (Dako, DK, P162, # 031; dilution 1:1000). Mouse anti-rat IgE (Serotec MCA193; dilution 1:200).

Rat anti-mouse IgE (Serotec MCA419; dilution 1:100).

Biotin-labeled mouse anti-rat IgGl monoclonal antibody (Zymed

03-9140; dilution 1:1000) Biotin-labeled rat anti -mouse IgGl monoclonal antibody (Serotec

MCA336B; dilution 1:1000)

Streptavidin-horse radish peroxidase (Kirkegard & Perry 14-30-

00; dilution 1:1000) .

CovaLink NH2 plates (Nunc, Cat# 459439) Cyanuric chloride (Aldrich)

Acetone (Merck)

Rat anti-Mouse IgGl, biotin (SeroTec, Cat# MCA336B)

Streptavidin, peroxidase (KPL)

Ortho-Phenylene-diamine (OPD) (Kem-en-Tec, Cat# 4260) H202, 30% (Merck)

Tween 20 (Merck)

Skim Milk powder (Difco)

H2S04 (Merck)

Buffers and Solutions:

Carbonate buffer (0.1 M, pH 10 (1 liter)) Na2C03 10.60 g

PBS (pH 7.2 (1 liter)) NaCl 8.00 g

KCl 0.20 g

K2HP04 1.04 g KH2P04 0.32 g

Washing buffer PBS, 0.05% (v/v) Tween 20

Blocking buffer PBS, 2% (wt/v) Skim Milk powder

Dilution buffer PBS, 0.05% (v/v) Tween 20, 0.5% (wt/v) Skim Milk powder Citrate buffer (0.1M, pH 5.0-5.2 (1 liter) ) NaCitrate 20.60 g

Citric acid 6.30 g

Sodium Borate, borax (Sigma)

3, 3 -Dimethyl glutaric acid (Sigma)

CaCl2 (Sigma) Tresyl chloride (2 , 2 , 2-triflouroethansulfonyl chloride) (Fluka) l-ethyl-3- (3-dimethylaminopropyl) carbodiimide (EDC) (Fluka)

N-Hydroxy succinimide (Fluka art. 56480)) Phosgene (Fluka art. 79380) Lactose (Merck 7656)

PMSF (phenyl methyl sulfonyl flouride) from Sigma Succinyl-Alanine-Alanine-Proline-Phenylalanine-para-nitroanilide (Suc-AAPF-pNP) Sigma no. S-7388, Mw 624.6 g/mole.

Activation of CovaLink plates:

• Make a fresh stock solution of 10 mg cyanuric chloride per ml acetone . • Just before use, dilute the cyanuric chloride stock solution into PBS, while stirring, to a final concentration of lmg/ml .

• Add 100 ml of the dilution to each well of the CovaLink NH2 plates, and incubate for 5 minutes at room temperature.

• Wash 3 times with PBS. • Dry the freshly prepared activated plates at 50°C for 30 minutes .

• Immediately seal each plate with sealing tape.

• Preactivated plates can be stored at room temperature for 3 weeks when kept in a plastic bag.

Test Animals:

Female Balb/C mice (about 20 grams) purchased from

Bomholdtgaard, Ry, Denmark.

Female Brown-Norway rats, weighing on the average 180 g

Equipment :

XCEL II (Novex)

ELISA reader (UVmax, Molecular Devices)

HPLC (Waters) PFLC (Pharmacia)

Superdex-75 column, Mono-Q, Mono S from Pharmacia, SW.

SLT: Fotometer from SLT Lablnstruments

Size-exclusion chromatograph (Spherogel TSK-G2000 SW) .

Size-exclusion chromatograph (Superdex 200, Pharmacia, SW) Amicon Cell

Enzymes for DNA manipulations Unless otherwise mentioned all enzymes for DNA manipulations, such as e . g. restriction endonucleases, ligases etc., are obtained from New England Biolabs. Inc.

Media:

BPX: Composition (per liter)

Potato starch lOOg

Ground barley 50g Soybean flour 20g

Na2HP04 X 12 H20 9g

Pluronic 0. lg

Sodium caseinate lOg

The starch in the medium is liquefied with α-amylase and the medium is sterilized by heating at 120°C for 45 minutes. After sterilization the pH of the medium is adjusted to 9 by addition of NaHC03 to 0.1 M.

Methods

General molecular biology methods :

Unless otherwise mentioned the DNA manipulations and transformations were performed using standard methods of molecular biology (Sambrook et al . (1989) Molecular cloning: A laboratory manual, Cold Spring Harbor lab., Cold Spring Harbor,

NY; Ausubel, F. M. et al . (eds.) "Current protocols in

Molecular Biology". John Wiley and Sons, 1995; Harwood, C. R. , and Cutting, S. M. (eds.) "Molecular Biological Methods for

Bacillus". John Wiley and Sons, 1990). Enzymes for DNA manipulations were used according to the specifications of the suppliers.

Fermentation of PD498 variants

Fermentation of PD498 variants in B . subtilis are performed at 30°C on a rotary shaking table (300 r.p.m.) in 500 ml baffled Erlenmeyer flasks containing 100 ml BPX medium for 5 days. In order to make an e . g. 2 liter broth 20 Erlenmeyer flasks are fermented simultaneously. Purification of PD498 variants

Approximately 1.6 litres of PD498 variant fermentation broth are centrifuged at 5000 rpm for 35 minutes in 1 litre beakers. The supernatants are adjusted to pH 7.0 using 10% acetic acid and filtered on Seitz Supra S100 filter plates. The filtrates are concentrated to approximately 400 ml using an Amicon CH2A UF unit equipped with an Amicon S1Y10 UF cartridge. The UF concentrate is centrifuged and filtered prior to absorption at room temperature on a Bacitracin affinity column at pH 7. The PD498 variant is eluted from the Bacitracin column at room temperature using 25% 2-propanol and 1 M sodium chloride in a buffer solution with 0.01 dime-thyl-glutaric acid, 0.1 M boric acid and 0.002 M calcium chloride adjusted to pH 7.

The fractions with protease activity from the Bacitracin purification step are combined and applied to a 750 ml Sephadex G25 column (5 cm diameter) equilibrated with a buffer containing 0.01 dimethylglutaric acid, 0.1 M boric acid and 0.002 M calcium chloride adjusted to pH 6.0.

Fractions with proteolytic activity from the Sephadex G25 column are combined and applied to a 150 ml CM Sepharose CL 6B cat-ion exchange column (5 cm diameter) equilibrated with a buffer containing 0.01 M dimethylglutaric acid, 0.1 M boric acid, and 0.002 M calcium chloride adjusted to pH 6.0.

The protease is eluted using a linear gradient of 0-0.5 M sodium chloride in 1 litres of the same buffer.

Protease containing fractions from the CM Sepharose column are combined and filtered through a 2μ filter.

Determination of the molecule weight

Electrophoretic separation of proteins was performed by standard methods using 4-20% gradient SDS poly acrylamide gels (Novex) . Proteins were detected by silver staining. The molecule weight was measured relative to the mobility of Mark-12® wide range molecule weight standards from Novex. Protease activity Analysis with Suc-Ala-Ala-Pro-Phe-pNa :

Proteases cleave the bond between the peptide and p- nitroaniline to give a visible yellow colour absorbing at 405 nm. Buffer: e . g. Britton and Robinson buffer pH 8.3

Substrate: 100 mg suc-AAPF-pNa is dissolved into 1 ml dimethyl sulfoxide (DMSO) . 100 ml of this is diluted into 10 ml with Britton and Robinson buffer.

The substrate and protease solution is mixed and the absorbance is monitored at 405 nm as a function of time and

ABS405 nm/min- Tne temperature should be controlled (20-50°C depending on protease) . This is a measure of the protease activity in the sample.

Proteolytic Activity

In the context of this invention proteolytic activity is expressed in Kilo NOVO Protease Units (KNPU) . The activity is determined relatively to an enzyme standard (SAVINASE_) , and the determination is based on the digestion of a dimethyl casein (DMC) solution by the proteolytic enzyme at standard conditions, i . e . 50°C, pH 8.3, 9 min. reaction time, 3 min. measuring time. A folder AF 220/1 is available upon request to Novo Nordisk A/S, Denmark, which folder is hereby included by reference. A GU is a Glycine Unit, defined as the proteolytic enzyme activity which, under standard conditions, during a 15-minutes' incubation at 40°C, with N-acetyl casein as substrate, produces an amount of NH2 -group equivalent to 1 mmole of glycine.

Enzyme activity can also be measured using the PNA assay, according to reaction with the soluble substrate succinyl- alanine-alanine-proline-phenyl-alanine-para-nitrophenol , which is described in the Journal of American Oil Chemists Society,

Rothgeb, T.M., Goodlander, B.D., Garrison, P.H., and Smith,

L.A. , (1988) .

ELISA IgE test system (for Brown Norway rats) :

A three layer sandwich ELISA is used to determine relative concentrations of specific antibodies. The immunizing molecule is used as coating antigen with 10 mg per ml and 50 ml per well, in neutral phosphate buffer, incubated overnight at 4°C. All remaining binding spots on the well surface are blocked in 2 % skim milk, 200 ml per well in phosphate buffer for at least 30 minutes at room temperature (RT) . All seras to be tested with this antigen are added at 50 ml per well to this plate using a 8-channel pipette in dilution series from 10 x diluted followed by 3 -fold dilutions. Dilutions are made in phosphate buffer with 0.5 % skim milk and 0.05% Tween20, incubated 2 hours on agitation platform at RT. The "tracer" molecule is biotinylated Mouse anti Rat IgE 50 ml per well and diluted 2000 x in phosphate buffer with 0.5 % skim milk and 0.05% Tween 20, incubated 2 hours on an agitation platform at RT. Control (blank) was identical sequence but without rat sera. 50 ml per well streptavidin horse raddish peroxidase, diluted 2000 x was incubated 1 hour on an agitation platform. Colouring substrate at 50 ml per well is OPD (6 mg) and H202 (4 ml of a 30% solution) per 10 ml citrate buffer pH 5.2. The reaction is stopped using 100 ml per well 2 N H2S04. All readings on SLT at 486 nm and 620 nm as reference. Data is calculated and presented in Lotus.

ELISA procedure to determine relative concentrations of IgE antibodies in BALB/C mice A three layer sandwich ELISA is used to determine relative concentrations of specific IgE serum antibodies.

1) Coat the ELISA-plate with 10 mg rat anti-mouse IgE or mouse anti-rat IgE/ml buffer 1.

50 ml/well. Incubate over night at 4°C. 2) Empty the plates and block with Blocking buffer at least % hour at room temperature .

200 ml/well. Shake gently. Wash the plates 3 times with Washing Buffer.

3) Incubate with mouse/rat sera, starting from undiluted and continue with 2 -fold dilutions. Keep some wells free for buffer 4 only (blanks). 50 ml/well .

Incubate for 30 minutes at room temperature. Shake gently. Wash the plates 3 times in Washing Buffer. 4) Dilute the enzyme in Dilution buffer to the appropriate protein concentration. 50ml/well.

Incubate for 30 minutes at room temperature. Shake gently. Wash the plates 3 times in Washing Buffer. 5) Dilute specific polyclonal anti -enzyme antiserum serum (pig) for detecting bound antibody in Dilution buffer. 50ml/well. Incubate for 30 minutes at room temperature. Shake gently. Wash the plates 3 times in Washing Buffer.

6) Dilute Horseradish Peroxidase-conjugated anti-pig-antibody in Dilution buffer. 50 ml/well.

Incubate at room temperature for 30 minutes. Shake gently. Wash the plates 3 times in Washing Buffer.

7) Mix 0.6 mg ODP/ml + 0.4 μl H202/ml in substrate Buffer. Make the solution just before use. Incubate for 10 minutes. 50 μl/well.

8) To stop the reaction: add Stop Solution. 50 μl/well. 9 ) Read the plates at 492 nm with 620 nm as reference. Data is calculated and presented in Lotus.

EXAMPLES

Example 1

Subtilisin BPN'

In order to identify the residues to be modified, a distance and a directional criteria are applied.

As disclosed earlier residues having their Cα-atom closer than 15 A to a ligand are targets for modification. Preferably, residues having their Cβ-atom closer to the ligand bound than the Cα-atom, thereby allowing a potential side chain to point in the direction of the ligand, are targets for modification.

The relevant distance can easily be measured using e.g. molecular graphics programs like InsightI I from Molecular Simulations INC.

Especially surface exposed residues, defined as having ACOO when applying the DSSP program to the relevant protein part of the structure, are targets for modification. The DSSP program is disclosed in W. Kabsch and C. Sander, BIOPOLYMERS 22

(1983) pp. 2577-2637.

In Thomas E. Creighton, PROTEINS; Structure and Molecular Priciples, WH Freeman and Company, NY, ISBN: 0-7167-1566-X

(1984) is disclosed a table listing the accessible surface areas of individual amino acid residues. In the table below 15% and 20% accessibility has been determined.

Figure imgf000036_0001

When dividing the found accessible surface area (ACC) for each amino acid of the protein with the accessible surface area for that individual amino acid (found in the Creighton table) the accessibility value in percent is obtained.

In order to find residues to modify, the method described above was applied to the X-ray structure of Subtilisin BPN' in complex with the inhibitor CI-2 (entry 2SNI in the Brookhaven

Protein Data Bank) . Only the Subtilisin BPN' and the two metal ions in the structure was used for the analysis. Both ions are calcium ions. They are found in site 1 and site 2.

The results of the analysis are seen in the tables below. The columns shows the distance in A from the metal ion to the C and Cβ as well as the accessibility as determined by DSSP for each residue to modify.

Site 1: resid res . <no dist (Cα) dist (Cβ) ACC ACC (AxA) (%)

GLY 80 4.40 14 18.67

ASN 77 4.68 4.57 62 38.75

ASP 41 5.14 4.36 0

GLN 2 5.46 4.64 47 26.11

ALA 74 5.57 5.12 0

GLY 83 7.80 0

PRO 86 8.44 7.42 8

GLY 70 9.04 1

THR 208 9.38 8.66 0

HIS 39 10.41 9.97 3

PRO 5 10.46 10.17 18 12.41

LYS 43 10.62 10.53 137 68.50

TYR 214 10.68 9.62 75 32.61

GLN 206 11.79 11.27 88 48.89

VAL 8 12.42 10.89 2

THR 22 13.14 12.12 22 15.71

GLY 215 13.52 14 18.67

PRO 14 13.53 13.29 45 31.03

HIS 17 13.64 12.25 28 14.36

THR 66 13.80 13.76 0

SER 9 14.40 14.22 58 50.43

ALA 13 14.66 13.53 0

GLY 7 14.74 0

LEU 90 14.79 13.38 1

ASP 36 14.87 14.57 20 13.33

GLY 211 14.88 45 60.00 Site 2: resid resno dist (Cα) dist (Cβ) ACC ACC (AxA) (%)

GLU 195 4.44 4.28 48 25.26

ALA 176 4.67 3.85 0

GLY 169 5.16 0

ASP 197 5.90 5.14 21 14.00

VAL 165 8.35 6.96 6

ALA 151 8.54 8.04 0

GLY 166 9.43 14 18.67

GLY 193 9.46 0

GLY 264 9.63 7

VAL 149 9.85 9.50 3

GLY 178 10.74 0

VAL 139 10.95 9.63 0

GLY 154 11.31 17 22.67

SER 163 11.34 10.12 29 25.22

ARG 247 11.35 10.32 47 20.89

LYS 265 11.66 11.35 76 38.00

GLN 251 11.74 10.57 26 14.44

SER 191 11.83 11.04 0

SER 224 12.34 12.02 0

VAL 143 12.36 10.91 41 26.45

MET 124 12.43 11.71 0

GLY 127 12.44 61 81.33

SER 260 12.47 12.12 72 62.61

GLY 131 12.69 29 38.67

VAL 227 13.37 11.90 0

THR 220 13.55 12.34 3

LEU 250 13.58 12.73 3

LEU 135 13.60 13.21 6

GLY 266 13.93 0

GLY 128 14.04 16 21.33

SER 190 14.12 14.09 0

ALA 142 14.13 13.36 0 ILE 122 14 17 13.65 0

ALA 223 14 44 13.70 0

ASN 243 14 50 13.94 21 13.13

ALA 200 14 63 14.15 0

The table below shows functional preferred substitutions in site 1 and 2 of the BPN'. For Gly 80 the substitution G to S/T G to N/Q and G to K/D means that Glycine in position 80 may preferably be substituted with Serine/Threonine or Asparagine/Glutamine or Lysine/Aspartic acid.

Figure imgf000039_0001

Figure imgf000039_0002

Example 2

PD498

The 3-dimensional structure of PD 498 as determined by X-ray crystallography in Brookhaven Protein Data Bank (PDB) format

The sequence which was used to elucidate the three- dimensional structure forming the basis for the present invention consists of the 280 amino acids derived from Bacillus sp . PD498, NCIMB No. 40484 as disclosed in sequence ID No. 2.

The structure of PD498 was solved in accordance with the principle for X-ray crystallographic methods given in "X-Ray Structure Determination", Stout, G.K. and Jensen, L.H. , John Wiley & Sons, inc. NY, 1989 and "Protein Crystallography" by Blundell, T.L. and Johnson, L.N. , Academic Press, London, 1990. The structural coordinates for the solved crystal structure of PD 498 at 2.2 A resolution using the isomorphous replacement method are given in a standard PDB format (Brookhaven Protein Data Base) in Appendix 1. It is to be understood that Appendix 1 forms part of the present application.

In Appendix 1 the amino acid residues of the enzyme are identified by three-letter amino acid code (capitalized letters) .

PD498 has three bound metal ions. Site 1 is equivalent to site 1 in subtilisin BPN' and contains a calcium ion. Site 2 does not have an equivalent in subtilisin BPN' and contains a calcium ion. Site 3 is in the same region as the 2nd site in subtilisin BPN' and does here contain a sodium ion and a monopropylene glycol ligand. Applying the above method disclosed in example 1 results in:

Site 1:

resi<due resno dist (Cα) dist (Cβ) ACC (AxA) ACC (%)

GLY 89 4.26 4

ASP 5 5.02 3.92 0

ASP 48 5.10 4.36 0

ASN 86 5.15 4.73 33 20.63

ALA 82 5.84 4.97 0

GLY 87 6.05 41 54.67 GLY 92 7.33 0

TYR 8 7.87 7.12 12

TYR 7 8.01 7.63 89 38.70

PRO 47 8.13 8.09 59 40.69 PRO 3 8.61 7.55 9

GLY 78 8.69 0

THR 213 9.19 8.55 0

ARG 51 10.39 9.61 162 72.00

HIS 46 10.41 9.93 1 LYS 52 10.56 9.41 10

TYR 219 10.74 9.79 56 24.35

ALA 211 11.55 11.03 9

GLN 12 11.67 10.44 22 12.22

GLY 218 12.00 18 24.00 ALA 10 12.35 12.15 65 56.52

TYR 11 12.46 12.00 121 47.45

VAL 53 13.30 13.18 18 11.61

PRO 15 13.52 12.10 0

ARG 28 13.77 12.93 103 45.78 ILE 99 14.16 13.16 0

ASP 43 14.36 14.04 8

TRP 1 14.43 13.90 71 27.84

GLY 14 14.60 1

GLY 234 14.85 0 GLY 29 14.97 13 17.33

Site 2

resid resno dist(Cα) dist (Cβ) ACC (AxA) ACC (

ASN 65 4.25 4.04 65 40.63

ASP 61 4.98 3.62 88 58.67

ASP 63 5.30 4.43 46 30.67

ASP 58 5.39 3.87 0

MET 67 5.53 5.42 42 22.70 ILE 60 7.09 6.76 48 27.43

ARG 103 7.67 6.23 4

GLY 41 8.03 1

LEU 69 8.99 8.35 114 67.06

GLY 56 10.02 2

LYS 55 10.15 9.43 115 57.50

ALA 101 11.02 10.20 0

TYR 44 11.83 11.14 35 15.22

GLY 73 13.18 0

ASN 45 13.57 13.14 114 71.25

GLY 119 13.62 0

GLY 111 13.75 36 48.00

GLY 71 13.78 4

SER 115 13.82 12.77 24 20.87

GLY 109 13.90 32 42.67

THR 74 13.96 13.69 0

PRO 215 14.41 13.20 30 20.69

VAL 53 14.70 13.64 18 11.61

VAL 37 14.80 14.62 1

Site 3 :

resid resno dist(Cα) dist (Cβ) ACC (AxA) ACC (%)

ALA 179 4.07 4.05 0

ALA 181 4.65 4.11 0

TRP 200 6.65 6.57 46 18.04

ASP 202 6.86 6.02 19 12.67

ALA 160 7.85 7.10 0

VAL 158 8.84 8.28 0

THR 170 9.23 8.58 65 46.43

VAL 148 10.12 8.77 0

LYS 268 10.74 9.64 108 54.00

ARG 250 11.05 10.04 30 13.33

GLY 183 11.15 2

GLY 198 11.37 8

TRP 152 11.64 10.35 35 13.73 LEU 133 11.65 10.63 0

GLU 254 11.66 10.63 15 7.89

GLY 136 11.84 39 52.00

TYR 269 12.12 11.37 45 19.57

GLY 163 12.15 11 14.67

SER 229 12.16 11.65 0

LEU 144 13.01 12.62 2

ASN 196 13.01 12.00 1

VAL 232 13.12 11.71 0

LEU 131 13.25 12.69 0

ILE 253 13.27 12.22 1

ALA 151 13.59 12.87 0

THR 225 13.88 12.66 1

ASN 246 14.04 13.33 17 10.63

GLY 270 14.22 0

ILE 249 14.51 14.36 4

ALA 228 14.65 14.00 0

SER 141 14.78 14.70 21 18.26

ALA 236 14.93 13.63 0

The table below shows the preferred functional substitutions in site 1, 2 and 3 of PD498.

Figure imgf000043_0001
Figure imgf000044_0001

Example 3

Savinase For this example the X-ray structure entry 1SVN in the Brookhaven Protein Data Bank was used. This structure contains two metal ions. Site 1 contains a calcium ion and is at a position equivalent to site 1 in subtilisin BPN1. Site 2 contains a calcium ion at a position equivalent to site 2 in subtilisin BPN' . In the following list a SEQUENTIAL numbering have been applied and NOT the numbering system used in the structure file.

Site 1: resid resno dist (Cα) dist (Cβ) ACC ACC (AxA) (%) GLY 78 4.28 14 18.67

ASN 75 4.74 4.64 61 38 .13

ASP 40 5.08 4.34 0

GLN 2 5.39 4.59 45 25, .0

ALA 72 5.49 4.99 0

GLY 81 7.68 0

PRO 84 8.28 7.29 5

GLY 68 8.88 1

THR 202 9.19 8.67 0

HIS 38 10.40 9.89 13

PRO 5 10.47 10.26 14 9. .66

ASN 42 10.55 10.50 94 58. .75

TYR 208 10.72 9.76 65 28. .26

GLN 200 11.75 11.39 82 45. .56

ILE 8 12.10 10.58 3

PRO 14 12.91 12.63 49 33. .79

THR 22 13.01 12.24 29 20. .71

HIS 17 13.44 12.07 29 14. .87

ALA 13 13.78 12.63 0

GLY 7 14.60 2

LEU 88 14.86 13.68 0

GLY 223 14.89 0

GLY 23 14.93 0

Site 2 : resid resno dist (Cα) dist (Cβ) ACC ACC

(AxA) (%)

ALA 170 4.88 4.24 0

GLY 189 5.10 46 61.33

ASP 191 7.22 6.52 6

ALA 149 7.79 7.05 0

ILE 159 8.29 6.89 1

VAL 147 8.98 8.40 0

VAL 137 9.81 8.44 0

GLY 187 10.71 3

GLY 258 10.85 3 ARG 241 10.90 9.77 39 17.33

GLY 172 11.27 0

GLY 125 11.66 46 61 33

THR 141 11.72 10.47 20 14 29

LEU 122 11.73 10.70 0

GLY 152 11.96 8

LEU 133 12.29 11.70 3

GLN 185 12.41 11.63 14 7 74

THR 218 12.51 11.95 0

LYS 245 12.79 11.71 48 24 00

SER 259 12.93 12.67 35 30 43

ASN 237 13.34 12.53 22 13 75

ALA 120 13.49 13.00 0

THR 254 13.53 13.19 100 71 43

VAL 221 13.62 12.14 0

ALA 140 13.65 13.13 0

VAL 145 13.91 13.88 0

THR 214 14.00 12.84 2

GLY 157 14.11 42 56 00

LEU 244 14.27 13.26 0

ALA 217 14.97 14.17 0

The table below shows the preferred functional substitutions in site 1 and 2 of Savinase .

Figure imgf000046_0001

Figure imgf000047_0001

Example 4

Amylase (AA560)

For this example the structure of AA560 has been found by homology modelling using the BAN/Termamyl α-amylase structure disclosed in WO 96/23874 which is hereby incorporated by reference. This structure contains two metal ions. Both site 1 and 2 contain a calcium ion.

The example shows how a 3-dimensional structure determined by model building using coordinates from a homologous structure, can be used to identify residues of the ligand binding site, which may be modified in order to reduce the immune response .

Applying the method disclosed above results in:

Site 1

Figure imgf000047_0002
Figure imgf000048_0001

Figure imgf000049_0002

site 2

Figure imgf000049_0001

Figure imgf000050_0001

The table below shows functional preferred substitutions in site 1 and 2 of the amylase AA560. For ASN 126 the substitution N to D/E means that Asparagine in position 126 may preferably be substituted with Aspartic acid or Glutamic acid, Lysine or Arginine, or Alanine or Cysteine.

Figure imgf000050_0002
Example 5

Conjugation of Savinase variant R241K with activated bis-PEG- 1000

228 mg of the Savinase variant was incubated in 50 mM Sodium Borate pH 9.5 with 510 mg of N-succinimidyl carbonate activated bis-PEG 1000 in a reaction volume of approximately 30 ml. The reaction was carried out at ambient temperature using magnetic stirring while keeping the pH within the interval 9.0-9.5 by addition of 0.5 M NaOH. The reaction time was 2 hours. The reaction was stopped by adding 1M HCI to a final pH of 6.0. Reagent excess was removed by ultra filtration using a Filtron- Ultrasette and the final product stored at -20°C, in 50 mM Sodium Borate, 150 mM NaCl, 1 mM CaCl2, 50% mono propylene glycol at H 6.0.

Compared to the parent enzyme, residual activity was close to 100% towards a peptide substrate (succinyl -Ala-Ala-Pro-Phe-p- nitro-anilide) .

Example 6

Conjugation of Savinase variant R241K with activated bis-PEG- 2000

353 mg of the Savinase variant was incubated in 50 mM Sodium Borate pH 9.5 with 1621 mg of N-succinimidyl carbonate activated bis-PEG 2000 in a reaction volume of approximately 35 ml. The reaction was carried out at ambient temperature using magnetic stirring while keeping the pH within the interval 9.0- 9.5 by addition of 0.5 M NaOH. The reaction time was 2 hours. The reaction was stopped by adding 1M HCI to a final pH of 6.0. Reagent excess was removed by ultra filtration using a Filtron- Ultrasette and the final product stored at -20°C, in 50 mM Sodium Borate, 150 mM NaCl, 1 mM CaCl2, 50% mono propylene glycol at H 6.0. Compared to the parent enzyme, residual activity was close to 100% towards a peptide substrate (succinyl -Ala-Ala-Pro-Phe-p- nitro-anilide) .

Example 7

Determination of IgE levels in rats of R241KbPEG1000 and R241KbPEG2000

Methods :

Sample Management: Each sample was diluted to 0.075 mg protein/ml, and aliquoted in 1.5 ml. These fractions were sent to the stables for storage at -20°C until use. Additionally, 100 μl of the respective fractions were stored in the lab- freezer at -20°C for immunochemical analysis at the beginning, halfway and at the end of the study. For each immunization and each analysis a new fraction was taken.

Immunization: Twenty intratracheal immunizations were performed weekly with 100 μl 0.9% (wt/vol) NaCl (control group), or 100 μl of the protein dilution mentioned before.

(group 5 unmodified R241K variant of Savinase, group 6 R241K- bis-S-PEGlOOO, and group 7 R241K-bis-S-PEG2000. Each group contained 10 rats. Blood samples (2 ml) were collected from the eye one week after every second immunization. Serum was obtained by blood clothing, and centrifugation.

ELISA: Specific IgE levels were determined using the ELISA' s specific for rat IgE. The sera were titrated at Y dilutions, starting from undiluted. Optical densities were measured at 492/620 nm. The results are shown in figure 1. As can be seen the IgE levels of the conjugated savinase variants R241K are reduced compared to the savinase variant R241K.

Example 8

Determination of IgE levels in mice of savinase variants R2410. R241E, R241H and R241K.

Female Balb/c mice, 9 weeks of age were immunised subcutaneously for 20 consecutive weeks, with wild type savinase, and with variants having single mutations in position

R241 (R241Q, R241E, R241H, R241K) . Every other week, IgGl and

IgE serum levels were determined by ELISA.

Sample Management: Each sample was diluted to 0.010 mg protein/ml, and aliquoted in 1.5 ml. These fractions were sent to the stables for storage at -20°C until use. Additionally, 100 μl of the respective fractions were stored in the lab-freezer at -20°C for immunochemical analysis at the beginning, halfway and at the end of the study. For each immunization and each analysis a new fraction was taken.

Immunization: Twenty subcutanuous immunizations were performed weekly with 100 μl 0.9% (wt/vol) NaCl (control group), or 100 μl of the protein dilution mentioned before. Thus, group 1 received wild type Savinase, group 2 (R241Q) , group 3 (R241H) , group 4 (R241E) , and group 5 (R241K) . Each group contained 10 mice. Blood samples (100 μl) were collected from the eye one week after every second immunization. Serum was obtained by blood clotting, and centrifugation.

ELISA: Specific IgGl levels were determined using the ELISA specific for mouse IgGl. The sera were titrated at % dilutions, starting from 1:160.

Specific IgE levels were determined using the ELISAs specific for mouse IgE. The sera were titrated at y2 dilutions, starting from undiluted. Optical densities were measured at 492/620 nm.

Statistical analysis: Differences between data sets were analysed by using nonparametric methods: the Kruskal-Wallis Test and the Dunn's Multiple Comparison Test. The results are shown in figure 2. As can be seen the IgE levels of the Savinase variants are significantly reduced. PAGE INTENTIONALLY LEFT BLANK

APPENDIX 1

The structure of PD498 as determined by X-ray crystallography in Brookhaven Protein Data Bank (PDB) format.

CRYST 45. 070 67. .090 81.100 90.00 90.00 90.00 : P212121

SCALE1 0.02219 0 .00000 0. .00000 0.00000

SCALE2 0.00000 0 .01491 0. .00000 0.00000

SCALE3 0.00000 0 .00000 0. .01233 0.00000

ATOM 1 N TRP A 1 17. .560 -14, .241 47.742 1. .00 15, .33 7

ATOM 2 CA TRP A 1 18. .953 -13, .784 47.487 1. .00 15, .36 6

ATOM 3 C TRP A 1 19. .164 -12, .349 48.002 1. .00 14, .46 6

ATOM 4 O TRP A 1 18. .277 -11. .567 47.654 1. .00 17. .10 8

ATOM 5 CB TRP A 1 19. .316 -13. .777 46.000 1. .00 21, .00 6

ATOM 6 CG TRP A 1 20. .729 -13, .519 45.607 1. .00 15, .22 6

ATOM 7 CD1 TRP A 1 21. .877 -14, .241 45.845 1. .00 14, .54 6

ATOM 8 CD2 TRP A 1 21. .184 -12, .390 44.857 1. .00 16. .51 6

ATOM 9 NE1 TRP A 1 22. .998 -13, .643 45.245 1. .00 18, .87 7

ATOM 10 CE2 TRP A 1 22. .542 -12, .469 44.624 1, .00 14, .70 6

ATOM 11 CE3 TRP A 1 20. .514 -11, .271 44.272 1. .00 20, .67 6

ATOM 12 CZ2 TRP A 1 23. .347 -11. .559 43.931 1, .00 20, .48 6

ATOM 13 CZ3 TRP A 1 21. .309 -10, .381 43.596 1. .00 16. .65 6

ATOM 14 CH2 TRP A 1 22. .661 -10, .472 43.360 1. .00 16, .74 6

ATOM 15 N SER A 2 20. .202 -12 .093 48.812 1, .00 13, .43 7

ATOM 16 CA SER A 2 20. ,289 -10, .697 49.312 1. ,00 15. .64 6

ATOM 17 C SER A 2 21. .710 -10. .249 49.014 1. ,00 15. .52 6

ATOM 18 O SER A 2 22. .776 -10, .605 49.501 1. ,00 18. .28 8

ATOM 19 CB SER A 2 19. .980 -10, .591 50.815 1. ,00 25. .19 6

ATOM 20 OG SER A 2 18. .701 -11. .130 51.119 1. .00 27. .27 8

ATOM 21 N PRO A 3 21. .785 -9, .317 48.032 1. .00 14. .76 7

ATOM 22 CA PRO A 3 23. .056 -8. .803 47.578 1. .00 14. .21 6

ATOM 23 C PRO A 3 23. .708 -7. .855 48.606 1. ,00 14. .51 6

ATOM 24 O PRO A 3 23. .048 -7. .406 49.556 1. ,00 14. .63 8

ATOM 25 CB PRO A 3 22. .743 -8. .050 46.281 1. ,00 12. .74 6

ATOM 26 CG PRO A 3 21. .293 -7, .620 46.498 1. .00 14. .64 6

ATOM 27 CD PRO A 3 20. .663 -8. .776 47.270 1. ,00 14. .83 6

ATOM 28 N ASN A 4 25. .005 -7. .718 48.445 1. ,00 10. .92 7

ATOM 29 CA ASN A 4 25. .792 -7. .034 49.477 1. .00 13. .99 6

ATOM 30 C ASN A 4 25. .899 -5. .526 49.311 1. .00 13, .94 6

ATOM 31 O ASN A 4 26. .667 -4. .870 50.046 1. .00 12, .98 8

ATOM 32 CB ASN A 4 27. .215 -7 .626 49.502 1. .00 12, .72 6

ATOM 33 CG ASN A 4 28, .075 -7 .328 48.321 1. .00 16, .43 6

ATOM 34 OD1 ASN A 4 27, .647 -6 .473 47.509 1, .00 14, .80 8

ATOM 35 ND2 ASN A 4 29, .265 -7 .911 48.155 1, .00 18, .33 7

ATOM 36 N ASP A 5 25, .165 -4 .896 48.360 1, .00 11, .85 7

ATOM 37 CA ASP A 5 25, .401 -3. .474 48.156 1, .00 12, .19 6

ATOM 38 C ASP A 5 25, .065 -2 .624 49.348 1, .00 11, .69 6

ATOM 39 O ASP A 5 23, .954 -2. .816 49.936 1, .00 10, .53 8

ATOM 40 CB ASP A 5 24. .570 -2, .988 46.920 1. .00 10, .10 6

ATOM 41 CG ASP A 5 24, .777 -4, .005 45.780 1. .00 9, .83 6

ATOM 42 OD1 ASP A 5 24, .199 -5. .106 45.756 1. .00 12, .14 8

ATOM 43 OD2 ASP A 5 25, .568 -3, .642 44.871 1. .00 12, .15 8

ATOM 44 N PRO A 6 25, .900 -1. .745 49.795 1, .00 11, .28 7

ATOM 45 CA PRO A 6 25, .673 -1 .089 51.084 1, .00 11, .29 6

ATOM 46 c PRO A 6 24, .481 -0. .190 51.146 1, .00 11, .12 6

ATOM 47 O PRO A 6 23 .759 -0 .196 52.180 1, .00 12, .14 8

ATOM 48 CB PRO A 6 26 .984 -0 .356 51.426 1, .00 12, .53 6

ATOM 49 CG PRO A 6 27 .599 -0 .217 50.014 1, .00 14, .20 6

ATOM 50 CD PRO A 6 27 .226 -1 .453 49.202 1, .00 11, .88 6

ATOM 51 N TYR A 7 24 .143 0 .465 50.046 1, .00 11 .91 7

ATOM 52 CA TYR A 7 23 .015 1 .415 50.137 1, .00 12 .11 6

ATOM 53 c TYR A 7 21 .733 0. .635 49.875 1, .00 11 .41 6

ATOM 54 O TYR A 7 20 .642 1 .099 50.172 1, .00 11 .81 8

ATOM 55 CB TYR A 7 23 .237 2 .509 49.078 1, .00 13 .43 6

ATOM 56 CG TYR A 7 24 .375 3 .451 49.407 1, .00 16 .52 6

ATOM 57 CD1 TYR A 7 24 .897 3 .394 50.732 1, .00 19 .41 6 ATOM 58 CD2 TYR A 7 24.900 4.310 48.518 1.00 25.90 6

ATOM 59 CEl TYR A 7 25 .932 4 .231 51 .078 1 .00 23 .70 6

ATOM 60 CE2 TYR A 7 25 .942 5 .152 48 .885 1 .00 25 .53 6

ATOM 61 CZ TYR A 7 26 .454 5 .099 50 .157 1 .00 30 .83 6 ATOM 62 OH TYR A 7 27 .491 5 .983 50 .400 1 .00 33 .22 8

ATOM 63 N TYR A 8 21 .819 -0 .575 49 .311 1 .00 11 .44 7

ATOM 64 CA TYR A 8 20 .685 -1 .490 49 .258 1 .00 10 .93 6

ATOM 65 C TYR A 8 20 .237 -1 .852 50 .698 1 .00 10 .97 6

ATOM 66 O TYR A 8 19, .073 -1 .666 51 .030 1 .00 10 .70 8 ATOM 67 CB TYR A 8 20, .975 -2 .737 48 .431 1 .00 11 .45 6

ATOM 68 CG TYR A 8 19, .938 -3 .813 48 .547 1 .00 8 .84 6

ATOM 69 CDl TYR A 8 18 .683 -3 .646 47 .894 1 .00 10 .94 6

ATOM 70 CD2 TYR A 8 20 .110 -4 .990 49 .259 1 .00 10 .83 6

ATOM 71 CEl TYR A 8 17 .705 -4 .627 47 .983 1 .00 10 .64 6 ATOM 72 CE2 TYR A 8 19, .112 -5 .961 49 .350 1. .00 12 .45 6

ATOM 73 CZ TYR A 8 17, .902 -5 .782 48 .678 1. .00 12 .68 6

ATOM 74 OH TYR A 8 16, .908 -6 .733 48 .789 1. .00 13 .25 8

ATOM 75 N SER A 9 21, .247 -2 .270 51 .460 1. .00 10 .94 7

ATOM 76 CA SER A 9 20, .949 -2 .660 52 .854 1 .00 11 .34 6 ATOM 77 C SER A 9 20, .483 -1, .450 53. .656 1. .00 9, .76 6

ATOM 78 O SER A 9 19. .549 -1, .582 54, .465 1, .00 11, .69 8

ATOM 79 CB SER A 9 22. .271 -3 .179 53, .448 1. .00 12, .98 6

ATOM 80 OG SER A 9 21, .986 -3 .491 54, .840 1. .00 14, .32 8

ATOM 81 N ALA A 10 21, .018 -0, .283 53, .428 1. .00 9 .72 7 ATOM 82 CA ALA A 10 20, .805 0. .860 54. .332 1, .00 9, .30 6

