WO2009057230A1 - Method for producing cytidine 5'-monophosphate - Google Patents

Abstract

It is intended to provide a protein having an amino acid sequence represented by SEQ ID NO: 1, 2 or 30 having an activity to produce cytidine 5'-monophosphate (CMP) from cytosine, and a protein having an amino acid sequence in which in the amino acid sequence represented by SEQ ID NO: 1, 2 or 30, one or more amino acid residues selected from amino acid residues at positions 36, 46, 94, 102, 121, 141, 143, 167 and 198 have been substituted with another amino acid residue.

Description

 Description Method for producing cytidine 5, monomonophosphate Technical Field

 [0001]

 The present invention relates to a method for producing a novel protein having an activity of producing cytidine 5, monomonophosphate (CMP) from cytosine, the protein, a DNA encoding the protein, a recombinant DNA containing the DNA, the recombinant The present invention relates to a method for producing CMP using microorganisms that possess body DNA and cultures of the microorganisms.

 Background technology.

 [0002]

 CMP is used as an additive to infant milk with the other nucleotides adenosine 5, monomonophosphate (AMP), guanosine 5, monomonophosphate (GMP), uridine 5, monomonophosphate (UMP). Yes. Conventionally, CMP has been produced by enzymatic degradation of yeast RNA (Non-patent Document 1). However, this RNA dividing angle method has the disadvantage that four kinds of nucleotides are produced at the same time, resulting in a surplus in the product due to the difference between the production amount and the demand amount. For this reason, development of an inexpensive method for producing individual nucleotides is desired.

 [0003]

 Among the four types of nucleotides described above, an industrial individual production method has been established for GMP that can replace the RNA degradation method (Patent Document 1). On the other hand, inexpensive individual manufacturing methods for CMP, AMP, and UMP have not been established yet. As an individual method for producing these nucleotides, there is a method using a salvage synthesis route and using a corresponding base produced by a chemical synthesis method as a substrate. As a specific example using this route, adenosine using adenine as a substrate is used. 5. Industrial production of monotriphosphoric acid (ATP) is mentioned (Patent Document 2).

 0004

Enzymes involved in the salvage synthesis pathway include nucleotides corresponding to bases such as uracil phospholiposyltransferase (UPRTase), which catalyzes the reaction of UMi ⁵ and pyrophosphate from uracil and phosphoribosyl pyrophosphate (PRPP). Enzymes that produce succinamide in a single step are known. However, the salvage synthesis pathway enzymes that produce CMP are not known across all species.

 [Non-Patent Document 1] J. Gen. Appl. Microbiol., 3, 55 (1957)

[Patent Document 1] Japanese Patent Laid-Open No. 62-285797 [Patent Document 2] Japanese Patent Laid-Open No. 2-13439 Disclosure of Invention

 Problems to be solved by the invention

 [0005]

 An object of the present invention is to provide a method for producing a novel protein having an activity of generating CMP from cytosine, the protein, a DNA encoding the protein, a recombinant DN A containing the DNA, and the recombinant DN A An object of the present invention is to provide a method for producing CMP using a microorganism and a culture of the microorganism. Means for solving the problem

 [0006]

 The present invention relates to the following (1) to (14). '

 (1) A protein having an amino acid sequence represented by SEQ ID NO: 1, 2, or 30, which has an activity of producing cytidine 5, monomonophosphate (CMP) from cytosine.

 (2) In the amino acid sequence represented by SEQ ID NO: 1, 2, or 30, one or more amino acid residues selected from the 36th, 94th, 102th, 141st, 143rd, 143rd, and 198th amino acid residues A protein having an amino acid sequence in which a group is substituted with another amino acid residue, and having an activity of generating CMP from cytosine.

 (3) 36th amino acid residue is cysteine, 94th amino acid residue is tyrosine, 102nd amino acid residue is cysteine, 141st amino acid residue is leucine, 143rd amino acid residue is valine, or 198 The protein according to (2) above, which has an amino acid sequence in which the second amino acid residue is substituted with glycine.

 [0007]

 (4) In the amino acid sequence represented by SEQ ID NO: 1, 2, or 30, the 36th, 46th, 94th, 102nd, 121st, 141st, 143rd, 167th, 167th and 198th amino acid residues A protein having an amino acid sequence in which one or more amino acid residues selected from a group are substituted with other amino acid residues, and having an activity of generating CMP from cytosine.

 (5) 36th, 94th, 102th, 1'41st, 143rd, 198th, 201st, 20th, 204th and 205th in the amino acid sequence of the protein of any of the above (1) to (4) A protein having an amino acid sequence in which one or more amino acid residues selected from other amino acid residues are substituted with other amino acid residues, and having an activity of generating CMP from cytosine.

[0008] (6) In the amino acid sequence of the protein of any of the above (1) to (4), 36th, 46th, 94th, 102th, 121st, 141st, 143rd, 167th, 198th, 201st , Has an amino acid sequence in which one or more amino acid residues selected from amino acid residues other than the 204th and 205th amino acids are substituted with other amino acid residues, and has an activity of generating CMP from cytosine protein.

 (7) The DNA according to [1] or [2] below.

 [1] DNA encoding any of the proteins (1) to (4) above

 [2] DNA having the base sequence represented by any of SEQ ID NOs: 3 to 5

 (8) A recombinant DNA comprising the DNA of (7) above.

 [0009]

 (9) A microorganism having the recombinant DNA of (8) above. -

(10) The microorganism according to (9) above, wherein the microorganism belongs to the genus Escherichia, the genus Corynebatarum, or the genus Brevibaterium. -

 (11) The microorganism culture of (9) or (10) above or a treated product of the culture, cytosine, phosphate group donor and energy donor are present in an aqueous medium, and CMP is carried out in the medium. A process for producing CMP, characterized in that CMP is collected from the medium by generating and accumulating

 [0010]

 (12) The microorganism culture of (9) or (10) above or a treated product thereof, a culture of a microorganism belonging to the genus Corynepacteria or a treated product thereof, cytosine, a phosphate group donor and energy A process for producing CMP, comprising the step of causing a donor to be present in an aqueous medium, producing and accumulating CMP in the medium, and collecting CMP from the medium. '

 (13) The process according to (12) above, wherein the microorganism belonging to the genus Corynebataterium is corynepacteria ammonia genes. ,

 (14) The microorganism culture of (9) or (10) above or the treated product of the culture, cytosine, phosphate donor and energy donor are present in an aqueous medium, and A method for producing useful substances, characterized by using generated CMP.

 [0011]

 The present invention also relates to the following (15) to (24).

 (15)

A method for producing a protein having an activity of producing cytidine 5, monomonophosphate (CMP) from cytosine, comprising the following steps:

[1] CMP on the UMP binding site in UPRTa se on a computer using part or all of the three-dimensional structural information of protein (UPRTa se) that has the activity of generating uridine 5, monomonophosphate (UMP) from uracil Created by adapting UP Select one or more amino acid deletions, substitutions and / or additions in the amino acid sequence of UPRT ase that stabilizes the complex model of RTase and CMP; [2] selected in step [1] A process for producing a UPRTase mutant protein containing a deletion, substitution and / or addition.

 [0012]

 (16)

A method for producing a protein having an activity of producing cytidine 5, monomonophosphate (CMP) from cytosine, comprising the following steps:

 [11] Using a part or all of the three-dimensional structure information of the protein (UPRTase) that has the activity to generate uridine 5, monomonophosphate (UMP) from uracil, CMP is applied to the UMP binding site in UPRTase on a computer. Select one or more amino acid deletions, substitutions and / or additions in the amino acid sequence of UPRTase, which stabilizes the UPRTase and CMP complex model created by adaptation;

[12] Amino acid deletion, substitution and / or in the amino acid sequence of UPRTase, which stabilizes a multimer model of the complex created on a computer using a part or all of the complex model Selecting one or more additions;

[13] A step of producing a UP RTase mutant protein comprising the deletion, substitution and / or addition selected in the steps [11] and [12].

 (17)

 (15) A protein obtained by the method according to (16).

 [0013]

 (18)

In the amino acid sequence shown in SEQ ID NO: 15, the amino acid sequence has Γ to several amino acids deleted, substituted and Z or added,

A protein that has the activity of generating CMP from cytosine and contains one or more of the following amino acid substitutions:

Part or all of the three-dimensional structural information of a protein (UPRTase) comprising the amino acid sequence of SEQ ID NO: 15 represented by the three-dimensional coordinate atomic coordinates described in Table 1 and having an activity of generating UMP from uracil. In a complex model of UP RT ase and UMP that is created on a computer using UMP, substitution of an amino acid with a constituent atom in the range of 10 A from the oxygen atom of the oxo group at the 4-position of the pyrimidine ring of UMP Then, substitution of amino acid that stabilizes the complex model of UP RTase and CMP created on the converter by converting the UMP group of UMP of the complex model into an amino group.

 (19)

4 j The protein according to (18), wherein the amino acid substitution is substitution of dalysin at position 205 in the amino acid sequence described in SEQ ID NO: 15.

 [0014]

 (20)

The protein according to (18), wherein the amino acid substitution is substitution of glycine at position 205 to aspartic acid or glutamic acid in the amino acid sequence represented by SEQ ID NO: 15. (twenty one)

The protein according to (18), wherein the amino acid substitution is substitution of tyrosine at position 201 and proline at position 204 of the amino acid sequence described in SEQ ID NO: 15.

 (twenty two)

The protein according to (18), wherein the amino acid substitution is substitution of tyrosine at position 201 to lysine and substitution of proline at position 204 to leucine in the amino acid sequence shown in SEQ ID NO: 15. '.. ―

 (twenty three)

In the above complex model of UPRTase and UMP, substitution of an amino acid having a constituent atom in the range of 1 OA to any atom that forms UMP (however, oxygen of the oxo group at the 4-position of the pyrimidine ring of UMP) Including one or more amino acid substitutions that stabilize the complex model of UPRTase and CMP as described above (except for substitutions of amino acids whose constituent atoms are in the range from 1 atom to 1 OA) (18 ) The protein according to any one of (22) to (22).

 [0015]

 (twenty four)

Part or all of the three-dimensional structural information of the protein (UPRTase) comprising the amino acid sequence described in SEQ ID NO: 15 represented by the three-dimensional coordinate atomic coordinates shown in Table 1 and having the activity of generating UMP from uracil In a complex model of UP RTase and phosphoribosyl pyrophosphate (PRP P) created on a computer with Y (18) The protein according to any one of (18) to (22), which is an acid substitution and includes at least one amino acid substitution that stabilizes the complex model.

 (twenty five)

Within a complex multimer model created on a computer using a part or all of the complex model of UPRTa se and CMP, within 5 A from any atom of the adjacent UPRTa se monomer A substitution of an amino acid selected from the group consisting of an amino acid having a constituent atom and an amino acid having a constituent atom within 5 A from any one of the constituent atoms of position 66 Trp of the adjacent UPRTase monomer. Substitution with amino acids that stabilize the multimeric model (18) The protein according to any one of (18) to (24), which contains one or more.

 The present invention further includes a protein obtained by any one of the above-mentioned CP RTase production methods; a DNA encoding the protein; a recombinant DNA containing the DNA; a microorganism having the recombinant DNA; The present invention relates to a process for producing useful substances produced using CMP and CMP as a substrate or via CMP. Brief Description of Drawings

 0016

 FIG. 1 is a diagram showing the alignment results of amino acid sequences of various UPRTases. Fig. 2 Mutant Escherichia coli with amino acid substitutions of G205D, M141L, and A143V

It is a figure which shows the composite model of UPRTase and CMP.

 FIG. 3 is a diagram showing a tetramer model of a complex of Escherichia coli UPRTase and CMP. -― 'Best Mode for Carrying Out the Invention'

 [0017]

 The protein (CPRTa se) having the activity of producing cytidine 5, monomonophosphate (CMP) from cytosine of the present invention is the protein (UPRTa se) having the activity of producing uridine 5′-monophosphate (UM P) from uracil. ) Can be obtained as a different protein. The UPRTase mutated protein is a protein having an amino acid sequence in which one to several amino acids have been deleted, substituted and / or added in the amino acid sequence of UPRTase. In addition, the number of pieces may be 30 pieces, preferably 20 pieces, and more preferably 5. '

 [0018]

 In the present specification, the activity of generating cytidine 5, monophosphate (CMP) from cytosine (CPRTase activity) means the activity of synthesizing CMP and pyrophosphoric acid from cytosine and PRPP. In this specification, CPRTa se may have the activity of synthesizing 11 ^^? From uracil and P 1 ?? (UPRTa se activity), but it can be confirmed by the method described in the examples below. When compared by the method, it is preferable that the CPRTase activity is higher than the UPRTase activity, the CPRTase activity is more preferably 10 times higher than the UPRTase activity, and it has substantially no UPRTase activity. Further preferred.

 [0019]

Selection of amino acid mutations to be added to UPRTase for the production of CPRTase can be carried out by preparing mutant proteins at random and confirming the activity of those mutant proteins by the method described below. Amino acid mutation or mutation is UP Means amino acid deletion, substitution and / or addition in addition to the RTase amino acid sequence.

 Although the screening method is not particularly limited, for example, Py rG (CTP synthetase), co dA (cytosine deamidation) using a recombinant DNA containing a DNA encoding a protein having an arbitrary mutation. ), Cdd (Cytidine deaminase) E. coli which has lost the three enzyme activities transformed, and whether the resulting transformant grows in a cytosine-containing minimal medium as an indicator Alternatively, it may be carried out by producing a protein having an arbitrary mutation, quantifying the amount of CMP produced, and confirming CPRTase activity.

 [0020]

 Another method for selecting amino acid mutations to be added to UPRTase for the production of CPRTase is to use a computer model created on the basis of the three-dimensional structure information of UPRTase. Can be mentioned.

 [0021]

 As the three-dimensional structure information of UPRTase, any information available to those skilled in the art may be used. Structure information obtained by crystal structure analysis or structure information obtained from a database such as PDB (Protein Data Bank) is used. Alternatively, the structure information created by using a protein homology model creation program such as Insight 97 with the structure as a saddle may be used. Further, the three-dimensional structure information may be information on UPRTase monomer, and may be information on a multimer such as a dimer or a tetramer. Furthermore, the three-dimensional structure information may relate to a part of the UPRTase monomer or multimer, but preferably includes information on the UMP binding site described below. In addition, when the above three-dimensional information is used to create a multimeric model, it is preferable to include information on the boundary between monomers.

 ,

 In order to select amino acid mutations to be added to UPRTase, for example, a composite model of UPRTase and CMP can be created using the above-described three-dimensional structural information of UPRTase. In creating this model, the entire 3D structure information or a part of it may be used. When using a part, it is preferable to select a site containing at least the UMP binding site described later. Alternatively, a site considered to be involved in stabilization of the complex of UPRTase and CMP may be selected in advance, and a complex model including the site may be created.

 [0023]

UPRTase, which uses three-dimensional structural information and is the basis for mutation, may be any protein that has the activity to produce uridine 5'-monophosphate (UMP) from uracinole, and the organism from which it is derived is particularly limited. Not. Examples of derived microorganisms include Acholeplasma laidlawii (J Bacteriol. (1983) 156: 192-7 Crithidia luciliae (Comp Biochem Physiol B. (1990) 95: 159-63.) Escherichia coli (Biochim Biophys Acta. (1986) 881 268-75.Genbank Accession No X57104) Bacillus caldolyticus (J Bacteriol. (1994) 176: 3698-707.Genbank Accession No.X99545) Toxoplasma gondii (Proc Natl Acad Sci USA. (1995) 92: 5749-53 · Genbank Accession No. (Biochim Biophys Acta. (1996) 1296: 16-22).

 [0024]

 Regarding the UMP binding site in UPRT a s e, UPRT a s e derived from Toxoplasma gondii has already been reported (EMB0 J. (1998) 17 3219-3232). In this UPRTase derived from Toxoplasma gondii, the carbonyl oxygen atom at the 2-position of the pyrimidine ring on the amide hydrogen atom of the 236th phalaranine and the pyrimidine ring 3 at the oxygen atom of the carbonyl group of the 234th glycine. The hydrogen bond with the hydrogen atom at the position and the amide hydrogen atom of the 22nd 9th isoleucine form a hydrogen bond with the oxygen atom at the 4-position of the pyrimidine ring, thereby stabilizing the bond with the pyrimidine ring of UMP. ing.

 [0025]

 Based on the information on the UMP binding site described in the above document, the UMP binding site can also be determined for other types of UPRT as. Specifically, alignment of the amino acid sequence of UPRT ase derived from Toxoplasma gondii and the amino acid sequence of UPRT ase using three-dimensional structural information (ClustalW [Nucelic Acids Research 22, 4673, (1994)] (European Bioinformatics Institute website (http:. Ebi. Ac. Uk / clustalw), alignment analysis software included in Genetyx (Software Development Co., Ltd.) 3D structure information UMP binding The site can be determined. Default values can be used as analysis software parameters for alignment. FIG. 1 shows an example of alignment of amino acid sequences of various UPRTases including UPRT ase derived from Toxoplasma gondii and Escherichia coli. From this result, in UPRT ase derived from EschericMa coli, isoleucine at position 202, glycine at position 107, alanine at position 209, etc. are considered to be involved in the binding of the pyrimidine ring of UMP.

 [0026]

 In order to create a composite model of UPRT as and CMP, CMP can be adapted on the computer to the above UMP coupling site.

Examples of methods for adapting CMP to the UMP binding site include the following methods. Dock UMP to UPRT ase from Escherichia coli After selecting the structure that has already been reported for UPRTase derived from xoplasma gondii and adopting the conformation in which the hydrogen bond of UMP pyrimidine ring and WPRTase is maintained, it was created by minimizing the energy of the complex. The UMP complex model is used. In the above complex model, oxygen in the 4-position carbonyl group of the pyrimidine ring of UMP is substituted with an amino group, and hydrogen at the 3-position of the pyrimidine ring is removed, so that UMP is converted to CMP as CMP. Further, repeat energy minimization calculation is performed for the model.

 Thus, a complex model of UPRT as and CMP can be created by adapting CMP to the UMP binding site.

 [0027]

 The selection of amino acid mutations in UPRTase for the production of C PRTase using the complex model of U PRTase and CMP created as described above is the selection of amino acid mutations in UPRTase that stabilize the model. You can do it by making a choice. In this specification, “stabilizing the model” means, for example, reducing ΔAG. Here AG (free energy change) means the energy of the complex of UPRTase and UMP minus the energy of the protein alone and the energy of UMP alone. AAG is the complex of UPRTase and CMP here. It means the ΔG force calculated from the structure minus the AG calculated from the complex structure of mutant UPRTase and CMP. For example, when selecting mutations such as amino acid substitutions that stabilize the model, the AG difference between the model before and after the mutation is calculated on the converter, and the energy level after the amino acid mutation is 5 kJ / mo 1, It can be carried out by selecting a mutation that preferably decreases by 20 kJ / mo 1, more preferably 50 kJ / mo 1 or more. Such calculations can be performed with the docking program Glide.

 [0028]

 In addition, mutations such as amino acid substitutions that stabilize the model can be selected between model components (such as between UPRT ase and CMP in a complex model of UPRT ase and CMP, or between monomers in a multimeric model). ) Can be used as an index. That is, a mutation that increases the affinity between components may be selected.

 [0029]

'Selection of mutations that increase affinity can be done, for example, by visual observation of the model. Hydrophobic interaction between structural elements (UPRT ase and CMP, between monomers, etc.) in the model, · electrostatic interaction · hydrogen bonding · π / π interaction (magnetic field generated by ring current of aromatic ring) Interaction) 'CH / π interaction (Interaction of the ring current of the aromatic ring and the magnetic field generated by the electrons of the methyl group) 1 Select a mutation that increases or enhances. [0030] In the complex model of UPRTase and CMP, specifically, in order to stabilize the model, mutations can be selected first by focusing on the structural differences between UMP and CMP. UMP and CMP differ at the 4-position of the pyrimidine ring, except that UMP is an oxo group and CMP is an amino group. Therefore, for example, in the UPRTase where the center of the constituent atom exists in the vicinity of the 4-position amino group of the pyrimidine ring of CMP (about 1 OA, preferably about 8 A, more preferably about 5 A from the center of the nitrogen atom of the amino group). Affinity between UPRTase and CMP can be increased by changing the amino acid residue to an amino acid residue that interacts with the CMP amino group. In addition, in this specification, when showing the distance between atoms, the distance between the centers of atoms is shown. The distance between atoms can be measured by tapping and selecting two atoms to be measured in the model displayed on graphics by Insight 97. UMP and CMP differ in whether the nitrogen atom at the 3-position of the pyrimidine ring has a hydrogen atom. Thus, for example, the UPRT ase in which the center of the constituent atom exists in the vicinity of the nitrogen atom at the 3-position of the pyrimidine ring of CMP (about 10 A, preferably about 8 A, more preferably about 5 A from the center of the nitrogen atom). Affinity between UPRTase and CMP can be increased by changing the amino acid residue to an amino acid residue that interacts with the CMP amino group. Furthermore, it is also preferable to select a mutation by comprehensively judging the amino acid residues of UPRTase in the vicinity of the 4th and 3rd positions of the pyrimidine ring. This is because, in UMP and CMP, it can be considered that the relationship between the 2- and 3-position hydrogen bond donors and acceptors of the pyrimidine ring is reversed.

 Mutations selected by focusing on the structural differences between UMP and CMP are most likely to contribute to the stabilization of the complex model of UPRTase and CMP, and are essential for the change in UPRTase activity. It is thought that. '

 [0031]

 For example, in Escherichia coli UPRTase, by making Gly at position 205, for example, Asp or Glu, an electrostatic interaction occurs between this Asp or Glu residue and the amino group of cytosine. Can be stabilized. In addition, by using Lys as the 201 position Tyr, the shape of the binding site becomes a flat shape suitable for the binding of the pyrimidine ring, and the complex model can be stabilized. In this specification, for example, replacing Gly at position 205 with Asp is G20SD, so that the amino acid before the mutation is preceded by the numerical value indicating the mutation position, and then the amino acid after the mutation is abbreviated by one letter. May be used to indicate. [0032]

A complex model of UPRT ase and UMP can also be used to select mutations that stabilize the complex model of UPRT ase and CMP. Since the binding position of UMP and CMP is considered to be almost the same, by using the complex model of UMP and UPRT ase created directly from the above 3D structure information, it is practically This is because amino acids involved in CMP and UPRTase interaction can be selected. In this model, for example, an amino acid residue in the vicinity of the 4-position oxo group of the pyrimidine ring of UMP (the center of the constituent atom is about 10 A, preferably about 8 A, more preferably about 5 A from the center of the oxygen atom of the oxo group). Can be selected. The amino acid after mutation may be selected assuming that the 4-position oxo group of the pyrimidine ring is replaced with an amino group. In addition, an amino acid residue in the vicinity of the nitrogen atom at the 3-position of the pyrimidine ring of UMP (amino acid residue in which the center of the constituent atom exists about 10 A, preferably about 8 A, more preferably about 5 A from the center of the nitrogen atom) ) Can be selected. The amino acid after mutation may be selected assuming that there is no hydrogen atom bonded to the nitrogen atom at the 3-position of the pyrimidine ring.