ATOM 83 C ALA A 10 19. .596 1, .655 53. .965 1. .00 12. .42 6

ATOM 84 O ALA A 10 18. .883 2, .230 54. .794 1. .00 11, .71 8

ATOM 85 CB ALA A 10 22. .036 1, .757 54 , .363 1. .00 12, .70 6

ATOM 86 N TYR A 11 19. .352 1, .779 52, .621 1. .00 12, .14 7 ATOM 87 CA TYR A 11 18. .374 2, .754 52, .188 1. .00 11, .21 6

ATOM 88 C TYR A 11 17. ,339 2. .269 51. .177 1. .00 12. .10 6

ATOM 89 O TYR A 11 16. .323 2, .972 51. .018 1. .00 11. .98 8

ATOM 90 CB TYR A 11 19. .141 3, .914 51. .448 1. .00 9. .82 6

ATOM 91 CG TYR A 11 20. .208 4, .587 52. .293 1. .00 11, .77 6 ATOM 92 CDl TYR A 11 19. .815 5, .317 53. .419 1. .00 15. .20 6

ATOM 93 CD2 TYR A 11 21. ,541 4. ,493 51. .970 1. .00 16. ,78 6

ATOM 94 CEl TYR A 11 20. ,773 5. .955 54. ,196 1. ,00 17. ,43 6

ATOM 95 CE2 TYR A 11 22. ,494 5. .125 52. .756 1. ,00 19. .92 6

ATOM 96 CZ TYR A 11 22. ,084 5. .837 53. .864 1. ,00 18. .68 6 ATOM 97 OH TYR A 11 23. .095 6, .450 54. .626 1. ,00 20. .61 8

ATOM 98 N GLN A 12 17. .490 1, .075 50. .573 1. .00 9. .57 7

ATOM 99 CA GLN A 12 16. ,421 0. .747 49. .622 1. .00 10. ,23 6

ATOM 100 C GLN A 12 15. .251 0. .052 50. ,260 1. .00 9. ,88 6

ATOM 101 O GLN A 12 15. .422 -0. .710 51. .235 1. .00 10. .94 8 ATOM 102 CB GLN A 12 16. .984 -0. .155 48. .471 1. ,00 10. .30 6

ATOM 103 CG GLN A 12 17. .846 0. .612 47. .491 1. .00 9. .41 6

ATOM 104 CD GLN A 12 18. ,378 -0. .293 46. ,387 1. .00 9. .03 6

ATOM 105 OE1 GLN A 12 19. ,616 -0. .526 46. .434 1. ,00 10. .69 8

ATOM 106 NE2 GLN A 12 17. .572 -0. .688 45. .438 1. ,00 9. ,50 7 ATOM 107 N TYR A 13 14. ,053 0. .139 49. .639 1. ,00 8. ,12 7

ATOM 108 CA TYR A 13 12. .931 -0. .656 50. .006 1. .00 8. ,04 6

ATOM 109 C TYR A 13 12. .175 -1. .201 48. ,793 1. .00 11. .46 6

ATOM 110 O TYR A 13 11. .392 -2. .128 48. ,912 1. ,00 10. ,57 8

ATOM 111 CB TYR A 13 11. ,899 0. .042 50. .915 1. ,00 8. ,33 6 ATOM 112 CG TYR A 13 11. .153 1. .131 50. .181 1. ,00 8. .81 6

ATOM 113 CDl TYR A 13 9. .906 0, .863 49. .604 1. .00 8. .32 6

ATOM 114 CD2 TYR A 13 11. .653 2, .441 50. .097 1. .00 8. .79 6

ATOM 115 CEl TYR A 13 9. ,192 1. .837 48. .913 1. ,00 9. ,23 6

ATOM 116 CE2 TYR A 13 10. .942 3. .429 49. .381 1. ,00 7. ,86 6 ATOM 117 CZ TYR A 13 9. .687 3. .114 48. .835 1. ,00 9. ,91 6

ATOM 118 OH TYR A 13 8. .956 4. .116 48. .210 1. ,00 10. ,94 8

ATOM 119 N GLY A 14 12. .538 -0, .722 47. .591 1. ,00 10. .19 7

ATOM 120 CA GLY A 14 11. .702 -1. .114 46. .428 1. ,00 10. .55 6

ATOM 121 C GLY A 14 11. .732 -2. .616 46. ,134 1. .00 11. ,11 6 ATOM 122 O GLY A 14 10. ,681 -3. .246 45. .967 1. ,00 11. ,34 8

ATOM 123 N PRO A 15 12. .909 -3. .176 46. .030 1. ,00 8. .71 7

ATOM 124 CA PRO A 15 12. .958 -4. .630 45. .810 1. ,00 9. .03 6

ATOM 125 C PRO A 15 12. ,372 -5. .426 46. ,996 1. .00 10. .83 6 ATOM 126 O PRO A 15 11.557 -6.333 46.772 1.00 10.41 8

ATOM 127 CB PRO A 15 14 .480 -4 .906 45 .683 1 .00 10 .96 6

ATOM 128 CG PRO A 15 15 .102 -3 .549 45 .304 1 .00 9 .61 6

ATOM 129 CD PRO A 15 14. .229 -2 .508 46 .030 1 .00 9 .57 6 ATOM 130 N GLN A 16 12 .741 -5 .038 48 .222 1 .00 10 .84 7

ATOM 131 CA GLN A 16 12 .216 -5 .795 49 .382 1 .00 9 .58 6

ATOM 132 C GLN A 16 10 .677 -5 .822 49 .420 1 .00 9 .41 6

ATOM 133 O GLN A 16 10 .047 -6 .896 49 .711 1 .00 12 .05 8

ATOM 134 CB GLN A 16 12, .784 -5, .110 50 .653 1, .00 9 .56 6 ATOM 135 CG GLN A 16 14, .295 -5, .237 50 .750 1, .00 10 .85 6

ATOM 136 CD GLN A 16 15, .079 -4 .045 50 .301 1, .00 9 .18 6

ATOM 137 OEl GLN A 16 14 .615 -3 .357 49 .328 1, .00 11 .39 8

ATOM 138 NE2 GLN A 16 16 .242 -3 .776 50 .867 1. .00 10 .81 7

ATOM 139 N ASN A 17 10 .073 -4 .629 49 .215 1 .00 10 .52 7 ATOM 140 CA ASN A 17 8, .627 -4, .532 49. .347 1, .00 9 .85 6

ATOM 141 C ASN A 17 7, .909 -5, .151 48 .185 1, .00 11 .20 6

ATOM 142 O ASN A 17 6, .658 -5, .131 48 .244 1, .00 14 .71 8

ATOM 143 CB ASN A 17 8, .208 -3, .046 49 .509 1. .00 11 .59 6

ATOM 144 CG ASN A 17 8, .432 -2 .520 50 .937 1, .00 13 .87 6 ATOM 145 OD1 ASN A 17 9, .226 -3, .101 51, .658 1. .00 13, .47 8

ATOM 146 ND2 ASN A 17 7, .687 -1, .460 51. .259 1. .00 12, .64 7

ATOM 147 N THR A 18 8, .566 -5, .563 47. .128 1, .00 10, .29 7

ATOM 148 CA THR A 18 7, .890 -6, .216 45. .992 1, .00 12 .51 6

ATOM 149 C THR A 18 8, .300 -7, .680 45 .974 1. .00 12 .13 6 ATOM 150 O THR A 18 8, .100 -8. .386 44 , .963 1, .00 11. .44 8

ATOM 151 CB THR A 18 8. .244 -5, .529 44. .659 1. ,00 9, .68 6

ATOM 152 OGl THR A 18 9, .696 -5, .431 44 , .525 1. .00 10, .42 8

ATOM 153 CG2 THR A 18 7, .591 -4, .187 44. .624 1. .00 12, .66 6

ATOM 154 N SER A 19 8, .884 -8, .204 47. .078 1. .00 10, .54 7 ATOM 155 CA SER A 19 9, .287 -9, .606 47, .140 1. .00 12, .19 6

ATOM 156 C SER A 19 10. .334 -9. .982 46. .079 1. .00 10. .66 6

ATOM 157 O SER A 19 10. .372 -11. .143 45. .609 1. ,00 11, .55 8

ATOM 158 CB SER A 19 8. .113 -10. .594 47. .058 1. ,00 15, .77 6

ATOM 159 OG SER A 19 7, .242 -10, .315 48. .179 1. ,00 14, .40 8 ATOM 160 N THR A 20 11, .176 -9, .000 45. .757 1. .00 11. .05 7

ATOM 161 CA THR A 20 12. .179 -9. .303 44. ,731 1. .00 9. .03 6

ATOM 162 C THR A 20 13. .341 -10. .159 45. ,212 1. .00 10. .84 6

ATOM 163 O THR A 20 13. .841 -10. .974 44. .462 1. ,00 12. .64 8

ATOM 164 CB THR A 20 12. .652 -8. .005 44. .067 1. ,00 11. .34 6 ATOM 165 OGl THR A 20 11, .486 -7, .307 43, .584 1. ,00 10. .88 8

ATOM 166 CG2 THR A 20 13, .563 -8. .230 42, .867 1. ,00 13. .97 6

ATOM 167 N PRO A 21 13. .788 -10. .140 46. ,474 1. .00 10. .13 7

ATOM 168 CA PRO A 21 14. .814 -11. .028 46. .940 1. ,00 10. .60 6

ATOM 169 C PRO A 21 14. .417 -12. .506 46. .749 1. ,00 11. .26 6 ATOM 170 O PRO A 21 15, .311 -13, .256 46. .270 1. .00 13. .61 8

ATOM 171 CB PRO A 21 14, .916 -10, .701 48, .467 1. .00 10. .30 6

ATOM 172 CG PRO A 21 14. .710 -9. .205 48. ,354 1. .00 10. .51 6

ATOM 173 CD PRO A 21 13. .477 -9. .064 47. .464 1. .00 10. .93 6

ATOM 174 N ALA A 22 13. .151 -12. .862 46. .938 1. .00 12. .78 7 ATOM 175 CA ALA A 22 12. .706 -14. .246 46. .639 1. ,00 13. .32 6

ATOM 176 C ALA A 22 12, .644 -14, .482 45. .123 1. ,00 14. .57 6

ATOM 177 O ALA A 22 13. .070 -15. .576 44. ,679 1. .00 15. .26 8

ATOM 178 CB ALA A 22 11. .317 -14. .454 47. .282 1. ,00 13. .94 6

ATOM 179 N ALA A 23 12. .273 -13. .425 44. .396 1. ,00 12. .81 7 ATOM 180 CA ALA A 23 12, .317 -13. .614 42. .917 1. ,00 14. .03 6

ATOM 181 C ALA A 23 13, .716 -13, .880 42. .477 1. ,00 12. .10 6

ATOM 182 O ALA A 23 13, .915 -14, .577 41. .425 1. .00 12. .81 8

ATOM 183 CB ALA A 23 11. .712 -12. .341 42. .261 1. ,00 12. .05 6

ATOM 184 N TRP A 24 14, .752 -13. .217 42. .989 1. ,00 11. .24 7 ATOM 185 CA TRP A 24 16, .128 -13. .387 42. .591 1. ,00 11. .78 6

ATOM 186 C TRP A 24 16, .654 -14, .840 42. .845 1. ,00 13. .08 6

ATOM 187 O TRP A 24 17, .723 -15, .104 42. .305 1. ,00 15, .03 8

ATOM 188 CB TRP A 24 16. .971 -12. .366 43. ,334 1. ,00 15. .91 6

ATOM 189 CG TRP A 24 16, .890 -10. .942 42. ,898 1. .00 12. .46 6 ATOM 190 CDl TRP A 24 16, .549 -10. .488 41. .656 1. .00 11. .81 6

ATOM 191 CD2 TRP A 24 17, .146 -9. .775 43. .673 1. ,00 12. .89 6

ATOM 192 NEl TRP A 24 16, .584 -9, .109 41. .590 1. ,00 11. .12 7

ATOM 193 CE2 TRP A 24 16. .965 -8. .633 42. ,853 1. ,00 11. .48 6 ATOM 194 CE3 TRP A 24 17.514 -9.554 45.015 1.00 14.60 6

ATOM 195 CZ2 TRP A 24 17 .132 -7 .300 43 .254 1 .00 12 .39 6

ATOM 196 CZ3 TRP A 24 17 .643 -8 .268 45 .452 1 .00 12 .43 6

ATOM 197 CH2 TRP A 24 17 .501 -7 .164 44 .601 1 .00 11 .45 6 ATOM 198 N ASP A 25 15 .955 -15 .602 43 .660 1 .00 16 .22 7

ATOM 199 CA ASP A 25 16 .307 -17 .019 43 .816 1 .00 19 .28 6

ATOM 200 C ASP A 25 16 .013 -17 .758 42 .511 1 .00 19 .51 6

ATOM 201 O ASP A 25 16 .674 -18 .766 42 .232 1 .00 21 .06 8

ATOM 202 CB ASP A 25 15 .474 -17 .590 44 .987 1 .00 15 .40 6 ATOM 203 CG ASP A 25 15 .889 -17 .050 46 .378 1 .00 16 .84 6

ATOM 204 OD1 ASP A 25 14 .914 -16 .931 47 .182 1 .00 20 .99 8

ATOM 205 OD2 ASP A 25 17. .069 -16, .798 46. .451 1. .00 18 .83 8

ATOM 206 N VAL A 26 15. .083 -17, .234 41, .717 1. .00 16 .85 7

ATOM 207 CA VAL A 26 14. .677 -17, .883 40, .450 1. .00 16 .29 6 ATOM 208 C VAL A 26 15 .490 -17 .307 39, .300 1. .00 14 .78 6

ATOM 209 O VAL A 26 16, .049 -18, .044 38, .463 1. .00 16 .30 8

ATOM 210 CB VAL A 26 13 .181 -17 .689 40, .253 1. .00 15 .77 6

ATOM 211 CGI VAL A 26 12, .727 -18, .260 38. .878 1. .00 16, .26 6

ATOM 212 CG2 VAL A 26 12, .288 -18, .249 41. .341 1. .00 14, .73 6 ATOM 213 N THR A 27 15, .627 -15, .970 39. .244 1. .00 13, .62 7

ATOM 214 CA THR A 27 16, .434 -15, .392 38, .191 1. .00 13, .55 6

ATOM 215 C THR A 27 16, .969 -13, .994 38, .562 1, .00 13, .11 6

ATOM 216 O THR A 27 16, .239 -13, .327 39, .294 1. .00 12, .83 8

ATOM 217 CB THR A 27 15. .570 -15, .267 36. .899 1. .00 16, .42 6 ATOM 218 OGl THR A 27 16, .481 -14, .652 35. .997 1. .00 20, .55 8

ATOM 219 CG2 THR A 27 14, .260 -14, .538 37. .127 1. .00 15, .35 6

ATOM 220 N ARG A 28 18, .167 -13, .715 38. .082 1. .00 13, .95 7

ATOM 221 CA ARG A 28 18, .707 -12. .376 38. .350 1, .00 14, .11 6

ATOM 222 C ARG A 28 18, .914 -11, .569 37, .058 1. .00 13, .63 6 ATOM 223 O ARG A 28 19. .518 -10. .522 37. ,077 1. .00 13. .70 8

ATOM 224 CB ARG A 28 20, .007 -12, .487 39. .167 1. .00 13. .10 6

ATOM 225 CG . AARG A 28 19, .786 -12, .592 40. .676 0. .50 16. .44 6

ATOM 226 CD . AARG A 28 21, .015 -13, .229 41. .319 0. .50 13. .92 6

ATOM 227 NE . AARG A 28 21, .173 -14, .653 40. .989 0. .50 20. .11 7 ATOM 228 CZ . AARG A 28 22, .394 -15, .198 41. .007 0. .50 22. .04 6

ATOM 229 NH1AARG A 28 23. .372 -14. .370 41. .347 0. ,50 16. .08 7

ATOM 230 NH2AARG A 28 22. .629 -16. .456 40. ,719 0. .50 19. ,93 7

ATOM 231 CG : BARG A 28 19, .609 -13. .094 40. ,526 0. ,50 12. ,85 6

ATOM 232 CD : BARG A 28 20, .809 -13. .394 41. .414 0. ,50 12. .14 6 ATOM 233 NE : BARG A 28 21, .589 -14, .471 40. .795 0. .50 12. .31 7

ATOM 234 cz : BARG A 28 21. .281 -15, .746 40. .991 0. .50 10. .72 6

ATOM 235 NH1BARG A 28 20. .289 -16. .183 41. ,754 0. ,50 13. .92 7

ATOM 236 NH2BARG A 28 22. .032 -16. .678 40. ,382 0. ,50 18. .15 7

ATOM 237 N GLY A 29 18. .305 -12. .018 35. .941 1. .00 12. .92 7 ATOM 238 CA GLY A 29 18. .362 -11. .296 34. .672 1. .00 12. .43 6

ATOM 239 C GLY A 29 19, .326 -12, .019 33. .736 1. .00 11. .85 6

ATOM 240 O GLY A 29 19, .589 -13, .202 33. .991 1. .00 16. .10 8

ATOM 241 N SER A 330 19, .705 -11. .325 32. ,693 1. ,00 11. .08 7

ATOM 242 CA SER A 330 20, .543 -11. ,993 31. .666 1. ,00 12. .22 6 ATOM 243 C SER A 330 21, .461 -10. .943 31. .078 1. ,00 13. .35 6

ATOM 244 O SER A 330 21, .121 -9. .889 30. .574 1. .00 13. .86 8

ATOM 245 CB SER A 330 19 .712 -12, .583 30. .525 1. .00 15. .19 6

ATOM 246 OG SER A 330 20 .650 -12, .917 29. .463 1. .00 17, .47 8

ATOM 247 N SER A 331 22, .855 -11. .292 31, .059 1. .00 14. .23 7 ATOM 248 CA SER A 331 23, .828 -10, .406 30. .487 1. .00 13. .69 6

ATOM 249 C SER A 331 23 .784 -10, .224 28. .959 1. .00 12. .34 6

ATOM 250 O SER A 331 24 .497 -9, .322 28. .490 1. .00 19. .86 8

ATOM 251 CB SER A 331 25 .268 -10, .725 30. .898 1. .00 18. .58 6

ATOM 252 OG SER A 331 25 .541 -12, .037 30. .388 1. .00 22. .11 8 ATOM 253 N THR A 332 22, .962 -11. .067 28. .421 1. .00 11. .83 7

ATOM 254 CA THR A 332 22, .892 -10, .969 26. .958 1. .00 15. .40 6

ATOM 255 C THR A 332 21 .538 -10, .413 26. .518 1. .00 17. .11 6

ATOM 256 O THR A 332 21. .235 -10, .376 25. .323 1. .00 16. .83 8

ATOM 257 CB THR A 332 22 .969 -12, .367 26. .285 1. .00 17. .26 6 ATOM 258 OGl THR A 332 22 .107 -13, .305 26. .854 1, .00 22. .90 8

ATOM 259 CG2 THR A 332 24, .448 -12, .815 26. .411 1. .00 22. .90 6

ATOM 260 N GLN A 333 20 .861 -9, .716 27. .512 1. .00 13. .07 7

ATOM 261 CA GLN A 333 19 .630 -8, .974 27. .160 1. .00 12, ,63 6 ATOM 262 C GLN A 333 19,.830 -7.523 27.631 1..00 13.44 6

ATOM 263 O GLN A 333 20, .686 -7 .227 28 .461 1. .00 12 .88 8

ATOM 264 CB GLN A 333 18. .420 -9 .526 27, .862 1, .00 10. .82 6

ATOM 265 CG GLN A 333 18. .173 -10 .962 27, .360 1. .00 12, .25 6 ATOM 266 CD GLN A 333 16. .999 -11 .643 27, .966 1, .00 11, .24 6

ATOM 267 OEl GLN A 333 16. .554 -11. .300 29, .074 1. .00 13, .22 8

ATOM 268 NE2 GLN A 333 16. .375 -12, .657 27. .326 1, .00 16, .24 7

ATOM 269 N THR A 33 18. .960 -6 .642 27, .102 1, .00 11, .79 7

ATOM 270 CA THR A 33 18. .984 -5 .248 27, .523 1, .00 11, .06 6 ATOM 271 C THR A 33 17. .582 -4 .748 27, .909 1. .00 12, .71 6

ATOM 272 O THR A 33 16. .558 -5 .185 27, .394 1, .00 10. .99 8

ATOM 273 CB THR A 33 19. .560 -4 .307 26, .452 1. .00 12, .32 6

ATOM 274 OGl THR A 33 18. .727 -4. .350 25. .274 1, .00 15, .31 8

ATOM 275 CG2 THR A 33 20. .994 -4, .701 26. .098 1. .00 15, .29 6 ATOM 276 N VAL A 34 17. .606 -3 .738 28, .781 1, .00 9, .33 7

ATOM 277 CA VAL A 34 16. .448 -2, .906 29, .047 1. .00 9, .03 6

ATOM 278 C VAL A 34 16. .817 -1, .513 28. .545 1, .00 10, .82 6

ATOM 279 O VAL A 34 17. .894 -1, .011 28. .947 1. .00 11, .09 8

ATOM 280 CB VAL A 34 16. .075 -2, .760 30. .525 1. .00 11. .19 6 ATOM 281 CGI VAL A 34 14. .975 -1, .712 30. .731 1. .00 12, .05 6

ATOM 282 CG2 VAL A 34 15. .715 -4, .091 31, .092 1. .00 14, .97 6

ATOM 283 N ALA A 35 16. .062 -0 .937 27, .616 1. .00 9, .42 7

ATOM 284 CA ALA A 35 16. .349 0, .401 27, .149 1. .00 12, .14 6

ATOM 285 C ALA A 35 15. .788 1 .446 28, .086 1. .00 9, . 96 6 ATOM 286 O ALA A 35 14. .616 1 .449 28. .408 1, .00 11. .17 8

ATOM 287 CB ALA A 35 15. .810 0 .631 25, .724 1. .00 11. .54 6

ATOM 288 N VAL A 36 16. .662 2 , .296 28. ,554 1. ,00 8. .03 7

ATOM 289 CA VAL A 36 16. ,307 3, .428 29. ,435 1. ,00 9. .34 6

ATOM 290 C VAL A 36 16. .255 4 , .660 28. ,537 1. ,00 9. .42 6 ATOM 291 O VAL A 36 17. .290 5, .187 28. .168 1. ,00 10. .30 8

ATOM 292 CB VAL A 36 17. .253 3, .591 30. .610 1. ,00 7. .40 6

ATOM 293 CGI VAL A 36 16. .943 4 , .884 31. ,357 1. ,00 12. .02 6

ATOM 294 CG2 VAL A 36 17. .063 2, .359 31. ,521 1. ,00 9. .73 6

ATOM 295 N LEU A 37 15. .003 4 , .992 28. ,181 1. ,00 8. .33 7 ATOM 296 CA LEU A 37 14. .774 6, .125 27. ,245 1. .00 9. .07 6

ATOM 297 C LEU A 37 14. .527 7, .355 28. .100 1. ,00 9. .81 6

ATOM 298 O LEU A 37 13. .443 7, .499 28. ,695 1. ,00 10. .06 8

ATOM 299 CB LEU A 37 13. .552 5, .776 26. ,380 1. .00 10. .14 6

ATOM 300 CG LEU A 37 13. .933 4, .661 25. .362 1. .00 11. .82 6 ATOM 301 CDl LEU A 37 12. .792 3, .693 25. .283 1. .00 16. .87 6

ATOM 302 CD2 LEU A 37 14. .217 5, .400 24. .043 1. .00 15. .43 6

ATOM 303 N ASP A 38 15. .548 8. .192 28. .216 1. .00 9. .99 7

ATOM 304 CA ASP A 38 15. .523 9, .245 29. .265 1. .00 7. .85 6

ATOM 305 C ASP A 38 16. .535 10, .334 29. .014 1, .00 10. .38 6 ATOM 306 O ASP A 38 16. .838 10 .581 27. .810 1. .00 10. .43 8

ATOM 307 CB ASP A 38 15, .714 8 .495 30. .588 1. .00 10. .08 6

ATOM 308 CG ASP A 38 15, .095 9 .159 31. .806 1. .00 9. .45 6

ATOM 309 ODl ASP A 38 15, .411 10 .307 32. .115 1. .00 11. .41 8

ATOM 310 OD2 ASP A 38 14, .232 8 .509 32, .424 1. .00 11. .17 8 ATOM 311 N SER A 39 17, .006 11 .024 30, .039 1, .00 8. .46 7

ATOM 312 CA SER A 39 17. .914 12, .155 29. .835 1. .00 9. .33 6

ATOM 313 C SER A 39 19. .333 11, .738 29. .583 1. .00 10. .03 6

ATOM 314 O SER A 39 20. .239 12, .604 29. .544 1. .00 12. .39 8

ATOM 315 CB SER A 39 17, .825 13 .046 31. .076 1. .00 10. .11 6 ATOM 316 OG SER A 39 18, .301 12 .377 32. .234 1, .00 11. .06 8

ATOM 317 N GLY A 40 19, .611 10 .436 29. .422 1. .00 10. .54 7

ATOM 318 CA GLY A 40 20, .956 9 .937 29. .276 1. .00 11. .06 6

ATOM 319 C GLY A 40 21, .309 9 .106 30. .504 1. .00 11, .64 6

ATOM 320 O GLY A 40 20, .508 9 .044 31, .415 1, .00 12, .31 8 ATOM 321 N VAL A 41 22, .464 8 .494 30, .478 1, .00 11, .73 7

ATOM 322 CA VAL A 41 22, .862 7. .692 31, .677 1, .00 10, .62 6

ATOM 323 C VAL A 41 24, .328 8 .026 31, .875 1. .00 11, .66 6

ATOM 324 O VAL A 41 25 .086 7 .934 30, .912 1. .00 13, .26 8

ATOM 325 CB VAL A 41 22 .679 6 .202 31, .427 1, .00 10, .61 6 ATOM 326 CGI VAL A 41 23 .194 5 .368 32, .618 1, .00 10, .20 6

ATOM 327 CG2 VAL A 41 21 .181 5 .897 31, .236 1, .00 11, .88 6

ATOM 328 N ASP A 42 24 .763 8 .180 33, .136 1, .00 11, .44 7

ATOM 329 CA ASP A 42 26 .196 8 .426 33, .402 1, .00 13, .13 6 ATOM 330 C ASP A 42 26.852 7.060 33.461 1.00 12.56 6

ATOM 331 O ASP A 42 26 .966 6 .459 34 .518 1 .00 13 .21 8

ATOM 332 CB ASP A 42 26 .379 9 .170 34 .745 1 .00 13 .74 6

ATOM 333 CG ASP A 42 27 .857 9 .433 35 .018 1 .00 18 .39 6 ATOM 334 ODl ASP A 42 28 .140 10 .034 36 .082 1 .00 21 .20 8

ATOM 335 OD2 ASP A 42 28 .672 9 .005 34 .208 1 .00 12 .32 8

ATOM 336 N TYR A 43 27 .358 6 .645 32 .283 1 .00 11 .92 7

ATOM 337 CA TYR A 43 27 .980 5 .350 32 .095 1 .00 12 .00 6

ATOM 338 C TYR A 43 29 .429 5 .271 32 .714 1 .00 13 .62 6 ATOM 339 O TYR A 43 29 .966 4 .179 32 .656 1 .00 14 .17 8

ATOM 340 CB TYR A 43 28. .031 4, .952 30 .604 1. .00 14 .19 6

ATOM 341 CG TYR A 43 28, .532 6, .090 29 .719 1. .00 13 .96 6

ATOM 342 CDl TYR A 43 29, .876 6, .376 29 .758 1, .00 21 .10 6

ATOM 343 CD2 TYR A 43 27, .649 6, .817 28 .949 1 .00 13 .89 6 ATOM 344 CEl TYR A 43 30, .377 7, .422 28 .982 1 .00 23 .78 6

ATOM 345 CE2 TYR A 43 28, .162 7, .877 28 .152 1, .00 17 .35 6

ATOM 346 CZ TYR A 43 29, .499 8, .136 28 .197 1, .00 21 .91 6

ATOM 347 OH TYR A 43 30 .054 9, .174 27 .458 1 .00 25 .51 8

ATOM 348 N ASN A 44 29, .860 6, .400 33. .220 1. .00 14, .70 7 ATOM 349 CA ASN A 44 31, .144 6, .357 33, .963 1, .00 15, .55 6

ATOM 350 C ASN A 44 30, .923 6, .074 35, .433 1, .00 14, .58 6

ATOM 351 O ASN A 44 31. .889 5, .965 36, .221 1, .00 14, .97 8

ATOM 352 CB ASN A 44 31, .874 7, .711 33, .833 1, .00 15, .61 6

ATOM 353 CG ASN A 44 32, .294 7, .939 32, .344 1, .00 13, .41 6 ATOM 354 ODl ASN A 44 32, .052 9, .147 32. .103 1, .00 22, .06 8

ATOM 355 ND2 ASN A 44 32, .766 6, .911 31, .724 1, .00 16, .45 7

ATOM 356 N HIS A 45 29. .653 6. .081 35. .908 1. ,00 13. .02 7

ATOM 357 CA HIS A 45 29. .474 5. .865 37. .376 1. .00 11. .13 6

ATOM 358 C HIS A 45 29. .917 4. .462 37. .727 1. .00 10. .90 6 ATOM 359 O HIS A 45 29. .653 3. .499 37. .064 1. .00 11. .84 8

ATOM 360 CB HIS A 45 27, .929 5. .959 37. .618 1. .00 13. .07 6

ATOM 361 CG HIS A 45 27. .519 6. .069 39. .068 1. .00 11. .25 6

ATOM 362 ND1 HIS A 45 27, .779 5. .071 40, .007 1. .00 11, .49 7

ATOM 363 CD2 HIS A 45 26, .921 7, .129 39, .661 1. .00 10, .98 6 ATOM 364 CEl HIS A 45 27. .307 5. ,517 41. .159 1. ,00 12. .50 6

ATOM 365 NE2 HIS A 45 26. .810 6. ,732 41. .035 1. ,00 11. .54 7

ATOM 366 N PRO A 46 30. .635 4. .274 38. .874 1. ,00 11. .14 7

ATOM 367 CA PRO A 46 31. .062 2. .985 39. .335 1. ,00 11. .47 6

ATOM 368 C PRO A 46 29, .978 1. .921 39. .380 1. .00 10. .59 6 ATOM 369 O PRO A 46 30, .196 0. .767 39, .040 1. .00 11. .62 8

ATOM 370 CB PRO A 46 31, .677 3. .220 40, .742 1. .00 10. .94 6

ATOM 371 CG PRO A 46 32, .043 4, .671 40, .670 1. .00 14, .48 6

ATOM 372 CD PRO A 46 31. .085 5. .353 39. .688 1. ,00 11. .69 6

ATOM 373 N ASP A 47 28. .728 2. .326 39. .705 1. ,00 12. .70 7 ATOM 374 CA ASP A 47 27. .682 1. .314 39. .825 1. ,00 11. .42 6

ATOM 375 C ASP A 47 26, .899 1. .133 38. .520 1. ,00 12. .51 6

ATOM 376 O ASP A 47 25, .902 0. .416 38. .521 1. .00 11. .59 8

ATOM 377 CB ASP A 47 26, .702 1. .688 40. .990 1. .00 12. .16 6

ATOM 378 CG ASP A 47 26, .587 0. .469 41. .896 1. .00 9. .76 6 ATOM 379 ODl ASP A 47 27, .288 -0. .541 41, .945 1. .00 10, .00 8

ATOM 380 OD2 ASP A 47 25. .518 0. .471 42. .653 1. ,00 10. .91 8

ATOM 381 N LEU A 48 27, .369 1. .772 37. .435 1. ,00 10. .44 7

ATOM 382 CA LEU A 48 26, .697 1. .562 36. .155 1. .00 11. .43 6

ATOM 383 C LEU A 48 27, .672 1. .221 35. .027 1. .00 12. .97 6 ATOM 384 O LEU A 48 27, .191 0. .683 34, .023 1. .00 11. .53 8

ATOM 385 CB LEU A 48 25, .972 2. .837 35, .638 1. .00 11. .21 6

ATOM 386 CG LEU A 48 24, .787 3, .235 36, .572 1. .00 10. .61 6

ATOM 387 CDl LEU A 48 24, .254 4, .643 36, .324 1. .00 11. .90 6

ATOM 388 CD2 LEU A 48 23. .677 2. .180 36. .462 1. .00 13. .84 6 ATOM 389 N ALA A 49 28, .975 1. .461 35. .252 1. .00 12. .23 7

ATOM 390 CA ALA A 49 29, .841 1. .298 34. .073 1. .00 9. .36 6

ATOM 391 C ALA A 49 29, .855 -0. .091 33. .513 1. .00 10. .78 6

ATOM 392 O ALA A 49 30, .048 -0. .245 32. .236 1. .00 16. .98 8

ATOM 393 CB ALA A 49 31. .268 1. .712 34. .531 1. .00 12. ,23 6 ATOM 394 N ARG A 50 29. .747 -1, .164 34. .276 1. .00 11. .88 7

ATOM 395 CA ARG A 50 29 .780 -2, .522 33. .800 1. .00 11. .57 6

ATOM 396 C ARG A 50 28, .444 -2. .946 33. .165 1. ,00 12. ,53 6

ATOM 397 O ARG A 50 28, .348 -4. .048 32. .602 1. ,00 16. .06 8 ATOM 398 CB ARG A 50 30.103 -3.524 34.930 1.00 15.47 6

ATOM 399 CG ARG A 50 31 .531 -3 .240 35 .482 1 .00 11 .83 6

ATOM 400 CD ARG A 50 32 .055 -4 .513 36 .187 1 .00 15 .45 6

ATOM 401 NE ARG A 50 31 .187 -4 .897 37 .307 1 .00 16 .23 7 ATOM 402 CZ ARG A 50 31 .384 -5 .965 38 .064 1 .00 19 .96 6

ATOM 403 NHl ARG A 50 32 .429 -6 .782 37 .837 1 .00 22 .22 7

ATOM 404 NH2 ARG A 50 30 .526 -6 .230 39 .057 1 .00 18 .50 7

ATOM 405 N LYS A 51 27. .436 -2 .075 33 .346 1, .00 11 .50 7

ATOM 406 CA LYS A 51 26. .104 -2 .471 32 .907 1 .00 11 .63 6 ATOM 407 C LYS A 51 25 .570 -1 .744 31 .675 1 .00 12 .77 6

ATOM 408 O LYS A 51 24 .582 -2 .212 31 .104 1 .00 13 .77 8

ATOM 409 CB LYS A 51 25. .152 -2. .127 34, .077 1, .00 12 .63 6

ATOM 410 CG LYS A 51 25. .387 -2 .922 35, .380 1. .00 13 .22 6

ATOM 411 CD LYS A 51 25, .538 -4 .413 35 .201 1, .00 14 .71 6 ATOM 412 CE LYS A 51 24, .312 -5 .051 34 .628 1, .00 13 .09 6