 0033

 A complex model of UPRTase and cytosine or uracil can also be used to select mutations that stabilize the complex model of UP.RTase and CMP. In EMBO J. (1998) 17: 3219-3232 mentioned above, the uracil bond in UPRTase is reported. In the same way as the above UPRTa se and CMP complex model or UPRTa se and UMP complex model, a complex model of UP RTase and 'cytosine or uracil is created, and these complex models are prepared by the method described above. Select a mutation that stabilizes Dell.

 [0034]

 For production of CPRTase, create a complex model of UPRTase and CMP with the mutation selected as above, and select additional amino acid mutations that stabilize the model. You can do it. Alternatively, based on the amino acid sequence of the mutant UPRTase having the mutation selected using any of the above complex models, random screening can be performed to obtain a more active CP RTase. . ,

 For example, in accordance with the screening method described above, DNA having a mutation selected above is used as a saddle type DNA encoding the mutation UPRTase, and DNA having a random mutation is prepared by an error prone PCR method or the like. Screening can be performed using transformants prepared using recombinant DNA containing A.

 [0035]

In addition to the above-mentioned UP RT ase and CMP complex model and UPRT ase and UMP complex model, other models are selected in addition to the variation selected by focusing on structural differences between UMP and CMP. Mutations that stabilize can be selected. It is preferable that other mutations coexist with mutations selected by focusing on the structural differences between UMP and CMP. As another option, for example, in a complex model of UPRTase and CMP, about 1 OA is preferred from the center of any atom constituting CMP. The center of the constituent atom is preferably in the range of about 8 A, more preferably about 5 A. U

For example, the amino acid residue of PRTase may be changed to an amino acid residue that interacts with the CMP amino group. Similarly, in the complex model of UPRTase and UMP, the center of the constituent atom exists in the range of about 10 A, preferably about 8 A, more preferably about 5 A from the center of any atom constituting UMP. The amino acid residue of UPRTase can be selected as an amino acid residue to be mutated. [0036]

 In addition, for selection of other mutations, it is possible to create a complex model of PRPP and UPRTase, which is another substrate of CPRTase, and select a mutation that stabilizes the model. It is preferable that the mutation selected in this manner coexists with the mutation selected by paying attention to the structural difference between UMP and CMP.

 [003 7]

 UPRT ase usually forms a dimer, but GTP binds to form a tetramer, and it is known that amino acids that interact with PR PP increase and UPRT ase activity increases (Proc Natl. Acad. Sci. USA (2002) 99: 78-83.).

Since a similar tendency can be predicted for CPRTase, it can be predicted that CPRTase activity will be increased by mutations that stabilize multimers. Therefore, amino acid mutations added to UP RT as for the production of CPRT as can also be carried out by selecting mutations that stabilize UPRT as or the multimeric model of any of the aforementioned complexes.

 [0038]

 Mutations that stabilize the multimeric model include examining the amino acids at the boundary between each monomer on computer graphics and energeticly unstable elements between them (for example, electrostatic repulsion, steric repulsion). Etc.) can be mutated to remove unstable elements or to strengthen the interaction. For example, an amino acid having a center of the constituent atom in the range of about 10 A, preferably about 8 A, more preferably about 5 A from any atom of the adjacent UP RTase monomer is added to the adjacent atom. It can be changed to amino acid residues that interact with the monomer of UPRTase.

 [0039]

In addition, as described in EMBO J. (1998) 17: 3219-32.32.the arm composed of the second and third strands (B2, B3) and the second of the other monomer, A dimer is formed by the interaction between the third and fourth _α- helices (A2, A3, A4). Therefore, it is conceivable to select mutations focusing on these regions (B2, B3, A2, A3, A4) including the i8 arm. The multimer model may be created based on the three-dimensional structure information of UPRTase, or preferably one of the above-mentioned complex models. In particular, since the multimeric structure is thought to contribute to increasing the binding site with the substrate, it is preferable to create the multimeric model using all or part of the complex model of UPRTase and PRPP. ,. [0040]

 Based on the UPRTase mutated protein having the mutation selected as described above, random screening can be performed to obtain a more active CPRTase. '

 In addition to the mutations selected as described above, the mutant protein of UP RTase obtained as CPRTase is a mutation introduced as a side effect, or a substitution to a mutually convertible amino acid as described below. Other mutations such as may be included. Although the production method of the mutant protein is not particularly limited, it can be produced by a method using gene recombination described in the production of a specific protein described later.

 [0041]

 1. Protein of the present invention (CPRTa s e) '

 As examples of CPRTase of the present invention, the following proteins (a) to (d) can be mentioned.

 (a) a protein having an amino acid sequence represented by SEQ ID NO: 1, 2, or 30 having an activity of generating CMP from cytosine,

 (b) one or more amino acid residues selected from the 36th, 94th, 102nd, 141st, 143rd and 198th amino acid residues in the amino acid sequence represented by SEQ ID NO: 1, 2, or 30 A protein having an amino acid sequence substituted with other amino acid residues and having an activity of generating CMP from cytosine,

 (c) 36th amino acid residue is cysteine, 94th amino acid residue is tyrosine, 102nd amino acid residue is cysteine, 141st amino acid residue is leucine, 143rd amino acid residue is valine, or 198 The protein of (b) above having an amino acid sequence in which the second amino acid residue is substituted with glycine, and

 (d) In the amino acid sequence of the protein of any of the above (a;) to (c), 36th, 94th, 102nd, 141st, 143rd, 198th, 201st, 20th 4th A protein having an amino acid sequence in which at least one amino acid residue selected from amino acid residues other than the 205th amino acid residue is substituted for other amino acid residues, and having an activity of generating CMP from cytosine;

Etc.

 [0042]

The “other amino acid residues” in the above (b) and (d) may be either natural or non-natural amino acids. Natural amino acids include L-alanine and L-a. Sparagin, L-aspartic acid, L-glutamine, L-glutamic acid, glycine, L-histidine, L-isoleucine, L-sip Icine, L-lysine, L-arginine, L-methionine, L-phenenolealanine, L-proline, -L-serine, L-threonine, L-tryptophan, L-tyrosine, L-valine, L-cysteine, etc.

 [0 0 4 3]

 Preferably, as the other amino acid residues in (b) above, the 36th amino acid residue is cysteine, the 9th amino acid residue is tyrosine or phenylalanin, the 100th second amino acid residue is cysteine, 1 4 The first amino acid residue is leucine, isoorcinine, nonoleucine, norin, nonolevaline, alanine, 2-aminobutanoic acid, methionine, O-methylserine, t-butylglycine, t-ptylalanin opicyclohexylalanine 1 4 3rd amino acid residue is parin, leucine, isoleucine, norleucine, norvaline, alanine, 2-aminobutanoic acid, methoyun, 0-methylserine, t-butylglycine, ΐ-butylalanine and The amino acid selected from hexylalanin, 1 9 8th amino acid residue is glyc Can be raised.

 [0 0 4 4]

 Examples of amino acids that can be substituted for each other in the protein (d) are shown below. Amino acids included in the same group can be substituted for each other.

 Group A: Leucine, isoleucine, norleucine, valine, nonoleparin, arayun, 2-aminobutanoic acid, methionine, O-methylserine, t-butylglycine, t-ptylalananine, cyclohexinolealanine

 Group B: Aspartic acid, Gudamic acid, Isospartic acid, Isoglutamic acid, 2-Aminoadipic acid, 2-Aminosuberic acid

 Group C: asparagine, glutamine,

 Group D: Lysine, Arginine, Ornitine, 2,4-Diaminobutanoic acid, 2,3-Diaminopropionic acid

 Group: Proline, 3-hydroxyproline, 4-hydroxyproline

 Group F: serine, thread-retained nin, homoserine

 Group G: phenenolealanine, tyrosine

The above proteins (b) and (d) have the activity of generating CMP from cytosine. The use of recombinant DNA containing DNA encoding the protein, PyrG (CTP synthetase) ), Cod A (cytosine deaminase), and cdd (cytidine deaminase), which are transformed into E. coli lacking the three enzyme activities, and the resulting transformant is transformed into cytosine-containing minimal medium. This can be confirmed by being able to grow. 2. DNA of the present invention

 The DNA of the present invention includes the DNAs described in the following (e) and (f)

 (e) DNA encoding the protein of the present invention of 1 above, and

 (f) DNA having the base sequence represented by any of SEQ ID NOs: 3 to 5

Etc.

 3. Preparation of DN A of the present invention

 The DNA of the present invention can be obtained by introducing a mutation into DNA encoding UPRT ase derived from Escherichia colO.

 (1) Acquisition of DNA encoding UPRTase derived from Escherichia coli The method for obtaining DNA encoding UPRTase derived from Escherichia coli is the method of Saito et al. [Biochim. Biophys. Acta, 72, 619 (1963),] is a chromosomal DNA that can be prepared according to the nucleotide sequence represented by SEQ ID NO: 5, using a primer DNA that can be designed and synthesized: PCR etc. And the like.

 [004 5]

 Specifically, a chromosomal DNA (SEQ ID NO: 6) is prepared from Escherichia coli W3110 strain, and the DNA having the nucleotide sequence represented by SEQ ID NOs: 7 and 8, for example, is chemically synthesized using the DNA as a cage. It can be obtained by PCR using DNA as a primer set. Specific examples of DNA that can be obtained by the above method include DNA having the base sequence represented by SEQ ID NO: 5. ,

 [0 04 6]

 In addition, DNA encoding UPRTase derived from Escherichia coli can also be obtained by the hybridization method using part or all of the DNA consisting of a base sequence complementary to the base sequence represented by SEQ ID NO: 5 as a probe. can do. The hybridization method can be performed in accordance with the method described in Molecular Cloning, A Laboratory Manual, Third Edition, Cold Spring Harbor Laboratory Press, 2001 (hereinafter abbreviated as “molecular cloning”).

 [004 7]

 Furthermore, DNA encoding UPRT ase derived from Escherichia coli can also be obtained by chemically synthesizing DNA having the base sequence by a known method based on the base sequence represented by SEQ ID NO: 5.

 (2) Preparation of DN A of the present invention

The DNA of the present invention can be obtained by using molecular cloning and Current Protocols in Molecular Biology, John Wiley & Sons (1987-1997) (hereinafter referred to as current protocol). Mouth Tocoles in. Molecular. Biology) etc. Subordinates can be obtained by introducing site-specific mutations. It can also be obtained by introducing random mutations into DNA having the nucleotide sequence represented by SEQ ID NO: 5 by the error-prone PCR method [Proc. Natl. Acad. Sci. USA, 90, 5618 (1982)]. be able to.

 [0 0 4 8]

 In addition, a complex structure of UPRT ase and UMP such as Toxoplasma gondi i and Bacillus caldolyticus derived from various organisms is used as a mirror structure to create a homology model of E. coli and based on this model. The amino acid residues near the UMP binding site are extracted, and the amisic acid residues that are assumed to play an important role in converting substrate specificity from uracil, which is the original substrate, to cytosine are selected. It is also possible to select a protein having an activity of converting cytosine into CMP by introducing a site-specific mutation. For details, refer to the description of the item “CPR T a s design” above. '

4. Production of the protein of the present invention

 The protein of the present invention of 1 above is obtained by using the method described in Molecular 'Cloning Current Protocols' In'Molecular' Bio Mouth, etc., for example, by the following method. It can be produced by expressing DNA in a host cell.

 [0 0 4 9]

 That is, based on the DNA that can be obtained by the above method 3, if necessary, a DNA fragment of an appropriate length containing a portion encoding the protein of the present invention is prepared. Recombinant DNA inserted downstream of the expression vector promoter is prepared. A transformant can be prepared by introducing the recombinant DNA into a host cell suitable for the expression vector.

 [0 0 5 0],

 In addition, the protein of the present invention can also be efficiently produced by preparing a DNA in which the nucleotide sequence of the DNA fragment is substituted with a base so that it becomes an optimal codon for host cell expression.

 Any host cell can be used as long as it is capable of expressing the target gene. As the expression vector, a vector that can replicate autonomously in the above host cell and contains a promoter at a position where the DNA encoding the polypeptide of the present invention can be transcribed is used.

 [0 0 5 1]

When a prokaryotic organism such as a bacterium is used as a host cell, the recombinant vector containing the DNA encoding the protein of the present invention is capable of autonomous replication in the prokaryotic organism, and at the same time a promoter, a ribosome binding sequence, DNA of the present invention, transcription termination sequence, A constructed vector is preferred. A gene that controls the promoter may also be included.

Expression base Kuta foremost, when Ru using a microorganism belonging to Escherichia genus, for example a host cell, pBTrp2, pBTacl, _P BTac2 (both巿sales than Boehringer Mannheim), pTrc99A (Pharmacia Co.), pSE280 (Invitrogen PGEMEX-1 (Promega), pQE82L (QIAGEN), pKYPIO (JP 58-110600), pYP200 (Agric. Biol. Chem., 48, 669 (1984) ], PLSAl [Agric. Biol. Chem., 53, 277 (1989) 3, pGELl [Proc. Natl. Acad. Sci. USA, 82, 4306 (1985)], pBlue script II SK (-) (Stratagene) ), PTrs30 [Escherichia coli J1109 / pTrS30

(Prepared from (FERM BP-5407)), pTrs32 (prepared from Escherichia coli JM109 / pTrS32 (FERM B P-5408)), pGHA2 (prepared from Escherichia coli IGHA2-(FERM BP-400), JP-A-60-221091 Gazette], pGKA2 (prepared from Escherichia coli IGKA2 (FERM BP-6798), JP 60-221091); Term2 (US4686191, US4939094, US5160735), pSupex, pUBHO, pTP5, pC194, pEG400 (J. Bacterid., 172, 2392 (1990)], p GEX (manufactured by Pharmacia), pET system (manufactured by Novagen), etc., when using microorganisms belonging to the genus Corynebacterimn as host cells , PCGl (Japanese Unexamined Patent Publication No. 57-134500), pCG2 (Japanese Unexamined Patent Publication No. 58-35197), pCG4 (Publication No. 57-183799), pCGll (Japanese Unexamined Patent Publication No. 57-134500), pCG116, pCE54, pCBlOl (all published in JP-A-58-105999), pRI109 (reprinted in 2000-44886: W000 / 44886), pCE51, pCE52, pCE53 (all of which are Molecular and General Genetics, 196, 1 75 (1984)].

 [0 0 5 2]

The promoter may be any as long as it functions in the host cell. For example, tr promoter (P trD _{_),} lac promoter, P _L promoter, P _R-flops opening motor, such as _T7 promoter, E. coli and file - it is possible to increase the promoter derived from the di-like. Artificially modified promoters such as a promoter in which two P _trDs are connected in series (P _trD X 2), tac promoter, lacT7 promoter, let I promoter, etc. can also be used.

 [0 0 5 3]

 It is preferable to use a plasmid in which the distance between the Shine-Dalgarno sequence, which is a reposome binding sequence, and the initiation codon is adjusted to an appropriate distance (eg, 6 to; L8 base). In the recombinant vector of the present invention, a transcription termination sequence is not necessarily required for expression of the DNA of the present invention, but a transcription termination sequence is preferably arranged immediately below the structural gene.

Host cells include microorganisms belonging to the genus Escherichia, the genus Corynepacteria ½ orynebacterium, or Brevibacterium, For example, Escherichia coli ゝ Corynebacterium ammoniagenes. Escherichia coli DH1, Escherichia coli DH5 Escherichia coli MC1000, Es cherichia coli MM294, Escherichia coli ¥ 1485, Escherichia coli JM109, Esc herichia coli thigh 01, Escherichia coli No. 49, Escherichia coli W3110 _s Escb erichia coli NY49, Escherichia coli GI Corvnebacterium ammoniagenes A TCC6872, Corynebacterium ammoniagenes ATCC21170, Corvnebacterium glutamic um ATCC13032, Corynebacterium glutamicum ATCC21171, Brevibacterium immarn ophilum ATCC14068, Brevibacterium saccharolyticum .ATCC14066, Brevibacteri uin flavum ATCC14067, Mashiku can be mentioned Corynebacterium ammoniagenes ATCC21170, Coryneb acterium glutamicum ATCC21171.

 [0 0 5 4]

 As a method for introducing a recombinant vector, any method can be used as long as it is a method for introducing DNA into the above host cell. For example, a method using calcium ions [Proc. Natl. Acad. Sci. USA, 69, 2110 (1972)], protoplast method (JP 57-18649 2 and JP 57-18649), electroporation [for example, Journal of Bacteriology, 175, 4096 (1993), Appl. Microbiol Biotechnol., 52, 541 (1999)], Gene, 17, 107 (1982) and Molecular & General Genetics, 168, 111 (1979).

 [0 0 5 5] '

 In addition to producing the protein of the present invention as it is, the protein of the present invention can be produced as a secretory product or a fusion protein according to the method described in Molecular Cloning.

 The protein of the present invention can be obtained by culturing the transformant obtained by the above method in a medium, producing and accumulating the protein of the present invention in the culture, and collecting the protein of the present invention from the culture. Can do.

 [0 0 5 6]

 The culture of the transformant can be carried out by a 'normal culture method.

As a medium for culturing, a natural source or a synthetic medium may be used as long as it contains a carbon source, a nitrogen source, an inorganic salt, and the like that can be assimilated by the transformant and can efficiently culture the transformant. Any of them may be used. Examples of the carbon source include saccharides such as glucose, fructose, sucrose, maltose, and starch hydrolysate, alcohols such as ethanol, and organic acids such as acetic acid, lactic acid, and succinic acid. The concentration is preferably 5 to 400 g / l.

 [0 0 5 7]

Nitrogen sources include ammonia, ammonium chloride, ammonium sulfate, ammonium carbonate, ammonium acetate, various organic organic ammonium salts, urea, other nitrogen-containing compounds, meat extract, yeast extract, corn steep 'Nitrogen-containing organic substances such as liquor and soybean hydrolyzate can be used. The concentration is preferably 1 to: L00 _g / 1.

 As the inorganic salt, potassium hydrogen phosphate, potassium dihydrogen phosphate, ammonium sulfate, sodium chloride, magnesium sulfate, calcium carbonate and the like can be used. .

 [0 0 5 8]

 In addition, micronutrient sources such as piotin and thiamine can be added as needed. These micronutrient sources can be substituted with natural products such as meat extract, yeast extract, corn 'steep' liquor and casamino acids.

Cultivation is performed under aerobic conditions such as shaking culture and deep aeration stirring culture. Culture temperature is 2 0 ° C~50 ° C, preferably preferably 30 ° C~42 ° C, _P H in the medium, 4: 10, preferably is maintained at 5-8. Adjust the pH with inorganic or organic acids, alkaline solutions, urea, calcium carbonate, ammonia, etc. The culture time is 12 hours to 6 days, preferably 1 to 3 days. In addition, an antibiotic such as kanamycin may be added to the medium as necessary during the culture. -【0 0 5 9】 '

 When culturing a microorganism transformed with a recombinant vector using an inducible promoter as a promoter, an inducer may be added to the medium as necessary. For example, when cultivating a microorganism transformed with a recombinant vector using a plug motor, a microorganism transformed with a recombinant vector using isopropyl 1 β 1 D-thiogalactoviranoside, etc., with a trp promoter When culturing, indoleacrylic acid or the like may be added to the medium.

 [0 0 6 0]

 Production of the protein of the present invention: As a method, there are a method of producing in the host cell, a method of secreting it outside the host cell, and a method of producing it on the host cell outer membrane.

When the protein of the present invention is produced in the host cell or on the outer membrane of the host cell, the method of Paulson et al. Biol. Chem., 264, 17619 (1989)), the method of Lou et al. [Proc. Sci. USA, 86. 8227 (1989), Genes Develop., 4.1288 (1990)], and Alternatively, by applying the method described in JP-A-5-336963, W094 / 23021 etc., the protein can be actively secreted outside the host cell.

 [0 0 6 1]

 That is, by using a gene recombination technique, the protein of the present invention can be actively expressed outside the host cell by expressing the polypeptide containing the active site of the protein of the present invention with a signal peptide added in front of it. Can be secreted.

 Further, according to the method described in JP-A-2-227075, the production amount can be increased by using a gene amplification system using a dihydrofolate reductase gene or the like.

 [0 0 6 2]

 In order to isolate and purify the protein produced by the transformant of this effort, the usual enzyme isolation and purification method can be used. '.-.

 For example, when the protein of the present invention is expressed in a dissolved state in cells, after completion of the culture, the cells are collected by centrifugation, suspended in an aqueous buffer, and then an ultrasonic breaker, French press, Mantongaurin. The cells are broken with a homogenizer, dynominole, etc. to obtain a cell-free extract. From the supernatant obtained by centrifuging the cell-free extract, ordinary enzyme isolation and purification methods, that is, solvent extraction methods, salt praying methods using ammonium sulfate, desalting methods, precipitation methods using organic solvents, etc. , Jetylaminoethyl (DEAE) — Sepharose, anion exchange chromatography using resin such as M AION HPA-75 (Mitsubishi Kasei), resin such as S-Sepharose FF (Pharmacia) Cation exchange matrix chromatography method, hydrophobic chromatography method using resins such as butyl sepharose and phenyl sepharose, gel filtration method using molecular sieve, affinity matrix method, chromatofocusing method In addition, a preparation or a purified preparation can be obtained by using a method such as electrophoresis such as isoelectric focusing alone or in combination.

 [0 0 6 3],

 If the protein is expressed in the form of an insoluble substance in the cell, the cell is recovered in the same manner, and then crushed and centrifuged to recover the protein insoluble substance as a precipitate fraction. Can do. Solubilize the recovered protein insolubles with a protein denaturant. The protein can be returned to a normal three-dimensional structure by diluting or dialyzing the solubilized solution and reducing the concentration of the protein denaturant in the solubilized solution. After the operation, a purified preparation of the protein can be obtained by the same isolation and purification method as described above. .

 [0 0 6 4].

When the protein of the present invention or a derivative such as a protein having a sugar chain added to the protein is secreted outside the cell, the protein or the protein derivative can be recovered in the culture supernatant. That is, the culture is treated by a method such as centrifugation as described above. Thus, a purified preparation can be obtained from the culture supernatant by using the same isolation and purification method as described above.

 [0 0 6 5]

 As the protein thus removed, the above protein 1 can be mentioned. 5. Manufacturing method of CMP of the present invention

 A culture of the transformant obtained by the above method 4 or a processed product of the culture, cytosine, a phosphate group donor and an energy donor are present in an aqueous medium, and CMP is generated and accumulated in the medium. The CM P can be acquired by collecting the CM P from the medium. .

 [0 0 6 6]

 In addition, a culture of the transformant obtained by the above method 4 or a treated product of the culture, a culture of a microorganism belonging to the genus Corynepacteria, or a treated product of the culture, cytosine, a phosphate group donor, and CMP can also be obtained by allowing an energy donor to be present in an aqueous medium, generating and accumulating C-MP in the medium, and collecting CMP from the medium. '

 As a method for culturing the transformant, a method similar to the method for culturing the transformant described in 4 above may be used. The transformant is used as wet cells at a concentration of 0.5 to 500 g / l, preferably 5 to 20 Og / 1.

 [0 0 6 7]

 The cytosine used as a substrate may be a synthetic product or a natural product. Moreover, as long as it contains cytosine, it may be a purified product or a cytosine-containing crude product obtained from a natural product. Cytosine is used at a concentration of 1-100 g / l, preferably 1-50 g / l.

Examples of energy donors include carbohydrates such as gnolecose, fragose, sucrose, molasses, starch hydrolysate, organic acids such as pyruvic acid, lactic acid, acetic acid, α; -ketoglutaric acid, amino acids such as glycine, alanine, aspartic acid, glutamic acid, etc. Any of the above-mentioned transformants can be used as long as they are metabolized and can generate sputum or the like in the cell. These are used at a concentration of 5 to 200 _g / l.