ATOM 413 NZ LYS A 51 23, .056 -4 .815 35 .491 1, .00 12 .18 7

ATOM 414 N VAL A 52 26. .124 -0. .623 31, .345 1. .00 11, .71 7

ATOM 415 CA VAL A 52 25. .551 0 .247 30, .312 1. .00 10, .53 6

ATOM 416 C VAL A 52 26, .166 0. .046 28, .941 1. .00 14, .73 6 ATOM 417 O VAL A 52 27, .383 0. .061 28 .778 1. .00 16 .03 8

ATOM 418 CB VAL A 52 25, .711 1 .692 30 .750 1. .00 10 .80 6

ATOM 419 CGI VAL A 52 25. .233 2. .601 29, .613 1. .00 15, .73 6

ATOM 420 CG2 VAL A 52 24. .874 1 .987 32, .005 1. .00 11, .42 6

ATOM 421 N ILE A 53 25. .247 -0. .130 27, .987 1. .00 11, .33 7 ATOM 422 CA ILE A 53 25. .609 -0 .098 26. .552 1. .00 11, .76 6

ATOM 423 C ILE A 53 25, .210 1 .272 26, .028 1. .00 14, .46 6

ATOM 424 O ILE A 53 24. .071 1. .711 26. .289 1. ,00 13. .75 8

ATOM 425 CB ILE A 53 24. .877 -1. .179 25. .791 1. ,00 12, .46 6

ATOM 426 CGI ILE A 53 25. .331 -2. .530 26. .296 1. ,00 14. .67 6 ATOM 427 CG2 ILE A 53 25. .229 -1 .050 24. .291 1. .00 11, .24 6

ATOM 428 CDl ILE A 53 24. .535 -3 .702 25, .780 1. .00 20, .94 6

ATOM 429 N LYS A 54 26. .112 1. .975 25. .367 1. .00 14. .25 7

ATOM 430 CA LYS A 54 25. .812 3, .317 24. .896 1. ,00 12. .81 6

ATOM 431 C LYS A 54 24. .994 3. .315 23. .618 1. ,00 12. .98 6 ATOM 432 O LYS A 54 25. .458 2, .835 22, .572 1. ,00 17. .68 8

ATOM 433 CB LYS A 54 27. .109 4, .126 24, .613 1. ,00 13, .38 6

ATOM 434 CG LYS A 54 27. .905 4. .467 25. ,886 1. .00 13. ,70 6

ATOM 435 CD LYS A 54 29. .303 4. .949 25. ,440 1. 00 23. ,57 6

ATOM 436 CE LYS A 54 30. .311 4, .482 26. ,488 1. ,00 25. .44 6 ATOM 437 NZ LYS A 54 30. .879 3, .152 26. .128 1. .00 39. .20 7

ATOM 438 N GLY A 55 23. .737 3. .675 23. ,690 1. 00 12. ,13 7

ATOM 439 CA GLY A 55 22. .853 3. .848 22. ,554 1. 00 12. .94 6

ATOM 440 C GLY A 55 22. .968 5, .304 22. ,070 1. 00 12. .91 6

ATOM 441 O GLY A 55 23. .771 6. .146 22. .479 1. .00 13. .22 8 ATOM 442 N TYR A 56 22. .084 5, .613 21. .090 1. ,00 13. .51 7

ATOM 443 CA TYR A 56 22. .092 6. .918 20. ,449 1. 00 12. ,80 6

ATOM 444 C TYR A 56 21. ,594 8. .052 21. ,346 1. 00 14. ,95 6

ATOM 445 O TYR A 56 20. .699 7. .845 22. ,158 1. 00 14. ,71 8

ATOM 446 CB TYR A 56 21. .369 6. .789 19. ,085 1. ,00 12. .24 6 ATOM 447 CG TYR A 56 21. .659 7, .944 18. .131 1. .00 12. .40 6

ATOM 448 CDl TYR A 56 22. .915 7. .978 17. ,542 1. 00 15. ,33 6

ATOM 449 CD2 TYR A 56 20. .766 8. .959 17. .915 1. .00 13. ,06 6

ATOM 450 CEl TYR A 56 23. .255 9, .010 16. .664 1. ,00 15. .12 6

ATOM 451 CE2 TYR A 56 21. .106 10, .017 17. .016 1. ,00 15. .08 6 ATOM 452 CZ TYR A 56 22, .347 10, .002 16. .421 1. ,00 16. .78 6

ATOM 453 OH TYR A 56 22. .603 11. .097 15. ,574 1. 00 20. ,74 8

ATOM 454 N ASP A 57 22. .042 9. .257 21. .061 1. .00 12. ,59 7

ATOM 455 CA ASP A 57 21. .604 10. .456 21. ,735 1. ,00 11. .21 6

ATOM 456 C ASP A 57 20. .882 11. .313 20. .683 1. ,00 14. .11 6 ATOM 457 O ASP A 57 21. .559 11, .878 19. .812 1. ,00 14. .49 8

ATOM 458 CB ASP A 57 22. .814 11. .201 22. ,293 1. 00 15. .01 6

ATOM 459 CG ASP A 57 22. .480 12. .521 22. .943 1. 00 13. ,70 6

ATOM 460 ODl ASP A 57 21. .400 13, .019 22. .765 1. ,00 13. .31 8

ATOM 461 OD2 ASP A 57 23. .391 13, .058 23. .622 1. ,00 17. .36 8 ATOM 462 N PHE A 58 19. .554 11. .263 20. ,737 1. 00 11. ,17 7

ATOM 463 CA PHE A 58 18. .729 12. .002 19. ,764 1. 00 13. ,01 6

ATOM 464 C PHE A 58 18. .675 13. .475 20. ,055 1. 00 16. ,32 6

ATOM 465 O PHE A 58 18. .071 14. .222 19. ,282 1. .00 17. ,71 8 ATOM 466 CB PHE A 58 17.292 11.407 19.790 1.00 14.04 6

ATOM 467 CG PHE A 58 17, .284 10 .018 19 .247 1. .00 11 .93 6

ATOM 468 CDl PHE A 58 17, .055 9 .878 17. .861 1. .00 12 .43 6

ATOM 469 CD2 PHE A 58 17, .546 8 .841 19 .950 1, .00 11 .15 6 ATOM 470 CEl PHE A 58 17, .078 8. .627 17. .325 1, .00 13 .41 6

ATOM 471 CE2 PHE A 58 17 .564 7. .606 19 .383 1, .00 13 .98 6

ATOM 472 CZ PHE A 58 17, .345 7. .456 17. .990 1, .00 12 .24 6

ATOM 473 N ILE A 59 19 .092 13 .940 21 .251 1 .00 13 .50 7

ATOM 474 CA ILE A 59 19, .180 15 .354 21 .596 1, .00 15 .65 6 ATOM 475 C ILE A 59 20, .410 15, .974 20, .964 1, .00 18 .12 6

ATOM 476 O ILE A 59 20, .220 17 .014 20 .263 1, .00 23 .97 8

ATOM 477 CB ILE A 59 19, .241 15, .477 23, .146 1. .00 15 .66 6

ATOM 478 CGI ILE A 59 17, .951 15, .100 23, .855 1, .00 19 .46 6

ATOM 479 CG2 ILE A 59 19, .590 16, .921 23, .536 1. .00 22 .80 6 ATOM 480 CDl ILE A 59 16. ,626 15, .695 23, .499 1, ,00 21, .33 6

ATOM 481 N ASP A 60 21, .568 15, .421 21, .177 1. .00 19 .52 7

ATOM 482 CA ASP A 60 22. .810 15, .974 20, .563 1. .00 20, .37 6

ATOM 483 C ASP A 60 23. .051 15, .391 19. .176 1. .00 23 .56 6

ATOM 484 O ASP A 60 24. .039 15, .842 18. .532 1. .00 21, .66 8 ATOM 485 CB ASP A 60 24, .011 15, .638 21. .423 1. .00 24 .04 6

ATOM 486 CG ASP A 60 24, .163 16, .251 22. .799 1. .00 29, .23 6

ATOM 487 ODl ASP A 60 23. .498 17. .279 23. .093 1. ,00 27, .86 8

ATOM 488 OD2 ASP A 60 24. .968 15, .676 23. .597 1. .00 22, .41 8

ATOM 489 N ARG A 61 22. .353 14. .341 18. .772 1. ,00 18, .93 7 ATOM 490 CA ARG A 61 22. .668 13, .639 17. .519 1. .00 18, .74 6

ATOM 491 C ARG A 61 24. .106 13. .184 17. .487 1. .00 22. .32 6

ATOM 492 O ARG A 61 25. .042 13, .415 16. .667 1. .00 20, .82 8

ATOM 493 CB ARG A 61 22. .241 14. .566 16. .363 1. ,00 20. .03 6

ATOM 494 CG ARG A 61 20. .743 14. .751 16. ,239 1. ,00 27. ,06 6 ATOM 495 CD ARG A 61 20. .210 15, .689 15. .210 0. .00 20, .00 6

ATOM 496 NE ARG A 61 19. .042 16. .306 15. .859 0. ,00 20. .00 7

ATOM 497 CZ ARG A 61 18, .388 17, .288 15. .185 0. ,00 20, .00 6

ATOM 498 NHl ARG A 61 18. .805 17, .666 13. .981 0. .00 20, .00 7

ATOM 499 NH2 ARG A 61 17. .318 17. .872 15. ,746 0. ,00 20. .00 7 ATOM 500 N ASP A 62 24. .436 12. .342 18. .480 1. ,00 18, .53 7

ATOM 501 CA ASP A 62 25. .742 11. .759 18. ,713 1. .00 19. .28 6

ATOM 502 C ASP A 62 25. .598 10, .378 19. .351 1. ,00 17. .15 6

ATOM 503 O ASP A 62 24. .462 9. ,943 19. .708 1. .00 17. .25 8

ATOM 504 CB ASP A 62 26, .663 12, .711 19. .495 1. .00 19, .71 6 ATOM 505 CG ASP A 62 26. .330 12. .887 20. .966 1. ,00 25. .11 6

ATOM 506 ODl ASP A 62 25. .880 11. .940 21. .630 1. .00 17. .54 8

ATOM 507 OD2 ASP A 62 26. .480 13, .999 21. .532 1. .00 26, .53 8

ATOM 508 N ASN A 63 26. .690 9. .644 19. .555 1. ,00 16. .07 7

ATOM 509 CA ASN A 63 26, .714 8, .291 20. .046 1. .00 18, .08 6 ATOM 510 C ASN A 63 27. .071 8. .238 21. .540 1. ,00 14. .21 6

ATOM 511 O ASN A 63 27. .589 7. .220 22, .004 1. ,00 19. .73 8

ATOM 512 CB ASN A 63 27, .775 7, .473 19. .289 1. .00 22. .90 6

ATOM 513 CG ASN A 63 29. .335 7. .776 19. .315 0. ,00 20. .00 6

ATOM 514 ODl ASN A 63 30, .201 6, .934 19. .572 0. .00 20. .00 8 ATOM 515 ND2 ASN A 63 29. .600 9, .079 19. .152 0. ,00 20. .00 7

ATOM 516 N ASN A 64 26, .975 9, .391 22. .182 1. .00 15, .25 7

ATOM 517 CA ASN A 64 27, .400 9, .532 23. .602 1. .00 16, .89 6

ATOM 518 C ASN A 64 26. .266 10, .079 24. .433 1. ,00 14. .33 6

ATOM 519 O ASN A 64 25, .999 11, .262 24. .588 1. .00 14, .56 8 ATOM 520 CB ASN A 64 28, .546 10, .586 23. .613 1. ,00 16, .40 6

ATOM 521 CG ASN A 64 29, .073 10, .797 25. .019 1. .00 20, .17 6

ATOM 522 ODl ASN A 64 28, .566 10, .200 25. .964 1. .00 24, .63 8

ATOM 523 ND2 ASN A 64 30, .049 11. .702 25. ,183 1. .00 24. .89 7

ATOM 524 N PRO A 65 25, .502 9, .138 24. ,989 1. .00 11, .21 7 ATOM 525 CA PRO A 65 24, .242 9. .477 25. .665 1. ,00 13. .27 6

ATOM 526 C PRO A 65 24, .437 9. .812 27. .151 1. .00 13, .67 6

ATOM 527 O PRO A 65 23, .672 9, .379 28. .013 1. ,00 12, .46 8

ATOM 528 CB PRO A 65 23, .409 8 .174 25, .491 1. .00 12, .03 6

ATOM 529 CG PRO A 65 24, .468 7, .118 25, .660 1. .00 13, .48 6 ATOM 530 CD PRO A 65 25, .668 7, .692 24. .820 1. .00 11, .45 6

ATOM 531 N MET A 66 25, .496 10. .590 27, .413 1. .00 12, .49 7

ATOM 532 CA MET A 66 25, .738 11, .074 28. .772 1. ,00 10, .69 6

ATOM 533 C MET A 66 24, .601 11, .947 29, .263 1. .00 10, .89 6 ATOM 534 O MET A 66 23.929 12.691 28.560 1.00 12.73 8

ATOM 535 CB MET A 66 27 .055 11 .880 28 .760 1 .00 14 .19 6

ATOM 536 CG MET A 66 27, .469 12 .471 30 .079 1. .00 13 .14 6

ATOM 537 SD MET A 66 27, .514 11. .384 31 .542 1 .00 14 .24 16 ATOM 538 CE MET A 66 28, .725 10 .247 30 .960 1 .00 16 .73 6

ATOM 539 N ASP A 67 24, .280 11 .753 30 .541 1 .00 12 .39 7

ATOM 540 CA ASP A 67 23 .223 12 .441 31 .250 1 .00 13 .65 6

ATOM 541 C ASP A 67 23 .622 13 .848 31 .714 1 .00 13 .30 6

ATOM 542 O ASP A 67 24 .628 13 .878 32 .457 1 .00 14 .71 8 ATOM 543 CB ASP A 67 22 .881 11 .608 32 .498 1 .00 12 .61 6

ATOM 544 CG ASP A 67 21, .584 12, .025 33 .128 1. .00 10. .52 6

ATOM 545 ODl ASP A 67 20, .838 12, .937 32 .766 1, .00 10. .71 8

ATOM 546 OD2 ASP A 67 21. .311 11. .380 34. .194 1. .00 11. .95 8

ATOM 547 N LEU A 68 22. .901 14, .887 31 .398 1, .00 12, .91 7 ATOM 548 CA LEU A 68 23, .230 16, .219 31 .935 1. .00 11, .29 6

ATOM 549 C LEU A 68 22, .184 16, .689 32 .938 1, .00 17. .10 6

ATOM 550 O LEU A 68 21, .977 17, .877 33 .191 1, .00 18 .88 8

ATOM 551 CB LEU A 68 23, .273 17 .220 30 .784 1. .00 13 .93 6

ATOM 552 CG LEU A 68 24. .425 16, .942 29, .829 1. .00 18, .76 6 ATOM 553 CDl LEU A 68 24, .437 18, .059 28, .780 1. .00 20, .21 6

ATOM 554 CD2 LEU A 68 25, .787 16, .856 30, .516 1. .00 23. .79 6

ATOM 555 N ASN A 69 21, .312 15, .750 33, .311 1. .00 14, .50 7

ATOM 556 CA ASN A 69 20, .183 16, .121 34, .185 1. .00 13, .25 6

ATOM 557 C ASN A 69 20, .208 15, .373 35, .507 1. .00 15. .28 6 ATOM 558 O ASN A 69 20, .055 15, .947 36, .595 1. .00 13, .89 8

ATOM 559 CB ASN A 69 18, .837 15, .820 33, .493 1. .00 13, .49 6

ATOM 560 CG ASN A 69 17. .700 16. .122 34. .412 1. .00 13. .28 6

ATOM 561 ODl ASN A 69 17. .292 15. .258 35. .220 1. ,00 15. .35 8

ATOM 562 ND2 ASN A 69 17. .132 17. .347 34, .413 1. .00 12. .65 7 ATOM 563 N GLY A 70 20. .371 14, .062 35, .389 1. .00 11. .32 7

ATOM 564 CA GLY A 70 20. .428 13, .126 36, .501 1. .00 12. .47 6

ATOM 565 C GLY A 70 19. .248 12, .180 36, .565 1. .00 12. .10 6

ATOM 566 O GLY A 70 19, .392 11, .092 37, .153 1. .00 11. .37 8

ATOM 567 N HIS A 71 18, .098 12. .548 36, .033 1. .00 10. .92 7 ATOM 568 CA HIS A 71 16. .928 11. ,677 36. .064 1. .00 12. ,16 6

ATOM 569 C HIS A 71 17. .178 10. ,320 35. .425 1. .00 10. .47 6

ATOM 570 O HIS A 71 16. .936 9. ,246 36. .005 1. ,00 10. .18 8

ATOM 571 CB HIS A 71 15. .866 12. .443 35. .303 1. ,00 12. .10 6

ATOM 572 CG HIS A 71 14. .491 11. .898 35. .281 1. ,00 10. .59 6 ATOM 573 NDl HIS A 71 14. .070 11. .083 34, .222 1. .00 9. .81 7

ATOM 574 CD2 HIS A 71 13, .448 12. .059 36, .137 1. .00 11. .36 6

ATOM 575 CEl HIS A 71 12, .804 10. .755 34, .481 1. .00 9, .45 6

ATOM 576 NE2 HIS A 71 12. .394 11. .339 35. .617 1. ,00 11. .67 7

ATOM 577 N GLY A 72 17. .747 10. .309 34. .214 1. ,00 9. .91 7 ATOM 578 CA GLY A 72 17. .985 9. .019 33. .539 1. ,00 8. .20 6

ATOM 579 C GLY A 72 18. .943 8. .130 34. .294 1. ,00 10. .22 6

ATOM 580 O GLY A 72 18. .851 6. .914 34. .210 1. ,00 11. .25 8

ATOM 581 N THR A 73 19, .996 8. .710 34, .949 1. ,00 9. .41 7

ATOM 582 CA THR A 73 20, .943 7. .870 35. .678 1. .00 10. .00 6 ATOM 583 C THR A 73 20, .264 7. .190 36, .904 1. .00 9, .47 6

ATOM 584 O THR A 73 20. .593 6. .058 37. .215 1. ,00 10. .68 8

ATOM 585 CB THR A 73 22. .092 8. .789 36. .140 1. ,00 12. .41 6

ATOM 586 OGl THR A 73 22, .771 9. .288 34. .942 1. ,00 11. .16 8

ATOM 587 CG2 THR A 73 23, .170 8. .096 36, .950 1. .00 11. .66 6 ATOM 588 N HIS A 74 19, .332 7. .989 37, .489 1. .00 9. .10 7

ATOM 589 CA HIS A 74 18, .615 7. .468 38, .683 1. .00 10, .08 6

ATOM 590 C HIS A 74 17, .725 6, .317 38, .222 1. .00 8, .45 6

ATOM 591 O HIS A 74 17, .755 5, .193 38. .797 1. .00 9. .63 8

ATOM 592 CB HIS A 74 17. .893 8. .629 39. .336 1. ,00 11. .77 6 ATOM 593 CG HIS A 74 17, .373 8. .281 40. .697 1. ,00 10. .65 6

ATOM 594 NDl HIS A 74 16, .237 7. .546 40. .892 1. ,00 10. .09 7

ATOM 595 CD2 HIS A 74 17, .889 8. .640 41. .909 1. .00 10. .65 6

ATOM 596 CEl HIS A 74 16, .057 7, .418 42. .194 1. .00 10. .71 6

ATOM 597 NE2 HIS A 74 17, .011 8, .091 42, .847 1. .00 11. .39 7 ATOM 598 N VAL A 75 16, .991 6, .560 37. .128 1. .00 8. .72 7

ATOM 599 CA VAL A 75 16, .102 5, .516 36, .601 1. .00 9. .96 6

ATOM 600 C VAL A 75 16, .861 4. .281 36. .196 1. ,00 9. .80 6

ATOM 601 O VAL A 75 16, .493 3. .159 36. .569 1. .00 9. .73 8 ATOM 602 CB VAL A 75 15,.368 6,.143 35.397 1.00 8.91 6

ATOM 603 CGI VAL A 75 14, .632 5, .037 34 .614 1 .00 11 .90 6

ATOM 604 CG2 VAL A 75 14, .373 7, .207 35 .906 1. .00 12 .26 6

ATOM 605 N ALA A 76 18, .045 4, .463 35, .550 1. .00 9 .95 7 ATOM 606 CA ALA A 76 18, .828 3, .299 35, .109 1. .00 10 .80 6

ATOM 607 C ALA A 76 19, .311 2, .512 36, .325 1. .00 8 .05 6

ATOM 608 O ALA A 76 19, .350 1, .268 36, .257 1. .00 9 .57 8

ATOM 609 CB ALA A 76 20, .067 3, .817 34 .296 1. .00 11 .31 6

ATOM 610 N GLY A 77 19, .719 3, .244 37, .394 1, .00 8 .67 7 ATOM 611 CA GLY A 77 20. .240 2, .442 38, .509 1. .00 10 .66 6

ATOM 612 C GLY A 77 19, .100 1, .609 39 .154 1, .00 8 .38 6

ATOM 613 O GLY A 77 19. .432 0, .501 39, .628 1. .00 9 .24 8

ATOM 614 N THR A 78 17, .898 2, .146 39, .196 1, .00 8 .84 7

ATOM 615 CA THR A 78 16, .820 1, .294 39, .724 1. .00 9 .31 6 ATOM 616 C THR A 78 16. .604 0. .018 38. .930 1. .00 7. .59 6

ATOM 617 O THR A 78 16. .379 -1. .093 39. .396 1. .00 10, .79 8

ATOM 618 CB THR A 78 15. .550 2. .127 39. .833 1. .00 9, .05 6

ATOM 619 OGl THR A 78 15. .760 3. .175 40. .796 1. .00 10, .11 8

ATOM 620 CG2 THR A 78 14. .375 1. .266 40. .327 1. .00 10, .42 6 ATOM 621 N VAL A 79 16, .642 0. .189 37. .555 1. .00 9, .12 7

ATOM 622 CA VAL A 79 16. .411 -0. .985 36. .685 1. .00 8, .17 6

ATOM 623 C VAL A 79 17. .466 -2 , .025 36. .875 1. .00 8, .18 6

ATOM 624 O VAL A 79 17, .192 -3, .196 36. .970 1. .00 10, .26 8

ATOM 625 CB VAL A 79 16. .354 -0, .577 35. .186 1. .00 13, .01 6 ATOM 626 CGI VAL A 79 16, .039 -1. .862 34. .342 1. .00 16, .27 6

ATOM 627 CG2 VAL A 79 15, .250 0, .388 34. .873 1. .00 16, .24 6

ATOM 628 N ALA A 80 18. .753 -1, .594 36. .861 1. .00 9, .76 7

ATOM 629 CA ALA A 80 19, .799 -2, .612 36, .679 1. .00 9, .95 6

ATOM 630 C ALA A 80 21, .149 -2, .084 37. .067 1. .00 11, .86 6 ATOM 631 O ALA A 80 22, .196 -2, .334 36, .405 1. .00 10, .30 8

ATOM 632 CB ALA A 80 19. .814 -3. .107 35. .195 1. .00 10. .99 6

ATOM 633 N ALA A 81 21. .287 -1. .333 38. .172 1. .00 10. .11 7

ATOM 634 CA ALA A 81 22. .606 -1. .043 38. .738 1. .00 8. .94 6

ATOM 635 C ALA A 81 23. .431 -2. .334 38. .881 1. .00 10. .93 6 ATOM 636 O ALA A 81 22. .877 -3. .375 39. .066 1. .00 10. .46 8

ATOM 637 CB ALA A 81 22. .577 -0. .382 40. .119 1. .00 8. .60 6

ATOM 638 N ASP A 82 24. .767 -2. .153 38. .897 1. .00 9. .68 7

ATOM 639 CA ASP A 82 25. .667 -3. .283 39. .195 1. .00 13. .33 6

ATOM 640 C ASP A 82 25. .333 -3. .770 40. .643 1. ,00 9. .64 6 ATOM 641 O ASP A 82 25, .341 -2. .891 41. .492 1. ,00 10. .48 8

ATOM 642 CB ASP A 82 27, .068 -2. .744 39. .036 1. .00 11. .80 6

ATOM 643 CG ASP A 82 28, .160 -3, .765 38. .888 1. .00 13. .40 6

ATOM 644 ODl ASP A 82 29, .241 -3, .350 38. .394 1. .00 12. .00 8

ATOM 645 OD2 ASP A 82 27, .952 -4, .901 39. .318 1. .00 12, .74 8 ATOM 646 N THR A 83 25, .143 -5, .049 40. .755 1. .00 9, .60 7

ATOM 647 CA THR A 83 24, .598 -5, .567 42, .041 1. .00 10, .59 6

ATOM 648 C THR A 83 25, .509 -6. ,677 42. .574 1. .00 11. .19 6

ATOM 649 O THR A 83 26. .203 -7. .421 41. .875 1. .00 13. .87 8

ATOM 650 CB THR A 83 23. .240 -6. .205 41. .715 1. .00 12. .73 6 ATOM 651 OGl THR A 83 22, .452 -5, .144 41. .178 1. .00 11. .10 8

ATOM 652 CG2 THR A 83 22, .502 -6, .829 42. .913 1. .00 11. .07 6

ATOM 653 N ASN A 84 25, .558 -6, .640 43. .926 1. .00 11. .01 7

ATOM 654 CA ASN A 84 26, .421 -7, .579 44. .672 1. .00 12. .42 6

ATOM 655 C ASN A 84 27 .916 -7, .260 44, .404 1. .00 12, ,70 6 ATOM 656 O ASN A 84 28 .717 -8, .171 44, .505 1. .00 14, .84 8

ATOM 657 CB ASN A 84 26 .083 -9, .024 44, .364 1, .00 14, .55 6

ATOM 658 CG ASN A 84 26 .516 -9, .910 45. .538 1. .00 17, .95 6

ATOM 659 ODl ASN A 84 26 .308 -9, .587 46, .712 1. .00 16, .26 8

ATOM 660 ND2 ASN A 84 27 .136 -11 .035 45, .221 1, .00 19, .28 7 ATOM 661 N ASN A 85 28 .181 -5 .973 44, .137 1. .00 11. .37 7

ATOM 662 CA ASN A 85 29 .540 -5 .534 43, .883 1, .00 11. .85 6

ATOM 663 C ASN A 85 30 .208 -4 .745 44, .988 1, .00 11, .88 6

ATOM 664 O ASN A 85 31, .195 -4, .054 44. .863 1. .00 14. ,14 8

ATOM 665 CB ASN A 85 29, .614 -4, .736 42, .574 1. .00 12. .33 6 ATOM 666 CG ASN A 85 28 .901 -3, .418 42. .600 1. .00 12. .64 6

ATOM 667 ODl ASN A 85 27 .959 -3, .237 43, .365 1. .00 11. .43 8

ATOM 668 ND2 ASN A 85 29 .298 -2, .439 41, .789 1. .00 11. .56 7

ATOM 669 N GLY A 86 29 .539 -4, .755 46, .163 1. .00 12. .16 7 ATOM 670 CA GLY A 86 29.982 -4.130 47.358 1.00 12.38 6

ATOM 671 C GLY A 86 30 .003 -2 .614 47 .377 1 .00 14 .42 6

ATOM 672 O GLY A 86 30 .591 -1 .914 48 .220 1 .00 18 .31 8

ATOM 673 N ILE A 87 29 .329 -2 .004 46 .388 1 .00 12 .81 7 ATOM 674 CA ILE A 87 29 .278 -0 .603 46 .104 1 .00 11 .71 6

ATOM 675 C ILE A 87 27 .805 -0 .195 45 .920 1 .00 10 .49 6

ATOM 676 O ILE A 87 27 .039 -0 .898 45 .250 1 .00 11 .65 8

ATOM 677 CB ILE A 87 30 .001 -0 .268 44 .734 1 .00 13 .16 6

ATOM 678 CGI ILE A 87 31 .488 -0 .601 44 .998 1. .00 15 .49 6 ATOM 679 CG2 ILE A 87 29 .743 1 .152 44 .317 1 .00 17 .65 6

ATOM 680 CDl ILE A 87 32 .209 -0 .655 43 .631 1 .00 17 .42 6

ATOM 681 N GLY A 88 27 .452 0 .954 46 .442 1 .00 12 .42 7

ATOM 682 CA GLY A 88 26 .194 1 .569 45 .989 1. .00 11 .25 6

ATOM 683 C GLY A 88 24 .950 0 .749 46 .250 1 .00 9 .96 6 ATOM 684 O GLY A 88 24, .668 0. .199 47 .288 1, .00 11 .18 8

ATOM 685 N VAL A 89 24, .106 0. .667 45 .193 1. .00 10 .48 7

ATOM 686 CA VAL A 89 22 .741 0 .149 45 .260 1. .00 8 .53 6

ATOM 687 C VAL A 89 22 .639 -1 .190 44 .549 1. .00 11 .23 6

ATOM 688 O VAL A 89 23 .666 -1 .596 43 .948 1, .00 10 .26 8 ATOM 689 CB VAL A 89 21, .727 1, .175 44 .689 1. .00 10. .06 6

ATOM 690 CGI VAL A 89 21, .615 2, .398 45 .639 1. .00 11. .70 6

ATOM 691 CG2 VAL A 89 22, .081 1. .654 43 .263 1. .00 10. .54 6

ATOM 692 N ALA A 90 21, .477 -1, .829 44 .640 1. .00 7. .95 7

ATOM 693 CA ALA A 90 21, .184 -3, .046 43 .869 1. .00 8, .13 6 ATOM 694 C ALA A 90 20, .078 -2, .755 42. .876 1. .00 8, .97 6

ATOM 695 O ALA A 90 19. .085 -2. .156 43, .204 1. .00 10, .80 8

ATOM 696 CB ALA A 90 20. .696 -4. .124 44, .835 1. .00 11, .49 6

ATOM 697 N GLY A 91 20, .356 -3, .266 41, .655 1. .00 9, .50 7

ATOM 698 CA GLY A 91 19. .313 -3, .059 40 .624 1. .00 10, .29 6 ATOM 699 C GLY A 91 18, .278 -4, .178 40 .615 1. .00 10, .12 6

ATOM 700 O GLY A 91 18. .457 -5. .295 41, .120 1. ,00 9. .70 8

ATOM 701 N MET A 92 17. .069 -3. .849 40, .120 1. ,00 10. .51 7

ATOM 702 CA MET A 92 15. .995 -4. .836 40, .046 1. ,00 10, .40 6

ATOM 703 C MET A 92 16. .312 -6. .044 39, .169 1. .00 8. .63 6 ATOM 704 O MET A 92 15. .853 -7. .173 39, .474 1. ,00 10, .07 8

ATOM 705 CB MET A 92 14. .700 -4. ,133 39, .525 1. 00 10. .66 6

ATOM 706 CG MET A 92 14. .024 -3. ,346 40, .670 1. .00 10. .45 6

ATOM 707 SD MET A 92 13. .253 -4. .371 41, .946 1. .00 11. .55 16

ATOM 708 CE MET A 92 11. .912 -5. .093 41, .007 1. ,00 12. .16 6 ATOM 709 N ALA A 93 17. .126 -5. .840 38, .098 1. ,00 8. .87 7

ATOM 710 CA ALA A 93 17, .598 -6. .935 37, .268 1. ,00 10, .60 6

ATOM 711 C ALA A 93 19. .126 -6. .945 37. .275 1. 00 12. .63 6

ATOM 712 O ALA A 93 19. .803 -6. .326 36. .467 1. .00 11. .07 8

ATOM 713 CB ALA A 93 17. .041 -6. .652 35. .841 1. ,00 11. .23 6 ATOM 714 N PRO A 94 19. .692 -7. .579 38, .287 1. ,00 10. .81 7

ATOM 715 CA PRO A 94 21. .127 -7. .515 38, .517 1. ,00 12. .42 6

ATOM 716 C PRO A 94 21. .963 -7. ,765 37. .291 1. 00 12. .53 6

ATOM 717 O PRO A 94 22. .990 -7. ,094 37. .087 1. ,00 14. .34 8

ATOM 718 CB PRO A 94 21. .350 -8. ,634 39. .578 1. 00 11. .90 6 ATOM 719 CG PRO A 94 20. .077 -8. .538 40. .360 1. .00 12. .96 6

ATOM 720 CD PRO A 94 18. .941 -8. .272 39. .338 1. ,00 12. .20 6

ATOM 721 N ASP A 95 21. .647 -8. ,786 36. .456 1. 00 11. ,92 7

ATOM 722 CA ASP A 95 22. .593 -9. ,148 35. .399 1. 00 11. ,78 6

ATOM 723 C ASP A 95 22. .215 -8. .578 34. .037 1. .00 12. ,73 6 ATOM 724 O ASP A 95 23. .039 -8. .643 33. .127 1. .00 14. .73 8

ATOM 725 CB ASP A 95 22. .661 -10. .672 35. .300 1. ,00 12. .28 6

ATOM 726 CG ASP A 95 23. .335 -11. .242 36, .572 1. ,00 18. .00 6

ATOM 727 ODl ASP A 95 24. .147 -10. ,496 37. .098 1. 00 20. .06 8

ATOM 728 OD2 ASP A 95 22. .929 -12. ,386 36. .860 1. 00 27. .51 8 ATOM 729 N THR A 96 21. .016 -7. .956 33. .957 1. ,00 12. .12 7

ATOM 730 CA THR A 96 20. .613 -7. ,407 32. .635 1. .00 12. .08 6

ATOM 731 C THR A 96 21. .336 -6. .110 32. .325 1. .00 11. .03 6

ATOM 732 O THR A 96 21. .555 -5. .271 33. .207 1. 00 12. ,04 8

ATOM 733 CB THR A 96 19. .095 -7. ,274 32. .590 1. 00 10. ,42 6 ATOM 734 OGl THR A 96 18. .501 -8. ,585 32. .725 1. 00 12. ,83 8

ATOM 735 CG2 THR A 96 18. .523 -6. ,733 31. .241 1. 00 11. ,86 6

ATOM 736 N LYS A 97 21. .685 -5. .929 31. .026 1. 00 10. ,74 7

ATOM 737 CA LYS A 97 22. .392 -4. .675 30. .685 1. 00 11. ,13 6 ATOM 738 C LYS A 97 21.400 -3.550 30.376 1.00 12.38 6

ATOM 739 0 LYS A 97 20 .182 -3 .832 30 .148 1 .00 11 .36 8

ATOM 740 CB ALYS A 97 23 .198 -4 .880 29 .382 0 .50 12 .99 6

ATOM 741 CG ALYS A 97 24 .181 -6 .046 29 .425 0 .50 17 .25 6 ATOM 742 CD . ALYS A 97 25. .152 -5, .891 30. .584 0 .50 15 .11 6

ATOM 743 CE . ALYS A 97 26. .500 -6, .533 30. .211 0 .50 12 .42 6

ATOM 744 NZ ALYS A 97 27. .416 -6, .547 31 .382 0 .50 18 .98 7

ATOM 745 CB BLYS A 97 23. .436 -4, .843 29 .571 0 .50 14 .58 6

ATOM 746 CG BLYS A 97 24. .588 -5 .769 29 .995 0 .50 15 .40 6 ATOM 747 CD BLYS A 97 25. .597 -5, .958 28 .888 0 .50 16 .62 6

ATOM 748 CE BLYS A 97 26, .770 -6 .845 29 .293 0 .50 22 .87 6

ATOM 749 NZ BLYS A 97 27, .610 -6 .168 30 .320 0 .50 27 .60 7

ATOM 750 N ILE A 98 21, .861 -2 .310 30 .465 1 .00 10 .38 7

ATOM 751 CA ILE A 98 21, .048 -1 .145 30 .182 1 .00 10 .34 6 ATOM 752 C ILE A 98 21. .459 -0, .617 28, .815 1. .00 10. .92 6