 [0 0 6 8]

 Phosphoric acid group donors include orthophosphoric acid, pyrophosphoric acid, tripolyphosphoric acid, tetrapolyphosphoric acid, polyphosphoric acid such as tetrapolymetaphosphoric acid, polymetaphosphoric acid, monolithic phosphate, dipotassium phosphate, monosodium phosphate, Examples thereof include inorganic phosphates such as disodium phosphate. These are used at a concentration of 1-50 g / l.

Examples of microorganisms belonging to the genus Corynebacterium include Corynebacterium ammoniagenes and Corynebacterium glutamicum, and more preferably rynebacterium ammoniagenes ATCC6872, Corynebacterium ammoniagenes ATCC211 70, Corynebacterium glutamicum ATCC13032, Corvnebacterium glutamicum ATCC 21171 etc. can be raised. Microorganisms belonging to the genus Corynebacterium can be cultured by the same method as described in 4 above. A microorganism belonging to the genus Corynepacteria is used as a wet cell in a concentration of 0.5 to 500 g / l, preferably 5 to ²⁰⁰ g / l.

 [0 0 6 9]

 Examples of the aqueous medium include aqueous solutions containing salts that do not inhibit the CMP production reaction, such as water, phosphate buffer, tris buffer, and borate buffer. In addition, the supernatant of a culture obtained by culturing a transformant or a microorganism belonging to the genus Corynebataterium can be used as an aqueous medium as it is.

 Further, a surfactant or an organic solvent may be added to the aqueous medium as necessary. The production efficiency of CMP can be increased by adding a surfactant or an organic solvent.

 [0 0 7 0]

 Examples of surfactants include polyethylene dallicol stearylamine (for example, Nimene S-215, manufactured by Nippon Oil & Fats Co., Ltd.), alkyldimethylbenzyl ammonium chloride (for example, Sarsol B-50, manufactured by Kao Corporation), etc. Nonionics such as cationic surfactants, anionic surfactants such as sodium lauryl sulfate (for example, Persoft SL, manufactured by NOF Corporation), polyethylene glycol sorbitan monostearate (for example, nonion ST221, manufactured by NOF Corporation) Amphoteric surfactants such as ionic surfactants, dimethyl lauryl betaine (for example, Nissannon BL, manufactured by Nippon Oil & Fats Co., Ltd.), and these are usually 0.1 to 20 g / l, preferably l to 10 g / l. Used at a concentration of l.

 [0 0 7 1]

 Examples of the organic solvent include toluene, xylene, aliphatic alcohol, acetone, and ethyl acetate, and these are usually used at a concentration of 0.1 to 50 ml / l; preferably 1 to 20 ml / l.

 The production reaction of CMP is carried out under aerobic conditions such as by aeration stirring. The reaction temperature is maintained at 20 ° C. to 50 ° C., preferably 30 ° C. to 42 ° C., and the pH in the medium is maintained at 4 to 10, preferably 5 to 8. The pH is adjusted using inorganic or organic acids, alkaline solutions, urea, calcium carbonate, ammonia, etc. The reaction time is usually 1 to 48 hours.

 [0 0 7 2]

 After completion of the reaction, CMP can be isolated and purified from the reaction solution obtained by removing precipitates such as bacterial cells by using a known method such as activated carbon treatment or ion exchange resin treatment.

In addition, in the method for producing useful substances produced using CMP as a substrate or via CMP, it is collected from CMP or aqueous medium produced and accumulated in an aqueous medium by the CMP method of the present invention. CMP can be used. Examples of useful substances produced as described above include cytidine 15′-triphosphoric acid, CMP-sialic acid, CDP-choline and the like.

 Examples of methods for producing cytidine 15′-triphosphate using CMP as a substrate include the methods described in JP-A-2002-085087 and JP-A-2000-217593. —Examples of methods for producing sialic acid include the methods described in JP-A-5-76973, TO2004009830 and JP-A-2002-085087. Examples of methods for producing CDP-choline include For example, the methods described in JP-A-63-313594 and JP-B-48-2358 can be mentioned.

 Example

 Examples of the present invention are shown below, but the present invention is not limited to these examples.

 [0 0 7 3]

Example 1 ,

Construction of host bacteria for activity detection

 A host fungus MC1000 A codA Acdd ApyrG:: Km was constructed as follows to detect the enzyme activity for producing CMP from cytosine and phosphoribosyl pyrophosphate (PRPPP).

 (1) Preparation of a gene-deficient strain that codes for cytosine deaminase (codA gene) and cytidine deaminase (^^ gene)

 A strain lacking the codA gene and cdd gene on the chromosomal DNA of Escherichia coli MClOOO can be obtained by a method using the homologous recombination system of lambda phage (Proc. Natl. Acad Sci. USA, 97, 6640-6645 (2000) ).

 [0 0 7 4]

 Chromosomal DNA of Escherichia coli MClOOO was cultivated by a known method and isolated and purified by the method described in Current “Protocols” in “Molecular” biology after culturing. Plasmids pKD46, pKD3, pD4 and pCP20 were obtained from Escherichia coli strains carrying the plasmid obtained from the Escherichia coli genetic stock center (Yale University, USA) and extracted from the Escherichia coli.

 [0 0 7 5]

Of the nucleotide sequence containing the Escherichia coli codA gene represented by SEQ ID NO: 6, the nucleotide sequence portion represented by nucleotide numbers 1-1031 to 2094-3105 was amplified by PCR reaction. These amplified fragments are obtained by amplifying DNA using the DNA sequence consisting of the nucleotide sequences represented by SEQ ID NOs: 7 and 8 as a primer set with pKD4 as a saddle and having an FRT (FLP recognition target) site. ph I, aminoglycoside pho sphotransf erase) ■ ligated with gene fragment. [0 0 7 6]

 The ligated fragment was introduced into an Escherichia coli MC1000 strain into which PKD46 had been introduced in advance and Red recombinase was induced and induced by electroporation. Transformants were selected using the resistance to namycin as an index, and a strain in which the aph gene was inserted into the codA gene on the chromosome to disrupt the gene was obtained.

 Next, of the base sequence containing the Escherichia coli gene represented by SEQ ID NO: 9, the base sequence portion represented by base numbers 1-1011 and 1656-2572 was amplified by PCR reaction. These amplified fragments are cats with FRT sites at both ends, obtained by amplifying pKD3 in a saddle type and using DNA consisting of the nucleotide sequences represented by SEQ ID NOs: 10 and 11 as a primer set. (chloramphenicol acetyltransf erase) ¾ Gene fragments were ligated.

 The ligated fragment was introduced by electroporation into the force-namaicin resistant strain obtained as described above in which λ Red recombinase was inducibly expressed. A transformant was selected based on kanamycin opichlorfumicoleicol resistance as an index, and a strain in which the gene was disrupted by insertion of the cat gene into the gene on the chromosome was obtained.

 After removing PKD46 from the kanamycin opichloramphenicol resistant strain obtained above, pCP20. Was introduced and FLP recombinase was induced and cultured, and then the chromosomal DNA ^! And the cat gene were removed. The strains were selected using kanamycin opichlorchlorphenicol sensitivity as an index, and then pCP20 was removed.

 [0 0 7 8]

 The strain obtained by the above operation is 1032-2093 in the nucleotide sequence represented by SEQ ID NO: 6 on the chromosomal DNA of Escherichia coli MC1000 strain, and 1012 in the nucleotide sequence represented by SEQ ID NO: 9. -The Escherichia coli MC1000 strain lacking the portion corresponding to the base sequence represented by the 1655th, ie, lacking the codA gene and the cdd gene, and was named Escherichia coli MClOOOAcodAAcdd did.

 (2) Gene encoding CTP synthase (pyrG gene)

 From the chromosomal DNA of Escherichia coli 294 strain 294, a DNA consisting of the nucleotide sequence represented by SEQ ID NO: 12 that is part of the pyrG gene is prepared according to a conventional method, and between the BamHI recognition site and 1 recognition site of UC19. Connected.

 [0 0 7 9]

The obtained recombinant plasmid DNA was digested with and then smoothed, and PUC4K (purchased from Amersham Biosciences) was digested with 2§sHI and smoothed, and contained about aph gene derived from pUC4K. 1. Ligated with a 3 kb DNA fragment. The obtained plasmid DNA was digested with ^ HI and ¾nl and then purified to obtain a defective pyrG gene fragment in which the aph gene was inserted into the pyrG gene and the gene was disrupted.

 [0080]

 The DNA fragment was introduced into Escherichia coli JC7623 by electroporation, a transformant was selected using kanamycin resistance as an indicator, and a strain exhibiting cytidine requirement was isolated.

According to a conventional method, a PI lysate was prepared from a strain isolated, infected with Escherichia coli MM294 strain by selecting a strain showing resistance to kanamycin, chromosomal DN A by a _P gene is揷入the pyrG gene The above strain in which the gene was disrupted was obtained, and the strain was named Escherichia coli MM294ApyrG :: Km.

 (3) Preparation of Escherichia coli MC1000 厶 codA Acdd ApyrG:: Km strain

 In accordance with a conventional method, prepare -PI lysate from Escherichia coli 294 pyrG :: Km strain obtained in (2) above and infect the MClOOOAcodAAcdd strain obtained in (1) above. The introduced strain was selected. The obtained transduced strain was a strain in which the codA gene and the cdd gene were deleted and the pyrG gene was disrupted, and this strain was named ¾ cherichia coli MClOOOAcodAAcddApyrG :: Km.

 [008 1]

Escherichia coli MC1000 AcodA Acdd ApyrG:: Km strain is Cytidine-required, M 9 minimal agar medium containing 50 mg / 1 cytosine [Glucose 1.8 g, Sodium monohydrogen phosphate 6 g, Hydrogen dihydrogen phosphate 3 g, Sodium salt 0.5 _g , ammonium chloride lg, magnesium sulfate heptahydrate 0.25 g, calcium chloride dihydrate 15 mg, thiamine hydrochloride 10 mg, Agar-Noble (Difco) '20 g in water It was confirmed that it was not able to grow with [Included in 11]. In other words, in the transformant obtained by introducing a plasmid expressing mutant type 1;? 1 and se into Escherichia coli MCI 000 AcodA AcddA y ^:: & 11, the mutant enzyme generates CMP from cytosine. It can grow on M9 minimal medium containing cytosine only if it has the activity to do so.

 [008 2]

Example 2

 Cloning of wild type UP RT as from Escherichia coli

 First, chromosomal DNA of Escherichia coli W3110 strain is prepared by a known method, and then the chromosomal DNA is used as a saddle and DNA comprising the nucleotide sequence represented by SEQ ID NOs: 13 and 14 is used as a primer set. PCR was performed using Pyrobest DNA polymerase (Takara Shuzo).

[008 3] The approximately 0.7 kb amplified product obtained by PCR was purified using Qiagen PCR Purificatin Kit (Qiagen) and cleaved with 1 and ^ HI. The restriction enzyme-treated product was subjected to agarose gel electrophoresis, and then extracted and purified using Qiagen Gel Extraction Kit (manufactured by Qiagen).

 The DNA fragment was ligated using the expression vector pTrc99A (manufactured by Pharmacia), also cleaved with EcoRI and BamHI, using DNA Ligatin Kit ver. 2.0 (manufactured by Takara Shuzo), and the resulting conjugate was used. Escherichia coli DH5a (Toyobo Co., Ltd.) was transformed.

 [0 0 8 4]

 A transformant was selected using ampicillin resistance as an indicator, and the obtained transformant was cultured overnight in an LB medium containing ΙΟΟμg / ml ampicillin. Plasmid DNA is prepared from the obtained culture using Qiagen Plasmid Miniprep Kit (manufactured by Qiagen), and the nucleotide sequence is analyzed. As a result, the plasmid contains approximately 0% of the Escherichia coli UPRT ase gene. It was confirmed that the plasmid had a structure with a 7 kb DNA fragment inserted, and the plasmid was named pEUPl.

 [0 0 8 5]

Example 3

 Example of 3D structure information of U P R T a s e

 The crystal structure analysis of wild-type UPPRase derived from Escherichia coli was performed as shown below.

 <Preparation of recombinant wild-type UPRTase for crystallization>

 Recombinant wild-type UPRTase was prepared as follows for crystal preparation for X-ray crystal structure analysis. The reading frame of the upp gene encoding UPRTase (open reading frame) is assumed to start with Met-10, and Cys-160 is expected to be located on the molecular surface, causing aggregation when the purified enzyme is concentrated. This was replaced with Ser. In order to amplify the gene region corresponding to the above shape, fusion PCR was performed using the following four types of primers, using the wild-type upp gene cloned in the plasmid pQE82L (Qiagen) as a cocoon.

 [0 0 8 6]

PQE_C160S_Nl and pQE—C160S N2 having the base sequences represented by SEQ ID NOs: 3 and 4 and pQE—C160S one C1 and pQE_C160S_C2 having the base sequences represented by SEQ ID NOs: 3 and 3 and PCR was performed separately, and each product was purified by agarose electrophoresis. Subsequently, PCR was carried out by mixing them into a cage and using pQE_C160S_Nl and pQE_C160S-C2 as primers. The amplified fragment is digested with the restriction enzyme BamHI and purified by agarose electrophoresis, and then digested with the restriction enzyme BamHI in advance and ligated with the plasmid pQE82L treated with alfa phosphatase. Escherichia E. coli DH5α strain was transformed. By isolating the plasmid from the transformant and conducting base sequence analysis, it was confirmed that the UPRTase having the amino acid sequence represented by SEQ ID NO: 38 was expressed as a fusion protein having a histidine tag at the amino terminal. . Escherichia coli BL21 was transformed with this plasmid, and the resulting transformant was used as the following UPRTase expression strain. Substitution of C160S had little effect on the specific activity of the enzyme (data not shown).

 [0 0 8 7]

 250 mL containing 50 mg / L ampicillin in a 2 L baffled flask

Terrific medium (12 g / L tryptone, 24 g / L yeast extract, 9.4 g / L potassium hydrogen phosphate, 2.2 g / L potassium dihydrogen phosphate, 4 mL / L glycerol, pH 7.2 And then incubate at 37 ° C for 4 hours. When 0D660 reaches approximately 2.0, add IPTG to a final concentration of 1 mM, and continue at 25 ° C for another 12 hours. Cultured. The resulting culture solution was collected by centrifugation, and the precipitated cells were disrupted with a disruption buffer (50 mM.

The suspension was resuspended in Na-phosphate pH 7.0, 300 IDM NaCl, 10 mM 2-mercaptoethanol, and the cells were disrupted by sonication while cooling in an ice bath. This was centrifuged at −lOOOOrpm for 1 hour to obtain a cell extract in the supernatant. TAL0N resin (manufactured by Clonetech) was used for purification of the histidine tag fusion protein. 200 juL of TAL0N resin was used per 50 mL of culture. After washing with wash buffer (50 mM Na-phosphate pH 7.0, 15 mM imidazole, 10 mM 2-mercaptoethanol), elution buffer (50 mM Na-phosphate pH 7.0, 150 mM imidazole, 10 mM Elution with 2-mercaptoethanol). The above operation was performed at room temperature. The following operations were performed at 4 ° C. The collected fraction was dialyzed against the anion chromatography equilibration buffer (20 mM Tris-HCl, pH 8.5) for 1 μm. The dialyzed internal solution was centrifuged at lOOOO rpm for 10 minutes, and then only the supernatant fraction was collected. Anion exchange capacity ram (monoQ column, GE Healthcare Pio Science) was added. After sufficiently equilibrating with the above buffer solution, elution was carried out with a linear concentration gradient of 0 → 0.5M NaCl using UV absorption at a wavelength of 280 nm as an index. The active fraction was dissolved in the range of 250 to 350 mM NaCl. To this active fraction, a stock solution was added to a concentration of 0.5 mM DTT and 0.5 mM GTP, and then concentrated using amicon ultra-15, and further concentrated buffer (20 mM Tris-HCl pH 8.5, 20 mM NaCl, 0.5 mM DTT, 0.5 mM GTP) was added, and the solution was concentrated to a concentration of 18 mg / mL while exchanging the original buffer.

 [0 0 8 8]

<X-ray crystal structure analysis of UPRTase>

Crystallization was performed by a sitting drop vapor diffusion method. By mixing equal amounts of the recombinant UPRTase concentrated solution prepared above and a solution containing 0.2 mM di-ammonium tartrate and 15-20% (w / v) PEG3350, and allowing to stand for about 1 week, Columnar crystals of about 0. 05 X 0. 05 X 0. 15 mm ³ were precipitated. [0 0 8 9]

X-ray diffraction data was collected using the ADSC Quantum 315 detector at the beamline BL5A of the Institute for Materials Structure Science, High Energy Accelerator Research Organization. The wavelength was set to 1.0000 A and the distance from the crystal to the detector was set to 352.½ m. The measurement temperature was 100K. The exposure was performed for 20 seconds at a vibration angle of 1 ° per frame. As a result of processing data using the Mosflm program of the CCP4 package, the value of Emerge is 10.8% at 100-2. 3 A resolution, and 2.4.1-2.30 A resolution at the outermost shell is 61.1. %. The data integrity was 92.9% at 100-2.3A resolution and 89.6% at 2.42-2.30A resolution of the outermost shell. Crystals belong to trigonal space group £ 3 ₂ 21, the lattice constants a = b = 73. LA. £ = 279. 9A, = = 90. ΘΑ, were i = 120. OA. The crystal asymmetric unit contained 4 UPRTase molecules, and the solvent content of the crystal was about 45%. [0 0 9 0]

 <Determination of 3D structure>

The structure was determined by a molecular replacement method using the monomer structure of Thermotoga maritima UPRTase (PDB code 1050) as a search model. The structural analysis program was MolRep (CCP package), the structural refinement program was CNX (Accelrys), and the structural display program was Coot (CCP4 package). After repetitive refinement, a 2.3 A resolution refined structure including water and GTP molecules was determined, and the Rf actor was 21.0% (Rfree 28.3%). When the Ramachandran plot was created using the program PR0CHECK, 90.6% of the non-glycine residues were located in the most preferred region, and 99.9% of the total residues were acceptable. It has been shown to have a dihedral angle of peptide bonds.

Table 1 shows the obtained three-dimensional structure information (structure coordinates).

 [0 0 9 1]

 【table 1】

 CRYST1 73. 070 73. 070 279. 920 90. 00 90. 00 120; 00 P 32 2 1

 ATOM 1 CB SER A 9 -34. 044-3. 317 -15. 005 1. 00 66. 85 C

ATOM 2 06 SER A 9 -34. 150 -2. 021 -15. 567 1. 00 67. 98 0

ATOM 3 C SER A 9 -35. 070 -4. 992 -13. 455 1. 00 65. 61 C

ATOM 4 0 SER A 9 -36. 1 18 -5. 637 -13. 357 1. 00 66. 62 0

ATOM 5 N SER A 9-34. 847 -2. 595 -12. 774 1. 00 66. 45 N

ATOM 6 CA SER A 9 -35. 094 -3. 531-13. 908 1. 00 66. 28 C

ATOM 7 N MET A 10-33. 877-5. 509 -13. 177 1., 00 63. 16 N

ATOM 8 CA MET A 10 -33. 726 -6. 907 -12. 790 1.. 00 60. 56 C

ATOM 9 CB MET A 10-32. 245 -7. 306 -12. 806 1., 00 65. 40 C

ATOM 10 CG MET A 10 -31. 731 -7. 769 -14. 176 1., 00 69. 91 C

ATOM 1 1 SD MET A 10 1 32. 514 -9. 303 -14. 784 1., 00 75. 03 S ATOM 12 CE MET A 10 -31.081 -10.203 -15.451 1.00 73.23 C

ATOM 13 C MET A 10 -34.332 -7.197 -11.419 1. 00 56.40 C

ATOM 14 0 MET A 10 -34.450 -6.310 -10.571 1. 00 54.73 0

ATOM 15 N LYS A 11 -34.711 -8.453 -11.212 1. 00 51.72 N

ATOM 16 CA LYS A 11-35.626 -8.812 -10.137 1. 00 46.71 C

ATOM 17 CB LYS A 11-36.390-10.087 -10.516 1. 00 46.56 C

ATOM 18 CG LYS A 11 -35.491 -11.278 -10.820 1. 00 48.22 C

ATOM 19 CD LYS A 11 -36.254 -12.430 -11.461 1.00 48.86 C

ATOM 20 CE LYS A 11 -37.453-12.844-10.621 1.00 51.11-C

ATOM 21 NZ LYS A 11 -37.918 -14.228 -10.932 1. 00 49.91 N

ATOM 22 C LYS A 11 -34.953 -8.991 -8.775 1. 00 42.84 C

ATOM 23 0 LYS A 11 -33.764 -9.282 -8.683 1.00 42.47 0

ATOM 24 N ILE A 12-35.737-8.803 -7.721 1. 00 38.51 ― N

ATOM 25 CA ILE A 12 -35.288 -9.021-6.356 1. 00 33.33 C

ATOM 26 CB ILE A 12-35.548 -7.787 -5.489 1 00 33.72 C

ATOM 27 CG2 ILE A 12 -35.063 -8.037 -4.063 1 00 32.91 C

ATOM 28 CG1 ILE A 12 -34.869 -6.565-6.119 1 00 33.27 C

ATOM 29 CD1 ILE A 12-33.393 -6.734 -6.362 1 00 28.87 C

ATOM 30 C ILE A 12 -36.105 -10.170 -5.802 1 00 31.87 C

ATOM 31 0 ILE A 12 -37.321 -10.079 -5.708 1 00 33.59 0

ATOM 32 N VAL A 13 -35.440 -11.255-5.438 1 00 29.14 N

ATOM 33 CA VAL A 13 -36.146 -12.480 -5.122 1 00 26.47 C

ATOM 34 CB VAL A 13 -35.810 -13.588 -6.134 1 00 26.36 C

ATOM 35 C61 VAL A 13 -36.615 One 14.844-5.809 1 00 26.34 C

ATOM 36 CG2 VAL A 13 36 093 -13.104 -7, 546 1 00 24.84 C

ATOM 37 C VAL A 13 -35.811-12.985 -3.727 1 00 27.03 C

ATOM 38 0 VAL A 13 -34.647 -13.222 -3.396 1 00 27.91 0

ATOM 39 N 6LU A 14 -36.848 -13.144 -2.917 1 00 26.13 N

ATOM 40 CA GLU A 14 -36.722 -13.755 -1.614 1 00 27.49 C

ATOM 41 CB GLU A 14 -37.532 -12.966 -0.594 1 00 28.68 C

ATOM 42 CG GLU A 14 -37.378 -13.455 0.823 1 00 34.43 C

ATOM 43 CD GLU A 14 -38.270 -12.706 1.802 1 00 37.94 C

ATOM 44 0E1 GLU A 14-37.860 -12.555 2.972 1 00 41.56 0

ATOM 45 0E2 GLU A 14 -39.376 -12.270 1.407 1 00 39.25 0

ATOM 46 C GLU A 14 -37.282 —15.161 -1.750 1 00 27.92 C

ATOM 47 0 GLU A 14 -38.492 -15.339 -1.877 1 00 29.59 0 ATOM 48 N VAL A 15 -36.402-16.155 -1.735 1.00 26.38 Ν

ATOM 49 CA VAL A 15-36.809 -17.526-2.008 1. 00 26.73 C

ATOM 50 CB VAL A 15 -35.597 -18.403-2.328 1. 00 25.34 C

ATOM 51 C61 VAL A 15 -36.048 -19.843 -2.584 1.00 22.63 C

ATOM 52 C62 VAL A 15 -34.858 -17.832-3.525 1. 00 17.75 C

ATOM 53 C VAL A 15-37, 532 -18.113 -0.810 1. 00 29.31 C

ATOM 54 0 VAL A 15 -36.973-18.185 0.278 1. 00 31. 55 0

ATOM 55 N LYS A 16 -38.775 -18.535 -1.018 1. 00 31. 23 Ν

ATOM 56 CA LYS A 16 -39, 662 -18.894 0.082 1. 00 33.06 C

ATOM 57 CB LYS A 16 -40.984 -18.131 -0.036 1. 00 36.09 C

ATOM 58 C6 LYS A 16 -40.823 -16.621 0.090 1.00 40.91 C

ATOM 59 CD LYS A 16 -42.166 -15.912 0.201 1. 00 43. 84 C

ATOM 60 CE LYS A 16 1 41. 977 -14.482 0.686 1. 00 44. 33.

ATOM 61 NZ LYS A 16 -41. 179 -14.454 1. 00 46. 70 Ν

ATOM 62 C LYS A 16 -39. 942 -20.381 0.132 1. 00 33. 21 C

ATOM 63 0 LYS A 16 -40. 844 0.847 1. 00 33. 99 0

ATOM 64 N HIS A 17 -39. 177 -21.145 -0.640 1. 00 30. 86 Ν

ATOM 65 CA HIS A 17 39. 227-22.594-0.550 1., 00 28. 67 C

ATOM 66 CB HIS A 17 -38. 085 -23.208 -1.369 1. 00 26. 77 G

ATOM 67 C6 HIS A 17 -38. 222 -24.682 -1 584 1. .00 27. 84 C

ATOM 68 CD2 HIS A 17 -38. 599 -25.392 -2.674 1., 00 29. 19 C

ATOM 69 ND1 HIS A 17 1 37. 976 -25.607 -0.591 1., 00 26. 79 Ν

ATOM 70 CE1 HIS A 17 -38. 197 -26.823-1.059 1., 00 28. 21 C

ATOM 71 NE2 HIS A 17 -38. 575 -26.721-2.321 1. .00 29. 39 Ν

ATOM 72 C HIS A 17 -39. 079 -22.959 0.923 1. .00 27. 92 C

ATOM 73 0 HIS A 17 -38. 261 -22.386 1.629 1. .00 29. 37 0

ATOM 74 N PRO A 18-39. 881 -23.911 1.406 1., 00 27. 95 Ν

ATOM 75 CD PRO A 18 -40. 840 -24.715 0.629 1, .00 27. 86 C

ATOM 76 CA PRO A 18-39. 886-24.253 2.833 1, .00 27. 17 C

ATOM 77 CB PRO A 18 -41. 046 -25.247 2.967 1. .00 27. 37 C

ATOM 78 CG PRO A 18 -41. 232 -25.810 1.587 1, .00 29. 66 C

ATOM 79 C PRO A 18-38. 563-24.824 3.359 1, .00 26. 55 C

ATOM 80 0 PRO A 18 -38. 232 -24.656 4.534 1, .00 23. 49 0

ATOM 81 N LEU A 19 -37. 806 -25.493 2.497 1 .00 25. 65 Ν

ATOM 82 CA LEU A 19 -36. 508 -26.020 2.909 1 .00 26. 07 C

ATOM 83 CB LEU A 19 -35. 971 -27.011 1.865 1 .00 26. 33 C ATOM 84 CG LEU A 19 -36.604 -28.407 1.826 1.00 25.34 C

ATOM 85 CD1 LEU A 19 -35.913 -29.247 0.772 1. 00 27.70 C

ATOM 86 CD2 LEU A 19 -36.477 -29.081 3.182 1. 00 27.47 C

ATOM 87 C LEU A 19 -35.483 -24.904 3.149 1. 00 25.58 C

ATOM 88 0 LEU A 19 -34.666-24.994 4.064 1.00 27.49 0

ATOM 89 N VAL A 20 -35.519-23.853 2.341 1. 00 23.51 N

ATOM 90 CA VAL A 20 -34.612 -22.742 2.576 1. 00 25.20 C

ATOM 91 CB VAL A 20 -34.477 -21.814 1.319 1. 00 24.62 C

ATOM 92 C61 VAL A 20 -35.568-22.102 0.332 1. 00 26.26 C

ATOM 93 C62 VAL A 20-34.505 -20.350 1.728 1. 00 19.98 C

ATOM 94 C VAL A 20 -35.042-21.952 3.806 1 00 25.46 C

ATOM. 95 0 VAL A 20-34.210 -21.591 4.633 1. 00 24.84 0

ATOM 96 N LYS A 21-36.343 -21.721 3.955 1 00 28.32 N

ATOM 97 CA LYS A 21 -36.859 5.185 1 00 28.23 C

ATOM 98 CB LYS A 21 -38.392 -21.016 5.138 1 00 30.69 C

ATOM 99 CG LYS A 21 -38.906-20.100 4.036 1 00 34.86 C

ATOM 100 CD LYS A 21-40.171 -19.346 4.437 1 00 37.12 C

ATOM 101 CE LYS A 21 -41.380 -20.260 4.535 1 00 39.15 C

ATOM 102 NZ LYS A 21 -42.638 -19.483 4.733 1 00 40.67 N

ATOM 103 C LYS A 21 -36.438 -21.926 6.410 1 00 26.02 C

ATOM 104 0 LYS A 21 -35.993 -21 360 7.406 1 00 25.59 0

ATOM 105 N HIS A 22-36.576 -23.249 6.326 1 00 24.31 N

ATOM 106 CA HIS A 22-36.219 -24.149 7.424 1 00 22.67 C

ATOM 107 CB HIS A 22 -36.640 -25.580 7.067 1 00 23.43 C

ATOM 108 CG HIS A 22 -36.058 -26.629 7.963 1 00 23.83 C

ATOM 109 CD2 HIS A 22 -34.938 -27.384 7.842 1 00 24.24 C

ATOM 110 ND1 HIS A 22 -36.656 -27.017 9.143 1 00 25.24 .N

ATOM 111 CE1 HIS A 22 -35.932 -27.967 9.711 1 00 25.59 C

ATOM 112 NE2 HIS A 22 -34.882-28.208 8.942 1 00 25.67 N

ATOM 113 C HIS A 22 -34.727 -24.114 7.771 1 00 23.98 C

ATOM 114 0 HIS A 22 -34.354 -23.976 8.939 1 00 23.83 0

ATOM 115 N LYS A 23 -33.874 -24.237 6.755 1 00 22.96 N

ATOM 116 CA LYS A 23 -32.433 -24.240 6.969 1 00 22.05 C

ATOM 117 CB LYS A 23 -31.717 -24.629 5.674 1 00 21.23 C

ATOM 118 CG LYS A 23 -31.957-26.068 5.251 1 00 17.07 C

ATOM 119 CD LYS A 23 -31.456 —26.329 3.847 1 .00 18.25 C ATOM 120 CE LYS A 23 -31.902 -27.687 3.329 1.00 16.73 C

ATOM 121 NZ LYS A 23 -31 365 -28.826 4.128 1. 00 19.63 N

ATOM 122 C LYS A 23 -31.936-22.878 7.456 1. 00 22.50 C

ATOM 123 0 LYS A 23-31.094 -22.797 8.345 1. 00 20.22 0

ATOM 124 N LEU A 24 -32.470-21.808 6.880 1.00 22.96 N

ATOM 125 CA LEU A 24 -32.087-20.463 7. 290 1. 00 25.94 C

ATOM 126 CB LEU A 24 -32.797 -19.438 6.400 1. 00 25.48 C

ATOM 127 GG LEU A 24 -32.338 -17.977 6. 394 1.00 27.81 C

ATOM 128 CD1 LEU A 24 -33.086 -17.191 7. 452 1. 00 27.75 C

ATOM 129 CD2 LEU A 24 -30.835 -17. 912 6. 617 1. 00 25. 34 C

ATOM 130 C LEU A 24 -32.477-20. 269 8. 765 1. 00 28. 02 C

ATOM 131 .0 LEU A 24 -19. 808 9. 582 1. 00 28. 48 0

ATOM 132 N GLY A 25 -33.698-20. 655 9. 104 1. 00 27. 71 .N

ATOM 133 CA GLY A 25-34.141-20. 533 10. 476 1. 00 30. 19 C

ATOM 134 C GLY A 25 -33.188-21. 185 11. 457 1. 00 31. 64 C

ATOM 135 0 GLY A 25 -32.903 -20. 621 12. 514 1. 00 33. 32 0

ATOM 136 N LEU A 26 -32.690 -22. 372 11. 120 1. 00 29. 82 N

ATOM 137 CA LEU A 26 -31.733 -23. 039 11. 988 1., 00 28. 07 C

ATOM 138 CB LEU A 26 -31.368 -24. 409 11. 423 1. 00 26. 52 C

ATOM 139 CG LEU A 26 -32. 30-25. 487 11. 682 1. 00 30. 28 C

ATOM 140 CD1 LEU A 26 -32.042-26. 792 11. 003 1., 00 29. 22 C

ATOM 141 CD2 LEU A 26 -32.585-25. 695 13. 181 1. 00 28. 84 C

ATOM 142 C LEU A 26 -30.470 -22. 198 12. 186 1., 00 27. 35 C

ATOM 143 0 LEU A 26 -29.850 -22. 248 13. 243 1., 00 27. 20 0

ATOM 144 N MET A 27-30.104-21. 412 11., 178 1., 00 24. 38 N

ATOM 145 CA MET A 27 -28.859-20. 655 11. 222 1., 00 25. 36 C

ATOM 146 CB MET A 27-28.521 -20. 103 9. 827 1. .00 23. 36 C

ATOM 147 CG MET A 27 -28.199-21. 183 8. 791 1., 00 18. 23 C

ATOM 148 SD MET A 27 -27.430-20. 548 7. 276 1. .00 22. 40 S

ATOM 149 CE MET A 27 -25.923 -19. 803 7. 909 1. .00 21. 46 C

ATOM 150 C MET A 27-28.922 -19. 512 12. 239 1, ∎ 00 27. 00 C

ATOM 151 0 MET A 27-27.892-19. 010 12. 683 1. .00 27. 22 0

ATOM 152 N ARG A 28 -30.133 -19. 114 12. 618 1, .00 26. 65 N

ATOM 153 CA ARG A 28-30.306-18. 026 13. 565 1, .00 28. 26 C

ATOM 154 CB ARG A 28 -31.704 -17. 420 13. 421 1, .00 27. 33 C

ATOM 155 CG ARG A 28 -32.011 -16. 882 12. 027 1, .00 25. 78 C ATOM 156 CD ARG A 28 -33.293 -16.091 12.055 1.00 28.18 C

ATOM 157 NE ARG A 28 -33.840 -15.777 10.737 1. 00 28.41 N

ATOM 158 CZ ARG A 28 -33.552 -14.681 10.043 1. 00 29.58 C

ATOM 159 NH1 ARG A 28 -32.701 -13.786 10.529 1. 00 30.37 N

ATOM 160 NH2 ARG A 28 -34.157 -14.453 8.885 1. 00 28.33 N

ATOM 161 C ARG A 28-30.068 -18.457 15.015 1. 00 29.26 C

ATOM 162 0 ARG A 28 -29.872 -17.618 15.891 1. 00 29.38 0

ATOM 163 N GLU A 29-30.068 -19.760 15.268 1. 00 30.96 N

ATOM 164 CA GLU A 29 -29.848 -20.262 16.622 1. 00 34.86 C

ATOM 165 CB GLU A 29 -29.750 -21 786 16.598 1. 00 37.21 C

ATOM 166 GG GLU A 29-29.549-22.421 17.962 1. 00 44.44 C

ATOM 167 CD GLU A 29 -30.808 1 22.395 18.813 1. 00 49.95 C

ATOM 168 0E1 GLU A 29 -31.741-23.189 18.540 1. 00 51.74 0

ATOM 169 0E2 GLU A 29 -30.863 -21.580 19.760 1. 00 54.07 0

ATOM 170 C GLU A 29-28.587 -19.664 17.265 1. 00 35.79 C

ATOM 171 0 GLU A 29 -27.508 One 19.664 16.668 1. 00 36.07 0

ATOM 172 N 6LN A 30 -28.722 -19.164 18.489 1. 00 36.81 N

ATOM 173 CA GLN A 30-27.652 -18.383 19.097 1., 00 39.04 C

ATOM 174 CB GLN A 30 -28.148 -17.692 20.372 1., 00 41.76 C

ATOM 175 CG GLN A 30 -27.840 -18.440 21.658 1. .00 42.72 C

ATOM 176 CD GLN A 30 -26.508-18.036 22.265 1., 00 43.26 C

ATOM 177 0E1 GLN A 30 -25.927 -17.013 21.898 1., 00 41.96 0

ATOM 178 NE2 GLN A 30 -26.018 -18.842 23.201 1. .00 43.03 N

ATOM 179 C GLN A 30 -26.433 -19.229 19.426 1. .00 40.09 C

ATOM 180 0 GLN A 30 -25.302 -18.754 19.358 1, .00 41.19 0

ATOM 181 N ASP A 31-26.656 -20.485 19.783 1. .00 39.00 N

ATOM 182 CA ASP A 31 -25.558 -21.321 20.225 1, .00 39.44 C

ATOM 183 CB ASP A 31 -25.954 -22.088 21.480 1. .00 43.20 C

ATOM 184 CG ASP A 31 -27.002 -23.142 21.201 1, .00 46.74 C

ATOM 185 0D1 ASP A 31 -28.044 -22.785 20.610 1, .00 50.18 0

ATOM 186 0D2 ASP A 31-26.785 -24.321 21.564 1 .00 47.85 0

ATOM 187 C ASP A 31-25.165 -22.313 19.147 1 .00 37.84 C

ATOM 188 0 ASP A 31 -24.748 -23.430 19.450 1 ∎ 00 39.99 0

ATOM 189 N ILE A 32 -25.309 -21.922 17.890 1 .00 35.25 N

ATOM 190 CA ILE A 32-25.089-22.861 16.802 1 .00 32.09 C

ATOM 191 CB ILE A 32 -25.709 -22.352 15.494 1 ■ 00 29.93 C

o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o ζ ζ ο ζ ο ο ζ ο ο ο ζ ο ο ο ζ ο ο ο

100 ATOM 228 C ARG A 36 -23.850 -25.544 11.031 1.00 26.92 C

ATOM 229 0 ARG A 36 -24.610-25.552 10.066 1. 00 26.78 0

ATOM 230 N PHE A 37-23.169-24.467 11. 405 1. 00 26.46 N

ATOM 231 CA PHE A 37-23.351 -23.202 10.719 1. 00 25.48 C

ATOM 232 CB PHE A 37 -22.694-22.075 11. 510 1. 00 24.74 C

ATOM 233 CG PHE A 37-23.138 -20.711 11. 093 1. 00 23.71 C

ATOM 234 CD1 PHE A 37-24.275-20.140 11. 643 1. 00 25.20 C

ATOM 235 CD2 PHE A 37 -22.413 -19.987 10.159 1. 00 26.79 C

ATOM 236 CE1 PHE A 37 -24.684 -18.864 11. 269 1. 00 24.55 C

ATOM 237 CE2 PHE A 37-22.815 -18.707 9.779 1. 00 26.25 C

ATOM 238 CZ PHE A 37-23.955 -18.147 10.339 1. 00 26.49 C

ATOM 239 C PHE A 37 -22.785 -23.256 9.303 1. 00 23.70 C

ATOM 240 0 PHE A 37-23.380 -22.715 8. 384 1. 00 24.59. 0

ATOM 241 N ARG A 38 -21.642 -23.911 9. 132 1. 00 23.38 N

ATOM 242 CA ARG A 38 -21.091-24.162 7. 802 1.00 22.89 C

ATOM 243 CB ARG A 38 -19.701 -24.788 7. 891 1. 00 23.40 c

ATOM 244 CG ARG A 38 -18.646-23.879 8. 449 1. 00 22.25 c

ATOM 245 CD ARG A 38 -17.327-24.615 8. 566 1.00 22.95 c

 0 0

 ATOM 246 NE ARG A 38 -16.297-23.758 9. 141 1. 00 23.57 N

ATOM 247 CZ ARG A 38 -15.242 -24.211 9. 801 1. 00 24.40 C

ATOM 248 NH1 ARG A 38 -15.081 -25.516 9.969 1., 00

 ATOM 249 NH2 ARG A 38 -14.351-23.360 10. 291 1. 00 23.38 N

ATOM 250 C ARG A 38 -21.976-25.094 6. 996 1., 00

C

ATOM 251 0 ARG A 38 -22.245 -24.841 5.830 1., 00 23.20 0

ATOM 252 N GLU A 39 -22.415 -26.184 7. 610 1. .00 23.34 N

ATOM 253 CA GLU A 39-23.331 -27.091 6. 927 1. .00 25.57 C

ATOM 254 GB GLU A 39 -24.029 -28.031 7.914 1. .00 24.99 C

ATOM 255 CG GLU A 39 -23.203-29.206 8. 406 1. .00 27.25 C

ATOM 256 CD GLU A 39 -23.934 -30.010 9. 470 1. .00 26.56 C

ATOM 257 0E1 GLU A 39 -25.176 -29.995 9. 478 1. .00 23.65 0

ATOM 258 0E2 GLU A 39-23.267 -30.659 10. 303 1, .00 31.79 0

ATOM 259 C GLU A 39 -24.391 -26.254 6. 239 1, .00 24.28 C

ATOM 260 0 GLU A 39 -24.573 -26.333 5. 024 1 .00 25.79 0

ATOM 261 N LEU A 40-25.077 -25.442 7. 036 1, .00 23.13 N

ATOM 262 CA LEU A 40 -26.284 -24.764 6. 592 1, .00 22.72 C

ATOM 263 CB LEU A 40 1 27.043 -24.197 7., 799 1.00 20.42 C ATOM 264 CG LEU A 40 -27.719 -25.268 8.665 1.00 19.06 C

ATOM 265 CD1 LEU A 40 -28.144 -24.693 10.015 1.00 16.04 C

ATOM 266 CD2 LEU A 40 -28.920 -25.838 7.907 1. 00 15.30 C

ATOM 267 C LEU A 40 -25.955 -23.660 5.607 1. 00 23.05 C

ATOM 268 0 LEU A 40 -26.708 -23.424 4.661 1. 00 23.46 0

ATOM 269 N ALA A 41 -24.821 -22.998 5.814 1. 00 22.02 N

ATOM 270 GA ALA A 41 -24.409 -21.939 4.906 1. 00 23.08 C

ATOM 271 CB ALA A 41-23.093 -21 · 341 5.357 1. 00 23.04 C

ATOM 272 C ALA A 41 -24.282 -22.476 3.481 1. 00 22.66 C

ATOM 273 0 ALA A 41 -24.713 -21.828 2.522 1. 00 19.82 0

ATOM 274 N SER A 42 -23.708 -23.664 3.336 1. 00 21.76 N

ATOM 275. CA SER A 42 -23.515 -24.205 2.003 1. 00 23.86 C

ATOM 276 CB SER A 42 -22.409 -25.276 2.000 1. 00 25.89 C

ATOM 277 OG SER A 42 -22.600 -26.230 3.026 1. 00 33.13 0

ATOM 278 C SER A 42 -24.816-24.767 1.440 1. 00 23.00 G

ATOM 279 0 SER A 42-25.104 -24.582 0.262 1., 00 23.51 0

ATOM 280 N 6LU A 43 -25.611 -25.431 2.277 1. .00 23.53 N

ATOM 281 CA GLU A 43 -26.881 -25.988 1.819 1. .00 23.97 C

ATOM 282 CB 6LU A 43-27.588-26.745 2.949 1., 00 23.21 C

ATOM 283 CG GLU A 43 -26.866 -27.987 3.413 1., 00 20.47 C

ATOM 284 CD GLU A 43 -27.541 -28.663 4.590 1. .00 20.38 C

ATOM 285 0E1 GLU A 43 -28.736 -28.399 4.853 1. .00 18.82 0

ATOM 286 0E2 GLU A 43 -26.866-29.466 5.259 1, .00 23.67 0

ATOM 287 C GLU A 43 -27.817 -24.905 1.284 1. .00 25.45 C

ATOM 288 0 GLU A 43 -28.472 -25.091 0.249 1, .00 27.71 0

ATOM 289 N VAL A 44 -27.894 -23.778 1.982 1, .00 24.55 N

ATOM 290 CA VAL A 44 -28.768-22.703 1.520 1, .00 25.58 C

ATOM 291 CB VAL A 44 -29.012 -21.645 2.632 1, .00 26.18 C

ATOM 292 CG1 VAL A 44 -29.834 -22.250 3.751 1 .00 25.28 C

ATOM 293 CG2 VAL A 44 -27.679 3.196 1 .00 30.84 C

ATOM 294 C VAL A 44 -28.177 -22.032 0.280 1 .00 22.71 C

ATOM 295 0 VAL A 44 -28.900 -21.689 -0.654 1 .00 23.44 0

ATOM 296 N GLY A 45-26.861 -21.868 0.256 1 .00 21.76 N

ATOM 297 CA GLY A 45 -26.224 -21.345-0.940 1 .00 22.03 C

ATOM 298 C GLY A 45 -26.548 -22.199 -2.160 1 ■ 00 22.37 C

ATOM 299 0 GLY A 45 -26.891 -21.686 -3.236 1 .00 20.21 0 ATOM 300 N SER A 46 -26.443 -23.509 One 1.988 1.00 19.18 N

ATOM 301 GA SER A 46-26.742 -24.437 -3.061 1. 00 20.53 C

ATOM 302 CB SER A 46-26.582 -25.871 -2.563 1. 00 19.86 C

ATOM 303 OG SER A 46 -26.934 -26.787 -3.578 1.00 23.81 0

ATOM 304 C SER A 46 -28.172-24.226-3.566 1. 00 22.52 C

ATOM 305 0 SER A 46 -28.414 -24.182 -4. 776 1. 00 19.95 0

ATOM 306 N LEU A 47 -29.113 -24.091 -2. 631 1. 00 21. 37 N

ATOM 307 CA LEU A 47 -30.516 -23.900-2. 980 1.00 22.83 C

ATOM 308 CB LEU A 47 -31, 385 -23.954-1. 717 1. 00 22.34 C

ATOM 309 CG LEU A 47 -31. 990 -25.307-1. 303 1. 00 21. 32 G

ATOM 310 CD1 LEU A 47-31. 136-26.464-1. 773 1. 00 23. 21 C

ATOM 311 CD2 LEU A 47 1 32, 146 -25.342 0. 196 1. 00 21. 45 C

ATOM 312 C LEU A 47 -30. 757-22.591-3. 725 1. 00 22. 73 C

ATOM 313 0 LEU A 47 -31. 555 -22.542 -4. 661 1. 00 25. 23 0

ATOM 314 N LEU A 48-30. 069 -21.527-3. 324 1. 00 22. 30 N

ATOM 315 CA LEU A 48 -30. 251 -20.242-3. 987 1. 00 20. 51 C

ATOM 316 CB LEU A 48-29. 571 -19.120-3. 197 1. 00 18. 68 C

ATOM 317 CG LEU A 48 -30. 024 -18.952-1. 745 1., 00 20. 84 C

ATOM 318 CD1 LEU A 48 -29. 094 -17.995 -1. 044 1., 00 16. 87 C

ATOM 319 CD2 LEU A 48 -31. 472 -18.447-1. 686 1. 00 18. 19 C

ATOM 320 C LEU A 48 -29. 679-20.298-5. 398 1., 00 20. 57 C

ATOM 321 0 LEU A 48 -30. 118 -19.562-6. 276 1., 00 21. 23 0

ATOM 322 N THR A 49 -28. 699-21.171 -5. 613 1., 00 22. 09 N

ATOM 323 CA THR A 49 —28. 066 -21.299-6. 923 1., 00 23. 62 C

ATOM 324 CB THR A 49 -26. 832-22.235 -6. 871 1., 00 24. 74 C

ATOM 325 061 THR A 49 -25. 839-21.686 -5. 994 1., 00 26. 89 0

ATOM 326 CG2 THR A 49-26. 230 -22.401 -8. 260 1. ■ 00 26. 21 C

ATOM 327 C THR A 49 -29. 068 -21.870-7. 919 1., 00 24. 95 C

ATOM 328 0 THR A 49 -29. 157 -21.425-9. 064 1. ■ 00 25. 44 0

ATOM 329 N TYR A 50-29. 825 -22.862-7. 472 1. .00 26. 67 N

ATOM 330 CA TYR A 50 -30. 849 -23.470 -8. 309 1, .00 28. 28 C

ATOM 331 CB TYR A 50 -31. 617 -24.521 -7. 509 1, .00 28. 22 C

ATOM 332 CG TYR A 50 -32. 559 -25.348-8. 337 1, .00 30. 14 C

ATOM 333 CD1 TYR A 50 -32. 077 -26.328-9. 191 1, .00 31. 09 C

ATOM 334 CE1 TYR A 50 -32. 940-27.125 -9. 926 1 .00 31. 90 C

ATOM 335 CD2 TYR A 50 —33. 934 -25.178 -8. 241 1, .00 29. 48 C ATOM 336 CE2 TYR A 50 -34.804-25.965 -8.972 1.00 30.28 C

ATOM 337 CZ TYR A 50 -34.299 -26.936 -9.813 1.00 31.91 C

ATOM 338 OH TYR A 50-35.150 1 27.716 -10.558 1. 00 32.79 0

ATOM 339 C TYR A 50 -31. 810 -22.389 -8.776 1. 00 28.28 C

ATOM 340 0 TYR A 50 -32.147-22.303 -9.958 1.00 28.72 0

ATOM 341 N GLU A 51-32.247 -21. 564-7.833 1. 00 27.56 N

ATOM 342 CA GLU A 51 -33.171 -20.492 -8.135 1.00 27.79 C

ATOM 343 CB GLU A 51 -33.591-19. 795 -6.835 1. 00 30.17 C

ATOM 344 CG GLU A 51 -34.313-20. 714 -5.842 1. 00 30.70 C

ATOM 345 CD GLU A 51 -35.734-21. 054 -6.275 1.00 32.27 C

ATOM 346 0E1 GLU A 51 .. -36. 201 -20. 474 -7.277 1. 00 33.76 0

ATOM: 347 0E2 GLU A 51 -36. 385 -21. 899 -5.617 1.00 33.01 0

ATOM 348 C GLU A 51 -32. 522 -19. 498 -9.093 1. 00 25.92.