ATOM 753 O ILE A 98 22. .618 -0, .354 28, .624 1, .00 12. .98 8

ATOM 754 CB ILE A 98 21. .342 -0, .073 31, .253 1. .00 10. .78 6

ATOM 755 CGI ILE A 98 20, .779 -0, .412 32. .644 1, .00 11. .69 6

ATOM 756 CG2 ILE A 98 20, .758 1, .269 30, .847 1. .00 11 .52 6 ATOM 757 CDl ILE A 98 21, .604 0, .253 33, .746 1, .00 14. .34 6

ATOM 758 N LEU A 99 20, .522 -0, .415 27, .892 1. .00 9 .93 7

ATOM 759 CA LEU A 99 20, .815 0, .298 26, .649 1, .00 10 .06 6

ATOM 760 C LEU A 99 20, .432 1, .743 26, .901 1. .00 10, .51 6

ATOM 761 O LEU A 99 19, .225 2, .085 27, .071 1, .00 9 .69 8 ATOM 762 CB LEU A 99 19. .984 -0. .359 25. .506 1. .00 11, .55 6

ATOM 763 CG LEU A 99 20. .103 0. .469 24. .236 1. .00 11. .50 6

ATOM 764 CDl LEU A 99 21. .553 0. .416 23. .750 1. .00 12. .90 6

ATOM 765 CD2 LEU A 99 19. .138 -0. .039 23. .204 1. .00 10, .92 6

ATOM 766 N ALA A 100 21. .356 2, .645 27. .040 1. .00 10, .31 7 ATOM 767 CA ALA A 100 21. .060 4, .046 27. .338 1. .00 9, .78 6

ATOM 768 C ALA A 100 20. .713 4, .770 26, .039 1. .00 9, .48 6

ATOM 769 O ALA A 100 21. .557 4, .833 25. .119 1. .00 11, .85 8

ATOM 770 CB ALA A 100 22. .296 4, .739 27, .974 1, .00 11, .54 6

ATOM 771 N VAL A 101 19. .480 5. .268 26. .012 1. .00 9. .16 7 ATOM 772 CA VAL A 101 19. .062 6. .013 24. .795 1. ,00 10. .09 6

ATOM 773 C VAL A 101 18. .654 7. .409 25. .253 1, .00 10. .39 6

ATOM 774 O VAL A 101 17. .733 7. .523 26. .060 1. .00 9. .86 8

ATOM 775 CB VAL A 101 17. .937 5. .305 24. .085 1, .00 10. .01 6

ATOM 776 CGI VAL A 101 17. .556 6. .021 22. .742 1, .00 11. .37 6 ATOM 777 CG2 VAL A 101 18. .227 3. .846 23. .765 1, .00 12. .69 6

ATOM 778 N ARG A 102 19. .294 8, .449 24. .771 1. .00 10, .96 7

ATOM 779 CA ARG A 102 19. .041 9, .797 25. .252 1, .00 10, .28 6

ATOM 780 C ARG A 102 18. .003 10, .499 24 , .396 1, .00 13, .39 6

ATOM 781 O ARG A 102 18. .193 10. .765 23. .188 1. .00 14. .69 8 ATOM 782 CB ARG A 102 20. .353 10. .595 25. .469 1. .00 11. .23 6

ATOM 783 CG ARG A 102 19. .993 12. .026 25. .927 1, .00 11. .92 6

ATOM 784 CD ARG A 102 21. .318 12, .674 26. .332 1, .00 11. .26 6

ATOM 785 NE ARG A 102 21. .088 13, .998 26. .872 1. .00 13, .14 7

ATOM 786 CZ ARG A 102 21. .537 15, .160 26. .462 1. .00 17, .86 6 ATOM 787 NHl ARG A 102 22, .286 15, .196 25. .353 1, .00 17, .29 7

ATOM 788 NH2 ARG A 102 21, .231 16, .264 27, .119 1. .00 13. .78 7

ATOM 789 N VAL A 103 16, .871 10, .780 24, .968 1, .00 11. .62 7

ATOM 790 CA VAL A 103 15. .757 11. ,445 24, .301 1. .00 11, .54 6

ATOM 791 C VAL A 103 15, .264 12. .696 25. .053 1. .00 12, .58 6 ATOM 792 O VAL A 103 14, .272 13, .343 24. .613 1. .00 15. .25 8

ATOM 793 CB VAL A 103 14, .520 10, .520 24. .049 1. .00 12. .23 6

ATOM 794 CGI VAL A 103 14, .893 9, .393 23, .047 1, .00 15, .01 6

ATOM 795 CG2 VAL A 103 13, .912 9, .972 25, .323 1, .00 14, .01 6

ATOM 796 N LEU A 104 15, .806 13, .018 26, .201 1, .00 13, .17 7 ATOM 797 CA LEU A 104 15, .505 14, .207 26, .989 1, .00 13. .95 6

ATOM 798 C LEU A 104 16 .824 14, .933 27, .248 1, .00 11, .06 6

ATOM 799 O LEU A 104 17 .900 14 .395 27, .389 1, .00 12, .49 8

ATOM 800 CB LEU A 104 14, .908 13, .887 28. .361 1. .00 16. .60 6

ATOM 801 CG LEU A 104 13, .683 12, .967 28. .283 1. .00 12. .90 6 ATOM 802 CDl LEU A 104 13, .236 12, .655 29, .717 1, .00 15. .91 6

ATOM 803 CD2 LEU A 104 12 .590 13, .532 27, .433 1, .00 17, .02 6

ATOM 804 N ASP A 105 16 .640 16, .297 27, .188 1, .00 14, .57 7

ATOM 805 CA ASP A 105 17 .795 17 .210 27, .308 1, .00 11, .73 6 ATOM 806 C ASP A 105 18.165 17.499 28.737 1.00 14.97 6

ATOM 807 O ASP A 105 17 .755 16 .820 29 .654 1 .00 13 .31 8

ATOM 808 CB ASP A 105 17, .447 18, .495 26 .529 1, .00 15 .08 6

ATOM 809 CG ASP A 105 16, .415 19 .378 27. .163 1, .00 21 .30 6 ATOM 810 ODl ASP A 105 16, .024 19, .199 28. .320 1, .00 16 .65 8

ATOM 811 OD2 ASP A 105 15, .940 20, .341 26 .470 1. .00 22 .26 8

ATOM 812 N ALA A 106 19, .112 18 .442 28 .926 1, .00 15 .23 7

ATOM 813 CA ALA A 106 19, .549 18 .691 30 .304 1. .00 13 .88 6

ATOM 814 C ALA A 106 18, .448 19 .148 31 .242 1, .00 14 .07 6 ATOM 815 O ALA A 106 18, .632 18 .970 32 .464 1. .00 15 .73 8

ATOM 816 CB ALA A 106 20, .623 19, .791 30. .277 1. .00 16, .83 6

ATOM 817 N ASN A 107 17, .337 19. .694 30, .787 1. .00 15, .93 7

ATOM 818 CA ASN A 107 16, .227 20, .076 31, .629 1. .00 18, .54 6

ATOM 819 C ASN A 107 15, .139 19, .031 31, .736 1. .00 17, .24 6 ATOM 820 O ASN A 107 14, .093 19, .274 32, .355 1. .00 19, .75 8

ATOM 821 CB ASN A 107 15, .587 21, .347 31, .038 1. .00 23, .46 6

ATOM 822 CG ASN A 107 16, .601 22, .481 31, .051 1. .00 26, .78 6

ATOM 823 ODl ASN A 107 17, .162 22, .753 32, .113 1. .00 25, .51 8

ATOM 824 ND2 ASN A 107 16. .820 23. .099 29. .904 1. .00 26. .59 7 ATOM 825 N GLY A 108 15. .389 17. .863 31. .134 1. ,00 16. .72 7

ATOM 826 CA GLY A 108 14. .401 16, .793 31. .185 1. ,00 19. .02 6

ATOM 827 C GLY A 108 13. .346 16, .911 30. .090 1. ,00 19. .28 6

ATOM 828 O GLY A 108 12. .324 16, .199 30. .201 1. .00 23. .96 8

ATOM 829 N SER A 109 13. .569 17, .695 29. .071 1. .00 18. .97 7 ATOM 830 CA SER A 109 12. .556 17, .941 28. .046 1. .00 19. .93 6

ATOM 831 C SER A 109 12. .936 17, .281 26. .738 1. .00 19. .26 6

ATOM 832 O SER A 109 14. .111 17. .132 26. ,434 1. ,00 16. .92 8

ATOM 833 CB SER A 109 12. .425 19. .456 27. ,829 1. .00 27. .39 6

ATOM 834 OG SER A 109 12. .017 20. .008 29. .076 1. ,00 36. .14 8 ATOM 835 N GLY A 110 11. .937 16. .950 25. .927 1. ,00 19. .72 7

ATOM 836 CA GLY A 110 12. .225 16, .262 24. .673 1. .00 20. .18 6

ATOM 837 C GLY A 110 11. .058 16. .418 23. .718 1. .00 21. .15 6

ATOM 838 O GLY A 110 9. .991 16. .848 24. .138 1. ,00 27. .11 8

ATOM 839 N SER A 111 11. .377 16. .282 22. .422 1. .00 16. .93 7 ATOM 840 CA SER A 111 10. .303 16. .416 21. ,451 1. 00 18. ,93 6

ATOM 841 C SER A 111 9. ,655 15. .052 21. ,244 1. 00 17. ,00 6

ATOM 842 O SER A 111 10. .258 14. .004 21. ,422 1. .00 17. ,14 8

ATOM 843 CB SER A 111 10. .853 16. .982 20. ,148 1. .00 21. ,62 6

ATOM 844 OG SER A 111 11. .640 16. .039 19. ,448 1. .00 23. .26 8 ATOM 845 N LEU A 112 8. .354 15. .122 20. ,969 1. ,00 16. .14 7

ATOM 846 CA LEU A 112 7, .698 13. .807 20. .756 1. .00 15. .65 6

ATOM 847 C LEU A 112 8. .360 13, .083 19. .577 1. ,00 14. .33 6

ATOM 848 O LEU A 112 8. .393 11. .832 19. ,644 1. .00 17. ,13 8

ATOM 849 CB LEU A 112 6. .187 13. .940 20. .629 1. ,00 21. .81 6 ATOM 850 CG LEU A 112 5. .437 14. .470 21. .857 1. ,00 22. .13 6

ATOM 851 CDl LEU A 112 3. .926 14. .464 21. .622 1. ,00 28. .11 6

ATOM 852 CD2 LEU A 112 5. .685 13. .699 23. .153 1. ,00 25. .27 6

ATOM 853 N ASP A 113 8. .726 13. .761 18. .498 1. ,00 17. .80 7

ATOM 854 CA ASP A 113 9, .300 12, .973 17. .388 1. ,00 18. .50 6 ATOM 855 C ASP A 113 10, .622 12, .343 17. .758 1. .00 19. .37 6

ATOM 856 O ASP A 113 10. .820 11. .187 17. .316 1. ,00 18. .50 8

ATOM 857 CB ASP A 113 9. .322 13. .894 16. .160 1. ,00 20. .24 6

ATOM 858 CG ASP A 113 8, .011 14, .173 15. .519 1. ,00 19. .59 6

ATOM 859 ODl ASP A 113 7, .995 15, .140 14. .672 1. .00 29. .00 8 ATOM 860 OD2 ASP A 113 6, .943 13, .587 15. .713 1. .00 24. .47 8

ATOM 861 N SER A 114 11, .438 12, .963 18, .569 1. .00 17. .25 7

ATOM 862 CA SER A 114 12, .699 12, .385 19, .032 1. .00 20, .51 6

ATOM 863 C SER A 114 12 .440 11, .230 19, .998 1. .00 17, .38 6

ATOM 864 O SER A 114 13, .134 10. .212 19. .896 1. .00 16. .74 8 ATOM 865 CB SER A 114 13, .525 13, .459 19. .733 1. .00 25. .71 6

ATOM 866 OG SER A 114 14, .016 14, .313 18. .706 1. .00 28. .28 8

ATOM 867 N ILE A 115 11, .470 11, .380 20. .891 1. .00 13. .42 7

ATOM 868 CA ILE A 115 11, .184 10. .283 21. .816 1. .00 11. .54 6

ATOM 869 C ILE A 115 10 .687 9, .106 21. .001 1. .00 11, .78 6 ATOM 870 O ILE A 115 11 .072 7. .934 21, .265 1. .00 12, .76 8

ATOM 871 CB ILE A 115 10 .132 10. .720 22, .855 1. .00 12, .31 6

ATOM 872 CGI ILE A 115 10, .815 11. .775 23. .737 1. .00 15. .30 6

ATOM 873 CG2 ILE A 115 9, .621 9, .579 23. .726 1. .00 14. .78 6 ATOM 874 CDl ILE A 115 9.771 12.522 24.544 1.00 16.55 6

ATOM 875 N ALA A 116 9 .807 9 .353 20 .024 1 .00 12 .41 7

ATOM 876 CA ALA A 116 9 .318 8 .291 19 .178 1 .00 11 .46 6

ATOM 877 C ALA A 116 10 .435 7 .610 18 .400 1 .00 10 .70 6 ATOM 878 O ALA A 116 10 .537 6 .377 18 .397 1 .00 11 .22 8

ATOM 879 CB ALA A 116 8 .292 8 .902 18 .184 1 .00 14 .75 6

ATOM 880 N SER A 117 11 .370 8 .395 17 .848 1 .00 12 .15 7

ATOM 881 CA SER A 117 12 .490 7 .738 17 .150 1 .00 12 .96 6

ATOM 882 C SER A 117 13 .387 6 .913 18 .093 1 .00 10 .71 6 ATOM 883 O SER A 117 13 .805 5 .814 17 .704 1 .00 13 .52 8

ATOM 884 CB SER A 117 13 .345 8 .825 16 .510 1 .00 15 .02 6

ATOM 885 OG SER A 117 12 .600 9 .369 15 .405 1 .00 17 .64 8

ATOM 886 N GLY A 118 13 .537 7 .392 19 .343 1 .00 11 .17 7

ATOM 887 CA GLY A 118 14 .357 6 .612 20 .301 1 .00 11 .65 6 ATOM 888 C GLY A 118 13 .617 5 .336 20 .707 1 .00 12 .79 6

ATOM 889 O GLY A 118 14 .241 4 .305 20 .887 1 .00 11 .77 8

ATOM 890 N ILE A 119 12 .284 5 .358 20 .869 1 .00 10 .37 7

ATOM 891 CA ILE A 119 11 .517 4 .140 21 .164 1 .00 9 .25 6

ATOM 892 C ILE A 119 11 .754 3 .131 20 .016 1 .00 9 .88 6 ATOM 893 O ILE A 119 11 .966 1 .949 20 .317 1 .00 9 .88 8

ATOM 894 CB ILE A 119 10 .045 4 .484 21 .337 1 .00 8 .90 6

ATOM 895 CGI ILE A 119 9. .871 5, .274 22 .714 1, .00 10, .96 6

ATOM 896 CG2 ILE A 119 9. .131 3. .264 21, .306 1. .00 10, .98 6

ATOM 897 CDl ILE A 119 8. .439 5, .822 22, .768 1. .00 11, .18 6 ATOM 898 N ARG A 120 11. .557 3, .597 18. .756 1. .00 9, .24 7

ATOM 899 CA ARG A 120 11. .799 2, .616 17, .683 1. .00 10, .97 6

ATOM 900 C ARG A 120 13. .239 2, .125 17, .652 1, .00 9. .58 6

ATOM 901 O ARG A 120 13 .447 0, .905 17, .482 1, .00 11, .11 8

ATOM 902 CB ARG A 120 11. .497 3. .354 16. .336 1. .00 10. .45 6 ATOM 903 CG ARG A 120 10, .021 3, .739 16. .215 1. .00 12. .73 6

ATOM 904 CD ARG A 120 9, .770 4, .717 14. .988 1. .00 12. .77 6

ATOM 905 NE ARG A 120 9, .824 3. .724 13. .911 1. .00 13. ,28 7

ATOM 906 CZ ARG A 120 8, .753 3, .068 13. .512 1. .00 11. .79 6

ATOM 907 NHl ARG A 120 7, .523 3, .292 13. .896 1. .00 12. .69 7 ATOM 908 NH2 ARG A 120 8, .965 2, .095 12. .638 1. ,00 11. .60 7

ATOM 909 N TYR A 121 14. .187 3. .005 17. .934 1. ,00 10. .24 7

ATOM 910 CA TYR A 121 15. .594 2. .588 17. ,988 1. ,00 12. .90 6

ATOM 911 C TYR A 121 15. .860 1. .471 18. .969 1. ,00 9. ,83 6

ATOM 912 O TYR A 121 16. .522 0. .447 18. .788 1. .00 11. .54 8 ATOM 913 CB TYR A 121 16, .416 3. .837 18. .292 1. .00 12. ,06 6

ATOM 914 CG TYR A 121 17, .853 3, .571 18. .596 1. .00 11. .82 6

ATOM 915 CDl TYR A 121 18, .818 3. ,475 17. .604 1. .00 13. .12 6

ATOM 916 CD2 TYR A 121 18. .273 3. .395 19. ,896 1. ,00 11. ,97 6

ATOM 917 CEl TYR A 121 20. .157 3. .225 17. .930 1. ,00 13. .85 6 ATOM 918 CE2 TYR A 121 19. .575 3. .177 20. ,250 1. ,00 11. .79 6

ATOM 919 CZ TYR A 121 20. .518 3. .073 19. .252 1. ,00 15. .08 6

ATOM 920 OH TYR A 121 21, .856 2. .849 19. .585 1. ,00 17. .95 8

ATOM 921 N ALA A 122 15, .231 1. .676 20. .166 1. .00 9. .11 7

ATOM 922 CA ALA A 122 15. .446 0. .670 21. ,197 1. ,00 9. .16 6 ATOM 923 C ALA A 122 14. .894 -0. .675 20. .774 1. ,00 10. .24 6

ATOM 924 O ALA A 122 15. .500 -1. .733 21. .045 1. ,00 12. .08 8

ATOM 925 CB ALA A 122 14, .726 1. .101 22. .481 1. ,00 10. .97 6

ATOM 926 N ALA A 123 13, .672 -0. .746 20. .160 1. ,00 10. .00 7

ATOM 927 CA ALA A 123 13, .177 -2, .032 19. .660 1. .00 9. .79 6 ATOM 928 C ALA A 123 14, .082 -2, .548 18. .522 1. .00 10. .77 6

ATOM 929 O ALA A 123 14, .298 -3. .791 18. .464 1. ,00 12. .07 8

ATOM 930 CB ALA A 123 11, .747 -1. .789 19. .135 1. ,00 12. .17 6

ATOM 931 N ASP A 124 14, .513 -1. .608 17. ,684 1. ,00 10. .69 7

ATOM 932 CA ASP A 124 15, .338 -2. .079 16. .548 1. ,00 11. .25 6 ATOM 933 C ASP A 124 16, .699 -2. .611 17. ,014 1. .00 11. .36 6

ATOM 934 O ASP A 124 17, .263 -3. .536 16. .372 1. .00 12. .55 8

ATOM 935 CB ASP A 124 15, .528 -0, .967 15. .527 1. .00 10. .62 6

ATOM 936 CG ASP A 124 14. .197 -0. .704 14. .727 1. ,00 11. ,72 6

ATOM 937 ODl ASP A 124 13. .461 -1. .679 14. ,609 1. .00 13. .58 8 ATOM 938 OD2 ASP A 124 14, .060 0. .480 14. .352 1. .00 13. .00 8

ATOM 939 N GLN A 125 17, .178 -2. .140 18. .152 1. ,00 10. .69 7

ATOM 940 CA GLN A 125 18, .385 -2. .681 18. .772 1. ,00 11. .00 6

ATOM 941 C GLN A 125 18, .156 -3. .958 19. .527 1. ,00 10. .13 6 ATOM 942 O GLN A 125 19.112 -4.519 20.114 1.00 14.93 8

ATOM 943 CB GLN A 125 19 .045 -1 .632 19 .690 1 .00 13 .56 6

ATOM 944 CG GLN A 125 19 .636 -0 .472 18 .900 1. .00 15 .15 6

ATOM 945 CD GLN A 125 20 .953 -0 .735 18 .192 1 .00 21 .96 6 ATOM 946 OEl GLN A 125 21 .571 -1 .784 18 .291 1 .00 28 .15 8

ATOM 947 NE2 GLN A 125 21 .464 0 .234 17 .433 1 .00 29 .01 7

ATOM 948 N GLY A 126 16 .930 -4 .457 19 .666 1 .00 9 .97 7

ATOM 949 CA GLY A 126 16 .710 -5 .768 20 .279 1 .00 11 .91 6

ATOM 950 C GLY A 126 16 .402 -5 .656 21 .789 1 .00 9 .69 6 ATOM 951 O GLY A 126 16 .461 -6 .756 22 .347 1 .00 11 .42 8

ATOM 952 N ALA A 127 16. .191 -4, .473 22 .311 1. .00 10 .80 7

ATOM 953 CA ALA A 127 15. .916 -4, .514 23 .775 1. .00 11 .01 6

ATOM 954 C ALA A 127 14, .656 -5, .298 24 .094 1. .00 11 .87 6

ATOM 955 O ALA A 127 13, .625 -5, .169 23 .382 1. .00 11 .59 8 ATOM 956 CB ALA A 127 15, .812 -3, .046 24 .241 1. .00 11 .61 6

ATOM 957 N LYS A 128 14, .714 -6, .115 25 .193 1. .00 10 .72 7

ATOM 958 CA LYS A 128 13 .507 -6 .851 25 .520 1. .00 10 .65 6

ATOM 959 C LYS A 128 12 .450 -6 .045 26 .274 1 .00 8 .78 6

ATOM 960 O LYS A 128 11. .270 -6, .377 26. .201 1, .00 10. .35 8 ATOM 961 CB LYS A 128 13, .834 -8, .046 26. .442 1, .00 12. .01 6

ATOM 962 CG LYS A 128 14, .845 -9, .003 25. .841 1. .00 17, .41 6

ATOM 963 CD LYS A 128 14, .181 -9, .713 24. .663 1, .00 17, .61 6

ATOM 964 CE LYS A 128 15. .182 -10. .781 24. .174 1. .00 24, .85 6

ATOM 965 NZ LYS A 128 14. .810 -11, .333 22. .835 1, .00 23, .69 7 ATOM 966 N VAL A 129 12, .912 -4 , .970 26. .905 1. .00 9, .09 7

ATOM 967 CA VAL A 129 12, .007 -4, .094 27. .687 1, .00 8, .78 6

ATOM 968 C VAL A 129 12. .468 -2. .678 27. .406 1. .00 8. .25 6

ATOM 969 O VAL A 129 13. .664 -2. .390 27, .317 1. .00 10. .23 8

ATOM 970 CB VAL A 129 12. .239 -4. .362 29, .188 1. .00 10. .07 6 ATOM 971 CGI VAL A 129 11. .286 -3. .527 30, .071 1. .00 10. .09 6

ATOM 972 CG2 VAL A 129 11. .977 -5. .856 29, .468 1. .00 10. .08 6

ATOM 973 N LEU A 130 11, .489 -1. .779 27, .289 1. .00 8. .25 7

ATOM 974 CA LEU A 130 11. .736 -0, .350 27, .185 1. .00 8. .42 6

ATOM 975 C LEU A 130 11. .104 0. .353 28, .411 1. .00 8. .00 6 ATOM 976 O LEU A 130 9. .952 0. .083 28. ,784 1. .00 9. .41 8

ATOM 977 CB LEU A 130 11. .008 0. ,264 25. , 940 1. .00 11. ,97 6

ATOM 978 CG LEU A 130 11. .719 0. ,108 24. .579 1. .00 10. ,92 6

ATOM 979 CDl LEU A 130 11. .814 -1. ,346 24. .191 1. 00 13. ,24 6

ATOM 980 CD2 LEU A 130 10. .890 0. ,862 23. .514 1. ,00 10. .28 6 ATOM 981 N ASN A 131 11, .941 1. ,213 29. .065 1. ,00 7. .78 7

ATOM 982 CA ASN A 131 11, .363 1. .989 30. .168 1. ,00 8. .96 6

ATOM 983 C ASN A 131 11, .240 3, .469 29, .713 1. .00 9. .31 6

ATOM 984 O ASN A 131 12. .244 4. .033 29. .259 1. ,00 11. .04 8

ATOM 985 CB ASN A 131 12. .331 1. .939 31. .372 1. .00 9. .40 6 ATOM 986 CG ASN A 131 11. .721 2. .692 32. .537 1. ,00 9. .88 6

ATOM 987 ODl ASN A 131 10, .903 2. .118 33. .269 1. ,00 10. .13 8

ATOM 988 ND2 ASN A 131 12. .055 3. .968 32. .661 1. .00 9. .63 7

ATOM 989 N LEU A 132 9. .984 3. .975 29. .880 1. .00 8. .49 7

ATOM 990 CA LEU A 132 9, .726 5. .379 29. .557 1. .00 9. .46 6 ATOM 991 C LEU A 132 9, .192 6, .133 30, .788 1. .00 9. .52 6

ATOM 992 O LEU A 132 8. .007 6. .230 31. .045 1. ,00 9. ,42 8

ATOM 993 CB LEU A 132 8, .612 5. .453 28. .466 1. ,00 9. .79 6

ATOM 994 CG LEU A 132 9, .154 4. .944 27. .085 1. ,00 11. .13 6

ATOM 995 CDl LEU A 132 8, .014 4. .418 26. .261 1. .00 12. .43 6 ATOM 996 CD2 LEU A 132 9, .822 6. .117 26. .408 1. .00 15. .07 6

ATOM 997 N SER A 133 10, .203 6, .676 31, .523 1. .00 9. .31 7

ATOM 998 CA SER A 133 9, .908 7, .485 32, .708 1. .00 8. .09 6

ATOM 999 C SER A 133 9, .697 8, .938 32. .219 1. .00 9. .51 6

ATOM 1000 O SER A 133 10, .434 9. .828 32. .570 1. ,00 12. .68 8 ATOM 1001 CB SER A 133 11, .008 7. .383 33. .752 1. ,00 10. .34 6

ATOM 1002 OG SER A 133 10, .943 6. .119 34. .401 1. ,00 9. .84 8

ATOM 1003 N LEU A 134 8, .623 9. .104 31. .429 1. ,00 9. .63 7

ATOM 1004 CA LEU A 134 8, .400 10. .415 30. .762 1. ,00 9. .62 6

ATOM 1005 C LEU A 134 6, .942 10. .351 30. .296 1. ,00 12. .30 6 ATOM 1006 O LEU A 134 6, .298 9, .299 30. .147 1, ,00 11. .68 8

ATOM 1007 CB LEU A 134 9, .378 10, .676 29. .612 1. ,00 12. .20 6

ATOM 1008 CG LEU A 134 9. .390 9. .650 28. .500 1. .00 11. ,16 6

ATOM 1009 CDl LEU A 134 8, .275 9. .976 27. .482 1. .00 13. ,93 6 ATOM 1010 CD2 LEU A 134 10.722 9.590 27.782 1.00 16.32 6

ATOM 1011 N GLY A 135 6 .429 11 .549 29 .949 1 .00 12 .94 7

ATOM 1012 CA GLY A 135 5 .066 11 .531 29 .372 1 .00 16 .25 6

ATOM 1013 C GLY A 135 4 .494 12 .937 29 .388 1 .00 20 .76 6 ATOM 1014 O GLY A 135 5 .104 13 .911 29 .837 1 .00 19 .61 8

ATOM 1015 N CYS A 136 3. .264 12 .934 28 .855 1 .00 16 .71 7

ATOM 1016 CA CYS A 136 2 .541 14 .220 28 .850 1 .00 20 .54 6

ATOM 1017 C CYS A 136 1 .077 13 .966 28 .524 1 .00 16 .55 6

ATOM 1018 O CYS A 136 0 .649 12 .886 28 .170 1 .00 14 .70 8 ATOM 1019 CB CYS A 136 3 .085 15 .195 27 .836 1 .00 22 .72 6

ATOM 1020 SG CYS A 136 3 .714 14 .546 26 .303 1 .00 26 .03 16

ATOM 1021 N GLU A 137 0 .333 15 .093 28 .682 1 .00 18 .30 7

ATOM 1022 CA GLU A 137 -1 .056 15 .040 28 .175 1 .00 17 .88 6

ATOM 1023 C GLU A 137 -1 .003 15 .557 26 .748 1 .00 22 .52 6 ATOM 1024 O GLU A 137 -1 .289 16 .704 26 .391 1 .00 21 .83 8

ATOM 1025 CB GLU A 137 -2 .021 15 .837 29 .031 1 .00 20 .26 6

ATOM 1026 CG GLU A 137 -2 .281 15 .296 30 .439 1 .00 22 .38 6

ATOM 1027 CD GLU A 137 -3, .418 16, .130 31 .064 1, .00 26 .72 6

ATOM 1028 OEl GLU A 137 -3, .051 17, .088 31 .746 1, .00 35 .28 8 ATOM 1029 OE2 GLU A 137 -4, .576 15, .757 30 .819 1, .00 21 .07 8

ATOM 1030 N CYS A 138 -0, .616 14, .673 25 .866 1. .00 21 .75 7

ATOM 1031 CA CYS A 138 -0, .209 14, .969 24 .515 1. .00 27 .45 6

ATOM 1032 C CYS A 138 -0 .666 13, .873 23 .581 1. .00 31 .92 6

ATOM 1033 O CYS A 138 -0. .656 12. .705 23, .982 1. .00 30. .57 8 ATOM 1034 CB CYS A 138 1, .332 15. .100 24, .522 1. .00 29, .63 6

ATOM 1035 SG CYS A 138 2, .180 13, .664 25, .316 1. .00 26, .98 16

ATOM 1036 N ASN A 139 -1. .166 14, .258 22 .421 1. .00 30, .94 7

ATOM 1037 CA ASN A 139 -1, .597 13, .300 21 .407 1, .00 30 .40 6

ATOM 1038 C ASN A 139 -0, .544 13, .308 20 .306 1, .00 27 .83 6 ATOM 1039 O ASN A 139 -0. .056 14. .362 19, .882 1. .00 27, .73 8

ATOM 1040 CB ASN A 139 -2, .957 13. .676 20, .845 1. .00 34, .15 6

ATOM 1041 CG ASN A 139 -4 , .122 12. .993 21, .530 1. .00 44, .83 6

ATOM 1042 ODl ASN A 139 -4, .207 13. .025 22, .756 1. .00 38, .38 8

ATOM 1043 ND2 ASN A 139 -4 , .999 12. .389 20, .735 1. .00 50, .90 7 ATOM 1044 N SER A 140 -0, .166 12, .120 19, .829 1. .00 18. .15 7

ATOM 1045 CA SER A 140 0. .870 12. ,081 18. .795 1. .00 18. .59 6

ATOM 1046 C SER A 140 0. .759 10. ,738 18. .087 1. ,00 16. .05 6

ATOM 1047 O SER A 140 0. .941 9. .697 18. .736 1. .00 16. .64 8

ATOM 1048 CB SER A 140 2. .267 12. .165 19. .402 1. .00 20. .72 6 ATOM 1049 OG SER A 140 3, .309 11. .908 18, .514 1. .00 23, .30 8

ATOM 1050 N THR A 141 0, .370 10, .712 16, .804 1. .00 18, .63 7

ATOM 1051 CA THR A 141 0. .271 9. ,420 16. .137 1. .00 18. .09 6

ATOM 1052 C THR A 141 1. .670 8. ,843 15. .884 1. ,00 15. .35 6

ATOM 1053 O THR A 141 1. .750 7. .578 15. .886 1. ,00 15. .18 8 ATOM 1054 CB THR A 141 -0. .540 9. .429 14. .838 1. ,00 20. .90 6

ATOM 1055 OGl THR A 141 0. .118 10. .358 13. .966 1. ,00 23. .57 8

ATOM 1056 CG2 THR A 141 -1, .990 9. .800 15, .085 1. ,00 17. .57 6

ATOM 1057 N THR A 142 2. .720 9. ,626 15. .861 1. .00 16. .63 7

ATOM 1058 CA THR A 142 4. .094 9. ,149 15. .775 1. ,00 14. .88 6 ATOM 1059 C THR A 142 4. .529 8. .429 17. .053 1. ,00 13. .11 6

ATOM 1060 O THR A 142 5, .094 7. .345 16. .979 1. .00 14. .05 8

ATOM 1061 CB THR A 142 4, .997 10. .341 15, .457 1. .00 24, .16 6

ATOM 1062 OGl THR A 142 4, .523 10. .835 14, .153 1. .00 28, .29 8

ATOM 1063 CG2 THR A 142 6. .432 9. ,970 15. .210 1. ,00 26. .14 6 ATOM 1064 N LEU A 143 4. .124 8. .997 18. .199 1. ,00 13. .69 7

ATOM 1065 CA LEU A 143 4, .512 8. .335 19. .463 1. ,00 13. .71 6

ATOM 1066 C LEU A 143 3, .729 7. .043 19, .617 1. .00 12. .67 6

ATOM 1067 O LEU A 143 4, .267 6. .012 20, .055 1. .00 11. .28 8

ATOM 1068 CB LEU A 143 4, .184 9. .316 20, .618 1. .00 12. .30 6 ATOM 1069 CG LEU A 143 4. .738 8. ,845 21. .995 1. ,00 15. .95 6

ATOM 1070 CDl LEU A 143 6. .227 8. ,878 22. .029 1. ,00 15. .41 6

ATOM 1071 CD2 LEU A 143 4. .099 9. .884 22. .948 1. ,00 15. .72 6

ATOM 1072 N LYS A 144 2, .400 7. .101 19. .314 1. ,00 11. .25 7

ATOM 1073 CA LYS A 144 1, .651 5. .858 19. .420 1. ,00 11. .23 6 ATOM 1074 C LYS A 144 2, .211 4. .764 18. .517 1. .00 10. .18 6

ATOM 1075 O LYS A 144 2. .312 3. .600 18. ,899 1. 00 10. ,89 8

ATOM 1076 CB LYS A 144 0. .159 6. ,178 19. ,140 1. .00 15. ,25 6

ATOM 1077 CG LYS A 144 -0. .627 4. ,905 19. .387 1. .00 18. ,48 6 ATOM 1078 CD LYS A 144 -2.062 4.950 19.844 1.00 24.85 6

ATOM 1079 CE LYS A 144 -2. .564 3 .597 20 .366 1 .00 15 .78 6

ATOM 1080 NZ LYS A 144 -2, .599 2 .616 19. .228 1 .00 14 .78 7

ATOM 1081 N SER A 145 2, .539 5 .151 17. .273 1. .00 11 .46 7 ATOM 1082 CA SER A 145 3, .097 4 .182 16. .357 1. .00 10 .88 6

ATOM 1083 C SER A 145 4, .407 3 .579 16. .834 1 .00 10 .64 6

ATOM 1084 O SER A 145 4. .628 2 .364 16 .771 1 .00 11 .55 8

ATOM 1085 CB SER A 145 3 .372 4 .933 15 .034 1 .00 11 .53 6

ATOM 1086 OG SER A 145 4, .095 4 .059 14 .159 1 .00 12 .02 8 ATOM 1087 N ALA A 146 5, .223 4 .406 17 .500 1 .00 11 .16 7

ATOM 1088 CA ALA A 146 6 .521 3 .907 17. .961 1. .00 10 .64 6

ATOM 1089 C ALA A 146 6 .280 2 .864 19. .071 1. .00 8 .68 6

ATOM 1090 O ALA A 146 6 .945 1 .842 19, .103 1. .00 10, .24 8

ATOM 1091 CB ALA A 146 7, .363 5 .053 18, .531 1. .00 13, .58 6 ATOM 1092 N VAL A 147 5, .345 3 .181 19, .973 1. .00 9, .25 7

ATOM 1093 CA VAL A 147 5 .063 2 .216 21, .057 1. .00 10, .47 6

ATOM 1094 C VAL A 147 4, .479 0 .936 20, .530 1. .00 9, .13 6

ATOM 1095 O VAL A 147 4 .842 -0 .172 20, .914 1. .00 11, .53 8

ATOM 1096 CB VAL A 147 4, .051 2 .840 22, .072 1. .00 9, .11 6 ATOM 1097 CGI VAL A 147 3 .468 1 .828 23 .057 1. .00 10, .14 6

ATOM 1098 CG2 VAL A 147 4 .741 3 .918 22, .848 1. .00 11, .38 6

ATOM 1099 N ASP A 148 3 .531 1 .044 19, .538 1. .00 10, .88 7

ATOM 1100 CA ASP A 148 2 .945 -0 .158 18, .998 1, .00 9, .20 6

ATOM 1101 C ASP A 148 3, .904 -0 .986 18, .148 1, .00 10, .40 6 ATOM 1102 O ASP A 148 3, .989 -2, .216 18, .235 1, .00 12, .08 8