ATOM 349 0 GLU A 51 -33. 118 -19. 112 -10.089 1. 00 27.75 0

ATOM 350 N ALA A 52-31. 289 -19. 109 -8.804 1. 00 24.47 N

ATOM 351 CA ALA A 52 -30. 614 -18. 070 -9.575 1. 00 25.52 C

ATOM 352 CB ALA A 52 -29.422 one 17.534 -8.790 1.00 23.81 C

ATOM 353 C ALA A 52-30. 147-18. 525 -10.957 1. 00 24.81 C

ATOM 354 0 ALA A 52 -29. 663 -17. 711 -11.738 1. 00 .26.48 0

ATOM 355 N THR A 53 -30. 277 -19. 811 -11-257 1. 00 22.73 N

ATOM 356 CA THR A 53 -29. 736 -20. 346 -12.503 1., 00 26.10 C

ATOM 357 CB THR A 53 -28. 659 -21. 431 -12.242 1. 00 26.52 C

ATOM 358 061 THR A 53 -29. 229-22. 490 -11.467 1., 00 26.48 0

ATOM 359 CG2 THR A 53-27. 476 -20. 855-11.486 1., 00 27.55 C

ATOM 360 C THR A 53 -30. 814 -20. 955 -13.400 1., 00 27.02 C

ATOM 361 0 THR A 53 -30. 508-21. 655 -14.360 1. .00 29.36 0

ATOM 362 N ALA A 54 -32. 074-20. 690 -13.084 1., 00 27.65 N

ATOM 363 CA ALA A 54-33. 180 -21. 261 -13.842 1. .00 30.26 C

ATOM 364 CB ALA A 54 -34. 482 -21. 037 -13.098 1. .00 30.00 C

ATO 365 C ALA A 54-33. 276 -20. 683 -15.255 1., 00 32.53 C

ATOM 366 0 ALA A 54-33. 985 -21. 222 -16.101 1. .00 33.86 0

ATOM 367 N ASP A 55 -32. 560 -19. 595 -15.515 1. .00 33.91 N

ATOM 368 CA ASP A 55 -32. 605 -18. 955 -16.827 1, .00 35.97 G

ATOM 369 CB ASP A 55 -32. 853 -17. 452 -16.672 1, .00 36.82 C

ATOM 370 CG ASP A 55 -31. 653 -16. 727 -16.087 1, .00 38.59 C

ATOM 371 0D1 ASP A 55 One 30. 990 -17. 309 One 15.202 1, .00 38.36 0 ATOM 372 0D2 ASP A 55 -31.369 -15.586 -16.511 1.00 41.17 0

ATOM 373 C ASP A 55 -31 337 1 19.161-17.664 1.00 35.91 C

ATOM 374 0 ASP A 55-31.119 -18.447-18.638 1. 00 35.13 0

ATOM 375 N LEU A 56 -30.494 -20.118 -17.290 1. 00 36.79 N

ATOM 376 CA LEU A 56 -29.299-20.393 -18.083 1. 00 38.26 G

ATOM 377 CB LEU A 56 -28.401 -21.409 -17.381 1. 00 37.55 C

ATOM 378 CG LEU A 56 -27.634 -20.928 -16.152 1.00 38.03 C

ATOM 379 CD1 LEU A 56 -26.890 -22.102-15.537 1.00 34.43 C

ATOM 380 CD2 LEU A 56 -26.667 -19.810 -16.546 1.00 36.79 C

ATOM 381 C LEU A 56 -29.663-20.925 -19.467 1. 00 39.57 C

ATOM 382 0 LEU A 56-30.655 -21.643 -19.635 1. 00 37.95 0

ATOM 383 .N 6LU A 57 -28.851-20.571 -20.457 1.00 41.63 N

ATOM 384 CA GLU A 57 -29.033 -21.085 -21.807 1.00 43.90 C

ATOM 385 CB GLU A 57 -28.440 -20.112 -22.831 1. 00 46.62 C

ATOM 386 C6 GLU A 57 -26.978 -19.753-22.596 1., 00 52.24 C

ATOM 387 CD GLU A 57-26.496 -18.613-23.493 1. 00 55.82 C

ATOM 388 0E1 GLU A 57 -26.091-17.555 -22.954 1., 00 56.20 0

ATOM 389 0E2 GLU A 57 -26.518-18.779 -24.735 1., 00 56.61 0

ATOM 390 C GLU A 57 -28.368-22.446 -21.937 1. .00 43.49 C

ATOM 391 0 GLU A 57 -27.260 -22.647-21 ■ 448 1., 00 42.13 0

ATOM 392 N THR A 58 -29.056 -23.385-22.580 1., 00 44.90

 ATOM 393 CA TH A 58 -28.455 -24.671 -22.912 1. .00 45.52 C

ATOM 394 CB THR A 58-29.373-25.854 -22.532 1. .00 45.15 C

ATOM 395 0G1 THR A 58 -30.514 -25.882 -23.400 1, .00 42.27 0

ATOM 396 CG2 THR A 58 -29.834 -25.722 -21.086 1, .00 43.90 C

ATOM 397 C THR A 58-28.198 -24.723 -24.410 1, .00 46.99 C

ATOM 398 0 THR A 58 -28.718 -23.899-25.160 1, ■ 00 47.00 0

ATOM 399 N GLU A 59 -27.390-25.685-24.838 1 .00 48.15 N

ATOM 400 CA GLU A 59 -27.156 -25.917 -26.258 1 .00 50.19 C

ATOM 401 CB GLU A 59 -25.696 -25.639 -26.619 1 ■ 00 52.53 C

ATOM 402 CG GLU A 59-25.212 -24.251 -26.260 1 .00 58.34 C

ATOM 403 CD GLU A 59 -23.780-24.251-25.749 1 .00 62.08 C

ATOM 404 0E1 GLU A 59 -23.534 -23.654 -24.674 1 ■ 00 63.10 0

ATOM 405 0E2 GLU A 59 -22.904 -24.849 -26.419 1 .00 62.93 0

ATOM 406 C GLU A 59 -27.474 -27.372-26.559 1 .00 49.93 C

ATOM 407 0 GLU A 59 -27.216 -28.248 -25.736 1 • 00 48.31 0 ATOM 408 N LYS A 60-28.032 -27.625 -27.738 1.00 51.11 N

ATOM 409 CA LYS A 60-28.282 -28.989 -28. 186 1. 00 51. 49 C

ATOM 410 CB LYS A 60 -29.291 -28.996 -29. 329 1. 00 52.05 C

ATOM 411 CG LYS A 60-30.623 -29.611 -28. 961 1. 00 54.01 C

ATOM 412 CD LYS A 60-31. 306 -28.836 -27. 850 1. 00 54.76 C

ATOM 413 CE LYS A 60 -32.593 -29.521 -27. 410 1. 00 55.30 C

ATOM 414 NZ LYS A 60 -32.329 -30.813-26. 708 1. 00 57.01 N

ATOM 415 C LYS A 60 -26. 990 -29.637 -28. 654 1. 00 51. 83 C

ATOM 416 0 LYS A 60 -26. 322 -29. 132-29. 555 1. 00 53.41 0

ATOM 417 N VAL A 61-26. 645 -30.757 -28. 031 1. 00 51. 56 N

ATOM 418 CA VAL A 61 -25. 418 -31. 475 -28. 343 1. 00 50.58 C

ATOM 419 CB VAL A 61 -24. 433 -31. 404-27. 164 1. 00 50.08 C

ATOM 420 CG1 VAL A 61 -23. 155 1 32, 137 -27. 504 1. 00 51. 05 C

ATOM 421 CG2 VAL A 61 -24. 148 -29. 959-26. 820 1. 00 51. 07 C

ATOM 422 C VAL A 61 -25. 753 -32, 938 -28. 617 1., 00 50. 65 C

ATOM 423 0 VAL A 61 -26. 463 -33. 572 -27. 833 1. 00 49. 21 0

ATOM 424 N THR A 62 -25. 250 -33. 468-29. 729 1., 00 50. 34 N

ATOM 425 GA THR A 62-25. 454-34. 873-30. 067 1., 00 50. 67 C

ATOM 426 CB THR A 62-25. 646 -35. 076 -31. 582 1., 00 51. 43 C

ATOM 427 0G1 THR A 62-26. 918 -34. 550 -31. 980 1. .00 52. 29 0

ATOM 428 CG2 THR A 62-25. 574-36. 555 -31. 934 1., 00 50. 66 C

ATOM 429 C THR A 62-24. 275 -35. 724 -29. 624 1. .00 50, 76 C

ATOM 430 0 THR A 62 -23. 124 1 35. 418 -29.937 1. .00 51. 75 0

ATOM 431 N ILE A 63 -24. 572 -36. 794 -28. 893 1, .00 49. 38 N

ATOM 432 CA ILE A 63 -23. 539 37. 699 -28. 412 1. .00 49. 12 C

ATOM 433 CB ILE A 63 -23. 206 -37. 421 -26. 935 1. .00 47. 25 C

ATOM 434 CG2 ILE A 63 -22. 776-35. 983 -26. 774 1, .00 48. 14 C

ATOM 435 C61 ILE A 63-24. 424-37. 678 -26. 054 1, .00 44. 82 C

ATOM 436 CD1 ILE A 63-24. 089 -37. 686-24. 590 1, .00 43. 06 C

ATO 437 C ILE A 63 -23. 979-39. 154-28. 563 1, .00 49. 76 C

ATOM 438 0 ILE A 63 -25. 042 -39. 434-29. 117 1, .00 48. 64 0

ATOM 439 N GLU A 64 -23. 158 -40. 079 -28. 076 1, .00 50. 99 N

ATOM 440 CA 6LU A 64-23. 459 -41. 498 -28. 227 1, .00 52. 15 C

ATOM 441 CB GLU A 64-22. 192 -42. 271 -28. 603 1 .00 52. 68 C

ATOM 442 CG GLU A 64 -22. 462 -43. 670 -29. 115 1, .00 55. 62 C

ATOM 443 CD GLU A 64 -23. 452 -43. 687 -30. 274 1 ■ 00 57. 94 C If

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0 9 ■ SS 00 Ί Z.8S 386 '-ιεζ. '62-99 V ZQO 99V WOIV

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0 Zl 'SS 00 -L 168 "93- S88' 317- 960" 92- 99 V per person 9 vo en 匪 V

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SSLlL0 / L00Zd £ / 13d 0CZ.S0 / 600Z OAV ATOM 480 CA PRO A 69 -26.632-41.081 -31.029 1.00 55.13 C

ATOM 481 CB PRO A 69 -26.386-40.593 -32.456 1. 00 56.58 C

ATOM 482 CG PRO A 69 -26.950 -41. 670 -33.325 1. 00 56.57 C

ATOM 483 C PRO A 69 -27.896 -40.469 -30.421 1. 00 52.83 C

ATOM 484 0 PRO A 69 -29.010 -40.774 -30.845 1. 00 51.43 0

ATOM 485 N VAL A 70 -27.705 -39.604 -29.427 1. 00 51.40 Ν

ATOM 486 CA VAL A 70-28.801-38.865 -28.804 1. 00 49.40 C

ATOM 487 CB VAL A 70 -29.158 -39.448 -27.424 1. 00 48.73 C

ATOM 488 CG1 VAL A 70 -30,194 -38. 580-26.751 1. 00 48.22 C

ATOM 489 CG2 VAL A 70-29.687-40. 860 -27.577 1. 00 50.94 C

ATOM 490 C VAL A 70-28.464 -37. 387 -28.617 1. 00 48.27 C

ATOM 491 .0 VAL A 70 -27. 344 -37. 032 -28.248 1. 00 48.09 0

ATOM 492 N 6LU A 71 -29. 439 -36. 521 -28.864 1. 00 46.37 Ν

ATOM 493 CA 6LU A 71 -29. 258-35. 105 -28.577 1. 00 45.13 C

ATOM 494 CB GLU A 71 -30. 138 -34. 252 -29.484 1. 00 44.85 C

ATOM 495 GG GLU A 71 -29. 465-33. 858 -30.776 1., 00 46.71 C

ATOM 496 CD GLU A 71 —29. 696-32. 406 -31.117 1. .00 46.51 C

ATOM 497 0E1 GLU A 71 -28. 755-31. 758 -31.623 1., 00 45.44 0

ATOM 498 0E2 GLU A 71 -30. 821 -31. 917-30.875 1., 00. 47.95 0

ATOM 499 C GLU A 71 -29. 574 -34. 785 -27.126 1., 00 43.26 C

ATOM 500 0 GLU A 71 -30. 614-35. 171-26.599 1. .00 42.12 0

ATOM 501 N ILE A 72 -28. 659 -34. 075 -26.485 1., 00 41.89 Ν

ATOM 502 CA ILE A 72 -28. 853-33. 649 -25.115 1, .00 41.32 C

ATOM 503 CB ILE A 72-27. 804 -34. 265-24.192 1. .00 41.02 C

ATOM 504 CG2 ILE A 72-27. 987 -35. 769 -24.135 1, .00 C

ATOM 505 Cd1 ILE A 72 -26. 408-33. 897-24.693 1, .00 39.69 C

ATOM 506 CD1 ILE A 72 1 25. 305-34.250 -23.725 1. .00 41.67 C

ATOM 507 C ILE A 72 -28. 723 -32. 142-25.039 1, .00 C

ATOM 508 0 ILE A 72 -28. 343 -31. 491 -26.012 1, .00 41.33 0

ATOM 509 N ASP A 73-29. 047 -31. 594 -23.875 1, .00 42.40 Ν

ATOM 510 CA ASP A 73 -28. 797 -30. 192 -23.587 1, .00 42.35 C

ATOM 511 CB ASP A 73-30. 057 -29. 543 -23.034 1 • 00 44.93 C

ATOM 512 CG ASP A 73 -31. 209 -29. 608 -24.005 1 .00 48.44 C

ATOM 513 0D1 ASP A 73 -32. 077 -30. 494 -23.841 1 .00 50.51 0

ATOM 514 0D2 ASP A 73 -31. 243 -28. 772 -24.932 1 • 00 49.64 0

ATOM 515 C ASP A 73 1 27. 679 -30. 108 -22.565 1 .00 41.26 C ATOM 516 0 ASP A 73 -27.459 -31.048 -21.808 1.00 42.29 0

ATOM 517 N GLN A 74 -26.973-28.986 -22.540 1. 00 39.93 N

ATOM 518 CA GLN A 74-25.827-28.847 -21.656 1. 00 39.95 C

ATOM 519 CB GLN A 74 -24.622 -29.584-22.246 1. 00 42.01 C

ATOM 520 CG GLN A 74 -24.074 -28.943 -23,511 1. 00 45.96 C

ATOM 521 CD GLN A 74-22.763 -29.557 -23.959 1.00 49.03 C

ATOM 522 0E1 GLN A 74-22.495 -30.733-23.704 1. 00 52.59 0

ATOM 523 NE2 GLN A 74 -21.936 -28.763-24.632 1.00 48.94 N

ATOM 524 C GLN A 74-25.475 -27.379-21 ■ 463 1. 00 37.86 C

ATOM 525 0 GLN A 74 -25. 702 -26.555 -22.343 1. 00 37.16 0

ATOM 526 N ILE A 75 -24. 920-27.056 -20.304 1. 00 36.39 N

ATOM 527 CA ILE A 75 -24. 412 -25.7.18 -20.070 1. 00 36. 15 C

ATOM 528 CB ILE A 75 -24. 939-25.141 -18.756 1. 00 35. 21.

ATOM 529 CG2 ILE A 75 -26. 441 -25.280 -18.700 1. 00 36. 30 C

ATOM 530 CG1 ILE A 75 -24. 310-25.878 -17.577 1. 00 36. 75 C

ATOM 531 CD1 ILE A 75 -24. 472 -25.159 -16.255 1. 00 38. 59 C

ATOM 532 C ILE A 75-22. 897 -25.806 -19.983 1.00 36. 01 C

ATOM 533 0 ILE A 75 -22. 358-26.822 -19.553 1., 00 35. 52 0

ATOM 534 N LYS A 76 -22. 216 -24.746 -20.399 1. 00 35. 65 N

ATOM 535 CA LYS A 76 -20. 768 -24.686 -20.280 1. 00 36. 79 C

ATOM 536 CB LYS A 76-20. 177 -23.673 -21.272 1., 00 40. 99 C

ATOM 537 C6 LYS A 76 -20. 655 -23.824 -22.710 1. 00 43. 76 C

ATOM 538 CD LYS A 76 -19. 955 -24.973 -23.411 1., 00 47. 13 C

ATOM 539 CE LYS A 76 -19. 119 -24.469-24.573 1., 00 48. 11 C

ATOM 540 NZ LYS A 76 -18. 012-23.589 -24.098 1. .00 51. 53 N

ATOM 541 C LYS A 76 -20. 440 -24.246 -18.866 1., 00 35. 60 C

ATOM 542 0 LYS A 76 -20. 296 -23.049 -18.602 1. .00 34. 46 0

ATOM 543 N GLY A 77 -20. 321 -25.216-17.965 1. .00 34. 61 N

ATOM 544 CA GLY A 77 -20. 018 -24.905 -16.582 1. .00 32. 82 C

ATOM 545 C GLY A 77 -18. 857 -23.940 -16.453 1. .00 31. 97 G

ATOM 546 0 GLY A 77 -18. 889-23.024 -15.634 1, .00. 31. 89 0

ATOM 547 N LYS A 78-17. 835 -24.135 -17.275 1, .00 31. 88 N

ATOM 548 CA LYS A 78 -16. 643-23.300 -17.216 1, .00 32. 97 C

ATOM 549 CB LYS A 78 -15. 607 -23.789 -18.232 1, .00 33. 89 C

ATOM 550 CG LYS A 78 -16. 033-23.596-19.682 1 .00 38. 47 C

ATOM 551 CD LYS A 78 -15. 090 -24.302 One 20.660 1, .00 41. 69 C ATOM 552 CE LYS A 78-15.646-24.274 -22.091 1.0042.26 C

ATOM 553 NZ LYS A 78 -14.931 -25. 214 -23.008 1. 00 43. 50 N

ATOM 554 C LYS A 78 -16.963 -21. 825 -17.472 1. 00 32. 86 C

ATOM 555 0 LYS A 78-16.171 -20. 949 -17.140 1. 00 35. 72 0

ATOM 556 N LYS A 79 -18.120 -21. 544-18.057 1. 00 31. 60 N

ATOM 557 CA LYS A 79 -18.489 -20. 162 -18.348 1. 00 31. 69 C

ATOM 558 CB LYS A 79 -19.139 -20. 090 -19.731 1. 00 32. 68 C

ATOM 559 CG LYS A 79 -18.151 -20. 380 -20.859 1. 00 36. 58 C

ATOM 560 CD LYS A 79-18.827 -20. 513 -22.213 1. 00 39. 42 C

ATOM 561 CE LYS A 79 -17.797 -20. 495-23.334 1. 00 41. 58 C

ATOM 562 NZ LYS A 79 -16.544 -21. 222 -22.962 1. 00 42. 84 N

ATOM 563 C LYS A 79 -19.400 -19. 546 -17.275 1. 00 30. 56 C

ATOM 564 0 LYS A 79 -19.992 -18. 481 -17.471 1. 00 28. 15 0

ATOM 565 N ILE A 80 -19.501 -20. 234 1 16.140 1. 00 29. 22 N

ATOM 566 CA ILE A 80 -20.082 -19. 668 -1 .923 1. 00 28. 58 C

ATOM 567 CB ILE A 80 -20.965 -20. 709 One 14.202 1. 00 26. 76 C

ATOM 568 CG2 ILE A 80-21.605 -20. 094 -12.961 1.00 27. 01 C

ATOM 569 CG1 ILE A 80 -22.025 -21. 235 -15.162 1. 00 27. 16 C

ATOM 570 CD1 ILE A 80 -22.960 -20. 176 -15.687 1. 00. 27. 66 C

ATOM 571 C ILE A 80 -18.916 -19. 302 -14.005 1. 00 27. 51 C

ATOM 572 0 ILE A 80 -17.907 -20. 010 -13.982 1., 00 28. 34 0

ATOM 573 N THR A 81 -19.034 -18. 205 -13.262 1. 00 26. 80 N

ATOM 574 CA THR A 81 -17.999-17. 863 -12.281 1., 00 28. 93 C

ATOM 575 CB THR A 81 -17.198 1 16. 598 -12.669 1., 00 29. 63 C

ATOM 576 061 THR A 81 -16.523 -16. 805 -13.916 1. .00 32. 24 0

ATOM 577 Cfi2 THR A 81 -16.151 -16. 306 -11 · 603 1., 00 29. 68 C

ATOM 578 C THR A 81 -18.541 -17. 634 -10.879 1. .00 29. 10 C

ATOM 579 0 THR A 81 -19.475 1 16. 860 -10.675 1. .00 28. 57 0

ATOM 580 N VAL A 82 -17.933 -18. 311 -9.912 1. .00 28. 32 N

ATOM 581 CA VAL A 82 -18.296 -18. 133-8.524 1, .00 28. 28 C

ATOM 582 CB VAL A 82 -18.157 -19. 429 -7.734 1, .00 27. 48 C

ATOM 583 CG1 VAL A 82 -18.709 -19. 232 -6.338 1, .00 28. 48 C

ATOM 584 CG2 VAL A 82 -18.889 -20. 537 One 8.444 1, .00 33. 27 C

ATOM 585 C VAL A 82 -17.384-17. 098 -7.901 1 .00 27. 55 C

ATOM 586 0 VAL A 82 -16.161 -17. 223 -7.946 1, .00 27. 64 0

ATOM 587 N VAL A 83 —17.987 -16. 077 One 7, 310 1 .00 25. 94 N s

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^ LlLO / LOOZdT / lDd 0CZZ.S0 / 600Z ΟΛΧ ATOM 660 C6 MET A 93 -16.586-21.343 -3.655 1.00 25.26 C