ATOM 1103 CB ASP A 148 1, .722 0 .191 18, .150 1, .00 9, .51 6

ATOM 1104 CG ASP A 148 0, .523 0. .649 18. .916 1. .00 12. ,65 6

ATOM 1105 ODl ASP A 148 -0. .363 1. .347 18. .361 1. ,00 13. .89 8

ATOM 1106 OD2 ASP A 148 0. .454 0, .337 20. ,139 1. ,00 12. .46 8 ATOM 1107 N TYR A 149 4, .776 -0, .203 17. ,443 1. ,00 10. .28 7

ATOM 1108 CA TYR A 149 5, .839 -0, .920 16. ,701 1. ,00 11. .03 6

ATOM 1109 C TYR A 149 6. ,725 -1, .735 17. ,654 1. ,00 11. .91 6

ATOM 1110 O TYR A 149 7. .097 -2. .870 17. ,371 1. ,00 11. .38 8

ATOM 1111 CB TYR A 149 6. .606 0. .125 15. ,893 1. ,00 9. ,52 6 ATOM 1112 CG TYR A 149 7, .854 -0. ,425 15. ,218 1. ,00 9. ,13 6

ATOM 1113 CDl TYR A 149 7. .714 -1. .156 14. .034 1. ,00 13. ,04 6

ATOM 1114 CD2 TYR A 149 9. .133 -0. .220 15. .669 1. ,00 9. ,76 6

ATOM 1115 CEl TYR A 149 8, .844 -1. .655 13. ,380 1. ,00 11. .71 6

ATOM 1116 CE2 TYR A 149 10, .277 -0, .692 15. ,036 1. .00 10. ,97 6 ATOM 1117 CZ TYR A 149 10, .099 -1, .415 13. ,843 1. ,00 13. .29 6

ATOM 1118 OH TYR A 149 11, .230 -1, .879 13. ,246 1. ,00 12. .70 8

ATOM 1119 N ALA A 150 7, .149 -1, .061 18. ,759 1. ,00 10. .29 7

ATOM 1120 CA ALA A 150 8, .086 -1. .801 19. .644 1. .00 10. .75 6

ATOM 1121 C ALA A 150 7, .409 -3, .014 20. .263 1. .00 12. .48 6 ATOM 1122 O ALA A 150 7, .986 -4, .102 20. .400 1. .00 11. .16 8

ATOM 1123 CB ALA A 150 8, .414 -0, .867 20. .792 1. .00 11. .39 6

ATOM 1124 N TRP A 151 6, .140 -2, .882 20. .642 1. .00 9. .91 7

ATOM 1125 CA TRP A 151 5, .362 -4, .015 21. .124 1. .00 10. .13 6

ATOM 1126 C TRP A 151 5 .261 -5, .146 20. .085 1. .00 9. .48 6 ATOM 1127 O TRP A 151 5 .539 -6 .305 20, .358 1, .00 10. .95 8

ATOM 1128 CB TRP A 151 3, .927 -3, .582 21. .579 1. .00 10. ,48 6

ATOM 1129 CG TRP A 151 3, .161 -4, .785 21. .971 1. .00 11. .85 6

ATOM 1130 CDl TRP A 151 2, .277 -5, .511 21. .197 1. ,00 13. .81 6

ATOM 1131 CD2 TRP A 151 3, .146 -5, .490 23. .235 1. .00 9. .96 6 ATOM 1132 NEl TRP A 151 1, .771 -6, .612 21. .846 1. .00 15. .34 7

ATOM 1133 CE2 TRP A 151 2 .285 -6, .592 23. .111 1. .00 11. .52 6

ATOM 1134 CE3 TRP A 151 3 .799 -5, .270 24. .452 1. .00 12. .17 6

ATOM 1135 CZ2 TRP A 151 2 .055 -7, .487 24. .161 1. .00 11. .76 6

ATOM 1136 CZ3 TRP A 151 3 .603 -6, .161 25. .520 1. .00 14. .83 6 ATOM 1137 CH2 TRP A 151 2 .747 -7 .235 25. .354 1. .00 11. .91 6

ATOM 1138 N ASN A 152 4 .921 -4, .758 18, .850 1. .00 10. .31 7

ATOM 1139 CA ASN A 152 4 .758 -5, .805 17. .805 1. .00 10. .90 6

ATOM 1140 C ASN A 152 6 .078 -6 .365 17, .381 1. .00 12. .51 6

ATOM 1141 O ASN A 152 6 .094 -7 .498 16, .850 1, .00 18. .29 8 ATOM 1142 CB ASN A 152 4 .057 -5 .138 16, .614 1. .00 12. .21 6

ATOM 1143 CG ASN A 152 2 .596 -4 .898 16, .919 1. .00 15. .60 6

ATOM 1144 ODl ASN A 152 1 .888 -5 .697 17, .581 1, .00 16, .16 8

ATOM 1145 ND2 ASN A 152 2 .084 -3 .807 16, .394 1, .00 16, .47 7 ATOM 1146 N LYS A 153 7.214 -5.769 17.698 1.00 12.60 7

ATOM 1147 CA LYS A 153 8. .552 -6 .282 17 .497 1 .00 12 .34 6

ATOM 1148 C LYS A 153 8. .890 -7 .341 18 .558 1 .00 11 .63 6

ATOM 1149 O LYS A 153 9 .908 -8 .014 18 .454 1 .00 16 .70 8 ATOM 1150 CB LYS A 153 9 .587 -5 .158 17 .537 1 .00 14 .85 6

ATOM 1151 CG LYS A 153 9, .633 -4 .265 16 .316 1 .00 21 .79 6

ATOM 1152 CD LYS A 153 10, .522 -4 .776 15 .210 1 .00 20 .60 6

ATOM 1153 CE LYS A 153 12 .016 -4 .864 15 .642 1 .00 14 .64 6

ATOM 1154 NZ LYS A 153 12 .600 -5 .708 14 .521 1 .00 23 .18 7 ATOM 1155 N GLY A 154 8 .101 -7 .351 19 .658 1 .00 11 .47 7

ATOM 1156 CA GLY A 154 8, .345 -8 .288 20 .722 1 .00 10 .77 6

ATOM 1157 C GLY A 154 8, .817 -7. .664 22 .030 1, .00 10, .93 6

ATOM 1158 O GLY A 154 9, .088 -8 .468 22 .922 1. .00 12 .36 8

ATOM 1159 N ALA A 155 8, .909 -6. .356 22 .134 1, .00 10 .32 7 ATOM 1160 CA ALA A 155 9, .381 -5. .744 23 .380 1. .00 9 .51 6

ATOM 1161 C ALA A 155 8, .226 -5. .469 24 .340 1, .00 10 .33 6

ATOM 1162 O ALA A 155 7, .074 -5. .268 23 .959 1, .00 10 .45 8

ATOM 1163 CB ALA A 155 10, .101 -4. .418 22, .994 1, .00 10, .15 6

ATOM 1164 N VAL A 156 8, .529 -5. .419 25, .626 1. .00 10, .20 7 ATOM 1165 CA VAL A 156 7, .608 -4 .930 26, .644 1, .00 9, .64 6

ATOM 1166 C VAL A 156 7, .900 -3. .424 26. .826 1, .00 11, .32 6

ATOM 1167 O VAL A 156 9, .077 -3 .071 26 .918 1. .00 11 .90 8

ATOM 1168 CB VAL A 156 7, .867 -5. .665 27 .974 1, .00 8, .78 6

ATOM 1169 CGI VAL A 156 6. .965 -5, .108 29, .060 1. .00 8. .99 6 ATOM 1170 CG2 VAL A 156 7. .629 -7. .139 27, .784 1. .00 10, .63 6

ATOM 1171 N VAL A 157 6. .818 -2, .653 26, .805 1. .00 8. .38 7

ATOM 1172 CA VAL A 157 6, .923 -1. .208 27, .010 1. .00 7. .61 6

ATOM 1173 C VAL A 157 6, .322 -0 .872 28, .402 1. .00 7, .95 6

ATOM 1174 O VAL A 157 5, .156 -1. .202 28, .638 1. .00 9, .65 8 ATOM 1175 CB VAL A 157 6. .194 -0, .421 25, .888 1. ,00 9. .67 6

ATOM 1176 CGI VAL A 157 6. .257 1, .064 26. .099 1. .00 11. .64 6

ATOM 1177 CG2 VAL A 157 6. .789 -0. .831 24. .528 1. ,00 11. .35 6

ATOM 1178 N VAL A 158 7. .116 -0. .189 29. .203 1. ,00 8. .45 7

ATOM 1179 CA VAL A 158 6. .700 0. .190 30. .574 1. .00 9. .13 6 ATOM 1180 C VAL A 158 6, .807 1. .706 30, .663 1. .00 9. .56 6

ATOM 1181 O VAL A 158 7. .873 2. .222 30. .248 1. .00 9. ,44 8

ATOM 1182 CB VAL A 158 7. .639 -0. .489 31. .598 1. .00 8. ,39 6

ATOM 1183 CGI VAL A 158 7. .139 -0, .079 33. .007 1. ,00 9. ,17 6

ATOM 1184 CG2 VAL A 158 7. .635 -2, .003 31. .414 1. ,00 9. ,94 6 ATOM 1185 N ALA A 159 5. .799 2, .385 31, .165 1. ,00 8. ,36 7

ATOM 1186 CA ALA A 159 5, .874 3, .865 31, .227 1. ,00 8. .80 6

ATOM 1187 C ALA A 159 5. .232 4. .389 32. .506 1. .00 9. ,68 6

ATOM 1188 O ALA A 159 4. .251 3. .858 33. .049 1. .00 9. ,19 8

ATOM 1189 CB ALA A 159 5. .122 4, .442 30. .023 1. ,00 11. ,81 6 ATOM 1190 N ALA A 160 5. .842 5. .486 32. .979 1. ,00 10. .16 7

ATOM 1191 CA ALA A 160 5. .305 6, .213 34, .150 1. .00 8. .09 6

ATOM 1192 C ALA A 160 3, .970 6, .867 33. .890 1. ,00 10. .59 6

ATOM 1193 O ALA A 160 3. .740 7. .477 32. .843 1. .00 12. ,25 8

ATOM 1194 CB ALA A 160 6. .379 7, .244 34. .509 1. ,00 10. ,91 6 ATOM 1195 N ALA A 161 3, .077 6, .756 34. .901 1. ,00 10. .18 7

ATOM 1196 CA ALA A 161 1. .740 7, .326 34. .667 1. ,00 9. .20 6

ATOM 1197 C ALA A 161 1, .681 8, .838 34. .846 1. .00 9. .69 6

ATOM 1198 O ALA A 161 0. .615 9, .381 34, .494 1. .00 11. .99 8

ATOM 1199 CB ALA A 161 0. .757 6, .678 35. . 666 1. .00 11. ,17 6 ATOM 1200 N GLY A 162 2. .697 9, .461 35. .379 1. ,00 10. ,16 7

ATOM 1201 CA GLY A 162 2. .728 10, .929 35. .525 1. ,00 11. .47 6

ATOM 1202 C GLY A 162 2, .542 11, .334 36, .997 1. ,00 11. .99 6

ATOM 1203 O GLY A 162 2, .058 10. .534 37, .818 1. ,00 11. .61 8

ATOM 1204 N ASN A 163 2, .830 12. .646 37, .210 1. .00 13. .68 7 ATOM 1205 CA ASN A 163 3. .016 13. .100 38. .616 1. ,00 14. ,00 6

ATOM 1206 C ASN A 163 2, .233 14, .384 38. .911 1. ,00 14. ,39 6

ATOM 1207 O ASN A 163 2, .725 15, .174 39. .760 1. ,00 18. ,79 8

ATOM 1208 CB ASN A 163 4, .477 13, .375 38, .878 1. ,00 17. .01 6

ATOM 1209 CG ASN A 163 5, .442 12, .263 38. .552 1. .00 20. .97 6 ATOM 1210 ODl ASN A 163 5, .223 11, .120 38, .907 1. .00 22. .23 8

ATOM 1211 ND2 ASN A 163 6. .522 12, .569 37. .843 1. .00 40. .92 7

ATOM 1212 N ASP A 164 1, .039 14, .444 38. .394 1. .00 14. ,22 7

ATOM 1213 CA ASP A 164 0, .248 15, .664 38. .640 1. ,00 15. ,43 6 ATOM 1214 C ASP A 164 0 891 15.376 39.610 1.00 16.52 6

ATOM 1215 O ASP A 164 1 .808 16 205 39 .791 1 .00 16 .92 8

ATOM 1216 CB ASP A 164 0 .340 16 092 37 .304 1 00 18 .79 6

ATOM 1217 CG ASP A 164 0 .611 16 817 36 .382 1 00 31 .26 6 ATOM 1218 ODl ASP A 164 0 099 17 435 35 .437 1 .00 32 .77 8

ATOM 1219 OD2 ASP A 164 1 .843 16 799 36 .578 1 00 32 .99 8

ATOM 1220 N ASN A 165 0 .956 14 222 40 .228 1 00 13 .48 7

ATOM 1221 CA ASN A 165 2 032 13 774 41 .047 1 .00 13 .19 6

ATOM 1222 C ASN A 165 3 417 13 950 40 .424 1 00 12 .14 6 ATOM 1223 O ASN A 165 4 334 14 510 41 .036 1 00 15 .12 8

ATOM 1224 CB ASN A 165 2 028 14 587 42 .369 1 00 12 .06 6

ATOM 1225 CG ASN A 165 2 933 13 893 43 .348 1 00 10 .24 6

ATOM 1226 ODl ASN A 165 3 244 12 729 43 479 1 00 12 45 8

ATOM 1227 ND2 ASN A 165 3 428 14 777 44 297 1 00 11 .65 7 ATOM 1228 N VAL A 166 3 533 13 571 39 169 1 00 12 64 7

ATOM 1229 CA VAL A 166 4 803 13 600 38 442 1 00 13 30 6

ATOM 1230 C VAL A 166 5 190 12 205 37 908 1 00 13 31 6

ATOM 1231 O VAL A 166 4 366 11 280 37 855 1 00 11 72 8

ATOM 1232 CB VAL A 166 4 852 14 651 37 330 1 00 15 75 6 ATOM 1233 CGI VAL A 166 4 413 16 035 37 817 1 00 19 38 6

ATOM 1234 CG2 VAL A 166 3 879 14 327 36 205 1 00 15 73 6

ATOM 1235 N SER A 167 6 430 12 097 37 425 1 00 15 05 7

ATOM 1236 CA SER A 167 6 858 10 862 36 753 1 00 14 74 6

ATOM 1237 C SER A 167 7 051 10 847 35 266 1 00 11 97 6 ATOM 1238 O SER A 167 7 439 9 759 34 833 1 00 14 98 8

ATOM 1239 CB SER A 167 8 159 10 374 37 453 1 00 21 93 6

ATOM 1240 OG SER A 167 9 169 11 371 37 231 1 00 21 70 8

ATOM 1241 N ARG A 168 6 733 12 019 34 760 1 00 14 80 7

ATOM 1242 CA ARG A 168 6 628 12 185 33 336 1 00 14 30 6 ATOM 1243 C ARG A 168 5 557 11 225 32 761 1 00 14 04 6

ATOM 1244 O ARG A 168 4 583 11 016 33 472 1 00 16 56 8

ATOM 1245 CB ARG A 168 6 450 13 600 32 868 1 00 14 72 6

ATOM 1246 CG ARG A 168 7 590 14 492 33 412 1 00 17 52 6

ATOM 1247 CD ARG A 168 7 488 15 866 32 744 1 00 19 22 6 ATOM 1248 NE ARG A 168 6 152 16 434 32 854 1 00 19 87 7

ATOM 1249 CZ ARG A 168 5 777 17 137 33 946 1 00 18 90 6

ATOM 1250 NHl ARG A 168 6 683 17 234 34 915 1 00 22 35 7

ATOM 1251 NH2 ARG A 168 4 590 17 669 34 037 1 00 27 26 7

ATOM 1252 N THR A 169 5 775 10 681 31 545 1 00 13 30 7 ATOM 1253 CA THR A 169 4 663 9 851 31 036 1 00 14 18 6

ATOM 1254 C THR A 169 3 476 10 689 30 653 1 00 14 82 6

ATOM 1255 O THR A 169 3 422 11 859 30 220 1 00 16 21 8

ATOM 1256 CB THR A 169 5 168 9 131 29 752 1 00 14 96 6

ATOM 1257 OGl THR A 169 5 576 10 096 28 754 1 00 15 86 8 ATOM 1258 CG2 THR A 169 6 305 8 184 30 046 1 00 17 51 6

ATOM 1259 N PHE A 170 2 290 10 036 30 708 1 00 12 69 7

ATOM 1260 CA PHE A 170 0 978 10 559 30 350 1 00 10 15 6

ATOM 1261 C PHE A 170 0 366 9 550 29 382 1 00 10 51 6

ATOM 1262 O PHE A 170 0 516 8 340 29 517 1 00 13 04 8 ATOM 1263 CB APHE A 170 0 010 10 860 31 486 0 50 9 69 6

ATOM 1264 CG APHE A 170 0 086 12 208 32 151 0 50 12 91 6

ATOM 1265 CD1APHE A 170 1 046 12 996 32 247 0 50 15 42 6

ATOM 1266 CD2APHE A 170 1 271 12 657 32 723 0 50 15 96 6

ATOM 1267 CEIAPHE A 170 0 999 14 230 32 893 0 50 17 60 6 ATOM 1268 CE2APHE A 170 1 322 13 894 33 359 0 50 14 69 6

ATOM 1269 CZ APHE A 170 0 193 14 664 33 434 0 50 18 78 6

ATOM 1270 CB BPHE A 170 0 239 10 454 31 713 0 50 11 27 6

ATOM 1271 CG BPHE A 170 1 070 11 133 31 830 0 50 10 40 6

ATOM 1272 CD1BPHE A 170 2 277 10 418 31 853 0 50 10 22 6 ATOM 1273 CD2BPHE A 170 1 133 12 520 31 939 0 50 13 93 6

ATOM 1274 CE1BPHE A 170 3 482 11 075 31 968 0 50 12 32 6

ATOM 1275 CE2BPHE A 170 2 348 13 165 32 052 0 50 13 83 6

ATOM 1276 CZ BPHE A 170 3 544 12 456 32 077 0 50 15 52 6

ATOM 1277 N GLN A 171 0 238 10 113 28 331 1 00 11 14 7 ATOM 1278 CA GLN A 171 0 856 9 335 27 255 1 00 10 59 6

ATOM 1279 C GLN A 171 2 348 9 422 27 239 1 00 10 58 6

ATOM 1280 O GLN A 171 2 822 10 459 27 645 1 00 13 39 8

ATOM 1281 CB GLN A 171 0 297 9 849 25 865 1 00 11 19 6 ATOM 1282 CG GLN A 171 -1.200 9.613 25.647 1.00 11.83 6

ATOM 1283 CD GLN A 171 -2 .121 10 .468 26 .524 1 .00 13 .12 6

ATOM 1284 OEl GLN A 171 -2 .934 9 .928 27 .305 1 .00 15 .76 8

ATOM 1285 NE2 GLN A 171 -2 .011 11 .790 26 .391 1 .00 14 .42 7 ATOM 1286 N PRO A 172 3 .043 8 .320 26 .919 1 .00 11 .03 7

ATOM 1287 CA PRO A 172 2 .572 7 .108 26 .347 1 .00 11 .46 6

ATOM 1288 C PRO A 172 2 .006 6 .025 27 .235 1 .00 11 .03 6

ATOM 1289 O PRO A 172 1 .509 5 .023 26 .809 1 .00 11 .22 8

ATOM 1290 CB PRO A 172 3 .819 6 .511 25 .610 1 .00 11 .89 6 ATOM 1291 CG PRO A 172 4 .908 6 .978 26 .569 1 .00 11 .81 6

ATOM 1292 CD PRO A 172 4 .490 8 .404 26 .935 1 .00 12 .12 6

ATOM 1293 N ALA A 173 2 .069 6 .254 28 .594 1 .00 9 .12 7

ATOM 1294 CA ALA A 173 1 .563 5 .194 29 .473 1 .00 9 .14 6

ATOM 1295 C ALA A 173 0 .120 4 .778 29 .127 1 .00 10 .86 6 ATOM 1296 O ALA A 173 -0 .157 3 .582 29 .296 1 .00 11 .28 8

ATOM 1297 CB ALA A 173 1 .640 5 .713 30 .931 1 .00 11 .79 6

ATOM 1298 N SER A 174 -0 .804 5 .696 28 .751 1. .00 9 .25 7

ATOM 1299 CA SER A 174 -2 .184 5 .257 28 .562 1. .00 10 .77 6

ATOM 1300 C SER A 174 -2 .434 4 .456 27 .262 1 .00 11 .85 6 ATOM 1301 O SER A 174 -3 .559 3 .938 27 .120 1 .00 12 .90 8

ATOM 1302 CB SER A 174 -3 .071 6 .504 28 .585 1 .00 12 .82 6

ATOM 1303 OG SER A 174 -2 .887 7, .251 27 .376 1, .00 13 .72 8

ATOM 1304 N TYR A 175 -1 .417 4 .375 26. .405 1, .00 11 .48 7

ATOM 1305 CA TYR A 175 -1 .695 3, .533 25. .228 1, .00 12 .72 6 ATOM 1306 C TYR A 175 -1, .927 2, .094 25, .655 1, .00 10. .63 6

ATOM 1307 O TYR A 175 -1, .259 1, .611 26. .603 1. .00 11, .10 8

ATOM 1308 CB TYR A 175 -0, .435 3, .567 24. .316 1. .00 11, .23 6

ATOM 1309 CG TYR A 175 -0, .129 4, .914 23, .750 1. .00 10, .17 6

ATOM 1310 CDl TYR A 175 -1, .068 5, .887 23, .517 1. .00 13, .17 6 ATOM 1311 CD2 TYR A 175 1, .198 5, .229 23 , .425 1. .00 9, .64 6

ATOM 1312 CEl TYR A 175 -0, .763 7, .116 22, .977 1. ,00 11, .74 6

ATOM 1313 CE2 TYR A 175 1, .529 6. .450 22. .873 1. .00 11. .86 6

ATOM 1314 CZ TYR A 175 0, .574 7, .397 22. .648 1. ,00 15. .00 6

ATOM 1315 OH TYR A 175 0, .880 8. .636 22. .122 1. ,00 16. .46 8 ATOM 1316 N PRO A 176 -2. .776 1. .327 25. .028 1. ,00 11. .70 7

ATOM 1317 CA PRO A 176 -2. .959 -0. .092 25. .360 1. ,00 11. .01 6

ATOM 1318 C PRO A 176 -1. .660 -0. .878 25. .468 1. ,00 10. .13 6

ATOM 1319 O PRO A 176 -1. .615 -1. .766 26. ,289 1. ,00 11. .27 8

ATOM 1320 CB PRO A 176 -3. .990 -0. .665 24. ,357 1. ,00 12. .68 6 ATOM 1321 CG PRO A 176 -4, .746 0. .637 24. ,093 1. ,00 11. .38 6

ATOM 1322 CD PRO A 176 -3, .780 1. .833 24. ,052 1. .00 13. .11 6

ATOM 1323 N ASN A 177 -0, .723 -0. .656 24. ,506 1. .00 11. .05 7

ATOM 1324 CA ASN A 177 0, .441 -1. .544 24. ,522 1. .00 12. .20 6

ATOM 1325 C ASN A 177 1, .551 -1. .045 25. ,410 1. .00 11. .24 6 ATOM 1326 O ASN A 177 2, .629 -1. .720 25. .402 1. ,00 11. .19 8

ATOM 1327 CB ASN A 177 0, .857 -1. .640 23. ,046 1. ,00 10. .48 6

ATOM 1328 CG ASN A 177 0, .051 -2. .684 22. ,321 1. ,00 12. .91 6

ATOM 1329 ODl ASN A 177 -0, .414 -3. .689 22. .832 1. ,00 14. .78 8

ATOM 1330 ND2 ASN A 177 -0, .019 -2. .441 20. .970 1. ,00 15. .54 7 ATOM 1331 N ALA A 178 1, .283 -0. .058 26. .278 1. ,00 10. .52 7

ATOM 1332 CA ALA A 178 2, .264 0. .293 27. ,312 1. ,00 9. .20 6

ATOM 1333 C ALA A 178 1, .728 -0. .191 28. ,662 1. ,00 11. .35 6

ATOM 1334 O ALA A 178 0, .548 0. .004 28. .907 1. ,00 10. .58 8

ATOM 1335 CB ALA A 178 2, .471 1. .825 27. ,370 1. ,00 11. .60 6 ATOM 1336 N ILE A 179 2, .559 -0. .779 29. ,554 1. ,00 9. .76 7

ATOM 1337 CA ILE A 179 2, .080 -0. .944 30. .966 1. ,00 8. .57 6

ATOM 1338 C ILE A 179 2, .217 0. .427 31. .641 1. ,00 9. .10 6

ATOM 1339 O ILE A 179 3, .315 0. .926 31. .750 1. .00 10. .06 8

ATOM 1340 CB ILE A 179 3, .011 -1. .961 31. .637 1. ,00 8. .69 6 ATOM 1341 CGI ILE A 179 2, .926 -3. .292 30. .879 1. ,00 11. .26 6

ATOM 1342 CG2 ILE A 179 2, .632 -2. .226 33. .097 1. ,00 10. .57 6

ATOM 1343 CDl ILE A 179 3, .905 -4. .323 31. ,403 1. ,00 13. .43 6

ATOM 1344 N ALA A 180 1, .097 0. .950 32. ,181 1. .00 8. .93 7

ATOM 1345 CA ALA A 180 1, .104 2. .243 32. .870 1. ,00 8. .88 6 ATOM 1346 C ALA A 180 1, .312 1. .988 34. ,378 1. ,00 9. .81 6

ATOM 1347 O ALA A 180 0, .623 1. .134 34. ,956 1. .00 10. .08 8

ATOM 1348 CB ALA A 180 -0, .257 2. .936 32. ,657 1. .00 10. .99 6

ATOM 1349 N VAL A 181 2, .333 2. .692 34. ,886 1. .00 8. ,81 7 ATOM 1350 CA VAL A 181 2.750 2.473 36.298 1.00 7.21 6

ATOM 1351 C VAL A 181 2 .625 3 .698 37 .175 1 .00 10 .43 6

ATOM 1352 O VAL A 181 3 .187 4 .746 36 .896 1. .00 9 .18 8

ATOM 1353 CB VAL A 181 4 .252 2 .124 36 .222 1 .00 7 .41 6 ATOM 1354 CGI VAL A 181 4, .729 1 .806 37 .634 1. .00 9 .89 6

ATOM 1355 CG2 VAL A 181 4, .527 0 .886 35 .362 1. .00 8 .70 6

ATOM 1356 N GLY A 182 1, .839 3 .465 38 .248 1. .00 10 .46 7

ATOM 1357 CA GLY A 182 1, .639 4 .475 39 .285 1. .00 9 .36 6

ATOM 1358 C GLY A 182 2, .682 4 .200 40 .403 1, .00 10 .52 6 ATOM 1359 O GLY A 182 3, .453 3 .263 40 .320 1, .00 10 .35 8

ATOM 1360 N ALA A 183 2, .714 5 .147 41 .349 1, .00 9 .62 7

ATOM 1361 CA ALA A 183 3, .677 4 .975 42 .430 1. .00 8 .49 6

ATOM 1362 C ALA A 183 2, .990 4 .939 43 .792 1. .00 10 .18 6

ATOM 1363 O ALA A 183 2, .028 5 .635 44 .041 1, .00 10 .96 8 ATOM 1364 CB ALA A 183 4. .536 6. .262 42. .471 1. .00 11. .75 6

ATOM 1365 N ILE A 184 3, .671 4. .126 44. .619 1. .00 8. .08 7

ATOM 1366 CA ILE A 184 3, .277 4 .029 46. .044 1. .00 9. .34 6

ATOM 1367 C ILE A 184 4 , .522 4 .315 46. .889 1, .00 10. .84 6

ATOM 1368 O ILE A 184 5, .660 4 .279 46, .425 1, .00 10 .59 8 ATOM 1369 CB ILE A 184 2, .765 2 .623 46. .440 1, .00 9 .26 6

ATOM 1370 CGI ILE A 184 3. .623 1 .537 45, .777 1, .00 9 .29 6

ATOM 1371 CG2 ILE A 184 1, .298 2 .458 46, .049 1, .00 10 .38 6

ATOM 1372 CDl ILE A 184 3, .337 0 .145 46, .343 1, .00 9. .89 6

ATOM 1373 N ASP A 185 4, .246 4, .604 48. .177 1, .00 9 .31 7 ATOM 1374 CA ASP A 185 5. .388 4, .755 49. .122 1. .00 11. .76 6

ATOM 1375 C ASP A 185 5. .646 3, .419 49. .776 1. .00 9. .50 6

ATOM 1376 O ASP A 185 5. .128 2. .363 49, .400 1. .00 11. .06 8

ATOM 1377 CB ASP A 185 4. .996 5, .878 50, .077 1. .00 12, .42 6

ATOM 1378 CG ASP A 185 3, .878 5. .520 51, .008 1. .00 16. .62 6 ATOM 1379 ODl ASP A 185 3. .498 4. .359 51, .188 1. .00 19, .16 8

ATOM 1380 OD2 ASP A 185 3, .331 6. .525 51. .584 1. .00 21, .71 8

ATOM 1381 N SER A 186 6, .557 3. .525 50, .791 1. .00 10, .02 7

ATOM 1382 CA SER A 186 6, .943 2. .275 51, .483 1. .00 11, .07 6

ATOM 1383 C SER A 186 5. .904 1. .628 52. ,388 1. .00 11. .68 6 ATOM 1384 O SER A 186 6. .089 0, .458 52. ,791 1. 00 12. .40 8

ATOM 1385 CB SER A 186 8. .278 2. .475 52. .195 1. .00 12. .70 6

ATOM 1386 OG SER A 186 8. .020 3. .342 53. .353 1. ,00 13, .04 8

ATOM 1387 N ASN A 187 4. .805 2, .372 52. .571 1. ,00 12. .58 7

ATOM 1388 CA ASN A 187 3. .674 1, .829 53. .284 1. ,00 11. .75 6 ATOM 1389 C ASN A 187 2. .521 1, .414 52. .403 1. ,00 14. .42 6

ATOM 1390 O ASN A 187 1, .387 1. .286 52, .844 1. ,00 14. .41 8

ATOM 1391 CB ASN A 187 3, .208 2, .885 54 , .299 1. .00 13, .43 6

ATOM 1392 CG ASN A 187 2, .435 2, .266 55, .455 1. .00 24, .32 6

ATOM 1393 ODl ASN A 187 2. .664 1. ,109 55. .787 1. 00 28. .21 8 ATOM 1394 ND2 ASN A 187 1. .561 3, .083 56. .015 1. .00 24. .99 7

ATOM 1395 N ASP A 188 2. .816 1, .287 51. .095 1. ,00 12. .93 7

ATOM 1396 CA ASP A 188 1. .790 0, .919 50. .135 1. ,00 12. .49 6

ATOM 1397 C ASP A 188 0, .681 1, .950 49, .920 1. .00 12. .89 6

ATOM 1398 O ASP A 188 -0. .362 1, .549 49, .382 1. .00 16, .50 8 ATOM 1399 CB ASP A 188 1, .210 -0 .478 50, .410 1. .00 14, .69 6

ATOM 1400 CG ASP A 188 2, .107 -1 .661 50, .168 1. .00 14, .67 6

ATOM 1401 ODl ASP A 188 3, .257 -1 .503 49, .644 1. .00 15, .16 8

ATOM 1402 OD2 ASP A 188 1. ,754 -2 , .821 50. .535 1. .00 17. .10 8

ATOM 1403 N ARG A 189 0, .944 3, .168 50, .317 1. ,00 11. .91 7 ATOM 1404 CA ARG A 189 -0, .057 4, .193 50. .068 1. .00 11. .81 6

ATOM 1405 C ARG A 189 0, .318 4, .940 48, .809 1. .00 10. .44 6

ATOM 1406 O ARG A 189 1, .490 5, .032 48, .450 1. .00 11. .22 8

ATOM 1407 CB ARG A 189 -0, .070 5, .188 51, .257 1. .00 12. .95 6

ATOM 1408 CG ARG A 189 -0, .635 4, .385 52, .458 1. .00 19. .11 6 ATOM 1409 CD ARG A 189 -0 .942 5 .273 53. .602 0. .00 20, .00 6

ATOM 1410 NE ARG A 189 -1 .563 4 .465 54. .658 0. .00 20, .00 7

ATOM 1411 CZ ARG A 189 -2 .073 5 .120 55, .718 0, .00 20, .00 6

ATOM 1412 NHl ARG A 189 -2. .009 6, .439 55. .778 0. ,00 20. .00 7

ATOM 1413 NH2 ARG A 189 -2, .641 4, .429 56. .712 0. .00 20, .00 7 ATOM 1414 N LYS A 190 -0, .725 5, .371 48, .044 1. .00 12, .65 7

ATOM 1415 CA LYS A 190 -0, .437 6 .168 46, .830 1. .00 13, ,29 6

ATOM 1416 C LYS A 190 0 .475 7, .292 47, .111 1. .00 12, .33 6

ATOM 1417 O LYS A 190 0 .366 8 .054 48, .112 1. .00 12, .55 8 ATOM 1418 CB LYS A 190 -1.739 6.688 46.193 1.00 14.04 6

ATOM 1419 CG LYS A 190 -1. .575 7 .374 44 .863 1 .00 13 .43 6

ATOM 1420 CD LYS A 190 -2. .892 8 .042 44 .365 1 .00 14 .23 6

ATOM 1421 CE LYS A 190 -2. .848 9 .547 44 .467 1. .00 11 .74 6 ATOM 1422 NZ LYS A 190 -1. .794 10 .509 44 .344 1, .00 14 .74 7

ATOM 1423 N ALA A 191 1 .539 7 .488 46 .284 1, .00 9 .54 7

ATOM 1424 CA ALA A 191 2. .402 8 .643 46 .397 1 .00 10 .14 6

ATOM 1425 C ALA A 191 1 .569 9 .962 46 .232 1, .00 12 .32 6

ATOM 1426 O ALA A 191 0. .650 9, .922 45. .406 1, .00 12, .53 8 ATOM 1427 CB ALA A 191 3, .479 8, .638 45. .324 1, .00 12, .15 6

ATOM 1428 N SER A 192 1. .965 10, .976 46. .997 1, .00 13, .24 7

ATOM 1429 CA SER A 192 1. .044 12, .139 46. .993 1. .00 15, .23 6

ATOM 1430 C SER A 192 0, .868 12 .637 45, .580 1, .00 11. .65 6

ATOM 1431 O SER A 192 -0 .259 13 .044 45 .208 1, .00 11 .90 8 ATOM 1432 CB SER A 192 1, .586 13, .158 48, .008 1. .00 19, .44 6

ATOM 1433 OG SER A 192 2, .765 13, .652 47, .508 1. .00 23, .70 8

ATOM 1434 N PHE A 193 1, .863 12, .658 44, .721 1. .00 12, .20 7

ATOM 1435 CA PHE A 193 1, .810 13, .199 43, .381 1, .00 14, .48 6

ATOM 1436 C PHE A 193 1, .385 12 .209 42, .289 1, .00 13, .11 6 ATOM 1437 O PHE A 193 1, .238 12, .595 41, .135 1. .00 11, .70 8

ATOM 1438 CB PHE A 193 3, .310 13, .582 43, .106 1. .00 17, .86 6

ATOM 1439 CG PHE A 193 4, .249 12, .384 43. .353 1. .00 20, .29 6

ATOM 1440 CDl PHE A 193 4, .287 11, .322 42, .438 1. .00 22, .95 6

ATOM 1441 CD2 PHE A 193 5, .040 12, .214 44, .448 1. .00 8, .24 6 ATOM 1442 CEl PHE A 193 5. .098 10. .236 42, .710 1. .00 19. .68 6

ATOM 1443 CE2 PHE A 193 5, .864 11, .222 44. .781 1. ,00 21. .76 6

ATOM 1444 CZ PHE A 193 5, .910 10, .164 43. .860 1. ,00 19. .49 6

ATOM 1445 N SER A 194 1, .240 10, .942 42, .667 1. .00 10. .08 7

ATOM 1446 CA SER A 194 1, .056 10, .001 41, .524 1. .00 9, .55 6 ATOM 1447 C SER A 194 -0, .269 10 .206 40, .817 1. .00 10, .73 6