ATOM 661 SD MET A 93 -14.812 -21. 042 -3.671 1. 00 29.36 S

ATOM 662 CE MET A 93 -14.240 -22.165 -2.397 1. 00 24.93 C

ATOM 663 G MET A 93 -19.099 -22.646 -2.742 1. 00 24.84 C

ATOM 664 0 MET A 93 -19.531-22.878 -3.871 1.00 26.55 0

ATOM 665 N ASP A 94 -18.902 -23.596-1.832 1. 00 24.40 N

ATOM 666 CA ASP A 94 -19.093 -25.007 -2.157 1.00 24.67 C

ATOM 667 CB ASP A 94 -18.713-25. 897 -0.971 1. 00 23.34 C

ATOM 668 GG ASP A 94 -17. 233 -26. 229 -0.946 1. 00 26.81 C

ATOM 669 0D1 ASP A 94 -16.549-25. 980-1.964 1. 00 28.21 0

ATOM 670 0D2 ASP A 94 -16. 747 -26. 740 0.086 1. 00 25.81 0

ATOM 671 C ASP A 94 -20. 516-25. 313 -2.585 1. 00 25.46 C

ATOM 672 0 ASP A 94 -20. 738-26. 128-3.478 1. 00 27. 05 0

ATOM 673 N GLY A 95 -21.479 -24.658 -1.948 1.00 26.96 N

ATOM 674 CA 6LY A 95-22. 867 1 24. 870 -2.312 1. 00 26. 69 C

ATOM 675 C GLY A 95 -23. 121-24. 501 -3.761 1. 00 26. 31 C

ATOM 676 0 GLY A 95-23. 942 -25. 129 -4.435 1. 00 25. 87 0

ATOM 677 N VAL A 96-22. 412 -23. 487 -4.250 1., 00 24. 40 N

ATOM 678 CA VAL A 96 -22. 540 -23. 106-5.646 1. 00 23. 75 C

ATOM 679 CB VAL A 96 -21. 923-21. 719-5.909 1. 00 25. 35 C

ATOM 680 C61 VAL A 96-22. 189 -21. 305 -7.340 1., 00 23. 59 C

ATOM 681 CG2 VAL A 96 -22. 498 -20. 696 —4.941 1., 00 24. 59 C

ATOM 682 C VAL A 96 -21. 853-24. 137 -6.550 1., 00 23. 44 C

ATOM 683 0 VAL A 96 -22.443-24.623 -7.512 1., 00 23.39 0

ATOM 684 N LEU A 97 -20. 611 -24. 482 -6.234 1. .00 23. 39 N

ATOM 685 CA LEU A 97 -19. 843 -25. 395-7.082 1. .00 25. 41 C

ATOM 686 CB LEU A 97 -18. 412 -25. 528 -6.559 1., 00 23. 36 C

ATOM 687 CG LEU A 97-17. 592 -24.233 -6.537 1. .00 23. 21 C

ATOM 688 CD1 LEU A 97-16. 225 -24. 463 -5.912 1., 00 22. 95 C

ATOM 689 CD2 LEU A 97-17. 449-23. 734-7.952 1. .00 22. 63 C

ATOM 690 C LEU A 97 -20.-516 -26. 770 -7.139 1. .00 27. 66 C

ATOM 691 0 LEU A 97 -20.412-27. 483 -8.135 1, .00 29. 03 0

ATOM 692 N GLU A 98 -21. 220 -27. 130-6.073 1. .00 27. 89 N

ATOM 693 CA 6LU A 98 -22.034 -28.341-6.079 1, .00 29. 35 C

ATOM 694 CB GLU A 98 -22.861 -28.418 -4.797 1, .00 34. 40 C

ATOM 695 CG GLU A 98 -22.457 -29. 542 -3.867 1 .00 41. 69 C ATOM 696 CD GLU A 98 -23.656 -30.351-3.405 1.00 46.64 C

ATOM 697 0E1 GLU A 98 -23.522-3.281 1.00 49.50 0

ATOM 698 0E2 GLU A 98-24.729 -29.743 -3, 171 1. 00 46.92 0

ATOM 699 C GLU A 98 -22.973 -28.412 -7.284 1.00 28.74 C

ATOM 700 0 GLU A 98 -23.121 -29.463 -7.902 1.00 27.75 0

ATOM 701 N ASN A 99 -23.610-27.292 -7.611 1. 00 26.91 N

ATOM 702 CA ASN A 99 -24.580 -27.257 -8.699 1.00 25.01 C

ATOM 703 CB ASN A 99-25.551 -26.085 -8.508 1. 00 25.50 C

ATOM 704 C6 ASN A 99 -26.462 -26.270 -7.306 1.00 22.99 C

ATOM 705 0D1 ASN A 99-27.571 -26.781 -7.433 1.00 27.43 0

ATOM 706 ND2 ASN A 99-25.997-25.857 -6.137 1. 00 19.92 N

ATOM 707 C ASN A 99 -23.873 -27.124 -10.044 1. 00 23.04 C

ATOM 708 0 ASN A 99 -24.365-27.605-11.061 1.00 20.80 0

ATOM 709 N VAL A 100 -22.720 -26.467 -10.032 1.00 21.09 N

ATOM 710 CA VAL A 100 -21.924 -26.253 -11.239 1. 00 21.99 C

ATOM 711 CB VAL A 100 -22.107 -24.814 -11.772 1. 00 25.31 C

ATOM 712 CG1 VAL A 100 -24.602 -13.012 1.00 21.75 C

ATOM 713 C62 VAL A 100 -23.591 -24.555 -12.087 1. .00 20.99 C

ATOM 714 C VAL A 100-20.441 -26.472-10.919 1. 00 22.14 C

ATOM 715 0 VAL A 100 -19.696 -25.523 -10.682 1., 00 21.89 0

ATOM 716 N PRO A 101 -20.004 -27.741 -10.881 1. .00 22.66

 ATOM 717 CD PRO A 101 -20.794-28.938 -11.213 1., 00 22.42 C

ATOM 718 CA PRO A 101 -18.657 -28.088 -10.421 1. .00 22.65 C

ATOM 719 CB PRO A 101 -18.711 -29.604 -10.259 1, .00 22.57 C

ATOM 720 CG PRO A 101 -19.754 -30.039 -11.231 1. .00 23.60 C

ATOM 721 C PRO A 101 -17.529 -27.654-11.350 1, .00 22.29 C

ATOM 722 0 PRO A 101 -16.386 -27.566 -10.921 1 .00 21.90 0

ATOM 723 N SER A 102 17.841 -27.386 -12.614 1. .00 22.18 N

ATOM 724 CA SER A 102 -16.815 -26.953 -13.561 1 .00 25.44 C

ATOM 725 CB SER A 102 -17.152 -27.422 -14.982 1 .00 27.00 C

ATOM 726 OG SER A 102 -16.884 -28.810 -15.150 1 .00 30.78 0

ATOM 727 C SER A 102 -16.626-25.440 -13.566 1 .00 26.92 C

ATOM 728 0 SER A 102 -15.837 -24.908 -14.354 1 .00 26.57 0

ATOM 729 N ALA A 103 -17.346 -24.745 -12.690 1 .00 24.58 N

ATOM 730 CA ALA A 103 -17.334-23.292 -12.711 1 .00 23.29 C

ATOM 731 CB ALA A 103 -18.436 -22.732 1 .00 24.38 C Five

ATOM 732 C ALA A 103 —15.978 -22.724 -12.314 1. 00 23.22 C

ATOM 733 0 ALA A 103 -15.234 -23.310 -11.525 1. 00 21.76 0

ATOM 734 N ARG A 104 -15.679 -21.564 -12.881 1. 00 24.30 N

ATOM 735 CA ARG A 104 -14.545 -20.743 -12.486 1. 00 24.44 C

ATOM 736 CB ARG A 104-14.432 -19.578 -13.462 1. 00 25.99 C

ATOM 737 C6 ARG A 104-13.043 -19.219 -13.908 1. 00 32.17 C

ATOM 738 CD ARG A 104 -13.073 -18.826 -15.381 1. 00 33.97 C

ATOM 739 NE ARG A 104-12.354 -17.583 -15.640 1.00 37.16 N

ATOM 740 CZ ARG A 104 -12.843 -16.373 -15.385 1. 00 39.33. C

ATOM 741 NH1 ARG A 104 1 14.056 -16.245 -14.859 1.00 40.64 N

ATOM 742 NH2 ARG A 104 -12.126 -15.291 —15.669 1. 00 37.66 N

ATOM 743 C ARG A 104 -14.765 -20.203 -11.065 1. 00 23.56 C

ATOM 744 0 ARG A 104 -15.879 -19.825 -10.698 1. 00 21.20 0

ATOM 745 N ILE A 105 -13.703 -20.173-10.271 1. 00 22.73 N

ATOM 746 CA ILE A 105 -13.743 -19.499 -8.979 1. 00 21.06 C

ATOM 747 CB ILE A 105 —13.131 —20.350 —7.863 1. 00 21.28 C

ATOM 748 CG2 ILE A 105 -13.158 -19.565 -6.563 1., 00 18.47 C

ATOM 749 CG1 ILE A 105-13.862 -21.697 -7.761 1. 00 16.81 C

ATOM 750 CD1 ILE A 105 -13.062 -22.782 -7.076 1., 00 13.14 C

ATOM 751 C ILE A 105 1 12.919 —18.239 -9.080 1., 00 21.55 C

ATOM 752 0 ILE A 105 -11.830 -18.245 -9.648 1., 00 22.66 0

ATOM 753 N SER A 106 -13.429 -17.160 -8.511 1. .00 21.39 N

ATOM 754 CA SER A 106 1 12.754 -15.880 -8.594 1. .00 21.26 C

ATOM 755 CB SER A 106 -13.328 -15.092 -9.779 1. .00 20.68 C

ATOM 756 OG SER A 106 -12.490 -14.025 -10. '166 1. .00 26.88 0

ATOM 757 C SER A 106 -13.008 -15.152 -7.282 1, .00 21.39 C

ATOM 758 0 SER A 106 -14.001 -14.440 One 7 ・ 151 1, .00 20.40 0

ATOM 759 N VAL A 107 —12.122 -15.342 —6.304 1 .00 22.08 N

ATOM 760 CA VAL A 107 -12.366 -14.809 -4.969 1, .00 22.43 C

ATOM 761 CB VAL A 107 -11.568 -15.555 -3.877 1 .00 22.09 C

ATOM 762 CG1 VAL A 107 -11.909 -17.031 —3.884 1 ■ 00 21.85 C

ATOM 763 CG2 VAL A 107-10.096 -15.356 -4.087 1 .00 25.10 C

ATOM 764 C VAL A 107 -11.990 -13.348-4.902 1 .00 23.03 C

ATOM 765 0 VAL A 107 -10.962 -12.944 -5.429 1 • 00 25.70 0

ATOM 766 N VAL A 108 -12.825 -12.548 -4.251 1 .00 25.32 N

ATOM 767 CA VAL A 108 -12.492 -11.147 —4.058 1 .00 26.73 C ATOM 768 CB VAL A 108 -13.535 -10.229 -4.715 1.00 26.74 C

ATOM 769 CG1 VAL A 108 -13.976-10.827 -6.038 1. 00 24.02 C

ATOM 770 CG2 VAL A 108-14.702 -10.010 -3.792 1. 00 28.96 C

ATOM 771 C VAL A 108 -12.378 -10.811 -2.578 1.00 27.26 C

ATOM 772 0 VAL A 108-13.117 -11.338-1. 746 1. 00 23.50 0

ATOM 773 N 6LY A 109 -11.420 -9.943-2. 263 1. 00 30.79 N

ATOM 774 CA 6LY A 109-11.265 -9.443 -0. 910 1. 00 32.45 C

ATOM 775 C GLY A 109-11.603 -7.966-0. 812 1. 00 34.39 C

ATOM 776 0 GLY A 109 -11.827-7.299-1. 822 1. 00 32.55 0

ATOM 777 N MET A 110 -11.635-7.451 0. 411 1. 00 38.14 N

ATOM 778 CA MET A 110 -11.870 -6.031 0. 635 \. 00 44.14 C

ATOM 779 CB MET A 110 -13.157 -5.856 1.445 1. 00 44.30 C

ATOM 780 CG MET A 110 -14.209 -4.993 0. 779 1. 00 46.19 C

ATOM 781 SD MET A 110 -14.944-5.746-0. 681 1. 00 45.66 S

ATOM 782 CE MET A 110 -15.370 -4.290 -1. 597 1. 00 46.41 C

ATOM 783 C MET A 110 -10.692 -5.407 1. 392 1. 00 47.36 C

ATOM 784 0 MET A 110 -10.521-5.661 2. 585 1. 00 48.96 0

ATOM 785 N TYR A 111 -9.879-4.596 0. 713 1. 00 50.96 N

ATOM 786 CA TYR A 111-8.800 -3.879 1. 398 1. 00 52.69 C

ATOM 787 CB TYR A 111 -7.988 -3.014 0. 424 1., 00 52.98 C

ATOM 788 CG TYR A 111 -7.081 -3.763 -0. 534 1. 00 54.59 C

ATOM 789 CD1 TYR A 111 -6.984 -3.375-1. 868 1., 00 54.50 C

ATOM 790 CE1 TYR A 111-6.161 -4.055 -1.762 1., 00 53.90 C

ATOM 791 CD2 TYR A 111 -6.323 -4.856-0. 114 1. .00 54.62 C

ATOM 792 CE2 TYR A 111 -5.495 -5.544 — 1. 004 1., 00 53.55 C

ATOM 793 CZ TYR A 111 -5.422-5.137-2. 327 1. .00 53.11 C

ATOM 794 OH TYR A 111 -4.628 -5.814 -3. 226 1, .00 50.54 0

ATOM 795 C TYR A 111 -9.414 -2.968 2. 453 1. .00 54.64 C

ATOM 796 0 TYR A 111-10.326 -2.197 2. 161 1, .00 53.70 0

ATOM 797 N ARG A 112 -8.917 -3.060 3.680 1, .00 58.71 N

ATOM 798 CA ARG A 112-9.368 -2.177 4. 750 1 .00 63.07 C

ATOM 799 CB ARG A 112 -10.214 -2.960 5.759 1, .00 63.11 C

ATOM 800 CG ARG A 112 -11.347 -3.745 5. 118 1 .00 64.16 C

ATOM 801 CD AR6 A 112 -12.352 -4.245 6., 144 1 ■ 00 64.56 C

ATOM 802 NE ARG A 112 -13.709 -3.822 5. 808 1 • 00 64.87 N

ATOM 803 CZ ARG A 112 -14.516 -4.476 4., 979 1 .00 65.24 C IS

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SS.T.0 / .00Zdf / X3d ocr.so/6ooz; OAV ATOM 840 0 THR A 116 -10.446 6.190 1.345 1.00 75.09 0