ATOM 1448 O SER A 194 -1, .304 10, .320 41, .445 1. ,00 11. .77 8

ATOM 1449 CB SER A 194 1, .096 8, .580 42. .077 1. ,00 10. .02 6

ATOM 1450 OG SER A 194 0, .951 7, .609 41. .021 1. .00 11. .46 8

ATOM 1451 N ASN A 195 -0, .250 10, .146 39, .487 1. .00 9. .56 7 ATOM 1452 CA ASN A 195 -1, .500 10, .042 38, .765 1. .00 9. .33 6

ATOM 1453 C ASN A 195 -2. .095 8. .658 39. .068 1. .00 12. ,48 6

ATOM 1454 O ASN A 195 -1, .471 7, .723 39. .599 1. .00 11. .95 8

ATOM 1455 CB ASN A 195 -1, .288 10, .176 37. .252 1. ,00 9. .08 6

ATOM 1456 CG ASN A 195 -0, .941 11, .572 36, .865 1. .00 11. .88 6 ATOM 1457 ODl ASN A 195 -1, .104 12, .515 37. .608 1. .00 12. .04 8

ATOM 1458 ND2 ASN A 195 -0, .437 11, .729 35, .635 1. .00 12, .30 7

ATOM 1459 N TYR A 196 -3, .396 8. .535 38. .769 1. .00 11. ,14 7

ATOM 1460 CA TYR A 196 -4, .117 7. .344 39. .186 1. ,00 9. .82 6

ATOM 1461 C TYR A 196 -5, .386 7, .196 38. .350 1. ,00 13. .03 6 ATOM 1462 O TYR A 196 -5, .716 8, .132 37. .629 1. ,00 14. .68 8

ATOM 1463 CB TYR A 196 -4, .544 7, .490 40. .681 1. ,00 11, .85 6

ATOM 1464 CG TYR A 196 -5, .414 8. .701 40. .933 1. ,00 12. .37 6

ATOM 1465 CDl TYR A 196 -4, .871 9, .945 41. .165 1. ,00 12. .29 6

ATOM 1466 CD2 TYR A 196 -6, .802 8, .592 40, .906 1. ,00 11. .59 6 ATOM 1467 CEl TYR A 196 -5, .612 11, .084 41, .371 1. .00 13, .98 6

ATOM 1468 CE2 TYR A 196 -7 .586 9, .704 41, .112 1. .00 15, .81 6

ATOM 1469 CZ TYR A 196 -7, .009 10, .918 41. .336 1. ,00 15. .20 6

ATOM 1470 OH TYR A 196 -7, .817 12, .040 41. .542 1. ,00 19. .65 8

ATOM 1471 N GLY A 197 -5, .882 5, .993 38. .403 1. ,00 11. .13 7 ATOM 1472 CA GLY A 197 -7, .170 5, .755 37, .680 1. .00 11. .68 6

ATOM 1473 C GLY A 197 -7. .164 4, .338 37, .161 1. .00 12, .24 6

ATOM 1474 O GLY A 197 -6 .200 3 .578 37, .267 1, .00 13. .15 8

ATOM 1475 N THR A 198 -8, .311 3, .905 36, .542 1. .00 12. ,40 7

ATOM 1476 CA THR A 198 -8, .425 2, .531 36, .111 1. .00 11. .46 6 ATOM 1477 C THR A 198 -7. .578 2, .248 34, .855 1. .00 12. .92 6

ATOM 1478 O THR A 198 -7 .329 1, .063 34, .613 1. .00 14. .81 8

ATOM 1479 CB THR A 198 -9 .918 2 .151 35, .818 1. .00 13. .71 6

ATOM 1480 OGl THR A 198 -10 .361 2, .988 34. .785 1. .00 20. .98 8

ATOM 1481 CG2 THR A 198 -10, .785 2, .300 37. .056 1. .00 17. .57 6 ATOM 1482 N TRP A 199 -7 .107 3, .325 34, .195 1. .00 12. .12 7

ATOM 1483 CA TRP A 199 -6 .192 3 .157 33, .081 1. .00 12, .81 6

ATOM 1484 C TRP A 199 -4 .774 2 .869 33, .525 1. .00 11, .15 6

ATOM 1485 O TRP A 199 -3 .896 2, .557 32. .737 1. ,00 13. .41 8 ATOM 1486 CB TRP A 199 -6.194 4.421 32.173 1.00 11.96 6

ATOM 1487 CG TRP A 199 -5 .744 5 .662 32 .884 1 .00 11 .22 6

ATOM 1488 CDl TRP A 199 -6 .470 6 .564 33 .633 1 .00 16 .14 6

ATOM 1489 CD2 TRP A 199 -4 .419 6 .188 32 .931 1 .00 10 .56 6 ATOM 1490 NEl TRP A 199 -5 .702 7 .565 34 .144 1 .00 16 .05 7

ATOM 1491 CE2 TRP A 199 -4 .397 7 .379 33 .705 1 .00 14 .41 6

ATOM 1492 CE3 TRP A 199 -3 .218 5 .745 32 .325 1 .00 12 .64 6

ATOM 1493 CZ2 TRP A 199 -3 .239 8 .128 33 .914 1 .00 17 .36 6

ATOM 1494 CZ3 TRP A 199 -2 .092 6 .505 32 .566 1 .00 15 .03 6 ATOM 1495 CH2 TRP A 199 -2. .081 7 .654 33 .347 1 .00 14 .87 6

ATOM 1496 N VAL A 200 -4 .468 3 .143 34 .811 1 .00 10 .34 7

ATOM 1497 CA VAL A 200 -3 .115 2 .805 35 .303 1 .00 12 .70 6

ATOM 1498 C VAL A 200 -3, .087 1, .330 35 .623 1. .00 11 .86 6

ATOM 1499 O VAL A 200 -4. .069 0 .763 36 .157 1 .00 14 .02 8 ATOM 1500 CB VAL A 200 -2 .815 3, .607 36 .568 1 .00 10 .90 6

ATOM 1501 CGI VAL A 200 -1, .476 3, .218 37 .118 1. .00 11, .75 6

ATOM 1502 CG2 VAL A 200 -2, .907 5, .097 36 .300 1. .00 10 .81 6

ATOM 1503 N ASP A 201 -2. .127 0, .525 35 .152 1. .00 9 .45 7

ATOM 1504 CA ASP A 201 -2. .205 -0 .917 35 .269 1 .00 10 .79 6 ATOM 1505 C ASP A 201 -1. .714 -1, .428 36 .611 1, .00 11, .73 6

ATOM 1506 O ASP A 201 -2, .428 -2 , .193 37 .259 1, .00 10, .74 8

ATOM 1507 CB ASP A 201 -1, .361 -1, .532 34 .104 1, .00 10, .60 6

ATOM 1508 CG ASP A 201 -2. .014 -1. .237 32. .785 1. .00 14, .68 6

ATOM 1509 ODl ASP A 201 -3. .197 -1, .603 32. .591 1. .00 12, .39 8 ATOM 1510 OD2 ASP A 201 -1, .329 -0, .642 31 .929 1. .00 11, .24 8

ATOM 1511 N VAL A 202 -0. .478 -1, .016 36 .955 1, .00 10, .17 7

ATOM 1512 CA VAL A 202 0. .069 -1. .498 38. .207 1. .00 10. .76 6

ATOM 1513 C VAL A 202 0, .716 -0, .337 38. .925 1. .00 9. .89 6

ATOM 1514 O VAL A 202 0, .872 0, .733 38 .352 1. .00 9, .72 8 ATOM 1515 CB VAL A 202 1. .128 -2. ,591 38. .016 1. .00 9. .97 6

ATOM 1516 CGI VAL A 202 0. .504 -3, .847 37. .440 1. .00 12. .13 6

ATOM 1517 CG2 VAL A 202 2. .283 -2 , .104 37. .130 1. .00 14. .06 6

ATOM 1518 N THR A 203 1, .041 -0. .552 40 .192 1. .00 9, .69 7

ATOM 1519 CA THR A 203 1. .817 0. ,426 40. .984 1. ,00 8. .33 6 ATOM 1520 C THR A 203 3. .076 -0. ,208 41. .542 1. .00 8. .20 6

ATOM 1521 O THR A 203 3. .152 -1, .455 41 .659 1. .00 8. .89 8

ATOM 1522 CB THR A 203 0. ,899 1. .018 42 , .077 1. ,00 10. .11 6

ATOM 1523 OGl THR A 203 1. .528 2. , 183 42. .573 1. ,00 9. .97 8

ATOM 1524 CG2 THR A 203 0. .604 0. .003 43. .200 1. .00 10. .55 6 ATOM 1525 N ALA A 204 4, .060 0. .625 41, .900 1. .00 8. .43 7

ATOM 1526 CA ALA A 204 5. .322 0. .114 42. .440 1. ,00 7. .80 6

ATOM 1527 C ALA A 204 5, .934 1. .201 43. .307 1. ,00 7. .92 6

ATOM 1528 O ALA A 204 5, .639 2, .403 43. .176 1. ,00 8. .87 8

ATOM 1529 CB ALA A 204 6. .215 -0. ,218 41. .206 1. ,00 9. ,02 6 ATOM 1530 N PRO A 205 6. .889 0. .857 44, .167 1. ,00 9. .20 7

ATOM 1531 CA PRO A 205 7, .626 1. .788 44 , .988 1. ,00 10. .66 6

ATOM 1532 C PRO A 205 8. .167 2. .923 44. .122 1. ,00 10. ,80 6

ATOM 1533 O PRO A 205 8. .865 2. .755 43 , .103 1. ,00 10. .53 8

ATOM 1534 CB PRO A 205 8, .810 0. .934 45, .486 1. ,00 11. .87 6 ATOM 1535 CG PRO A 205 8, .066 -0, .386 45, .743 1. .00 9. .61 6

ATOM 1536 CD PRO A 205 7. .222 -0. .568 44, .424 1. ,00 10. .97 6

ATOM 1537 N GLY A 206 7. .855 4. .139 44, .552 1. .00 9. .51 7

ATOM 1538 CA GLY A 206 8, .265 5. .328 43, .848 1. .00 8. .77 6

ATOM 1539 C GLY A 206 8. .571 6. ,543 44. .702 1. ,00 9. ,82 6 ATOM 1540 O GLY A 206 8. .762 7. .640 44, .198 1. ,00 12. .47 8

ATOM 1541 N VAL A 207 8, .608 6. .363 46, .053 1. .00 9. .75 7

ATOM 1542 CA VAL A 207 8, .789 7, .498 46, .954 1. .00 11. .01 6

ATOM 1543 C VAL A 207 10, .120 7. .353 47, .646 1. ,00 10. .23 6

ATOM 1544 O VAL A 207 10, .366 6. .348 48, .257 1. .00 11. .51 8 ATOM 1545 CB VAL A 207 7, .679 7. .624 48, .011 1. .00 9. .92 6

ATOM 1546 CGI VAL A 207 7. .938 8. .802 48. .933 1. ,00 10. ,74 6

ATOM 1547 CG2 VAL A 207 6, .369 7. .832 47, .256 1. ,00 12. ,64 6

ATOM 1548 N ASN A 208 10, .960 8. .360 47, .573 1. .00 9. ,70 7

ATOM 1549 CA ASN A 208 12, .257 8, .317 48, .278 1. .00 9. .99 6 ATOM 1550 C ASN A 208 13, .030 7. .058 47, .981 1. ,00 9. .86 6

ATOM 1551 O ASN A 208 13, .447 6. .265 48, .772 1. .00 10. .57 8

ATOM 1552 CB ASN A 208 12, .033 8, .481 49, .791 1. .00 12. .47 6

ATOM 1553 CG ASN A 208 11, .614 9. .893 50. .142 1. ,00 16. ,00 6 ATOM 1554 ODl ASN A 208 11.947 10.841 49.487 1.00 17.81 8

ATOM 1555 ND2 ASN A 208 10 .820 9 .952 51 .225 1 .00 23 .41 7

ATOM 1556 N ILE A 209 13 .185 6 .904 46 .648 1 .00 11 .72 7

ATOM 1557 CA ILE A 209 13 .934 5 .767 46 .091 1 .00 11 .01 6 ATOM 1558 C ILE A 209 15 .425 6 .097 45 .962 1 .00 10 .83 6

ATOM 1559 O ILE A 209 15 .707 7 .084 45 .253 1 .00 10 .52 8

ATOM 1560 CB ILE A 209 13 .406 5 .365 44 .711 1 .00 9 .48 6

ATOM 1561 CGI ILE A 209 11 .918 4 .982 44 .806 1 .00 9 .44 6

ATOM 1562 CG2 ILE A 209 14. .242 4. .273 44 .034 1. .00 10 .15 6 ATOM 1563 CDl ILE A 209 11 .642 3 .820 45 .762 1, .00 9 .01 6

ATOM 1564 N ALA A 210 16 .292 5 .399 46 .705 1. .00 8 .36 7

ATOM 1565 CA ALA A 210 17 .741 5 .665 46 .491 1 .00 9 .20 6

ATOM 1566 C ALA A 210 18 .266 5 .060 45 .191 1 .00 11 .06 6

ATOM 1567 O ALA A 210 18 .035 3 .879 45 .016 1 .00 11 .02 8 ATOM 1568 CB ALA A 210 18, .464 5 .038 47, .678 1, .00 10 .57 6

ATOM 1569 N SER A 211 19, .037 5. .807 44 .408 1, .00 10 .47 7

ATOM 1570 CA SER A 211 19 .647 5 .229 43 .209 1, .00 9 .26 6

ATOM 1571 C SER A 211 20 .849 6 .075 42 .839 1, .00 10 .82 6

ATOM 1572 O SER A 211 21 .241 7 .011 43 .573 1, .00 12 .70 8 ATOM 1573 CB SER A 211 18, .572 5. .218 42, .076 1. .00 11. .65 6

ATOM 1574 OG SER A 211 19, .186 4, .429 41, .031 1, .00 9. .57 8

ATOM 1575 N THR A 212 21. .521 5. .684 41, .776 1, .00 9 .45 7

ATOM 1576 CA THR A 212 22, .650 6, .435 41, .237 1, .00 9, .57 6

ATOM 1577 C THR A 212 22, .316 7. .786 40, .601 1, .00 10 .33 6 ATOM 1578 O THR A 212 21, .312 7. .897 39, .943 1, .00 11, .17 8

ATOM 1579 CB THR A 212 23, .230 5. .539 40, .123 1. .00 10, .82 6

ATOM 1580 OGl THR A 212 22, .197 5, .032 39, .255 1. .00 11, .01 8

ATOM 1581 CG2 THR A 212 23, .860 4. .247 40, .683 1. .00 11, .54 6

ATOM 1582 N VAL A 213 23, .202 8, .751 40, .854 1. .00 11, .50 7 ATOM 1583 CA VAL A 213 23, .084 10. .032 40, .112 1, .00 10, .64 6

ATOM 1584 C VAL A 213 24. .479 10. .365 39. .618 1. .00 12. .70 6

ATOM 1585 O VAL A 213 25. .449 9. .733 40. .023 1. .00 14. .01 8

ATOM 1586 CB VAL A 213 22. .430 11. .117 40. .929 1. ,00 10. .58 6

ATOM 1587 CGI VAL A 213 20. .952 10. .866 41. .236 1. .00 15. .95 6 ATOM 1588 CG2 VAL A 213 23, .176 11, .444 42. .212 1. .00 16, .49 6

ATOM 1589 N PRO A 214 24. .599 11. .271 38. ,634 1. .00 12. .29 7

ATOM 1590 CA PRO A 214 25. .893 11. .455 38. ,032 1. .00 14. .14 6

ATOM 1591 C PRO A 214 27. .016 11. .909 38. ,959 1. ,00 15. .71 6

ATOM 1592 O PRO A 214 26. .744 12. .410 40. ,052 1. ,00 16. .38 8 ATOM 1593 CB PRO A 214 25, .641 12. .502 36. .919 1. .00 15. .16 6

ATOM 1594 CG PRO A 214 24 , .175 12, .119 36. ,585 1. .00 11, .84 6

ATOM 1595 CD PRO A 214 23. ,489 11. .956 37. .969 1. .00 14. .36 6

ATOM 1596 N ASN A 215 28. .217 11. .674 38. ,451 1. ,00 17. .19 7

ATOM 1597 CA ASN A 215 29. .421 12. .081 39. ,228 1. ,00 19. .26 6 ATOM 1598 C ASN A 215 29. .493 11. .275 40. ,514 1. ,00 18. .85 6

ATOM 1599 O ASN A 215 29, .781 11. .814 41. .595 1. ,00 21. .66 8

ATOM 1600 CB ASN A 215 29, .417 13. .592 39. ,493 1. 00 19. .94 6

ATOM 1601 CG ASN A 215 29. .256 14. .419 38. ,223 1. ,00 31. .85 6

ATOM 1602 ODl ASN A 215 29, .976 14. .179 37. ,251 1. ,00 28. .69 8 ATOM 1603 ND2 ASN A 215 28, .346 15. .396 38. .116 1. ,00 31. .00 7

ATOM 1604 N ASN A 216 29, .395 9, .955 40. .364 1. .00 15, .65 7

ATOM 1605 CA ASN A 216 29. .543 9. ,014 41. ,466 1. .00 14. ,86 6

ATOM 1606 C ASN A 216 28. .733 9. ,469 42. ,678 1. .00 14. .58 6

ATOM 1607 O ASN A 216 29. .202 9. .375 43. .865 1. ,00 19. .68 8 ATOM 1608 CB ASN A 216 31. .049 8. .938 41. .893 1. ,00 15. .86 6

ATOM 1609 CG ASN A 216 31. .212 7. .736 42. .799 1. ,00 19, .49 6

ATOM 1610 ODl ASN A 216 30, .528 6, .722 42. .724 1. .00 15, .44 8

ATOM 1611 ND2 ASN A 216 32. .178 7. .841 43. ,735 1. .00 22. .33 7

ATOM 1612 N GLY A 217 27. .452 9. ,740 42. .450 1. .00 15. .37 7 ATOM 1613 CA GLY A 217 26, .528 10. .146 43. .484 1. ,00 15. .63 6

ATOM 1614 C GLY A 217 25, .397 9. .108 43. .658 1. ,00 12. .67 6

ATOM 1615 O GLY A 217 25, .274 8. .223 42. .830 1. .00 13. .61 8

ATOM 1616 N TYR A 218 24. .763 9. .167 44. .820 1. .00 14. .53 7

ATOM 1617 CA TYR A 218 23. .540 8. .474 45. .147 1. ,00 13. .47 6 ATOM 1618 C TYR A 218 22, .573 9. .467 45. .748 1. ,00 17. .36 6

ATOM 1619 O TYR A 218 23, .042 10. .313 46. .555 1. ,00 19. .27 8

ATOM 1620 CB TYR A 218 23, .781 7. .308 46. .161 1. .00 11. .47 6

ATOM 1621 CG TYR A 218 24. .809 6. ,356 45. ,591 1. 00 12. ,20 6 ATOM 1622 CDl TYR A 218 26.208 6.488 45.773 1.00 13.37 6

ATOM 1623 CD2 TYR A 218 24 .426 5 .277 44 .820 1 .00 12 .84 6

ATOM 1624 CEl TYR A 218 27 .084 5 .638 45 .230 1 .00 13 .51 6

ATOM 1625 CE2 TYR A 218 25 .300 4 .451 44 .233 1 .00 11 .27 6 ATOM 1626 CZ TYR A 218 26 .691 4 .566 44 .425 1. .00 11 .33 6

ATOM 1627 OH TYR A 218 27 .563 3 .704 43 .856 1. .00 14 .19 8

ATOM 1628 N SER A 219 21 .302 9 .383 45 .406 1. .00 13 .70 7

ATOM 1629 CA SER A 219 20 .345 10 .292 45 .991 1. .00 12 .43 6

ATOM 1630 C SER A 219 18 .946 9 .690 45 .979 1. .00 12 .57 6 ATOM 1631 O SER A 219 18 .687 8 .690 45 .259 1. .00 11 .67 8

ATOM 1632 CB SER A 219 20 .380 11 .571 45 .175 1. .00 16 .94 6

ATOM 1633 OG SER A 219 19 .543 11 .401 44 .030 1, .00 27 .04 8

ATOM 1634 N TYR A 220 18 .080 10 .236 46 .794 1. .00 11 .86 7

ATOM 1635 CA TYR A 220 16 .690 9 .896 46 .724 1. .00 11 .51 6 ATOM 1636 C TYR A 220 16, .047 10, .722 45, .635 1. .00 12, .74 6

ATOM 1637 O TYR A 220 16, .188 11, .953 45, .508 1. .00 13, .70 8

ATOM 1638 CB TYR A 220 16. .005 10, .337 48, .053 1. .00 11, .07 6

ATOM 1639 CG TYR A 220 16. .356 9, .479 49, .223 1. .00 15, .23 6

ATOM 1640 CDl TYR A 220 16, .096 8, .130 49, .290 1. .00 12, .19 6 ATOM 1641 CD2 TYR A 220 16, .970 10, .065 50, .348 1. .00 20, .94 6

ATOM 1642 CEl TYR A 220 16, .418 7, .319 50, .363 1. .00 17, .15 6

ATOM 1643 CE2 TYR A 220 17, .282 9, .257 51, .432 1. .00 20, .63 6

ATOM 1644 CZ TYR A 220 17, .013 7, .927 51, .455 1. .00 20, .24 6

ATOM 1645 OH TYR A 220 17, .330 7, .134 52, .548 1. .00 22, .60 8 ATOM 1646 N MET A 221 15, .085 10. .098 44. .923 1. ,00 12. .98 7

ATOM 1647 CA MET A 221 14 , .179 10, .786 43. .985 1. ,00 10. .83 6

ATOM 1648 C MET A 221 12, .794 10. .191 44. .197 1. .00 10. .00 6

ATOM 1649 O MET A 221 12, .691 9, .016 44. .620 1. ,00 11. .94 8

ATOM 1650 CB MET A 221 14, .581 10, .675 42. .492 1. ,00 12. .31 6 ATOM 1651 CG MET A 221 15. .728 11, .611 42 , .190 1. ,00 13. .70 6

ATOM 1652 SD MET A 221 15. .997 11, .530 40. .390 1. ,00 15. .78 16

ATOM 1653 CE MET A 221 17, .585 12, .292 40. .256 1. .00 23. .46 6

ATOM 1654 N SER A 222 11, .723 10, .901 43. .905 1. ,00 10. .92 7

ATOM 1655 CA SER A 222 10. .357 10. .422 44. ,042 1. 00 9. ,76 6 ATOM 1656 C SER A 222 9. .586 10. ,751 42. .758 1. 00 12. ,04 6

ATOM 1657 O SER A 222 9. .755 11. .827 42. ,185 1. 00 15. ,35 8

ATOM 1658 CB SER A 222 9, .609 11. .100 45. .197 1. .00 14. ,86 6

ATOM 1659 OG SER A 222 10, .216 10. .861 46. ,463 1. 00 13. .78 8

ATOM 1660 N GLY A 223 8, .779 9, .812 42. ,394 1. .00 12. ,72 7 ATOM 1661 CA GLY A 223 7, .819 10, .014 41. .264 1. ,00 15. .17 6

ATOM 1662 C GLY A 223 7, .505 8, .657 40. .630 1. ,00 10. .31 6

ATOM 1663 O GLY A 223 8, .041 7, .604 40. .919 1. ,00 11. .61 8

ATOM 1664 N THR A 224 6, .499 8, .863 39. .717 1. ,00 10. .35 7

ATOM 1665 CA THR A 224 6, .175 7. .685 38. ,909 1. 00 8. ,89 6 ATOM 1666 C THR A 224 7, .383 7. .335 38. ,027 1. 00 9. .98 6

ATOM 1667 O THR A 224 7, .487 6. .168 37. ,607 1. 00 9. .81 8

ATOM 1668 CB THR A 224 4, .920 7. .788 38. .038 1. .00 8. .97 6

ATOM 1669 OGl THR A 224 5, .026 8, .958 37. .216 1. .00 11. .03 8

ATOM 1670 CG2 THR A 224 3, .671 7, .909 38. .950 1. ,00 9. .27 6 ATOM 1671 N SER A 225 8, .317 8, .243 37. .735 1. ,00 10. .17 7

ATOM 1672 CA SER A 225 9 .552 7, .955 37. .067 1. .00 11. .35 6

ATOM 1673 C SER A 225 10 .427 6, .946 37. .830 1. .00 8. .09 6

ATOM 1674 O SER A 225 11, .258 6, .285 37. .163 1. .00 8. .80 8

ATOM 1675 CB SER A 225 10, .482 9. .186 36. .881 1. .00 12. .32 6 ATOM 1676 OG SER A 225 9, .832 10, .043 35. .881 1. .00 13. .46 8

ATOM 1677 N MET A 226 10 .191 6, .844 39. .146 1. ,00 8. .91 7

ATOM 1678 CA MET A 226 10, .978 5, .898 39. .914 1. .00 9. .87 6

ATOM 1679 C MET A 226 10 .277 4, .558 40. .071 1. .00 8. .01 6

ATOM 1680 O MET A 226 10 .852 3, .512 40. .318 1. ,00 10. .42 8 ATOM 1681 CB MET A 226 11 .246 6 .476 41, .336 1. .00 10. .18 6

ATOM 1682 CG MET A 226 12 .310 7 .569 41, .381 1. ,00 9, .98 6

ATOM 1683 SD MET A 226 11 .911 9 .112 40, .574 1. .00 11. .41 16

ATOM 1684 CE MET A 226 13, .090 8, .930 39. .205 1. ,00 13. .09 6

ATOM 1685 N ALA A 227 8, .939 4. .581 39. .923 1. .00 9. .49 7 ATOM 1686 CA ALA A 227 8 .136 3, .349 40. .019 1. ,00 9. .59 6

ATOM 1687 C ALA A 227 8 .327 2, .524 38. .724 1. ,00 8. .92 6

ATOM 1688 O ALA A 227 8 .449 1, .279 38. .759 1. ,00 9. .60 8

ATOM 1689 CB ALA A 227 6 .684 3, .754 40. .239 1. ,00 12. .00 6 ATOM 1690 N SER A 228 8..258 3.251 37.598 1..00 8..46 7

ATOM 1691 CA SER A 228 8, .366 2 .564 36 .293 1. .00 9 .33 6

ATOM 1692 C SER A 228 9, .597 1 .685 36 .177 1. .00 9 .11 6

ATOM 1693 O SER A 228 9. .393 0 .525 35 .768 1, .00 8. .88 8 ATOM 1694 CB SER A 228 8. .311 3 .644 35 .222 1. .00 8. .72 6

ATOM 1695 OG SER A 228 8, .326 3 .035 33 .893 1. .00 8. .59 8

ATOM 1696 N PRO A 229 10, .790 2 .071 36 .569 1, .00 9. .43 7

ATOM 1697 CA PRO A 229 11, .941 1 .221 36 .420 1. .00 9. .18 6

ATOM 1698 C PRO A 229 11, .901 -0 .018 37 .312 1. .00 9. .20 6 ATOM 1699 O PRO A 229 12, .519 -1 .041 37 .077 1. .00 10. .50 8

ATOM 1700 CB PRO A 229 13, .198 2 .065 36 .744 1. .00 10, .68 6

ATOM 1701 CG PRO A 229 12, .614 3 .303 37 .459 1, .00 10, .44 6

ATOM 1702 CD PRO A 229 11, .196 3 .448 36 .832 1. .00 10, .93 6

ATOM 1703 N HIS A 230 11, .144 0 .079 38 .459 1, .00 8, .14 7 ATOM 1704 CA HIS A 230 10. .984 -1. .193 39, .194 1. ,00 8, .04 6

ATOM 1705 C HIS A 230 10. .199 -2, .229 38, .398 1. .00 8. .61 6

ATOM 1706 O HIS A 230 10. .502 -3. .422 38, .383 1. .00 11, .42 8

ATOM 1707 CB HIS A 230 10. .245 -0, .952 40, .567 1. .00 8. .82 6

ATOM 1708 CG HIS A 230 11. .092 -0. .269 41, .632 1. .00 7. .05 6 ATOM 1709 NDl HIS A 230 11. .161 1, .109 41, .777 1. .00 7. .95 7

ATOM 1710 CD2 HIS A 230 11. ,925 -0. .847 42 , .579 1. .00 10. .46 6

ATOM 1711 CEl HIS A 230 12. .001 1, .359 42 , .791 1. .00 11. .65 6

ATOM 1712 NE2 HIS A 230 12. .464 0. .188 43, .283 1. ,00 10. .70 7

ATOM 1713 N VAL A 231 9. .136 -1, .757 37. .702 1. .00 9. ,27 7 ATOM 1714 CA VAL A 231 8. .379 -2, .623 36. .808 1. .00 9. .26 6

ATOM 1715 C VAL A 231 9. .199 -3. .052 35, .601 1. .00 8. .69 6

ATOM 1716 O VAL A 231 9. .159 -4. .237 35, .255 1. .00 9. .29 8

ATOM 1717 CB VAL A 231 7. .078 -1. .927 36, .389 1. .00 8. .06 6

ATOM 1718 CGI VAL A 231 6, .310 -2. .873 35, .444 1. .00 12. .86 6 ATOM 1719 CG2 VAL A 231 6. .254 -1 .603 37, .646 1. .00 9. .44 6

ATOM 1720 N ALA A 232 9. .967 -2. .118 35. .010 1. ,00 8. ,72 7

ATOM 1721 CA ALA A 232 10. .810 -2. .548 33. .900 1. ,00 9. ,54 6

ATOM 1722 C ALA A 232 11. .885 -3. .530 34. .291 1. .00 9. ,30 6

ATOM 1723 O ALA A 232 12. .173 -4. .505 33. .567 1. .00 9. ,44 8 ATOM 1724 CB ALA A 232 11. .466 -1. .262 33. .299 1. ,00 10. ,48 6

ATOM 1725 N GLY A 233 12. .382 -3. .408 35. .553 1. ,00 9. ,18 7

ATOM 1726 CA GLY A 233 13. .367 -4 , .396 36. .019 1. ,00 9. ,95 6

ATOM 1727 C GLY A 233 12. .770 -5, .794 36, .214 1. ,00 8. ,05 6

ATOM 1728 O GLY A 233 13. .315 -6, .802 35, .870 1. ,00 9. ,80 8 ATOM 1729 N LEU A 234 11. .543 -5. .846 36, .799 1. ,00 8. ,56 7

ATOM 1730 CA LEU A 234 10, .797 -7. .116 36. .861 1. ,00 9. ,22 6

ATOM 1731 C LEU A 234 10, .564 -7. .685 35. .452 1. ,00 8. .93 6

ATOM 1732 O LEU A 234 10. .703 -8. .869 35, .257 1. ,00 11. .08 8

ATOM 1733 CB LEU A 234 9. .502 -6. .924 37, .673 1, .00 10. .61 6 ATOM 1734 CG LEU A 234 8. .527 -8 .118 37, .675 1. .00 10. .54 6

ATOM 1735 CDl LEU A 234 9, .338 -9 .334 38, .172 1. .00 10. .76 6

ATOM 1736 CD2 LEU A 234 7. .332 -7. .778 38. .516 1. .00 11. ,53 6

ATOM 1737 N ALA A 235 10. ,192 -6, .794 34. .514 1. ,00 8. ,31 7

ATOM 1738 CA ALA A 235 9. .995 -7, .321 33. .159 1. ,00 9. .02 6 ATOM 1739 C ALA A 235 11, .282 -7. .907 32, .638 1. ,00 9. ,50 6

ATOM 1740 O ALA A 235 11, .236 -8, .925 31, .905 1. ,00 9. .26 8

ATOM 1741 CB ALA A 235 9, .452 -6. .193 32, .283 1. ,00 8. .43 6

ATOM 1742 N ALA A 236 12, .423 -7. .302 32, .983 1. .00 9. .58 7

ATOM 1743 CA ALA A 236 13, .686 -7 .893 32, .481 1. .00 10. .25 6 ATOM 1744 C ALA A 236 13, .951 -9 .229 33, .200 1. .00 9. .83 6

ATOM 1745 O ALA A 236 14, .536 -10 .134 32, .561 1. .00 11. .26 8

ATOM 1746 CB ALA A 236 14 .866 -6 .960 32 .777 1. .00 11. .37 6

ATOM 1747 N LEU A 237 13 .560 -9 .388 34 .455 1, .00 10. .12 7

ATOM 1748 CA LEU A 237 13 .759 -10 .691 35 .102 1, .00 11. .28 6 ATOM 1749 C LEU A 237 12 .950 -11 .749 34 .387 1, .00 11. .62 6

ATOM 1750 O LEU A 237 13 .438 -12 .838 34 .062 1, .00 11, .77 8

ATOM 1751 CB LEU A 237 13 .237 -10 .615 36 .577 1, .00 9, .89 6

ATOM 1752 CG LEU A 237 14, .114 -9 .812 37, .528 1. .00 10. .68 6

ATOM 1753 CDl LEU A 237 13, .489 -9 .905 38, .936 1. .00 10. .83 6 ATOM 1754 CD2 LEU A 237 15 .587 -10 .206 37, .543 1. .00 12. .79 6

ATOM 1755 N LEU A 238 11 .724 -11 .386 34, .007 1. .00 10. .46 7

ATOM 1756 CA LEU A 238 10 .866 -12 .313 33 .258 1. .00 10. .34 6

ATOM 1757 C LEU A 238 11 .442 -12 .561 31 .856 1, .00 11. .39 6 ATOM 1758 O LEU A 238 11.368 -13.727 31.401 1.00 11.82 8

ATOM 1759 CB LEU A 238 9 .446 -11 .747 33 .253 1 .00 11 .04 6

ATOM 1760 CG LEU A 238 8 .748 -11 .652 34 .596 1 .00 9 .18 6

ATOM 1761 CDl LEU A 238 7 .624 -10 .610 34 .653 1 .00 13 .12 6 ATOM 1762 CD2 LEU A 238 8 .198 -13 .037 34 .992 1 .00 14 .13 6

ATOM 1763 N ALA A 239 11 .985 -11 .570 31 .187 1 .00 11 .41 7

ATOM 1764 CA ALA A 239 12 .536 -11 .834 29 .836 1 .00 11 .12 6

ATOM 1765 C ALA A 239 13 .707 -12 .810 29 .917 1 .00 13 .22 6

ATOM 1766 O ALA A 239 13 .904 -13 .584 28 .964 1 .00 14 .69 8 ATOM 1767 CB ALA A 239 13 .017 -10 .507 29 .271 1 .00 11 .43 6

ATOM 1768 N SER A 240 14 .399 -12 .833 31 .034 1. .00 10 .04 7

ATOM 1769 CA SER A 240 15 .560 -13 .706 31 .190 1 .00 11 .57 6

ATOM 1770 C SER A 240 15 .069 -15 .158 31 .346 1 .00 11 .74 6

ATOM 1771 O SER A 240 15 .978 -16 .007 31 .212 1 .00 17 .10 8 ATOM 1772 CB SER A 240 16 .467 -13 .253 32 .339 1. .00 15 .20 6

ATOM 1773 OG SER A 240 15 .907 -13 .487 33 .636 1. .00 15 .38 8

ATOM 1774 N GLN A 241 13 .796 -15 .390 31 .539 1. .00 12 .24 7

ATOM 1775 CA GLN A 241 13. .311 -16 .765 31 .686 1. .00 13 .26 6

ATOM 1776 C GLN A 241 12. .864 -17 .298 30 .311 1. .00 16 .69 6 ATOM 1777 O GLN A 241 12, .259 -18 .381 30 .257 1, .00 17 .39 8

ATOM 1778 CB GLN A 241 12 .171 -16 .794 32 .671 1, .00 12 .49 6

ATOM 1779 CG GLN A 241 12, .632 -16 .408 34, .116 1. .00 14. .22 6

ATOM 1780 CD GLN A 241 11, .364 -16 .351 34 .927 1. .00 14. .64 6

ATOM 1781 OEl GLN A 241 10, .413 -15 .569 34 .925 1. .00 15. .36 8 ATOM 1782 NE2 GLN A 241 11, .248 -17 .409 35 .756 1, .00 14 .32 7

ATOM 1783 N GLY A 242 13, .086 -16. .404 29, .347 1. ,00 16, .05 7

ATOM 1784 CA GLY A 242 12, .689 -16 .812 27, .982 1. ,00 17, .81 6

ATOM 1785 C GLY A 242 11, .249 -16 .549 27, .658 1. .00 18, .23 6

ATOM 1786 O GLY A 242 10, .619 -17 .054 26 .710 1. .00 19, .39 8 ATOM 1787 N LYS A 243 10. .538 -15. .778 28, .476 1. .00 15. .28 7