ATOM 841 N LEU A 117 -10.365 5.607 3.519 1. 00 75.16 N

ATOM 842 CA LEU A 117 -11.724 6.055 3.815 1.00 75.40 C

ATOM 843 CB LEU A 117 -11.830 7.575 3.630 1.00 76.02 C

ATOM 844 CG LEU A 117 -11.050 8.433 4.634 1. 00 76.55 C

ATOM 845 CD1 LEU A 117 -10.917 9.856 4.115 1. 00 75.98 C

ATOM 846 CD2 LEU A 117 -11.757 8.411 5.983 1.00 76.50 C

ATOM 847 C LEU A 117 -12.750 5.347 2.933 1. 00 74.91 C

ATOM 848 0 LEU A 117 -13, 721 5.956 2.473 1. 00 74.76 0

ATOM 849 N GLU A 118 -12.528 4.056 2.706 1. 00 73.70 N

ATOM 850 CA 6LU A 118 -13.390 3.271 1.832 1. 00 C

ATOM 851 .CB GLU A 118 -13.415 3.886 0.432 1. 00 73.13 C

ATOM 852 CG GLU A 118 -14.692 3.616-0.331 1. 00 75.16 C

ATOM 853 CD GLU A 118 -15.901 4.201 0.368 1. 00 77.69 C

ATOM 854 0E1 GLU A 118 -16.302 5.333 0.018 1.00 78.54 0

ATOM 855 0E2 GLU A 118 -16.448 3.530 1.273 1. 00 78.92 0

ATOM 856 C GLU A 118 -12.882 1.836 1.743 1., 00 69.72 C

 Λ 1

 ATOM 857 0 GLU A 118 -11.675 1.596 1.713 1., 00 70.33 0

ATOM 858 N PRO A 119 -13.802 0.860 1.721 1. 00 66.91 N

ATOM 859 CD PRO A 119-15.142 0.958 2.321 1. .00 66.61 C

ATOM 860 CA PRO A 119 -13.473 -0.521 1.346 1,, 00 63.70 C

ATOM 861 CB PRO A 119 -14.700 -1.319 1.787 1. .00 64.69 C

ATOM 862 CG PRO A 119 -15.390 -0.443 2.787 1. .00 66.01 C

ATOM 863 C PRO A 119 -13.237 -0.649 -0.158 1. .00 60.78 C

ATOM 864 0 PRO A 119 -14.175-0.523 -0.951 1. .00 59.56 0

ATOM 865 N VAL A 120 -11.991-0.898 -0.550 1. .00 56.55 N

ATOM 866 CA VAL A 120 -11.690 -1.152 -1.954 1, .00 53.62 C

ATOM 867 CB VAL A 120-10.404 -0.402 -2.415 1, .00 53.71 C

ATOM 868 CG1 VAL A 120 -9.235 -0.745-1.512 1, .00 C

ATOM 869 CG2 VAL A 120-10.089-0.757-3.863 1, .00 51.96 C

ATOM 870 C VAL A 120 -11.542 -2.647-2.221 1, .00 51.59 C

ATOM 871 0 VAL A 120 -10.777 -3.346 -1.550 1 .00 52.50 0

ATOM 872 N PRO A 121 -12.301 -3.159-3.198 1 • 00 47.88 N

ATOM 873 CD PRO A 121 -13.223 -2.371 -4.036 1 .00 48.08 C

ATOM 874 CA PRO A 121 -12.320 -4.580 -3.552 1 .00 45.96 C

ATOM 875 CB PRO A 121 1 13.636 1 4.736 -4.302 1 ■ 00 46.74 C P2007 / 071755

ATOM 876 CG PRO A 121 -13.809 -3.398 -4.983 1.00 47.30 C

ATOM 877 C PRO A 121 -11.128 -4.932 -4.429 1. 00 43.37 C

ATOM 878 0 PRO A 121 -10.574 -4.071 -5.116 1.00 43.17 0

ATOM 879 N TYR A 122 -10.740 -6.200 -4.415 1. 00 40.67 N

ATOM 880 CA TYR A 122 -9.673 -6.666 -5.293 1.00 37.30 C

ATOM 881 CB TYR A 122 -8.319 -6.438 -4.627 1. 00 35.51 C

ATOM 882 CG TYR A 122-8.169 -7.167 -3.317 1.00 33.50 G

ATOM 883 CD1 TYR A 122-8.602 -6.596 -2.129 1. 00 32.13 C

ATOM 884 CE1 TYR A 122-8.458 -7.263-0.927 1. 00 36.39 C

ATOM 885 CD2 TYR A 122 -7.590 -8.425-3.270 1.00 33.19 C

ATOM 886 CE2 TYR A 122 -7.441-9.098 -2.078 1.00 34.78 C

ATOM 887 CZ TYR A 122 -7.875 -8.515-0.909 1.00 36.65 C

ATOM 888 OH TYR A 122 -7.723-9.189 0.278 1.00 38.80 0

ATOM 889 C TYR A 122-9.830-8.143 -5.626 1. 00 35.24 C

ATOM 890 0 TYR A 122 -10.258 -8.935-4.790 1.00 33.59 0

ATOM 891 N PHE A 123 -9.492 -8.504 -6.857 1. 00 35.79 N

ATOM 892 CA PHE A 123-9.336 -9.906 -7.217 1.00 34.69 C

ATOM 893 CB PHE A 123-9.209 -10.079-8.726 1. 00 34.83 C

ATOM 894 CG PHE A 123 -10.416 -9.651-9.496 1. 00.37.37 C

ATOM 895 CD1 PHE A 123 -10.383 -8.504 -10.272 1. 00 38.83 C

ATOM 896 CD2 PHE A 123 -11.572 -10.410 -9.473 1., 00 39.84 C

ATOM 897 CE1 PHE A 123 -11.479-8.123 -11.014 1., 00 41.87 C

ATOM 898 CE2 PHE A 123-12.678 -10.039 -10.211 1. .00 41.50 C

ATOM 899 CZ PHE A 123 -12.634 -8.895 -10.984 1. .00 43.37 C

ATOM 900 C PHE A 123 -8.060 -10.406-6 577 1. .00 33.46 C

ATOM 901 0 PHE A 123 -7.053-9.715 -6.579 1. .00 32.03 0

ATOM 902 N GLN A 124-8.107 -11.614-6.037 1. .00 35.07 N

ATOM 903 CA GLN A 124-6.903-12.301 -5.594 1. .00 36.96 C

ATOM 904 CB GLN A 124-7.286 -13.635 -4.951 1, ■ 00 36.05 C

ATOM 905 C6 GLN A 124 -6.144 -14.356-4.290 1, .00 40.37 C

ATOM 906 CD GLN A 124 -5.621 -13.623 -3.073 1, .00 43.09 C

ATOM 907 0E1 GLN A 124 -4.417 -13.625-2.808 1 • 00 42.66 0

ATOM 908 NE2 GLN A 124 -6.526 -12.992 -2.320 1 .00 44.02 N

ATOM 909 C GLN A 124-5.986 -12.519 -6.807 1 • 00 37.15 C

ATOM 910 0 GLN A 124 -4.767 -12.404 -6.707 1 • 00 38.26 0

ATOM 911 N LYS A 125 -6.588 -12.822 -7.952 1 • 00 37.03 N ATOM 912 CA LYS A 125 -5.884 -12.812 -9.231 1.00 38.17 C

ATOM 913 CB LYS A 125-5.471 -14.228 -9.626 1. 00 38.31 C

ATOM 914 CG LYS A 125 -5.077 -14.358-11.094 1. 00 42.12 C

ATOM 915 CD LYS A 125 -4.151 -15.549 -11.353 1. 00 42.23 C

ATOM 916 CE LYS A 125 -3.684 -15.576 one 12.810 1.00 41.52 C

ATOM 917 NZ LYS A 125-2.488 -16.434 -13.010 1.00 40.00 N

ATOM 918 C LYS A 125 1 6.791 -12.224 -10.311 1. 00 38.38 C

ATOM 919 0 LYS A 125 -7.963-12.573 -10.399 1.00 39.34 0

ATOM 920 N LEU A 126-6.252 -11.336 1. 00 39.90 N

ATOM 921 CA LEU A 126 -7.074 -10.632 -12.120 1.00 41.42 C

ATOM 922 CB LEU A 126 -6.461-9.261 -12.424 1.00 43.86 C

ATOM 923 CG LEU A 126 -7.439 -8.082 -12.506 1.00 47.99 C

ATOM 924 CD1 LEU A 126-6.659 -6.783 -12.673 1. 00 50.33 C

ATOM 925 CD2 LEU A 126 -8.402-8.275 -13.674 1. 00 48.52 C

ATOM 926 C LEU A 126-7.238 -11.437 -13.410 1. 00 39.21 C

ATOM 927 0 LEU A 126 -6.267 -11.945 -13.956 1.00 39.84 0

ATOM 928 N VAL A 127-8.478 -11.555 -13.880 1. .00 39.55 N

ATOM 929 CA VAL A 127 -8.799 -12.313 -15.089 1., 00 39.60 C

ATOM 930 CB VAL A 127-9.405 -13.691-14.745 1. 00 40.78 C

ATOM 931 CG1 VAL A 127 -8.374 -14.556 -14.026 1., 00 40.73 c

ATOM 932 C62 VAL A 127 -10.644-13.509 -13.873 1., 00 41.12 c

ATOM 933 C VAL A 127 9 811 -11.560 -15.946 1. .00 40.47 c

ATOM 934 0 VAL A 127 -10.423 -10.600 -15.485 1., 00 41.43 0

ATOM 935 N SER A 128 -9.990 -11.998 -17.189 1, .00 N

ATOM 936 CA SER A 128 -11.006 -11.416 -18.071 1. .00 42.45 c

ATOM 937 CB SER A 128 -10.589 -11.532 -19.540 1, .00 42.66 c

ATOM 938 OG SER A 128-9.461 -10.721 -19.811 1, .00 46.11 0

ATOM 939 C SER A 128-12.345 -12.108 -17.892 1 .00 42.48 c

ATOM 940 0 SER A 128-12.396-13.326 -17.694 1, .00 40.11 0

ATOM 941 N ASN A 129 -13.424 -11.329 -17.974 1 .00 42.44 N

ATOM 942 CA ASN A 129 -14.776 -11.863 -17.817 1 .00 42.29 C

ATOM 943 CB ASN A 129 -15.523 -11.088 -16.724 1 .00 42.50 C

ATOM 944 CG ASN A 129 -15.010 -11.406 -15.326 1 ∎ 00 43.00 C

ATOM 945 0D1 ASN A 129 -14.229-12.337-15.138 1 .00 42.05 0

ATOM 946 ND2 ASN A 129 -15.451 -10.633 -14.339 1 • 00 42.75 N

ATOM 947 C ASN A 129 -15.593 1 11.853 -19.116 1 .00 42.51 C ATOM 948 0 ASN A 129 -16.815 -12.010 -19.092 1.00 41.42 0

ATOM 949 N ILE A 130 -14.910 -11.688-20.247 1. 00 42.65 Ν

ATOM 950 CA lLE A 130 -15.562 -21.552 1. 00 40.65 C

ATOM 951 CB ILE A 130-14.535 -11.357 -22.671 1. 00 40.75 C

ATOM 952 CG2 ILE A 130 -15.169 -11.561 -24.031 1.00 38.99 C

ATOM 953 CGI ILE A 130 -13.986 -9.936 -22.523 1. 00 40.71 C

ATOM 954 CD1 ILE A 130 -15.057 -8.857-22.556 1. 00 40.09 G

ATOM 955 C ILE A 130 -16.316 -12.914-21.894 1. 00 41.75 C

ATOM 956 0 ILE A 130 -17, 520 -12.876 -22.148 1. 00 42.93 0

ATOM 957 N ASP A 131 -15.614-14.043 -21.891 1.00 40.97 Ν

ATOM 958 CA ASP A 131 -16.212 -15.316 -22.283 1. 00 42.37 C

 1

 ATOM 959 CB ASP A 131 -15.114 -16.379 -22.434 1. 00 44.72 C

ATOM 960 CG ASP A 131 -15.599-17.636 -23.153 1. 00 47.49 C

 1

 ATOM 961 0D1 ASP A 131 -16.452 -17.517-24.062 1.00 47.28 0

ATOM 962 0D2 ASP A 131 -15.126 -18.743 -22.810 1. 00 48.76 0

ATOM 963 C ASP A 131 -17.274 -15.790 -21 ■ 275 1. 00 42.14 C

ATOM 964 0 ASP A 131 -18.031 -16.731 -21.537 1., 00 41.99 0

ATOM 965 N GLU A 132-17.330 -15.121 -20.130 1. 00 40.20 Ν

ATOM 966 CA 6LU A 132 -18.221 -15.504 -19.033 1., 00. 39.13 C

ATOM 967 CB GLU A 132 -17.835 -14.721 -17.781 1. .00 38.28 C

ATOM 968 CG GLU A 132-18.765 -14.891 -16.612 1., 00 38.31 C

ATOM 969 CD GLU A 132 -18.437 -13.917 -15.509 1, .00 39.35 C

ATOM 970 0E1 GLU A 132-ΐ9 · 105 -12.863 -15.437 1. .00 41.21 0

ATOM 971 0E2 GLU A 132 -17.506 -14.200 -14.721 1, .00 40.44 0

ATOM 972 C GLU A 132 -19.701 -15.277 -19.332 1, .00 36.65 C

ATOM 973 0 GLU A 132 -20.075 -14.231 -19.842 1, .00 36.63 0

ATOM 974 N ARG A 133 -20.543 -16.252 -19.002 1 .00 35.90 Ν

ATOM 975 CA ARG A 133-21.975 -16.124 -19.259 1 .00 37.32 C

ATOM 976 CB ARG A 133 -22.559 -17.449 -19.757 1 ■ 00 40.69 C

ATOM 977 CG ARG A 133 -22.102 -17.852 1 .00 46.68 C

ATOM 978 CD ARG A 133-23.031 -18.900-21.760 1 ■ 00 50.94 C

ATOM 979 NE ARG A 133 -22.733 -19.135-23.171 1 ■ 00 55.09 Ν

ATOM 980 CZ ARG A 133-22.676 -20.340 -23.732 1 .00 56.56 C

ATOM 981 NH1 ARG A 133 -22.395 -20.459 -25.022 1 .00 56.57 Ν

ATOM 982 NH2 ARG A 133 -22.902 -21.425 -23.002 1 ■ 00 58.35 Ν

ATOM 983 C ARG A 133 -22.743 -15.672 -18.023 1 .00 35.66 C ATOM 984 0 ARG A 133 -23.813 -15.074 -18.131 1.00 34.49 0

ATOM 985 N MET A 134 -22.196 -15.970 -16. 850 1. 00 33.33 N

ATOM 986 CA MET A 134-22.781 -15.508 -15. 603 1. 00 32.90 G

ATOM 987 CB MET A 134 -23.961 -16.394 -15. 200 1. 00 35.30 C

ATOM 988 CG MET A 134 -24.646 -15.948 -13. 916 1. 00 38.38 C

ATOM 989 SD MET A 134-26.128 -16.906 -13. 555 1. 00 44.30 S

ATOM 990 CE MET A 134 -27.083 1 16.618 -15. 027 1. 00 45..63 C

ATOM 991 C MET A 134 -21.759 -15.495 -14. 481 1. 00 30.80 C

ATOM 992 0 MET A 134-20, 949 -16.412 -14. 353 1. 00 30.74 0

ATOM 993 N ALA A 135 -21.79o t6 -14.438-13. 679 1. 00 28.00 N

ATOM 994 CA ALA A 135 -21.058 One 14.404 -12. 430 1. 00 27.79 C

ATOM 995 CB ALA A 135 -20.245-13 119 -12. 340 1. 00 28.33 C

ATOM 996 C ALA A 135 -22.044 -14.490 -11. 269 1. 00 26.83. C

ATOM 997 0 ALA A 135 -23.008-13.728 -11. 213 1.00 25.66 0

ATOM 998 N LEU A 136 -21.814 -15.428 -10. 355 1. 00 25.31 N

ATOM 999 CA LEU A 136 -22.630 -15.515 -9. 148 1. 00 24.44 C

ATOM 1000 CB LEU A 136 -23.102 -16.950-8 899 1., 00 23.63 C

ATOM 1001 CG LEU A 136 -24.169 -17.617-9. 787 1., 00 26.04 C

ATOM 1002 CD1 LEU A 136 -25.462 -16.808-9. 752 1., 00 25.98 C

ATOM 1003 CD2 LEU A 136-23.664 -17.742 -11. 201 1., 00 27.02 C

ATOM 1004 C LEU A 136 -21.809 -15.044-7. 958 1., 00 24.74 C

ATOM 1005 0 LEU A 136-20.890 -15.730 -7. 525 1., 00 26.39 0

ATOM 1006 N ILE A 137 -22.136-13 867 -7.437 1,, 00 24.23 N

ATOM 1007 CA ILE A 137 -21.465 -13.345-6. 251 1. .00 23.84 C

ATOM 1008 CB ILE A 137 -21.639 -11.818-6. 159 1. .00 23.22 C

ATOM 1009 CG2 ILE A 137 -21.076-11.302 One 4.852 1, .00 21.78 C

ATOM 1010 CG1 ILE A 137 -20.976-11.154 -7. 363 1. .00 24.95 C

ATOM 1011 CD1 ILE A 137 -9.660 -7. 404 1, .00 24.99 C

ATOM 1012 C ILE A 137 -22.123 -13.986 -5. 034 1, .00 23.08 C

ATOM 1013 0 ILE A 137 -23.349 -14.050 -4. 964 1 .00 23.69 0

ATOM 1014 N VAL A 138 -21.327 One 14.481 -4. 090 1, .00 21.49 N

ATOM 1015 CA VAL A 138 -21.896 -15.024-2. 863 1, .00 21.50 C

ATOM 1016 CB VAL A 138-21.707 -16.564 -2. 730 1 .00 23.58 C

ATOM 1017 C61 VAL A 138 -22.428 -17.280-3. 871 1, .00 23.19 C

ATOM 1018 CG2 VAL A 138 -20.225 -16.921-2.701 1 .00 24.58 C

ATOM 1019 C VAL A 138 1 21.326 1 14.371 -1. 628 1 .00 22.31 C ATOM 1020 0 VAL A 138 -20.115 One 14.160 -1.510 1.00 21.84 0

ATOM 1021 N ASP A 139 -22.223 -14.051 -0.705 1.00 22.57 N

ATOM 1022 CA ASP A 139 -21.857 -13.371 0.522 1. 00 23.89 C

ATOM 1023 CB ASP A 139-21.600 -11.890 0.234 1. 00 25.43 C

ATOM 1024 C6 ASP A 139 -20.818 -11.210 1. 331 1. 00 28.01 C

ATOM 1025 0D1 ASP A 139-20.298 -11.908 2. 226 1. 00 31.10 0

ATOM 1026 0D2 ASP A 139 -20.712 -9.972 1. 298 1. 00 31.13 0

ATOM 1027 C ASP A 139 -23.042 -13.530 1. 461 1. 00 23.67 C

ATOM 1028 0 ASP A 139 -24.174 -13.226 1. 098 1.00 22.47 0

ATOM 1029 N PRO A 140 -22.796 -14.018 2. 681 1. 00 23.72 N

ATOM 1030 CD PRO A 140-21 479 -14.367 3.243 1. 00 23.10 C

ATOM 1031 CA PRO A 140 -23.897 -14.384 3. 579 1.00 22.97 C

ATOM 1032 CB PRO A 140 -23.183 -14.909 4. 827 1.00 25.21 C

ATOM 1033 CG PRO A 140 -21 822 -15.338 4. 336 1.00 23.06 C

ATOM 1034 C PRO A 140 -24.872 -13.241 3. 905 1. 00 22.79 C

ATOM 1035 0 PRO A 140 -26.077-13.437 3. 884 1., 00 21.31 0

ATOM 1036 N MET A 141 -24.355 -12.052 4. 193 1. 00 23.28 N

ATOM 1037 CA MET A 141 -25.205 -10.950 4. 639 1., 00 25.36 C

ATOM 1038 CB MET A 141-24.849-10.588 6. 080 1.00 24.06 C

ATOM 1039 CG MET A 141-24.959 -11.762 7. 044 1., 00 24.73 C

ATOM 1040 SD MET A 141 -24.744 -11.252 8. 757 1., 00 32.16 S

ATOM 1041 CE MET A 141 -23.113 -10.474 8. 704 1., 00 28.26 C

ATOM 1042 C MET A 141 -25.122 -9.701 3.755 1. .00 26.24 C

ATOM 1043 0 MET A 141 -24.039 -9.195 3.474 1. .00 26.85 0

ATOM 1044 N LEU A 142 -26.275 -9.207 3. 317 1. .00 26.88 N

ATOM 1045 CA LEU A 142 -26.334 -7.929 2. 612 1, .00 27.69 C

ATOM 1046 CB LEU A 142 -27.224 -8.043 1. 363 1, .00 27.40 C

ATOM 1047 CG LEU A 142 -27.127 -6.898 0. 346 1. .00 26.97 C

ATOM 1048 CD1 LEU A 142 -25.838 -7.042 -0. 463 1, .00 27.39 C

ATOM '1049 CD2 LEU A 142 -28.330 -6.909 -0. 580 1, .00 24.85 C

ATOM 1050 C LEU A 142 -26, 923-6.901 3.575 1. .00 28.72 C

ATOM 1051 0 LEU A 142 -28.134 -6.878 3. 790 1, .00 28.83 0

ATOM 1052 N ALA A 143 -26.063 -6.065 4.157 1 .00 28.42 N

ATOM 1053 CA ALA A 143 -26.486 -5.084 5. 156 1, .00 27.59 C

ATOM 1054 CB ALA A 143 -25.503 -5.068 6., 326 1 .00 26.26 C

ATOM 1055 C ALA A 143 -26.606 -3.685 4.554 1 .00 28.49 C ATOM 1056 0 ALA A 143 -27.712 -3.192 4.352 1.00 29.15 0

ATOM 1057 N THR A 144 -25.473 -3.047 4.266 1. 00 28.69 Ν

ATOM 1058 CA THR A 144 -25.487 -1.773 3.551 1. 00 29.46 C

ATOM 1059 CB THR A 144-24.337 -0.850 4.005 1.00 28.62 C

ATOM 1060 061 THR A 144 -23.080 -1 464 3.699 1. 00 27.28 0

ATOM 1061 C62 THR A 144 -24.423-0.591 5.500 1. 00 25.91 C

ATOM 1062 C THR A 144 -25.362 -2.008 2.046 1. 00 31.06 C

ATOM 1063 0 THR A 144-25.811 1.231 1. 00 31.30 0

ATOM 1064 N 6LY A 1 5 -24.759 -3.134 1.682 1. 00 31.29 Ν

ATOM 1065 CA GLY A 145 -24.611 -3.473 0.280 1. 00 29.77 C

ATOM 1066 C GLY A 145 -23.293 -2.997-0.299 1. 00 29.67 C

 I

ATOM 1067 .0 GLY A 145. -22.992 -3.265 -1.458 1. 00 30.57 0

ATOM 1068 GLY A 146 -22.504-2.291 0.508 1.00 27.59.