ATOM 1788 CA LYS A 243 9, .137 -15. .458 28, .344 1. .00 12. .91 6

ATOM 1789 C LYS A 243 9, .010 -14 .336 27, .290 1. ,00 13, .52 6

ATOM 1790 O LYS A 243 9. .837 -13. .408 27. .296 1. 00 16. ,08 8

ATOM 1791 CB LYS A 243 8. .541 -14. .995 29. .664 1. 00 15. ,99 6 ATOM 1792 CG LYS A 243 8. .278 -16. .185 30, .633 1. ,00 16. .79 6

ATOM 1793 CD LYS A 243 8, .070 -15. .687 32, .070 1. ,00 21. .08 6

ATOM 1794 CE LYS A 243 8. .016 -17. .016 32. .871 1. 00 25. .90 6

ATOM 1795 NZ LYS A 243 8. .276 -16. .829 34. .309 1. 00 25. .09 7

ATOM 1796 N ASN A 244 7. .971 -14, .396 26. .458 1. .00 12. .59 7 ATOM 1797 CA ASN A 244 7, .851 -13, .360 25, .428 1. .00 12. .14 6

ATOM 1798 C ASN A 244 7. ,060 -12. .172 26. .019 1. 00 12. ,86 6

ATOM 1799 O ASN A 244 6. .643 -12. .195 27. .204 1. 00 12. ,30 8

ATOM 1800 CB ASN A 244 7. .141 -13, .969 24. .225 1. 00 11. ,92 6

ATOM 1801 CG ASN A 244 5. ,733 -14. .363 24. ,487 1. 00 14. ,11 6 ATOM 1802 ODl ASN A 244 4. ,907 -13. .891 25. ,246 1. 00 14. ,17 8

ATOM 1803 ND2 ASN A 244 5. .380 -15. .450 23. ,740 1. 00 25. .93 7

ATOM 1804 N ASN A 245 6. .779 -11. .158 25. .223 1. .00 11. .75 7

ATOM 1805 CA ASN A 245 6. ,231 -9. .925 25. ,803 1. 00 12. ,32 6

ATOM 1806 C ASN A 245 4. .838 -10. .185 26. .373 1. 00 11. ,73 6 ATOM 1807 O ASN A 245 4. .488 -9. .607 27. .389 1. .00 11. ,85 8

ATOM 1808 CB ASN A 245 6. .266 -8. .706 24. .917 1. 00 9. .82 6

ATOM 1809 CG ASN A 245 5. ,639 -8. .895 23. ,503 1. 00 11. ,05 6

ATOM 1810 ODl ASN A 245 5. ,182 -9. .975 23. .141 1. 00 12. ,49 8

ATOM 1811 ND2 ASN A 245 5. .668 -7. .759 22. .832 1. 00 11. ,22 7 ATOM 1812 N VAL A 246 4. .041 -10, .938 25. ,608 1. .00 12. ,28 7

ATOM 1813 CA VAL A 246 2. ,701 -11. ,231 26. .102 1. 00 11. ,50 6

ATOM 1814 C VAL A 246 2. .798 -11. .932 27. ,464 1. 00 12. ,02 6

ATOM 1815 O VAL A 246 2. .046 -11. .541 28. .399 1. 00 13. ,42 8

ATOM 1816 CB VAL A 246 1. ,936 -12. ,088 25. .084 1. 00 13. ,60 6 ATOM 1817 CGI VAL A 246 0. ,562 -12. .527 25. ,579 1. 00 17. ,63 6

ATOM 1818 CG2 VAL A 246 1. .693 -11. .266 23. ,802 1. 00 15. ,00 6

ATOM 1819 N GLN A 247 3. .644 -12. .913 27. ,577 1. 00 13. ,17 7

ATOM 1820 CA GLN A 247 3. .880 -13. .682 28. ,797 1. 00 12. .37 6

ATOM 1821 C GLN A 247 4. .332 -12. .767 29. ,958 1. 00 13. ,38 6 ATOM 1822 O GLN A 247 3. .853 -12. .922 31. ,081 1. 00 13. ,69 8

ATOM 1823 CB GLN A 247 4. .936 -14. .778 28. .529 1. 00 14. ,20 6

ATOM 1824 CG GLN A 247 4. .208 -15. .911 27. .719 1. 00 16. 06 6

ATOM 1825 CD GLN A 247 5. .269 -16. ,941 27. .390 1. 00 19. ,34 6 ATOM 1826 OEl GLN A 247 6.402 -16.706 27.042 1.00 16.30 8

ATOM 1827 NE2 GLN A 247 4 .878 -18 .224 27 .535 1 .00 34 .55 7

ATOM 1828 N ILE A 248 5 .310 -11 .937 29 .616 1 .00 11 .49 7

ATOM 1829 CA ILE A 248 5 .861 -10 .997 30 .646 1 .00 9 .94 6 ATOM 1830 C ILE A 248 4, .771 -10 .099 31 .209 1. .00 13 .72 6

ATOM 1831 O ILE A 248 4, .620 -9, .931 32 .436 1. .00 10 .62 8

ATOM 1832 CB ILE A 248 6, .992 -10, .169 30 .002 1. .00 9 .93 6

ATOM 1833 CGI ILE A 248 8, .162 -11, .067 29 .687 1. .00 12 .15 6

ATOM 1834 CG2 ILE A 248 7, .433 -9 .060 30 .990 1. .00 12 .79 6 ATOM 1835 CDl ILE A 248 9, .257 -10. .336 28 .894 1. .00 12 .72 6

ATOM 1836 N ARG A 249 4, .049 -9. .408 30 .310 1. .00 11 .43 7

ATOM 1837 CA ARG A 249 3, .025 -8 .484 30 .767 1. .00 10 .98 6

ATOM 1838 C ARG A 249 1, .907 -9. .207 31 .499 1. .00 10 .67 6

ATOM 1839 O ARG A 249 1, .515 -8. .692 32 .585 1. .00 12 .16 8 ATOM 1840 CB ARG A 249 2. .523 -7. .745 29, .486 1. .00 12, .64 6

ATOM 1841 CG ARG A 249 1, .422 -6. .790 30, .009 1. .00 14, .83 6

ATOM 1842 CD ARG A 249 0. .941 -5, .857 28, .893 1. .00 11, .70 6

ATOM 1843 NE ARG A 249 0, .026 -4, .852 29, .485 1. .00 12, .16 7

ATOM 1844 CZ ARG A 249 -0, .233 -3, .681 28, .909 1. .00 17, .32 6 ATOM 1845 NHl ARG A 249 0, .242 -3, .351 27, .697 1. .00 12, .81 7

ATOM 1846 NH2 ARG A 249 -1, .008 -2. .825 29, .582 1. .00 17, .64 7

ATOM 1847 N GLN A 250 1, .444 -10, .388 31, .087 1. .00 12, .08 7

ATOM 1848 CA GLN A 250 0, .444 -11, .146 31, .801 1. .00 12, .15 6

ATOM 1849 C GLN A 250 0, .953 -11, .527 33, .183 1. .00 12, .65 6 ATOM 1850 O GLN A 250 0. ,181 -11. .410 34. .154 1. ,00 13. .71 8

ATOM 1851 CB GLN A 250 0. ,049 -12. .401 30. .982 1. ,00 13. .50 6

ATOM 1852 CG GLN A 250 -1. .139 -13. .177 31. .520 1. ,00 25. .34 6

ATOM 1853 CD GLN A 250 -1. .654 -14. .042 30. .351 1. ,00 34. .38 6

ATOM 1854 OEl GLN A 250 -0, .926 -14. .231 29, .379 1. .00 40. .16 8 ATOM 1855 NE2 GLN A 250 -2. .883 -14, .525 30, .453 1. ,00 47. .06 7

ATOM 1856 N ALA A 251 2. .236 -11, .906 33. .278 1. ,00 10. .23 7

ATOM 1857 CA ALA A 251 2. .706 -12, .323 34, .620 1. .00 12, .97 6

ATOM 1858 C ALA A 251 2, .739 -11, .135 35, .535 1. .00 12, .84 6

ATOM 1859 O ALA A 251 2. .312 -11. .212 36. .717 1. ,00 12. .96 8 ATOM 1860 CB ALA A 251 4. .077 -12. .957 34. .470 1. .00 14. .38 6

ATOM 1861 N ILE A 252 3. .171 -9. .986 35. .045 1. ,00 11. .02 7

ATOM 1862 CA ILE A 252 3. .233 -8. .795 35. .947 1. ,00 10. .23 6

ATOM 1863 C ILE A 252 1. .845 -8. .365 36. .406 1. ,00 10. .23 6

ATOM 1864 O ILE A 252 1. .633 -8. .028 37. .616 1. ,00 13. .67 8 ATOM 1865 CB ILE A 252 3, .878 -7. .669 35, .112 1. ,00 12. .15 6

ATOM 1866 CGI ILE A 252 5, .396 -7. .885 34, .981 1. ,00 11. .82 6

ATOM 1867 CG2 ILE A 252 3, .648 -6. .337 35, .843 1. .00 13, .44 6

ATOM 1868 CDl ILE A 252 6, .044 -6, .969 33. .949 1. ,00 13, .14 6

ATOM 1869 N GLU A 253 0. .879 -8. .376 35. .492 1. ,00 12. .32 7 ATOM 1870 CA GLU A 253 -0. .446 -7. .831 35. .833 1. ,00 13. .24 6

ATOM 1871 C GLU A 253 -1. .237 -8. .841 36. .640 1. .00 12. ,78 6

ATOM 1872 O GLU A 253 -1, .895 -8. .507 37. .621 1. ,00 15. .59 8

ATOM 1873 CB GLU A 253 -1, .189 -7. .514 34. .507 1. ,00 11. .47 6

ATOM 1874 CG GLU A 253 -0, .638 -6, .220 33, .908 1. .00 11, .43 6 ATOM 1875 CD GLU A 253 -1, .256 -5, .936 32, .527 1. .00 15, .21 6

ATOM 1876 OEl GLU A 253 -1, .899 -6, .803 31, .926 1. .00 18, .21 8

ATOM 1877 OE2 GLU A 253 -1, .005 -4, .753 32, .206 1. .00 17, .23 8

ATOM 1878 N GLN A 254 -1, .220 -10, .134 36, .212 1. .00 12. .34 7

ATOM 1879 CA GLN A 254 -2, .095 -11. .122 36. .842 1. ,00 13. .43 6 ATOM 1880 C GLN A 254 -1, .626 -11, .501 38, .222 1. .00 13. .73 6

ATOM 1881 O GLN A 254 -2, .499 -11, .966 39, .024 1. .00 19. .17 8

ATOM 1882 CB GLN A 254 -2, .151 -12, .364 35, .966 1. .00 14, .03 6

ATOM 1883 CG GLN A 254 -2 .890 -12, .159 34, .651 1. .00 15, .03 6

ATOM 1884 CD GLN A 254 -4 .361 -11, .906 34, .885 1. .00 16, .67 6 ATOM 1885 OEl GLN A 254 -5 .113 -12, .665 35, .520 1, .00 18, .71 8

ATOM 1886 NE2 GLN A 254 -4 .734 -10, .738 34, .346 1, .00 19, .67 7

ATOM 1887 N THR A 255 -0 .340 -11 .323 38 .570 1. .00 12, .59 7

ATOM 1888 CA THR A 255 0, .078 -11, .666 39, .938 1. .00 12. .50 6

ATOM 1889 C THR A 255 0, .218 -10, .480 40, .876 1. .00 11, .92 6 ATOM 1890 O THR A 255 0 .652 -10, .698 41, .999 1. .00 13, .55 8

ATOM 1891 CB THR A 255 1 .449 -12, .367 39, .919 1. .00 11, .55 6

ATOM 1892 OGl THR A 255 2 .490 -11, .507 39, .357 1. .00 12, .19 8

ATOM 1893 CG2 THR A 255 1 .423 -13, .635 39, .054 1. .00 12, .96 6 ATOM 1894 N ALA A 256 -0,.211 -9.309 40.417 1.00 12.42 7

ATOM 1895 CA ALA A 256 0, .004 -8 .131 41 .307 1 .00 11 .98 6

ATOM 1896 C ALA A 256 -0, .832 -8 .313 42 .563 1 .00 13 .19 6

ATOM 1897 O ALA A 256 -1 .957 -8 .835 42 .505 1 .00 15 .40 8 ATOM 1898 CB ALA A 256 -0, .438 -6, .931 40. .502 1. .00 13 .07 6

ATOM 1899 N ASP A 257 -0, .266 -7, .824 43. .683 1, .00 10 .82 7

ATOM 1900 CA ASP A 257 -1, .023 -7, .893 44. .954 1, .00 11 .39 6

ATOM 1901 C ASP A 257 -2, .151 -6, .879 44, .921 1. .00 12 .69 6

ATOM 1902 O ASP A 257 -1, .949 -5, .658 44, .672 1, .00 12 .22 8 ATOM 1903 CB ASP A 257 -0, .048 -7, .519 46, .064 1. .00 12 .06 6

ATOM 1904 CG ASP A 257 0, .966 -8, .615 46, .339 1. .00 14 .17 6

ATOM 1905 ODl ASP A 257 0, .623 -9 .774 46, .083 1. .00 17 .70 8

ATOM 1906 OD2 ASP A 257 2, .038 -8. .290 46 .893 1. .00 18 .13 8

ATOM 1907 N LYS A 258 -3, .323 -7 .323 45 .341 1. .00 12 .79 7 ATOM 1908 CA LYS A 258 -4. .489 -6, .445 45, .358 1. .00 13. .57 6

ATOM 1909 C LYS A 258 -4. .583 -5. .594 46, .592 1. .00 14. .49 6

ATOM 1910 O LYS A 258 -5. .543 -5, .711 47, .389 1. .00 16. .26 8

ATOM 1911 CB LYS A 258 -5. .790 -7, .213 45, .052 1. .00 17. .86 6

ATOM 1912 CG LYS A 258 -5, ,563 -7. .937 43. .706 1. .00 22. .99 6 ATOM 1913 CD LYS A 258 -6, .836 -8, .271 42, .954 1. .00 27, .90 6

ATOM 1914 CE LYS A 258 -6, .527 -9. .082 41, .707 1. .00 24, .57 6

ATOM 1915 NZ LYS A 258 -5. .879 -8, .283 40, .605 1. .00 25, .24 7

ATOM 1916 N ILE A 259 -3, .678 -4. .648 46. .756 1. .00 15, .10 7

ATOM 1917 CA ILE A 259 -3, .576 -3. .775 47, .898 1. .00 13, .74 6 ATOM 1918 C ILE A 259 -4. ,677 -2. .717 47. .867 1. ,00 13. .04 6

ATOM 1919 O ILE A 259 -5. .360 -2. .579 46. .845 1. ,00 12. .63 8

ATOM 1920 CB ILE A 259 -2. .175 -3. .096 47. .981 1. ,00 14. .87 6

ATOM 1921 CGI ILE A 259 -1. .974 -2, .187 46. .764 1. ,00 14. .73 6

ATOM 1922 CG2 ILE A 259 -1. .086 -4. .132 48. .153 1. ,00 13. .52 6 ATOM 1923 CDl ILE A 259 -0. .796 -1, .246 46. .901 1. .00 14, .29 6

ATOM 1924 N SER A 260 -4. .840 -1, .987 48, .985 1. .00 13, .66 7

ATOM 1925 CA SER A 260 -5, .820 -0, .905 48, .928 1. ,00 13. .91 6

ATOM 1926 C SER A 260 -5. .545 0. .022 47. .760 1. .00 14. .86 6

ATOM 1927 O SER A 260 -4. .392 0. .338 47. ,415 1. .00 15. ,35 8 ATOM 1928 CB SER A 260 -5. .652 -0. .158 50. .271 1. ,00 23. ,45 6

ATOM 1929 OG SER A 260 -6. ,523 0. .961 50. .264 1. ,00 32. .81 8

ATOM 1930 N GLY A 261 -6. .615 0. .415 47. .065 1. ,00 14. .79 7

ATOM 1931 CA GLY A 261 -6. .451 1. .204 45. .853 1. ,00 15. .91 6

ATOM 1932 C GLY A 261 -6, .756 0, .360 44. .617 1. ,00 12. .68 6 ATOM 1933 O GLY A 261 -6, .863 0, .965 43. .534 1. .00 12. .20 8

ATOM 1934 N THR A 262 -6, .655 -0, .924 44. .705 1. .00 12. .44 7

ATOM 1935 CA THR A 262 -6, .915 -1. .796 43. .537 1. .00 10, .57 6

ATOM 1936 C THR A 262 -8, .331 -1, .542 43. .030 1. .00 13, .90 6

ATOM 1937 O THR A 262 -9. .301 -1. .632 43. .819 1. .00 15. .95 8 ATOM 1938 CB THR A 262 -6. .699 -3. .286 43. .840 1. ,00 13. .48 6

ATOM 1939 OGl THR A 262 -5. .331 -3. .420 44. .229 1. ,00 14. .15 8

ATOM 1940 CG2 THR A 262 -6, .959 -4. .137 42. .617 1. .00 16, .51 6

ATOM 1941 N GLY A 263 -8, .396 -1. .179 41. .747 1. .00 11, .09 7

ATOM 1942 CA GLY A 263 -9, .735 -0, .902 41, .152 1. .00 12, .45 6 ATOM 1943 C GLY A 263 -10, .071 0. .568 41. .158 1. .00 11, .46 6

ATOM 1944 O GLY A 263 -10, .990 1, .093 40, .464 1. .00 14, .08 8

ATOM 1945 N THR A 264 -9, .309 1, .422 41, .872 1. .00 10, .76 7

ATOM 1946 CA THR A 264 -9, ,488 2. .859 41. ,933 1. .00 10. ,53 6

ATOM 1947 C THR A 264 -8, .266 3, .602 41. .401 1. ,00 11. .33 6 ATOM 1948 O THR A 264 -8, .356 4, .471 40. .518 1. .00 13. .25 8

ATOM 1949 CB . ATHR A 264 -9, .810 3, .214 43. .400 0. .50 13, .28 6

ATOM 1950 OG1ATHR A 264 -10, .941 2, .511 43. .897 0. .50 13, .13 8

ATOM 1951 CG2ATHR A 264 -9, .919 4, .711 43, .436 0. .50 8, .33 6

ATOM 1952 CB : BTHR A 264 -9, .844 3 .467 43, .308 0, .50 11, .69 6 ATOM 1953 OG1BTHR A 264 -8 .956 2 .998 44, .344 0. .50 11, .80 8

ATOM 1954 CG2BTHR A 264 -11 .253 3 .162 43, .724 0, .50 10, .13 6

ATOM 1955 N ASN A 265 -7 .080 3 .363 42, .000 1, .00 10, .66 7

ATOM 1956 CA ASN A 265 -5, .841 4, .057 41. .612 1. .00 10, .59 6

ATOM 1957 C ASN A 265 -5, .059 3, .298 40, .573 1. .00 11, .52 6 ATOM 1958 O ASN A 265 -4, .186 3, .892 39, .906 1. ,00 11, .50 8

ATOM 1959 CB ASN A 265 -4 .983 4, .241 42, .859 1. .00 11, .37 6

ATOM 1960 CG ASN A 265 -5. .590 5 .258 43, .826 1, .00 12, .28 6

ATOM 1961 ODl ASN A 265 -6 .418 6 .059 43, .416 1, .00 15, .68 8 ATOM 1962 ND2 ASN A 265 5.153 5.175 45.083 1.00 16.82 7

ATOM 1963 N PHE A 266 5 .368 2 .029 40 .370 1 .00 12 .07 7

ATOM 1964 CA PHE A 266 4 .728 1 .230 39 .337 1 .00 13 .47 6

ATOM 1965 C PHE A 266 5 .576 -0 .003 39 .144 1 .00 11 .98 6 ATOM 1966 O PHE A 266 6 .414 -0 .342 40 .025 1 .00 13 .68 8

ATOM 1967 CB PHE A 266 3 .273 0 .833 39 .743 1. .00 11 .51 6

ATOM 1968 CG PHE A 266 3 .191 0 .624 41 .228 1. .00 10 .99 6

ATOM 1969 CDl PHE A 266 2 .709 1. .603 42 .034 1, .00 12 .36 6

ATOM 1970 CD2 PHE A 266 3. .617 -0 .589 41 .768 1. .00 12 .87 6 ATOM 1971 CEl PHE A 266 2. .646 1 .489 43 .437 1, .00 15 .18 6

ATOM 1972 CE2 PHE A 266 3. .548 -0 .720 43, .157 1. .00 13 .50 6

ATOM 1973 CZ PHE A 266 3. .086 0, .299 43, .954 1, .00 13 .91 6

ATOM 1974 N LYS A 267 5. .481 -0 .713 38, .018 1, .00 10 .86 7

ATOM 1975 CA LYS A 267 6. .372 -1 .827 37, .757 1, .00 12 .35 6 ATOM 1976 C LYS A 267 5. .996 -3, .143 38. .415 1. ,00 11, .29 6

ATOM 1977 O LYS A 267 6, .827 -3, .835 39, .018 1. .00 14, .13 8

ATOM 1978 CB LYS A 267 6. .427 -2, ,056 36, .234 1. ,00 10. .21 6

ATOM 1979 CG LYS A 267 7, .269 -3, .230 35. .800 1. ,00 10. .69 6

ATOM 1980 CD LYS A 267 7. .434 -3, .314 34. .277 1. ,00 17. .41 6 ATOM 1981 CE LYS A 267 8. .125 -4. .645 33. .961 1. ,00 20. .47 6

ATOM 1982 NZ LYS A 267 9, .590 -4, .515 34. .312 1. ,00 28. .85 7

ATOM 1983 N TYR A 268 4. .703 -3. .507 38. .377 1. ,00 10. .94 7

ATOM 1984 CA TYR A 268 4. .306 -4. .845 38. .774 1. .00 10. .54 6

ATOM 1985 C TYR A 268 3. .780 -4 , .934 40. .185 1. .00 12. .48 6 ATOM 1986 O TYR A 268 4. .004 -5. .966 40. .828 1. ,00 14. .47 8

ATOM 1987 CB TYR A 268 3. .247 -5. .379 37. .737 1. ,00 11. .99 6

ATOM 1988 CG TYR A 268 3. .869 -5, .582 36. .354 1. ,00 12. ,59 6

ATOM 1989 CDl TYR A 268 4. .729 -6. .636 36. .098 1. .00 17. .30 6

ATOM 1990 CD2 TYR A 268 3. .567 -4, .713 35. .315 1. ,00 11. .77 6 ATOM 1991 CEl TYR A 268 5. .286 -6. .819 34. .836 1. ,00 16. .83 6

ATOM 1992 CE2 TYR A 268 4, .127 -4, .878 34. .044 1. ,00 14. .50 6

ATOM 1993 CZ TYR A 268 4. .975 -5. .940 33. .842 1. .00 16. .27 6

ATOM 1994 OH TYR A 268 5. .578 -6. .179 32. .594 1. ,00 16. .50 8

ATOM 1995 N GLY A 269 2. .951 -3. .959 40. .589 1. ,00 11. .21 7 ATOM 1996 CA GLY A 269 2. .363 -4. .068 41. .950 1. ,00 11. .42 6

ATOM 1997 C GLY A 269 0. .884 -3, .640 41. .935 1. .00 12. .63 6

ATOM 1998 O GLY A 269 0. .410 -2. .979 40. .981 1. .00 12. .33 8

ATOM 1999 N LYS A 270 0. .250 -3. .975 43. .039 1. .00 10. .84 7

ATOM 2000 CA LYS A 270 1, .158 -3. .689 43. .298 1. .00 10. .02 6 ATOM 2001 C LYS A 270 1, .989 -4 , .849 42. .786 1. .00 10. .57 6

ATOM 2002 O LYS A 270 1, .759 -6, .030 43. .116 1. .00 10. .24 8

ATOM 2003 CB LYS A 270 1, .355 -3, .550 44. .835 1. .00 9. .80 6

ATOM 2004 CG LYS A 270 2, .838 -3, .440 45. .234 1. ,00 10. .47 6

ATOM 2005 CD LYS A 270 2. .766 -3. .574 46. .792 1. ,00 13. .93 6 ATOM 2006 CE LYS A 270 4, .141 -3, .882 47. .323 1. .00 13. .15 6

ATOM 2007 NZ LYS A 270 4, .141 -4. .146 48. .814 1. .00 12. .38 7

ATOM 2008 N ILE A 271 3, .068 -4, .553 41. .981 1. ,00 9. .21 7

ATOM 2009 CA ILE A 271 3, .827 -5. .684 41, .486 1. .00 10. .54 6

ATOM 2010 C ILE A 271 4 .345 -6. .567 42, .615 1. .00 10. .27 6 ATOM 2011 O ILE A 271 4 .722 -6. .097 43, .676 1. .00 10, .76 8

ATOM 2012 CB ILE A 271 5 .015 -5. .309 40, .579 1. .00 9, ,40 6

ATOM 2013 CGI ILE A 271 5 .942 -4. ,342 41, .302 1. .00 10. .70 6

ATOM 2014 CG2 ILE A 271 4 .462 -4. .651 39, .299 1. .00 12. .37 6

ATOM 2015 CDl ILE A 271 7. .353 -4. .230 40, .661 1. .00 11, .12 6 ATOM 2016 N ASN A 272 4 .358 -7, .864 42, .304 1. ,00 11, .32 7

ATOM 2017 CA ASN A 272 4 .927 -8 .895 43, .187 1. .00 11, .90 6

ATOM 2018 C ASN A 272 5 .887 -9 .781 42, .379 1. .00 10, .24 6

ATOM 2019 O ASN A 272 5 .512 -10 .582 41, .534 1. .00 11, .33 8

ATOM 2020 CB ASN A 272 3 .791 -9 .719 43, .774 1. .00 10, .81 6 ATOM 2021 CG ASN A 272 4 .423 -10 .703 44, .785 1, .00 13, .73 6

ATOM 2022 ODl ASN A 272 5 .449 -11 .324 44, .563 1. .00 11, .13 8

ATOM 2023 ND2 ASN A 272 3 .754 -10 .772 45, .915 1. .00 15, .82 7

ATOM 2024 N SER A 273 7, .192 -9, .406 42. .462 1. ,00 11. .18 7

ATOM 2025 CA SER A 273 8, .176 -10, .054 41. .573 1. ,00 9. .11 6 ATOM 2026 C SER A 273 8 .243 -11, .575 41. .796 1. .00 10. .89 6

ATOM 2027 O SER A 273 8 .463 -12, .256 40. .830 1. .00 11. .77 8

ATOM 2028 CB SER A 273 9 .575 -9, .501 41. .899 1. .00 12. .03 6

ATOM 2029 OG SER A 273 9 .574 -8, .068 41. .685 1. ,00 11. .29 8 ATOM 2030 N ASN A 274 8,.098 -11..968 43.092 1.00 11.68 7

ATOM 2031 CA ASN A 274 8, .221 -13 .417 43 .328 1 .00 13 .05 6

ATOM 2032 C ASN A 274 7, .075 -14 .195 42 .716 1 .00 11 .54 6

ATOM 2033 O ASN A 274 7, .388 -15 .228 42 .085 1 .00 14 .09 8 ATOM 2034 CB ASN A 274 8. .376 -13 .678 44 .846 1 .00 13 .98 6

ATOM 2035 CG ASN A 274 8. .826 -15 .149 45 .061 1 .00 13 .57 6

ATOM 2036 ODl ASN A 274 9, .757 -15 .640 44 .474 1 .00 16 .37 8

ATOM 2037 ND2 ASN A 274 8. .018 -15 .690 45 .988 1. .00 19 .49 7

ATOM 2038 N LYS A 275 5, .882 -13. .699 42 .841 1. .00 12 .00 7 ATOM 2039 CA LYS A 275 4, .726 -14, .366 42 .195 1, .00 11 .46 6

ATOM 2040 C LYS A 275 4. .874 -14, .299 40 .667 1. .00 12 .56 6

ATOM 2041 O LYS A 275 4, .574 -15, .288 40 .002 1, .00 12 .54 8

ATOM 2042 CB LYS A 275 3. .383 -13, .896 42 .682 1. .00 14 .49 6

ATOM 2043 CG LYS A 275 3, .025 -13, .902 44 .182 1. .00 17 .77 6 ATOM 2044 CD LYS A 275 1. .573 -13, .451 44 .400 1. .00 21. .72 6

ATOM 2045 CE LYS A 275 1. .152 -12. .015 44. .481 1. .00 28. .84 6

ATOM 2046 NZ LYS A 275 -0. .267 -11. .496 44 .363 1. .00 26. .58 7

ATOM 2047 N ALA A 276 5. .310 -13. .118 40. .185 1. .00 12, .51 7

ATOM 2048 CA ALA A 276 5. .385 -13. .059 38. .706 1. .00 10, .12 6 ATOM 2049 C ALA A 276 6. .375 -14. .014 38. .107 1. .00 10, .25 6

ATOM 2050 O ALA A 276 6. .048 -14. .635 37 .070 1. .00 10, .48 8

ATOM 2051 CB ALA A 276 5. .743 -11. .617 38. .304 1. .00 11, .31 6

ATOM 2052 N VAL A 277 7. .553 -14. .226 38. .736 1. .00 11, .74 7

ATOM 2053 CA VAL A 277 8. .541 -15, .041 38. .026 1. .00 10, .78 6 ATOM 2054 C VAL A 277 8. .167 -16, .518 38. .194 1. .00 14, .27 6

ATOM 2055 O VAL A 277 8. .780 -17, .298 37 .504 1. .00 13, .97 8

ATOM 2056 CB VAL A 277 9. .970 -14, .842 38. .526 1. .00 12, .43 6

ATOM 2057 CGI VAL A 277 10. .448 -13. .425 38. .246 1. .00 12, .15 6

ATOM 2058 CG2 VAL A 277 10. .184 -15, .151 40 .012 1. .00 16, .20 6 ATOM 2059 N ARG A 278 7. .190 -16, .809 39 .071 1. .00 12, .39 7

ATOM 2060 CA ARG A 278 6. ,784 -18. .223 39, .175 1. .00 15. .11 6

ATOM 2061 C ARG A 278 5. ,497 -18. ,504 38, .446 1. ,00 16. .59 6

ATOM 2062 O ARG A 278 5. .089 -19. ,689 38, .350 1. ,00 20. .78 8

ATOM 2063 CB ARG A 278 6. ,542 -18. ,587 40, .655 1. ,00 15. .94 6 ATOM 2064 CG ARG A 278 7. ,824 -18. ,422 41, .383 1. ,00 17. .42 6

ATOM 2065 CD ARG A 278 7. .595 -18. ,572 42. .905 1. ,00 15. .96 6

ATOM 2066 NE ARG A 278 8. .833 -18. .230 43, .559 1. ,00 19. .66 7

ATOM 2067 CZ ARG A 278 9. .900 -18. .901 43, .897 1. ,00 24. .54 6

ATOM 2068 NHl ARG A 278 9. .966 -20. .223 43. .611 1. .00 23. .93 7 ATOM 2069 NH2 ARG A 278 10. .918 -18. .305 44. .529 1. ,00 26. .20 7

ATOM 2070 N TYR A 279 4. .913 -17. .490 37, .831 1. ,00 12. .78 7

ATOM 2071 CA TYR A 279 3. .644 -17. .626 37, .129 1. ,00 14. .37 6

ATOM 2072 C TYR A 279 3. .850 -18. .378 35, .829 1. ,00 24. .50 6

ATOM 2073 O TYR A 279 4. .901 -18. .165 35, .189 1. ,00 24. .68 8 ATOM 2074 CB TYR A 279 3. .005 -16. .277 36, .932 1. .00 13, .65 6

ATOM 2075 CG TYR A 279 1, .693 -16, .105 36, .231 1. .00 13, .86 6

ATOM 2076 CDl TYR A 279 0. .452 -16. .189 36. .858 1. ,00 14. .68 6

ATOM 2077 CD2 TYR A 279 1. .736 -15. .872 34, .847 1. ,00 15. .48 6

ATOM 2078 CEl TYR A 279 -0. .683 -16. .037 36, .103 1. ,00 15. .73 6 ATOM 2079 CE2 TYR A 279 0. .575 -15. .702 34, .121 1. ,00 14. .88 6

ATOM 2080 CZ TYR A 279 -0. .652 -15. .770 34, .740 1. ,00 15. .75 6

ATOM 2081 OH TYR A 279 -1. .834 -15. .612 34, .089 1. ,00 17. .03 8

ATOM 2082 OT TYR A 279 3, .000 -19. .258 35. .525 1. ,00 24. .50 8

ATOM 2083 Cl GLL A 296 -3, .949 0. .135 29. .717 1. .00 17. .61 6 ATOM 2084 C2 GLL A 296 -4, .024 1, .580 29, .221 1. .00 16, .18 6

ATOM 2085 C3 GLL A 296 -5, .461 2, .100 29, .213 1. .00 18, .89 6

ATOM 2086 01 GLL A 296 -2, .578 -0. .308 29 .529 1. .00 15, .42 8

ATOM 2087 02 GLL A 296 -3. .163 2, .400 30 .001 1. .00 15, .61 8

ATOM 2088 03 GLL A 296 -5, .525 3, .473 28 .806 1. .00 23, .45 8 ATOM 2089 CA WAT A 1 25, .973 -1, .842 43 .443 1. .00 11, .05 20

ATOM 2090 CA WAT A 2 25 .647 13, .399 23 .751 1. .00 17, .24 20

ATOM 2091 NA WAT A 3 -1, .258 1, .535 28 .929 1. .00 12, .14 11

ATOM 2092 OWO WAT W 4 16, .838 2. .112 43, .195 1. ,00 9. .07 8

ATOM 2093 OWO WAT W 5 13, .085 6. .361 31, .187 1. .00 10, .24 8 ATOM 2094 OWO WAT W 6 18, .887 0. .537 42, .447 1. .00 10. .28 8

ATOM 2095 OWO WAT W 7 14, .445 5, .591 39. .775 1. ,00 10, .40 8

ATOM 2096 OWO WAT W 8 14, .210 1. .611 47. .107 1. .00 10, .59 8

ATOM 2097 OWO WAT W 9 14, .918 3, .839 48. .721 1. .00 10, .61 8 ATOM 2098 OWO WAT W 10 10.698 -1.779 53.649 1.00 10.77 8

ATOM 2099 OWO WAT W 11 -1 .751 5 .117 40 .655 1 .00 10 .86 8

ATOM 2100 OWO WAT W 12 14 .945 0 .687 44 .697 1 .00 10 .99 8

ATOM 2101 OWO WAT W 13 -0 .327 4 .307 42 .978 1 .00 11 .25 8 ATOM 2102 OWO WAT W 14 4 .023 -3 .345 27 .168 1 .00 11 .76 8

ATOM 2103 OWO WAT W 15 3 .256 -8 .810 39 .822 1 .00 11 .88 8

ATOM 2104 OWO WAT W 16 18 .664 7 .646 28 .905 1 .00 12 .48 8

ATOM 2105 OWO WAT W 17 29 .275 -1 .039 37 .125 1 .00 12 .57 8

ATOM 2106 OWO WAT W 18 20 .255 15 .290 29 .790 1 .00 12 .74 8 ATOM 2107 OWO WAT W 19 10 .140 -8 .862 25 .520 1 .00 12 .92 8

ATOM 2108 OWO WAT W 20 -1 .402 0 .794 22 .084 1 .00 13 .07 8

ATOM 2109 OWO WAT W 21 5 .723 -0 .410 49 .244 1. .00 13 .11 8

ATOM 2110 OWO WAT W 22 11 .383 -11 .545 49 .015 1 .00 13 .37 8

ATOM 2111 OWO WAT W 23 32 .574 -0 .530 38 .835 1 .00 13 .78 8 ATOM 2112 OWO WAT W 24 6 .840 6 .391 14 .824 1 .00 13 .94 8

ATOM 2113 OWO WAT W 25 4 .270 -7 .073 46 .186 1 .00 14 .15 8

ATOM 2114 OWO WAT w 26 16 .914 -1 .439 53 .452 1 .00 14 .17 8

ATOM 2115 OWO WAT w 27 25 .377 -6 .748 38 .454 1 .00 14 .66 8

ATOM 2116 OWO WAT w 28 16, .613 -9 .407 30 .953 1. .00 14 .93 8 ATOM 2117 OWO WAT w 29 3, .879 7 .957 30 .204 1, .00 14 .99 8

ATOM 2118 OWO WAT w 30 11, .580 -4 .612 12 .085 1. .00 15 .06 8

ATOM 2119 OWO WAT w 31 8, .559 -11 .110 22 .717 1, .00 15 .31 8

ATOM 2120 OWO WAT w 32 31, .655 -2 .825 39 .954 1, .00 15 .39 8

ATOM 2121 OWO WAT w 33 5, .355 5 .671 12 .382 1. .00 15 .85 8 ATOM 2122 OWO WAT w 34 14, .542 5 .167 15 .017 1, .00 15 .88 8

ATOM 2123 OWO WAT w 35 15, .681 2 .641 14 .612 1. .00 16 .11 8

ATOM 2124 OWO WAT w 36 22, .959 -5, .924 55. .817 1. .00 16, .14 8

ATOM 2125 OWO WAT w 37 17, .792 -7, .760 24, .674 1. ,00 16, .20 8

ATOM 2126 OWO WAT w 38 -5, .745 -0, .511 32, .819 1. .00 16, .38 8 ATOM 2127 OWO WAT w 39 8. .911 8, .038 13, .921 1. .00 16, .56 8

ATOM 2128 OWO WAT w 40 0. .345 -4 .964 25, .288 1. .00 16, .65 8

ATOM 2129 OWO WAT w 41 11, .031 -11 .431 25, .798 1. ,00 16, .84 8

ATOM 2130 OWO WAT w 42 13, .079 5, .575 51, .582 1. ,00 17. .00 8

ATOM 2131 OWO WAT w 43 9, .891 -5, .124 53, .560 1. ,00 17, .04 8 ATOM 2132 OWO WAT w 44 5. .686 -8. .148 48. .229 1. 00 17. .09 8

ATOM 2133 OWO WAT w 45 25. .251 13, .768 26. .180 1. 00 17. .19 8

ATOM 2134 OWO WAT w 46 -0. .436 1. .365 15. .687 1. ,00 17. ,45 8

ATOM 2135 OWO WAT w 47 -9. .577 -3, .555 38. .689 1. 00 17. .51 8

ATOM 2136 OWO WAT w 48 30. .018 9, .014 37. .735 1. ,00 18. .20 8 ATOM 2137 OWO WAT w 49 15. .370 -7, .155 29. .434 1. .00 18. .50 8

ATOM 2138 OWO WAT w 50 20. .118 20, .536 34, .111 1. ,00 18. .97 8

ATOM 2139 OWO WAT w 51 23. .269 -5, .467 51. .272 1. ,00 19. .01 8

ATOM 2140 OWO WAT w 52 18. ,707 -18. ,348 45. ,501 1. 00 19. .39 8

ATOM 2141 OWO WAT w 53 29. .237 2. .519 48. .044 1. 00 19. .62 8 ATOM 2142 OWO WAT w 54 -2. .442 2. .172 47. .419 1. 00 19. .63 8

ATOM 2143 OWO WAT w 55 19. .933 -4. .327 22. .737 1. 00 19. .76 8

ATOM 2144 OWO WAT w 56 34. .473 -1. .581 37. .164 1. ,00 19. .96 8

ATOM 2145 OWO WAT w 57 12. .821 11. .824 47. .078 1. 00 20. .13 8

ATOM 2146 OWO WAT w 58 11. .503 7, .499 13. .241 1. ,00 20. .21 8 ATOM 2147 OWO WAT w 59 23. .684 -1, .037 20. .633 1. ,00 20. .22 8

ATOM 2148 OWO WAT w 60 -0. ,612 -3. .323 51. .692 1. 00 20. ,28 8

ATOM 2149 OWO WAT w 61 17. .007 14. .116 44. ,269 1. 00 20. ,65 8

ATOM 2150 OWO WAT w 62 -0. .273 -9. .571 27. ,817 1. 00 20. .67 8

ATOM 2151 OWO WAT w 63 -11. .316 -4. .375 40. ,684 1. 00 20. ,73 8 ATOM 2152 OWO WAT w 64 25. .755 -8. ,111 33. .313 1. 00 20. .89 8

ATOM 2153 OWO WAT w 65 -3. .039 -2. .283 51. .281 1. .00 20. .99 8

ATOM 2154 OWO WAT w 66 14. .409 -8. .631 51. .937 1. ,00 20. .99 8

ATOM 2155 OWO WAT w 67 -3. .784 -5, .571 30. .454 1. ,00 20. .99 8

ATOM 2156 OWO WAT w 68 28. .701 0. .916 24. .873 1. 00 21. .03 8 ATOM 2157 OWO WAT w 69 -2. .298 4. .090 45. .230 1. 00 21. .11 8

ATOM 2158 OWO WAT w 70 30. ,077 4. .491 44. ,090 1. 00 21. .11 8

ATOM 2159 OWO WAT w 71 -4. .539 6. .907 25. ,235 1. 00 21. ,20 8

ATOM 2160 OWO WAT w 72 7. .930 16. .602 17. ,863 1. 00 21. ,38 8

ATOM 2161 OWO WAT w 73 25. .030 5. .431 18. ,766 1. 00 21. ,46 8 ATOM 2162 OWO WAT w 74 21. .967 -14. .316 49. ,321 1. 00 21. ,78 8

ATOM 2163 OWO WAT w 75 2. .376 -6. .419 49. .074 1. 00 21. .92 8

ATOM 2164 OWO WAT w 76 4. .085 10. ,456 48. .716 1. 00 22. .11 8

ATOM 2165 OWO WAT w 77 5. ,239 -12. .232 48. .334 1. 00 22. ,25 8 ATOM 2166 OWO WAT W 78 -4.190 -2.933 30.508 1.00 22.26 8

ATOM 2167 OWO WAT W 79 8 .378 5 .587 51 .200 1 .00 22 .44 8

ATOM 2168 OWO WAT W 80 12 .983 -5 .518 20 .760 1 .00 22 .55 8

ATOM 2169 OWO WAT W 81 9 .499 10 .528 14 .890 1 .00 22 .84 8 ATOM 2170 OWO WAT W 82 2 .960 -17 .253 40 .993 1 .00 23 .00 8

ATOM 2171 OWO WAT W 83 6 .098 -15 .849 34 .785 1 .00 23 .11 8

ATOM 2172 OWO WAT W 84 -9 .765 -5 .816 36 .844 1 .00 23 .23 8

ATOM 2173 OWO WAT W 85 17 .165 -8 .431 51 .079 1 .00 23 .38 8

ATOM 2174 OWO WAT W 86 26 .762 4 .780 20 .872 1 .00 23 .45 8 ATOM 2175 OWO WAT W 87 -3 .582 -0 .255 20 .689 1 .00 23 .52 8

ATOM 2176 OWO WAT W 88 24, .998 -0 .493 54. .746 1. .00 23 .60 8

ATOM 2177 OWO WAT W 89 15, .378 4. .977 52 .842 1, .00 23 .62 8

ATOM 2178 OWO WAT W 90 -3, .290 -9 .213 32. .314 1. .00 23 .62 8

ATOM 2179 OWO WAT W 91 -1, .217 9 .980 21 .173 1, .00 23 .69 8 ATOM 2180 OWO WAT W 92 -4, .575 5 .139 23 .029 1. .00 23 .74 8

ATOM 2181 OWO WAT W 93 5 .660 -20 .272 33 .874 1, .00 23 .86 8

ATOM 2182 OWO WAT w 94 2 .570 -19 .717 32 .700 1. .00 23 .93 8

ATOM 2183 OWO WAT w 95 -2 .768 8 .489 18 .967 1. .00 24 .13 8

ATOM 2184 OWO WAT w 96 -9, .884 0, .662 45. .427 1. .00 24. .32 8 ATOM 2185 OWO WAT w 97 5, .619 -4. .476 51, .362 1. .00 24. .37 8

ATOM 2186 OWO WAT w 98 8, .421 11, .297 38. .167 1. .00 24. .65 8

ATOM 2187 OWO WAT w 99 25, .813 -8, .535 52, .635 1. .00 24. .70 8

ATOM 2188 OWO WAT w 100 20, .832 19, .605 26, .661 1. .00 24. .82 8

ATOM 2189 OWO WAT w 101 16, .258 -9, .256 21, .262 1. .00 24, .86 8 ATOM 2190 OWO WAT w 102 12 , .349 13, .826 43, .372 1. .00 24, .89 8

ATOM 2191 OWO WAT w 103 13, .170 -19, .745 35, .451 1. .00 24, .90 8

ATOM 2192 OWO WAT w 104 7. .075 17, .770 20. .578 1. .00 24. .93 8

ATOM 2193 OWO WAT w 105 22. .242 -3. .099 22. .446 1. ,00 24. .94 8

ATOM 2194 OWO WAT w 106 2. .596 -15. .349 31. .525 1. ,00 25. .01 8 ATOM 2195 OWO WAT w 107 13. .138 -13. .432 26. .305 1. ,00 25. .13 8

ATOM 2196 OWO WAT w 108 27. .906 13. .991 24. .255 1. ,00 25. .14 8

ATOM 2197 OWO WAT w 109 6. .218 -4. .057 14. .703 1. ,00 25. .22 8

ATOM 2198 OWO WAT w 110 10. .505 12, .665 32. .677 1. ,00 25. .29 8

ATOM 2199 OWO WAT w 111 -3. .781 -2. .725 27. ,641 1. .00 25. .30 8 ATOM 2200 OWO WAT w 112 30. ,677 10. ,964 34. 167 1. 00 25. ,31 8

ATOM 2201 OWO WAT w 113 17. ,661 -13. ,781 50. 306 1. 00 25. ,32 8

ATOM 2202 OWO WAT w 114 34. ,541 6. ,057 36. .868 1. 00 25. ,36 8

ATOM 2203 OWO WAT w 115 23. .605 3. ,174 17. .711 1. 00 25. ,38 8

ATOM 2204 OWO WAT w 116 17. .497 -13. ,278 24. .578 1. 00 25. .43 8 ATOM 2205 OWO WAT w 117 26. .337 -11. .225 48. ,970 1. .00 25. .54 8

ATOM 2206 OWO WAT w 118 -5. .239 13. .734 29. .361 1. .00 25. .59 8

ATOM 2207 OWO WAT w 119 -2. .765 6, .609 16. .532 1. ,00 25. .61 8

ATOM 2208 OWO WAT w 120 -0. .782 -2. ,817 17. ,108 1. 00 25. .71 8

ATOM 2209 OWO WAT w 121 16. .158 7. ,089 14. ,095 1. 00 25. .77 8 ATOM 2210 OWO WAT w 122 18. .930 12. .534 48. ,368 1. .00 26. .12 8

ATOM 2211 OWO WAT w 123 24. .403 -6. .067 53. .444 1. .00 26. ,65 8

ATOM 2212 OWO WAT w 124 -3. .404 4. ,730 49. .022 1. ,00 26. ,81 8

ATOM 2213 OWO WAT w 125 32, .619 10, .296 29. .183 1. ,00 26. .88 8

ATOM 2214 OWO WAT w 126 -6, .804 14. .466 42. ,289 1. ,00 27, ,19 8 ATOM 2215 OWO WAT w 127 24, .517 14, .294 40, .806 1. .00 27, .26 8

ATOM 2216 OWO WAT w 128 -4. .697 17. .443 41. .250 1. .00 27. .26 8

ATOM 2217 OWO WAT w 129 15, .601 -5. .581 15. .252 1. .00 27. ,49 8

ATOM 2218 OWO WAT w 130 19, .225 -7, .757 52. .854 1. .00 27. ,55 8

ATOM 2219 OWO WAT w 131 20, .571 -7, .244 23. .187 1. .00 27, .79 8 ATOM 2220 OWO WAT w 132 -5, .634 12 , .995 45, .863 1. .00 27, .84 8

ATOM 2221 OWO WAT w 133 29, .455 2, .015 28, .288 1. .00 27, .85 8

ATOM 2222 OWO WAT w 134 35 .253 6, .005 33, .542 1. .00 27, .91 8

ATOM 2223 OWO WAT w 135 26 .528 7 .004 17, .380 1. .00 28, .00 8

ATOM 2224 OWO WAT w 136 4, .802 -2 , .134 53. .088 1. ,00 28. .06 8 ATOM 2225 OWO WAT w 137 7, .702 -19, .316 35. .292 1. ,00 28. .29 8

ATOM 2226 OWO WAT w 138 33, .637 -3, .892 43, .427 1. ,00 28, .32 8

ATOM 2227 OWO WAT w 139 -3, .078 -11, .204 41, .616 1. .00 28, .34 8

ATOM 2228 OWO WAT w 140 7, .296 -11, .855 20, .394 1. .00 28, .39 8

ATOM 2229 OWO WAT w 141 -8 .355 14, .458 38, .156 1. .00 28, .47 8 ATOM 2230 OWO WAT w 142 -3 .786 -10 .077 45, .809 1. .00 28, .51 8

ATOM 2231 OWO WAT w 143 17 .884 8 .271 55, .001 1. .00 28, .52 8

ATOM 2232 OWO WAT w 144 -7, .450 9, .431 27. .023 1. .00 28. .66 8

ATOM 2233 OWO WAT w 145 25, .034 10, .848 14 , .171 1. .00 28. .68 8 ATOM 2234 OWO WAT W 146 27.154 14.822 33.256 1.00 28.71 8

ATOM 2235 OWO WAT W 147 3 .930 14 .554 35 .353 1 .00 28 .86 8

ATOM 2236 OWO WAT W 148 3 .832 14 .101 17 .367 1 .00 28 .94 8

ATOM 2237 OWO WAT W 149 -7 .141 6 .522 26 .433 1 .00 28 .95 8 ATOM 2238 OWO WAT W 150 16 .291 15 .441 37 .748 1 .00 28 .96 8

ATOM 2239 OWO WAT W 151 23 .732 -13 .472 32 .813 1 .00 29 .06 8

ATOM 2240 OWO WAT W 152 31 .579 0 .528 49 .009 1 .00 29 .17 8

ATOM 2241 OWO WAT W 153 0 .948 11 .515 50 .856 1 .00 29 .19 8

ATOM 2242 OWO WAT W 154 20 .562 20 .238 24 .104 1 .00 29 .61 8 ATOM 2243 OWO WAT W 155 14 .815 22 .549 27 .658 1 .00 29 .72 8

ATOM 2244 OWO WAT W 156 -0. .505 13 .461 15 .844 1 .00 29 .79 8

ATOM 2245 OWO WAT W 157 27 .503 -7 .381 36 .814 1 .00 29 .90 8

ATOM 2246 OWO WAT W 158 31 .766 -7 .236 46 .577 1 .00 29 .96 8

ATOM 2247 OWO WAT W 159 2 .280 5 .918 54 .243 1 .00 30 .06 8 ATOM 2248 OWO WAT W 160 15, .109 18 .191 36 .248 1 .00 30 .13 8

ATOM 2249 OWO WAT W 161 4 .637 -16 .479 32 .113 1 .00 30 .14 8

ATOM 2250 OWO WAT w 162 17 .268 13 .651 16 .688 1 .00 30 .17 8

ATOM 2251 OWO WAT w 163 19 .452 14 .125 43 .037 1 .00 30 .18 8

ATOM 2252 OWO WAT w 164 -4, .171 13 .696 26. .886 1, .00 30, .24 8 ATOM 2253 OWO WAT w 165 14, .909 -15 .477 49 .534 1, .00 30, .29 8

ATOM 2254 OWO WAT w 166 -8, .602 11 .318 30 .557 1, .00 30, .42 8

ATOM 2255 OWO WAT w 167 19, .207 -15 .058 28 .159 1. .00 30, .52 8

ATOM 2256 OWO WAT w 168 26, .601 10. .511 46. .969 1. .00 30, ,58 8

ATOM 2257 OWO WAT w 169 31, .110 -8. .170 41, .359 1, .00 30. .61 8 ATOM 2258 OWO WAT w 170 29, .593 8. .135 46, .349 1. .00 30. .72 8

ATOM 2259 OWO WAT w 171 -10, .368 -1 .876 34, .504 1, .00 30, .74 8

ATOM 2260 OWO WAT w 172 28, .564 -4 .100 29 .544 1, .00 30, .83 8

ATOM 2261 OWO WAT w 173 -12. .777 4, .044 45, .410 1. .00 30. .92 8

ATOM 2262 OWO WAT w 174 7. .794 -21. .931 42. .319 1. .00 30. .96 8 ATOM 2263 OWO WAT w 175 18, .808 -10. .251 23, .688 1. .00 31. .07 8

ATOM 2264 OWO WAT w 176 0, .113 -6 .364 50, .914 1. .00 31. .09 8

ATOM 2265 OWO WAT w 177 -3. .585 3. .671 16. .785 1. .00 31. ,12 8

ATOM 2266 OWO WAT w 178 4. .754 -21, .901 38. .826 1. ,00 31. ,24 8

ATOM 2267 OWO WAT w 179 3. .124 -4, .459 52. .013 1. .00 31. .30 8 ATOM 2268 OWO WAT w 180 27. .364 15, .293 27. .098 1. .00 31. ,43 8

ATOM 2269 OWO WAT w 181 19. .204 -18, .620 42. .633 1. .00 31. .46 8

ATOM 2270 OWO WAT w 182 23. .808 -11. .495 40. .059 1. ,00 31. .53 8

ATOM 2271 OWO WAT w 183 29. .332 -1, .923 29. .953 1. ,00 31. ,57 8

ATOM 2272 OWO WAT w 184 12. .448 14. .328 33. .070 1. ,00 31. ,59 8 ATOM 2273 OWO WAT w 185 1, .205 17, .345 29. .981 1. .00 31. ,67 8

ATOM 2274 OWO WAT w 186 -9. .791 7. .997 34. ,844 1. ,00 31. ,75 8

ATOM 2275 OWO WAT w 187 -7. .837 18, .408 38. .069 1. ,00 31. ,89 8

ATOM 2276 OWO WAT w 188 11. .140 -9, .008 50. .792 1. ,00 31. ,95 8

ATOM 2277 OWO WAT w 189 26. .511 -2 , .526 54. .760 1. .00 32. ,13 8 ATOM 2278 OWO WAT w 190 23. .093 -7. .348 24. ,192 1. .00 32. ,27 8

ATOM 2279 OWO WAT w 191 -10. .284 6, .288 39. .379 1. ,00 32. ,43 8

ATOM 2280 OWO WAT w 192 -7. .821 -0. .312 31. .358 1. ,00 32. ,44 8

ATOM 2281 OWO WAT w 193 20. .703 -19, .058 40. .128 1. .00 32. ,50 8

ATOM 2282 OWO WAT w 194 23. .085 18, .180 25. .298 1. .00 32. .52 8 ATOM 2283 OWO WAT w 195 18. .564 11. .924 14. ,883 1. .00 32. 61 8

ATOM 2284 OWO WAT w 196 19. .725 -15. .776 37. .227 1. ,00 32. ,93 8

ATOM 2285 OWO WAT w 197 9. .423 -12, .850 50. .029 1. ,00 33. ,07 8

ATOM 2286 OWO WAT w 198 -5, .226 -11, .891 39. .040 1. .00 33. ,31 8

ATOM 2287 OWO WAT w 199 -10. .872 11. .311 41. ,622 1. ,00 33. ,34 8 ATOM 2288 OWO WAT w 200 24. .953 -10, .123 51. .108 1. .00 33. ,47 8

ATOM 2289 OWO WAT w 201 10, .234 12, .343 37. .442 1. ,00 33. ,61 8

ATOM 2290 OWO WAT w 202 -1, .385 9, .325 49. .590 1. .00 33. .68 8

ATOM 2291 OWO WAT w 203 13, .133 -13, .562 50. .516 1. ,00 33. .68 8

ATOM 2292 OWO WAT w 204 32. .332 3, .720 31. .230 1. ,00 33. .72 8 ATOM 2293 OWO WAT w 205 -4 , .769 19, .603 30. .890 1. ,00 34. ,01 8

ATOM 2294 OWO WAT w 206 -10, .676 2, .037 32. .373 1. ,00 34. ,14 8

ATOM 2295 OWO WAT w 207 5, .473 -14, .541 47. .418 1. .00 34. .18 8

ATOM 2296 OWO WAT w 208 -0. .600 -4. .653 18. .959 1. .00 34. .35 8

ATOM 2297 OWO WAT w 209 5. .122 13, .867 48. ,979 1. ,00 34. ,37 8 ATOM 2298 OWO WAT w 210 -4, .776 -9, .796 38. .696 1. ,00 34. ,40 8

ATOM 2299 OWO WAT w 211 22, .711 8, .507 56. .151 1. ,00 34. .54 8

ATOM 2300 OWO WAT w 212 -5. .723 12. .192 25. ,199 1. ,00 34. 59 8

ATOM 2301 OWO WAT w 213 -5. .854 7. .368 47. .036 1. ,00 34. .60 8 ATOM 2302 OWO WAT W 214 2..162 12.775 15.472 1.00 34.69 8

ATOM 2303 OWO WAT W 215 29. .086 -4 .835 51 .244 1 .00 34 .91 8

ATOM 2304 OWO WAT W 216 29 .521 1 .500 30 .290 1 .00 35 .03 8

ATOM 2305 OWO WAT W 217 9, .270 16 .229 27 .647 1 .00 35 .08 8 ATOM 2306 OWO WAT W 218 -0, .559 -13 .990 44 .942 1 .00 35 .09 8

ATOM 2307 OWO WAT W 219 31, .092 12 .772 28 .102 1 .00 35 .13 8

ATOM 2308 OWO WAT W 220 4, .053 17 .330 40 .649 1 .00 35 .18 8

ATOM 2309 OWO WAT W 221 9, .804 12 .126 12 .806 1 .00 35 .19 8

ATOM 2310 OWO WAT W 222 16, .382 10 .037 14 .084 1 .00 35 .33 8 ATOM 2311 OWO WAT W 223 34, .860 8 .861 43 .050 1 .00 35 .36 8

ATOM 2312 OWO WAT W 224 2, .481 -1 .469 55 .185 1 .00 35 .39 8

ATOM 2313 OWO WAT W 225 27, .639 15 .901 20 .220 1 .00 35 .45 8

ATOM 2314 OWO WAT W 226 13, .522 14 .546 22 .193 1 .00 35 .58 8

ATOM 2315 OWO WAT W 227 18, .759 -16 .368 34 .341 1 .00 35 .64 8 ATOM 2316 OWO WAT W 228 29, .746 6 .054 47. .983 1, .00 35. .88 8

ATOM 2317 OWO WAT W 229 1, .824 8 .703 50. .441 1, .00 35. .91 8

ATOM 2318 OWO WAT w 230 4. .304 -10 .212 20. .566 1, .00 36, .11 8

ATOM 2319 OWO WAT w 231 25. .903 -4 .307 53. .039 1, .00 36, .25 8

ATOM 2320 OWO WAT w 232 30. .041 -9 .858 50. .314 1, .00 36, .32 8 ATOM 2321 OWO WAT w 233 2, .098 9. .375 12. .724 1, .00 36, .32 8

ATOM 2322 OWO WAT w 234 -6. .517 -10. .587 46. .846 1. .00 36, .56 8

ATOM 2323 OWO WAT w 235 -6. .610 -3. .836 30. .415 1, .00 36, .57 8

ATOM 2324 OWO WAT w 236 -10. .495 12. .363 34, .899 1, .00 36, .64 8

ATOM 2325 OWO WAT w 237 -9. .368 9. .062 33, .012 1, .00 36, .76 8 ATOM 2326 OWO WAT w 238 19. .878 23 .075 33. .288 1. .00 36, .92 8

ATOM 2327 OWO WAT w 239 -4. .530 7. .046 20, .896 1. .00 36, .93 8

ATOM 2328 OWO WAT w 240 33. .313 6. .152 46, .202 1. .00 36. .93 8

ATOM 2329 OWO WAT w 241 -8, .607 4 .039 46, .924 1. .00 37, .16 8

ATOM 2330 OWO WAT w 242 -0. .158 -8. .511 20, .728 1. .00 37, .69 8 ATOM 2331 OWO WAT w 243 5. .833 13 .274 13, .596 1. .00 37, .75 8

ATOM 2332 OWO WAT w 244 5. ,857 -19. .503 31. , 198 1. ,00 37. ,77 8

ATOM 2333 OWO WAT w 245 -2. ,468 -11, .125 30. ,496 1. ,00 37. .88 8

ATOM 2334 OWO WAT w 246 8. ,010 -18. .250 25. ,554 1. ,00 37. .97 8

ATOM 2335 OWO WAT w 247 -2. ,981 10. .860 22. .607 1. ,00 38. ,01 8 ATOM 2336 OWO WAT w 248 29. ,733 2. .478 51. ,185 1. .00 38. ,06 8

ATOM 2337 OWO WAT w 249 -1. ,876 18. .713 35. ,692 1. .00 38. ,18 8

ATOM 2338 OWO WAT w 250 -0. ,040 -2. .395 54. .365 1. .00 38. ,20 8

ATOM 2339 OWO WAT w 251 -2. ,499 -1, .254 18. ,143 1. .00 38. .26 8

ATOM 2340 OWO WAT w 252 1. .301 15, .936 18. , 064 1. ,00 38. ,65 8 ATOM 2341 OWO WAT w 253 -7. .703 5. .024 28. .841 1. ,00 38. .66 8

ATOM 2342 OWO WAT w 254 8. .197 -10, .548 51. .105 1. ,00 38. .97 8

ATOM 2343 OWO WAT w 255 19. .072 -5. .777 16. .600 1. ,00 39. .02 8

ATOM 2344 OWO WAT w 256 -1. .755 -6, .479 25. .704 1. ,00 39. .11 8

ATOM 2345 OWO WAT w 257 15. .948 -20, .846 38, .342 1. ,00 39. .37 8 ATOM 2346 OWO WAT w 258 -7. .884 13, .866 29, .148 1. .00 39. .59 8

ATOM 2347 OWO WAT w 259 34. .511 11, .821 32, .723 1. .00 39. .65 8

ATOM 2348 OWO WAT w 260 16. .479 -16. .084 27. .952 1. .00 39. .69 8

ATOM 2349 OWO WAT w 261 -8. .601 2. .060 30. .456 1. ,00 39. .87 8

ATOM 2350 OWO WAT w 262 -0. .861 17. .301 21. .849 1. ,00 39. .89 8 ATOM 2351 OWO WAT w 263 8. .555 -18. .275 47. .241 1. ,00 39. .93 8

ATOM 2352 OWO WAT w 264 24. .230 -5. .252 22. .664 1. ,00 40. .00 8

ATOM 2353 OWO WAT w 265 -1. .056 0, .937 53. .921 1. ,00 40. .53 8

ATOM 2354 OWO WAT w 266 16. .017 -13, .902 22. .326 1. ,00 40. .63 8

ATOM 2355 OWO WAT w 267 23. .066 10, .127 50. .334 1. ,00 40. .86 8 ATOM 2356 OWO WAT w 268 12. .877 15, .614 35. .023 1. .00 40. .87 8

ATOM 2357 OWO WAT w 269 21, .711 -4, .797 18. .761 1. .00 40. .90 8

ATOM 2358 OWO WAT w 270 28. .676 -7, .905 40. .739 1. .00 41. .51 8

ATOM 2359 OWO WAT w 271 21, .557 -6, .991 52. .277 1. .00 42. .05 8

ATOM 2360 OWO WAT w 272 18, .619 5 .353 14. .661 1. .00 42. .32 8 ATOM 2361 OWO WAT w 273 6, .542 -6, .740 51. .852 1. .00 42. .53 8

ATOM 2362 OWO WAT w 274 13, .730 15 .335 37, .537 1. .00 42, .69 8

ATOM 2363 OWO WAT w 275 25, .430 5 .894 14, .816 1. .00 42, .71 8

ATOM 2364 OWO WAT w 276 -6. .269 3, .726 22. .288 1. .00 43. .87 8

ATOM 2365 OWO WAT w 277 19. .099 -16, .349 31. .912 1. ,00 43. .95 8 ATOM 2366 OWO WAT w 278 19. .470 8, .026 13. .818 1. ,00 43. .97 8

ATOM 2367 OWO WAT w 279 22, .549 19, .383 22. .028 1. .00 44. .26 8

ATOM 2368 OWO WAT w 280 -7, .882 -11, .624 39, .578 1. .00 44. .88 8

ATOM 2369 OWO WAT w 281 12, .425 -9, .624 21. .392 1. .00 45. .09 8 ATOM 2370 OWO WAT W 282 9,.040 -7.996 13,.289 1,.00 45..24 8

ATOM 2371 OWO WAT W 283 18. .170 -7 .822 17, .373 1. .00 45. .27 8

ATOM 2372 OWO WAT W 284 20. .862 6 .192 13, .601 1, .00 45, .89 8

ATOM 2373 OWO WAT W 285 7. .780 -19 .941 30, .094 1, .00 46, .04 8

ATOM 2374 OWO WAT W 286 25. .580 16 .286 35, .358 1, .00 46, .89 8

ATOM 2375 OWO WAT W 287 16. .268 22, .912 35. .142 1. .00 47. .83 8

ATOM 2376 OWO WAT W 288 7. .741 15, .092 27. .401 1. .00 48. .86 8

ATOM 2377 OWO WAT W 289 30. .772 12, .835 22. .683 1. .00 49. .34 8

ATOM 2378 OWO WAT W 290 22. .334 12, .132 49. .136 1. .00 49. .76 8

ATOM 2379 OWO WAT W 291 -9. .173 -1, .103 47. .956 1. .00 50. .16 8

Claims

Patent Claims
1. A polypeptide with reduced immune response, having one or more amino acid residues modified, wherein the C-atoms of said amino acid residues are located less than 15 A from a ligand bound to said polypeptide.
2. A polypeptide according to claim 1, wherein the polypeptide has reduced allergenicity.
3. The polypeptide according to any of the claims 1 to 2, wherein the Cβ-atom of the amino acid residues is located closer to the ligand than the C-atom.
4. The polypeptide according to any of the claims 1 to 3, wherein the Cα-atoms of the amino acid residues are located less than 10 A from the ligand and said amino acid residues have an accessibility of at least 15%.
5. The polypeptide according to any of the claims 1 to 4, wherein the ligand is a metal or metal ion.
6. The polypeptide according to any of the preceding claims, wherein the polypeptide is modified by substitution of amino acid residues.
7. The polypeptide according to any of the claims 1 to 6, wherein the modified polypeptide has been selected from a diverse library of variants.
8. The polypeptide according to claim 6, wherein the substituting amino acids contain amino groups in the form of
Lysine residues (s), or carboxylic groups in the form of Aspartic acid or Glutamic acid residues, or SH-groups in the form of Cysteine residues.
9. The polypeptide according to claim 6, wherein the modification (s) is (are) prepared by a conservative substitution of an amino acid residue, such as an Arginine to Lysine substitution or Aspargine to Aspartate/Glutamate or a Glutamine to Aspartate/Glutamate substitution or Threonine/Serine to Cysteine .
10. The polypeptide according to claims 1-9, wherein the polypeptide is modified by coupling one or more polymeric molecules to said polypeptide, thereby providing a polypeptide- polymer conjugate.
11. The polypeptide according to claim 10, wherein the parent polypeptide moiety of the conjugate has a molecular weight from 1 to 1000 kDa, preferred 4 to 100 kDa, more preferred 12 to 60 kDa.
12. The polypeptide according to claim 10, wherein the polymeric molecules coupled to the polypeptide have a molecular weight from 0.1 to 100, preferably 0.1 to 60 kDa, more preferably 0.3-5 kDa, most preferably 1 to 2 kDa.
13. The polypeptide according to any of the preceding claims, wherein said polypeptide or parent polypeptide is an enzyme selected from the group of Oxidoreductases, including laccases and Superoxide dismutase (SOD); Hydrolases, including carbohydrases, amylases, proteases, especially subtilisins; Transferases, including Transglutaminases (TGases) ; Isomerases, including Protein disulfide Isomerases (PDI) ; Lyases, including Pectate lyases.
14. The polypeptide according to claim 13, wherein said polypeptide or parent polypeptide is PD498, Savinase®, BPN', Amylase, Proteinase K, Proteinase R, Subtilisin DY, Lion Y, Rennilase®, JA16, Alcalase®.
15. The polypeptide according to claim 14, wherein the polypeptide or parent polypeptide of the conjugate is a PD498 variant with one or more of the following substitutions: The amino acid residues in position 86, 87, 7, 47, 51, 219, 12, 218, 10, 11, 53, 28, 1, 65, 61, 63, 67, 60, 69, 55, 44, 45, 111, 115, 109, 215, 200, 202, 170, 268, 250, 152, 254, 136, 269, 246, 141 is substituted with K, D, E, or C, preferably R250K, R250D, R250E, R250C.
16. The polypeptide according to claim 14, wherein the polypeptide or parent polypeptide is a BPN' variant with one or more of the following substitutions: The amino acid residues in position 77, 2, 5, 43, 214, 206, 22, 215, 14, 17, 9, 36, 211, 195, 197, 154, 163, 247, 265, 251, 143, 127, 260, 131, 128, 243 is substituted with K, D, E, or C, preferably R247K, R247D, R247E, R247C.
17. The polypeptide according to claim 14, wherein the polypeptide or parent polypeptide is a Savinase® variant with one or more of the following substitutions: The amino acid residues in position 75, 2, 42, 208, 200, 14, 22, 17, 189, 241, 125, 125, 141, 245, 259, 237, 254, 157 is substituted with K, D, E, or C, preferably R241K, R241D, R241E, R241C. 5
18. The polypeptide according to claim 14, wherein the polypeptide or parent polypeptide is an amylase variant with one or more of the following substitutions: The amino acid residue in position 124, 126, 128, 159, 160, 166, 185, 186, 189, 190, 193, 194, 195, 196, 198, 201, 202, 203, 209, 210, 214, 242, 244, 10 247, 296, 298, 299, 302, 303, 304, 306, 307, 308, 310, 311, 314, 345, 347, 405, 406, 407, 408, 409, 433, 434, 435, 436, 437, 475, 476, 477, 478 is substituted with K, D, E, or C.
19. The polypeptide according to claims 10 or 12, wherein the polymeric molecule is selected from the group comprising a is natural or synthetic homo- and heteropolymers, selected from the group of the synthetic polymeric molecules including Branched
PEGs, poly-vinyl alcohol (PVA) , poly-carboxyl acids, poly-
(vinylpyrolidone) and poly-D, L-amino acids, or natural occurring polymeric molecules including dextrans, including carboxymethyl -
20 dextrans, and celluloses such as methylcellulose, carboxymethylcellulose, ethylcellulose, hydroxyethylcellulose, hydroxypropylcellulose, and hydrolysates of chitosan, starches, such as hydroxyethyl-starches, hydroxypropyl -starches, glycogen, agarose, guar gum, inulin, pullulans, xanthan gums, carrageenin,
25 pectin and alginic acid.
20. The polypeptide according to claim 19, wherein the modified polypeptide is savinase variant R241KbPEG1000 or R241KbPEG2000.
21. The polypeptide according to any of claims 1 to 7, 30 wherein the modified polypeptide is savinase variants
R241Q, R241E, R241H or R241K.
22. A method for preparing polypeptides with reduced immune response comprising the steps of: a) identifying amino acid residues located on the surface of the 35 3-dimensional structure of the parent polypeptide in question, b) selecting target amino acid residues on the surface of said 3-dimensional structure of said parent polypeptide to be modified, c) substituting one or more amino acid residues selected in step b) with other amino acid residues, and/or d) coupling polymeric molecules to the amino acid residues in step b) and/or step c) .
23. The method according to claim 22, wherein the Cα-atoms of the amino acid residues are located less than 15 A from the ligand bound to said polypeptide.
24. The method according to any of claims 22 to 23, wherein the Cβ-atoms of the amino acid residues are located closer to the ligand than the Cα-atom.
25. The method according to any of the claims 22-24, wherein the Cα-atoms of the amino acid residues are located less than 10 A from the ligand and said amino acid residues have an accessibility of at least 15%, preferable at least 20%, more preferably at least 30%.
26. The method according to any of the claims 22-25, wherein the identification of amino acid residues located on the surface on the polypeptide referred to in step a) are performed by a computer program analyzing the 3-dimensional structure of the parent polypeptide in question.
27. The method according to any of the claims 22 to 26, wherein step b) comprises selecting Arginine or Lysine residues on the surface of the parent polypeptide.
28. The method according to claim 27, wherein one or more Arginine residues identified in step b) is (are) substituted with a Lysine residue (s) in step c) .
29. Use of the modified polypeptide in claims 1 to 21 for reducing the allergenicity of industrial products.
30. Use of the modified polypeptide in claims 1 to 21 for reducing the immunogenicity of pharmaceuticals.
31. A composition comprising a modified polypeptide of any of claims 1 to 21 and further comprising ingredients used in industrial products.
32. The composition according to claim 31, wherein the industrial product is a detergent, such as a laundry, dish wash or hard surface cleaning product, including bio-film products or a food or feed product or a textile product.
33. The composition according to claim 32, comprising a modified polypeptide of any of claims 1 to 21 and further ingredients used in personal care products, especially skin care products .
34. A composition comprising a modified polypeptide of any of claims 1 to 21 and further comprising ingredients used in pharmaceuticals .
PCT/DK1999/000542 1998-10-13 1999-10-12 A modified polypeptide with reduced immune response WO2000022103A1 (en)

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