ATOM 1069 CA GLY A 146 -21 ■ 259-1.728 0.015 1. 00 27.53 C

ATOM 1070 C GLY A 146 -20.320 -2.762 -0.58 to0 1. 00 26.57 C

ATOM 1071 0 GLY A 146-19.746-2.554 -1.652 1.00 26.93 0

ATOM 1072 N SER A 147 -20.166 -3.886 0.111 1., 00 26.35 Ν

ATOM 1073 CA SER A 147 -19.260 -4.928-0.339 1., 00 26.26 C

ATOM 1074 CB SER A 147 -19.205 -6.049 0.695 1., 00 26.85 C

ATOM 1075 OG SER A 147 -18.561-5.604 1.872 1., 00 30.30 0

ATOM 1076 C SER A 147 -19.680 -5.482 1., 00 24.62 C

ATOM 1077 0 SER A 147 -18.870 -5.559 -2.609 1. .00 25.52 0

ATOM 1078 N VAL A 148 -20.951 -5.848-ΐ 830 1. .00 23.99 Ν

ATOM 1079 CA VAL A 148 -21.452 -6.411 -3.077 1, .00 24.37 C

ATOM 1080 CB VAL A 148-22.880-6.953 -2.892 1, .00 24.82 C

ATOM 1081 C61 VAL A 148 -23.555 -7.156 -4.239 1. .00 23.48 C

ATOM 1082 CG2 VAL A 148-22.822 -8.279 -2.141 1, .00 26.31. C

ATOM 1083 C VAL A 1 8 -21.429 -5.394 -4.219 1, .00 26.46 C

ATOM 1084 0 VAL A 148 -20.964 -5.695 -5.322 1 .00 25.31 0

ATOM 1085 N ILE A 149 -21.916 -4.189 -3.949 1 .00 27.36 Ν

ATOM 1086 CA ILE A 149 -21.887-3.113 -4.934 1 .0028.19 C

ATOM 1087 CB ILE A 149 -22.487-1.811-4.344 1 .00 27.60 C

ATOM 1088 CG2 ILE A 149-22.320 -0.665 -5.330 1 ■ 00 27.42 C

ATOM 1089 CG1 ILE A 149 -23.964 -2.027-4.014 1 .00 25.12 C

ATOM 1090 CD1 ILE A 149-24.594-0.905 -3.231 1 .00 24.07 C

ATOM 1091 C ILE A 149 —20.466 -2.828-5.451 1 .00 29.44 C ATOM 1092 0 ILE A 149 -20.242 -2.741 -6.660 1.00 29.63 0

ATOM 1093 N ALA A 150 -19.505 -2.691 -4.545 1. 00 28.62 Ν

ATOM 1094 CA ALA A 150 -18.135 -2.445 -4.969 1.00 30.02 C

ATOM 1095 CB ALA A 150 -17.269 -2.119-3.767 1. 00 32.61 C

ATOM 1096 C ALA A 150 -17.570-3.654 -5.720 1.00 31.70 C

ATOM 1097 0 ALA A 150 -16.762 -3.498 -6.631 1.00 31.79 0

ATOM 1098 N THR A 151 -18.003 -4.859 -5.347 1. 00 31.90 Ν

ATOM 1099 CA THR A 151 -17.599-6.066-6.067 1. 00 27.72 C

ATOM 1100 CB THR A 151 -18.062 -7.342-5.333 1. 00 28.79 C

ATOM 1101 0G1 THR A 151 -17.285 -7.520 -4.144 1.00 30.65 0

ATOM 1102 C62 THR A 151 -17.910 -8.559-6.224 1.00 24.43 C

ATOM 1103. C THR A 151 -18.170 -6.092-7.478 1. 00 27.57 C

ATOM 1104 0 THR A 151 -17.459 -6.400 -8.430 1.00 27.10 0

ATOM 1105 N ILE A 152 -19.458 -5.785-7.613 1. 00 28.38 Ν

ATOM 1106 CA ILE A 152 -20.094-5.728 -8.9 0029 1. 00 28.41 C

ATOM 1107 CB ILE A 152 -21.593 -5.341 -8.821 1. 00 27.17 C

ATOM 1108 CG2 ILE A 152 -22.134 -4.911-10.189 1. 00 25.68 C η

 ATOM 1109 CG1 ILE A 152 -22.393 -6.532 -8.282 1., 00 25.31 C

ATOM 1110 CD1 ILE A 152 -23.757 -6.169 -7.740 1. 00 20.72 C

ATOM 1111 C ILE A 152 -19.380 -4.723 -9.836 1. 00 30.63 C

ATOM 1112 0 ILE A 152 -19.235 -4.955 -11.039 1. .00 29.20 0

ATOM 1113 N ASP A 153-18.924 -3.616 -9.255 1., 00 Ν

ATOM 1114 CA ASP A 153-18.121-2.655 -10.000 1. .00 34.27 C

ATOM 1115 CB ASP A 153 -17.611 -1.548 -9.071 1., 00 35.62 C

ATOM 1116 CG ASP A 153 -18.708 -0.577 -8. «62 1. .00 38.46 C

ATOM 1117 obi ASP A 153-19.794 -0.613-9.270 1. .00 38.44 0

ATOM 1118 0D2 ASP A 153 -18. 87 0.226 -7.732 1, .00 41.84 0

ATOM 1119 C ASP A 153 -16.938-3.355 -10.672 1. .00 34.69 C

ATOM 1120 0 ASP A 153 -16.716 -3.197 1, .00 34.95 0

ATOM 1121 N LEU A 154 -16.193 -4.132 -9.890 1, .00 34.35 Ν

ATOM 1122 CA LEU A 154 -15.042 -4.880 -10.399 1, .00 34.97 G

ATOM 1123 CB LEU A 154 -14.389-5.686 -9.276 1, .00 37.49 C

ATOM 1124 CG LEU A 154 -13.265 -5.055-8.459 1 • 00 38.07 C

ATOM 1125 CD1 LEU A 154 -12.967 -5.941 -7.266 1 .00 39.02 C

ATOM 1126 CD2 LEU A 154 -12.025 -4.898 -9.316 1 ■ 00 37.30 G

ATOM 1127 G LEU A 154 -15.407 One 5.828 -11.530 1 ■ 00 33.09 C ATOM 1128 0 LEU A 154 -14.765 -5.824 -12.572 1.00 32.88 0

ATOM 1129 N LEU A 155 -16.435 -6.644 -11.331 1.00 33.00 N

ATOM 1130 CA LEU A 155 -16.816 -7.609 -12.353 1. 00 32.80 C

ATOM 1131 CB LEU A 155 i 17.978 -8.482 -11.868 1. 00 30.43 C

ATOM 1132 CG LEU A 155 -17.710-9.429-10.695 1. 00 29.67 C

ATOM 1133 CD1 LEU A 155 -18.885-10376 -10.521 1.00 28.67 C

ATOM 1134 CD2 LEU A 155 -16.436 -10.214-10.953 1. 00 30.06 C

ATOM 1135 C LEU A 155 -17.193 -6.934 -13.673 1. 00 35.17 C

ATOM 1136 0 LEU A 155 -16.853 -7.430 -14.750 1.00 35.88 0

ATOM 1137 N LYS A 156 -17.900 -5.809-13.592 1. 00 37.38 N

ATOM 1138 CA LYS A 156 -18.368 -5.116 -14.789 1. 00 38.29 C

ATOM 1139 CB LYS A 156 -19.343 -3.993 -14.412 1. 00 38.41 C

ATOM 1140 CG LYS A 156 -20.734-4.464 -13.994 1. 00 39.21 C

ATOM 1141 CD LYS A 156 -21.567 -3.299 -13.462 1. 00 38.06 C

ATOM 1142 CE LYS A 156-23.008 -3.699 -13.199 1. 00 37.41 C

ATOM 1143 NZ LYS A 156 -23.804 -3.775 -14.449 1. 00 36.57 N

ATOM 1144 C LYS A 156 -17.203-4.533 -15.590 1., 00 38.07 C

ATOM 1145 0 LYS A 156 -17.236 -4.505 -16.818 1., 00 37.41 0

ATOM 1146 N LYS A 157 -16.175 -4.067-14.894 1., 00 39.72 N

ATOM 1147 CA LYS A 157 -15.020 -3.494 -15.570 1., 00 42.30 C

ATOM 1148 CB LYS A 157 -14.143 -2.752 -14.563 1. .00 43.51 C

ATOM 1149 CG LYS A 157 -13.136 -1.816 -15.200 1., 00 47.32 C

ATOM 1150 CD LYS A 157 -12.267 -1.141 -14.149 1. .00 50.32 C

ATOM 1151 CE LYS A 157 -11.205 -0.265 -14.798 1. .00 52.57 C

ATOM 1152 NZ LYS A 157 -10.321 0.387 -13.785 1, .00 55.20 N

ATOM 1153 C LYS A 157 -14.214 -4.593 -16.272 1. .00 42.57 C

ATOM 1154 0 LYS A 157 -13.716-4.406-17.387 1, .00 42.10 0

ATOM 1155 N ALA A 158 -14.103 -5.744 -15.616 1, .00 41.89 N

ATOM 1156 CA ALA A 158 -13.406-6.890 -16.184 1 .00 40.21 C

ATOM 1157 CB ALA A 158 -13.125-7.919 -15.097 1, .00 40.05 C

ATOM 1158 C ALA A 158 -14.221 -7.522 -17.309 1 .00 39.21 C

ATOM 1159 0 ALA A 158 -13.784 -8.494 -17.933 1 .00 40.14 0

ATOM 1160 N GLY A 159 -15.410 -6.978 -17.555 1 • 00 36.56 N

ATOM 1161 CA 6LY A 159-16.176-7.377-18.723 1 .00 35.93 C

ATOM 1162 C GLY A 159 -17.361 -8.299 -18.475 1 ■ 00 36.41 C

ATOM 1163 0 GLY A 159 1 17.922 1 8.862 -19.426 1 .00 35.02 0 ATOM 1164 N SER A 160 -17.751 -8.459 -17.212 1.00 36.66 N

ATOM 1165 CA SER A 160 -18.893-9.311 -16. 871 1. 00 37.49 G

ATOM 1166 CB SER A 160 -19.088 -9.375 One 15. 349 1. 00 37.54 C

ATOM 1167 OG SER A 160 -18.470 -10.514 -14. 778 1. 00 35.10 0

ATOM 1168 C SER A 160 -20.167 -8.772 -17. 507 1. 00 38.27 C

ATOM 1169 0 SER A 160 -20.408 -7.562 -17. 503 1.00 40.13 0

ATOM 1170 N SER A 161 -20.979 -9.670 -18. 053 1. 00 38.08 N

ATOM 1171 CA SER A 161 -22.327 -9.311 -18. 464 1. 00 39.31 C

ATOM 1172 CB SER A 161-22.709 -10.040 -19. 759 1. 00 40.56 C

ATOM 1173 06 SER A 161-22.471 -11.437 -19. 671 1. 00 41.23 0

ATOM 1174 C SER A 161 -23.295 -9.667 -17. 339 1. 00 39.93 C

ATOM 1175 • 0 SER A 161 -23.428-8.919 -16. 372 1. 00 43.37 0

ATOM 1176 N SER A 162 -23.953 1 10.814 -17. 452 1. 00 37.40,

ATOM 1177 CA SER A 162-24.903 -11.249 -16. 440 1. 00 35.29 C

ATOM 1178 CB SER A 162 -25.572 -12.546 -16. 893 1.00 35.74 C

ATOM 1179 06 SER A 162 -26.431 -13.052 -15. 890 1. 00 37.96 0

ATOM 1180 C SER A 162 -24.257 -11.451 -15. 065 1. 00 35.09 C

ATOM 1181 0 SER A 162 -23.401 -12.316 -14.888 1.00 34.87 0

ATOM 1182 N lLE A 163 -24.683 -10.651 -14. 094 1. 00. 33.81 N

ATOM 1183 CA ILE A 163 -24.197 -10.764 -12. 727 1., 00 31.52 C

ATOM 1184 CB ILE A 163 -23.471 -9.492-12. 283 1. 00 30.51 C

ATOM 1185 CG2 ILE A 163 -23.083 -9.596 -10. 827 1., 00 28.63 C

ATOM 1186 CG1 ILE A 163 -22.240 -9.266 -13. 144 1., 00 29.44 C

ATOM 1187 CD1 ILE A 163 -21 492 -8.012-12. 775 1., 00 31.52 C

ATOM 1188 C ILE A 163 -25.368 -10.968-11. 784 1., 00 32.58 C

ATOM 1189 0 ILE A 163 -26.402 -10.311 -11. 923 1. .00 34.09 0

ATOM 1190 N LYS A 164 -25.197 -11.870 -10. 822 1. .00 30.03. N

ATOM 1191 CA LYS A 164 -26.226 -12.142 -9. 830 1. .00 26.84 C

ATOM 1192 CB LYS A 164 -26.967 -13.429 -10. 191 1. .00 27.97 C

ATOM 1193 C6 LYS A 164-27.535 -13.428-11. 605 1, .00 27.70 C

ATOM 1194 CD LYS A 164 -28.652 -14.453 -11. 757 1, .00 25.45 C

ATOM 1195 CE LYS A 164 -29.310 -14.346 -13., 129 1, .00 25.87 C

ATOM 1196 NZ LYS A 164-30.420 -15.312-13. 258 1, .00 22.67 N

ATOM 1197 C LYS A 164 -25.622 -12.266 -8., 437 1 .00 24.90 C

ATOM 1198 0 LYS A 164 -24.462-12.630 -8. 287 1. .00 26.64 0

ATOM 1199 N VAL A 165 -26.414 -11.959 -7., 415 1 .00 25.05 N ATOM 1200 CA VAL A 165-25.939-12.007 -6.034 1.00 21.66 C

ATOM 1201 CB VAL A 165 -26.062 -10.644 -5.356 1. 00 19.72 C

ATOM 1202 CGI VAL A 165 -25.602 -10.747 -3.917 1.00 17.15 C

ATOM 1203 CG2 VAL A 165 -25.251 -9.605 -6.123 1.00 18.97 C

ATOM 1204 C VAL A 165 -26.737 -12.996 -5.209 1.00 22.47 C

ATOM 1205 0 VAL A 165-27.960 -12.966-5.218 1. 00 24.82 0

ATOM 1206 N LEU A 166 -26.050 -13.871 -4.488 1. 00 21.89 N

ATOM 1207 CA LEU A 166 -26.735 -14.751 -3.560 1.00 22.72 C

ATOM 1208 CB LEU A 166 -26.432 -16.218 -3.871 1.00 21.63 C

ATOM 1209 CG LEU A 166 -26.441 -16.653 -5.341 1. 00 23.84 C

ATOM 1210 CD1 LEU A 166-26.266 -18.173 -5.423 1. 00 22.39 C

ATOM 1211 CD2 LEU A 166 -27.731 -16.233 -6.004 1.00 20.56 C

ATOM 1212 G LEU A 166 -26.290-14.430 -2.143 1.00 22.41 C

ATOM 1213 0 LEU A 166 -25.114 -14.568-1.803 1.00 22.86 0

ATOM 1214 N VAL A 167 -27.242 -14.007 -1.325 1. .00 20.56 N

ATOM 1215 CA VAL A 167 -27.013 -13.841 0.096 1., 00 19.32 C

ATOM 1216 CB VAL A 167 -27.123 -12.355 0.485 1. 00 18.22 C

ATOM 1217 C61 VAL A 167 -26.156 -11.536 -0.357 1., 00 17.52 C

ATOM 1218 CG2 VAL A 167 -28.544 -11 869 0.297 1., 00 14.13 C

ATOM 1219 C VAL A 167 -28.004 -14.664 0.929 1., 00 19.43 C

ATOM 1220 0 VAL A 167 -29.050 -15.084 0.433 1. .00 20.23 0

ATOM 1221 N LEU A 168-27.660 -14.882 2.194 1., 00 20.28 N

ATOM 1222 CA LEU A 168 -28.527 -15.569 3.150 1., 00 20.41 C

ATOM 1223 CB LEU A 168-27.691 -16.118 4.309 1, .00 22.18 C

ATOM 1224 GG LEU A 168-27.200 -17.567 4.236 1, .00 23.76 C

ATOM 1225 CD1 LEU A 168-27.213 -18.049 2.805 1, .00 23.65 C

ATOM 1226 CD2 LEU A 168 -25.814 1 17.662 4.841 1, .00 20.97 C

ATOM 1227 C LEU A 168-29.591 -14.637 3.715 1, .00 21.32 C

ATOM 1228 0 LEU A 168 -30.776 -14.973 3.744 1 .00 23.45 0

ATOM 1229 N VAL A 169 -29.164 -13.471 4.189 1 .00 21.58 N

ATOM 1230 CA VAL A 169 -30.092 -12.507 4.760 1 .00 21.62 C

ATOM 1231 CB VAL A 169 -30.108 -12.581 6.307 1 • 00 20.33 C

ATOM 1232 CG1 VAL A 169-30.263 -14.029 6.748 1.00 16.36 C

ATOM 1233 CG2 VAL A 169-28.855-11.973 6.880 1 • 00 20.14 C

ATOM 1234 C VAL A 169 -29.730 -11.095 4.328 1 • 00 23.02 C

ATOM 1235 0 VAL A 169 -28.553 -10.735 4.241 1 .00 25.22 0 ATOM 1236 N ALA A 170 -30.759 -10.305 4.041 1.00 22.64 Ν

ATOM 1237 CA ALA A 170 -30.583 -8.979 3.484 1. 00 21. 59 C

ATOM 1238 GB ALA A 170 -30.907 -8.991 1.999 1.00 18.43 C

ATOM 1239 C ALA A 170 -31.487 -7.999 4.209 1. 00 22.54 C

ATOM 240 0 ALA A 170 -32.621 -8.322 4.562 1. 00 21. 90 0

ATOM 1241 N ALA A 171 -30.966 -6.802 4.442 1. 00 23.77 Ν

ATOM 1242 CA ALA A 171-31.770 -5.711 4.960 1. 00 23.84 C

ATOM 1243 CB ALA A 171 -30.926 -4.803 5.856 1. 00 21. 90 C

ATOM 1244 C ALA A 171-32.268 -4.937 3.759 1. 00 25.22 C

ATOM 1245 0 ALA A 171 -4.912 2.711 1. 00 23.35 0

ATOM 1246 N PRO A 172 -33.436 -4.290 3.899 1. 00 26.67 Ν

ATOM 1247 CD PRO A 172 -34.299-4.330 5.093 1.00 26.50 C

ATOM 1248 CA PRO A 172-34.021 -3.479 2.829 1. 00 26. 45 C

ATOM 1249 CB PRO A 172 -35.311 -2.935 3.449 1. 00 27. 81 C

ATOM 1250 CG PRO A 172 -35.629 -3.889 4.554 1. 00 29. 03 C

ATOM 1251 C PRO A 172 -33.078 -2.363 2.404 1., 00 26. 88 C

ATOM 1252 0 PRO A 172 -32.993 -2.030 1.219 1. .00 26. 06 0

ATOM 1253 N GLU A 173 -32.365-1 789 3.371 1., 00 27. 93 Ν

ATOM 1254 CA 6LU A 173 -31.449-0.690 3.079 1., 00 30. 53 C

ATOM 1255 CB GLU A 173 -30.771 -0.198 4.357 1., 00 35. 01 C

ATOM 1256 CG GLU A 173 -31.714 0.388 5.393 1. .00 39. 60 C

ATOM 1257 CD GLU A 173 -32.309 -0.672 6.290 1., 00 42. 64 C

ATOM 1258 0E1 GLU A 173 -32.678 -1.748 5.771 1. .00 44. 53 0

ATOM 1259 0E2 GLU A 173 -32.404 -0.431 7.512 1. .00 44. 74 0

ATOM 1260 C GLU A 173-30.375-1.130 2.084 1. .00 31. 56 C

ATOM 1261 0 GLU A 173 -30.013 -0.385 1, .00 30. 79 0

ATOM 1262 N GLY A 174 -29.871 -2.348 2.277 1, .00 30. 57 Ν

ATOM 1263 CA GLY A 174 -28.857 -2.873 1.386 1, .00 28. 75 C

ATOM 1264 C GLY A 174 -29.442 -3.102 0.010 1, .00 26. 81 C

ATOM 1265 0 GLY A 174-28.828 -2.758 -0.995 1, .00 28. 91 0

ATOM 1266 N ILE A 175-30.644 -3.666 -0.032 1, .00 25. 30 Ν

ATOM 1267 CA ILE A 175 -31.307 -3.960-1.295 1, .00 24. 34 C

ATOM 1268 CB ILE A 175-32.629 -4.696 -1.053 1 .00 23. 85 C

ATOM 1269 CG2 ILE A 175 -33.351 -4.935 -2.371 1 .00 25. 41 C

ATOM 1270 CG1 ILE A 175 -32.346-6.018 -0.338 1, .00 22. 73 C

ATOM 1271 CD1 ILE A 175 -33.584 1 6.792 0.014 1 .00 22. 74 C ATOM 1272 C ILE A 175 -31.567 -2.700 -2.122 1.00 24.93 C

ATOM 1273 0 ILE A 175 -31. 303 -2.678 -3.328 1.00 24.99 0

ATOM 1274 N ALA A 176 -32. 063 -1 650 -1.471 1. 00 25.06 N

ATOM 1275 CA ALA A 176 One 32. 318-0.378 -2.146 1. 00 25.18 C

ATOM 1276 GB ALA A 176 -33. 035 0.583 -1.206 1.00 22.69 C

ATOM 1277 C ALA A 176 -31. 016 0.248 -2.636 1. 00 26.90 C

ATOM 1278 0 ALA A 176 -30. 977 0.874 -3.696 1. 00 28.25 0

ATOM 1279 N ALA A 177 -29. 944 0.080-1.870 1. 00 27.96 N

ATOM 1280 CA ALA A 177 -28. 647 0.575 -2.312 1. 00 28.69 C

ATOM 1281 CB ALA A 177-27. 639 0.493 -1.177 1. 00 24.66 C

ATOM 1282 C ALA A 177 -28. 156 -0.217 -3.530 1. 00 30.69 C

ATOM 1283 .0 ALA A 177 -27. 496 0.329 -4.413 1. 00 32.35 0

ATOM 1284 N LEU A 178 -28. 495 -1.499-3.585 1. 00 31.04 N

ATOM 1285 CA LEU A 178 -28. 103-2.332 -4.714 1. 00 31.49 C

ATOM 1286 CB LEU A 178 -28, 271 -3.817 -4.364 1. .00 29.81 C

ATOM 1287 CG LEU A 178 -28. 277 -4.788 -5.547 1. 00 28.01 C

ATOM 1288 CD1 LEU A 178 -26. 984-4.657-6.336 1., 00 28.72 C

ATOM 1289 CD2 LEU A 178 -28. 454 -6.209 -5.034 1., 00 28.99 C

ATOM 1290 C LEU A 178 -28. 938 -1.999-5.940 1., 00 31.62 C

ATOM 1291 0 LEU A 178 -28. 405 -1.803-7.028 1., 00 30.58 0

ATOM 1292 N 6LU A 179 -30. 253 -1.940 -5.766 1. .00 34.04 N

ATOM 1293 CA GLU A 179 -31. 140-1.608-6.876 1. .00 34.54 C

ATOM 1294 CB GLU A 179 -32. 594 -1.627 -6.419 1., 00 33.67 C

ATOM 1295 CG GLU A 179 -33. 126 -3.020 -6.217 1. .00 37.89 C

ATOM 1296 CD GLU A 179 -34. 548 -3.028 -5.739 1. .00 38.40 C

ATOM 1297 0E1 GLU A 179 -34. 784 -2.657 -4.570 1, .00 43.36 0

ATOM 1298 0E2 GLU A 179 -35. 433-3.403 -6.532 1, ■ 00 43.29 .0

ATOM 1299 C GLU A 179 -30. 810 -0.250 -7.482 1, .00 33.37 C

ATOM 1300 0 GLU A 179 '-31. 019 -0.035 -8.673 1, .00 34.53 0

ATOM 1301 N LYS A 180-30. 284 0.656 -6.666 1 .00 32.26 N

ATOM 1302 CA LYS A 180 -29. 939 1.991 -7.144 1 .00 32.92 C

ATOM 1303 CB LYS A 180 -29. 802 2.960 -5.967 1 .00 31.14 C

ATOM 1304 C6 LYS A 180 -29. 918 4.413 -6.372 1 .00 34.28 C

ATOM 1305 CD LYS A 180 -29. 518 5.365 -5.257 1 .00 35.26 C

ATOM 1306 CE LYS A 180-29., 726 6.815 -5.697 1 .00 38.87 C

ATOM 1307 NZ LYS A 180 -29. 090 7.808 -4.780 1 .00 39.80 N ATOM 1308 C LYS A 180 -28.637 1.976 -7.948 1.00 33.30 C

ATOM 1309 0 LYS A 180 -28.574 2.522 -9. 050 1. 00 32.93 0

ATOM 1310 N ALA A 181 -27.606 1.344 -7. 393 1. 00 32.49 Ν

ATOM 1311 CA ALA A 181 -26.280 1.351-8. 002 1.00 32.05 C

ATOM 1312 CB ALA A 181 -25.251 0.875-7. 001 1.00 32.50 C

ATOM 1313 C ALA A 181 -26.236 0.470 -9. 234 1. 00 33.14 C

ATOM 1314 0 ALA A 181-25.536 0.769 -10. 201 1. 00 33.38 0

ATOM 1315 N HIS A 182-26.990 -0.622 -9. 188 1. 00 33.09 Ν

 I

ATOM 1316 CA HIS A 182 -26.893 -1.664 -10. 197 1. 00 32.82 C

 O

ATOM 1317 CB HIS A 182 -25.907 -2.742-9. 733 1. 00 32.08 C

ATOM 1318 C6 HIS A 182 -24.500-2.254-9. 632 1.00 29.91 C

ATOM 1319 CD2 HIS A 182 -23.724 -1.981-8. 558 1.00 32.84 C

ATOM 1320 ND1 HIS A 182-23.750-1.927 -10. 741 1. 00 31.02.

ATOM 1321 CE1 HIS A 182 -22.573 -1 469 -10. 354 1. 00 31.57 C

ATOM 1322 NE2 HIS A 182-22.532 -1.490 -9. 034 1. 00 32.44 Ν

ATOM 1323 C HIS A 182 -28.255-2.289 -10. 451 1. 00 32.43 C

ATOM 1324 0 HIS A 182 -28.518 -3.414 -10. 036 1. 00 31.73 0

ATOM 1325 N PRO A 183-29.136 -1.559 -11. 147 1. 00 32.86 Ν

ATOM 1326 CD PRO A 183 -28.890 -0.218-11. 713 1. 00 .31.48 C

ATOM 1327 CA PRO A 183-30.495 -2.040 -11. 427 1. 00 32.77 C

ATOM 1328 CB PRO A 183 -0.841 -12. 102 1., 00 31.39 C

ATOM 1329 C6 PRO A 183-30.058-0.012 -12. 634 1., 00 30.78 C

ATOM 1330 C PRO A 183 -30.554 -3.301 -12.290 1., 00 33.13 C

ATOM 1331 0 PRO A 183-3.939-12. 384 1., 00 34.82 0

ATOM 1332 N ASP A 184 -29.441-3.673 -12. 915 1. .00 33.08 Ν

ATOM 1333 CA ASP A 184 -29.448 -4.858 -13. 777 1. .00 34.68 C

ATOM 1334 CB ASP A 184 -28.585 -4.611 -15. 021 1, .00 33.49 C

ATOM 1335 CG ASP A 184 -27.118 -4.423-14. 693 1. .00 32.72 C

ATOM 1336 0D1 ASP A 184 -26.281-4.901 -15. 481 1, .00 38.18 0

ATOM 1337 0D2 ASP A 184 -26.794-3.800-13. 665 1, .00 30.22 Q

ATOM 1338 C ASP A 184 -29.002 -6.155 -13., 083 1, .00 34.89 C

ATOM 1339 0 ASP A 184 -28.869 -7.194 -13., 723 1, .00 34.20 0

ATOM 1340 N VAL A 185 -28.783-6.087 -11., 774 1 • 00 35.17 Ν

ATOM 1341 CA VAL A 185 -28.246 -7.212 -11., 017 1 .00 32.86 C

ATOM 1342 CB VAL A 185 -27.126 -6.745 -10..070 1 ■ 00 33.16 C

ATOM 1343 CG1 VAL A 185 -26.612 One 7.912 —9., 254 1 .00 31.82 C ATOM 1344 CG2 VAL A 185 -26.004 -6.111 -10.875 1.00 32.32 C

ATOM 1345 C VAL A 185-29.325 -7.881 -10.181 1. 00 33.34 C

ATOM 1346 0 VAL A 185 -29.858 -7.278 -9.248 1.00 35.49 0

ATOM 1347 N GLU A 186 -29.642 -9.131 -10.506 1. 00 31.37 N

ATOM 1348 CA GLU A 186-30.652 -9.859 -9.754 1. 00 29.33 C

ATOM 1349 CB GLU A 186 -31.068-10.494 1. 00 31.21 C

ATOM 1350 C6 GLU A 186 -31.719 -10.892-11.842 1.00 34.73 C

ATOM 1351 CD GLU A 186 -32.309-12.158 -12.447 1. 00 39.20 C

ATOM 1352 0E1 GLU A 186 -32.013 -13.266 -11.940 1.00 39.80 0

ATOM 1353 0E2 GLU A 186 -33.072 -12.043 -13.433 1.00 40.48 0

ATOM 1354 C GLU A 186-30.118 -10.228 -8.382 1. 00 28.21 C

ATQM 1355 0 GLU A 186 .-28.942 -10.565 -8.231 1. 00 29.21 0

ATOM 1356 N LEU A 187-30.984 -10.158-7.380 1. 00 26.92 .N

ATOM 1357 CA LEU A 187 -30.638-10.649 -6.056 1.00 24.70 C

ATOM 1358 CB LEU A 187 -30.905 -9.576-5.005 1.00 23.27 C

ATOM 1359 CG LEU A 187 -30.508 -10.009 -3.594 1.00 23.47 C

ATOM 1360 CD1 LEU A 187 -28.988 -9.994 -3.496 1. 00 25.24 C

ATOM 1361 CD2 LEU A 187 -31.114 -9.085 -2.560 1.00 23.56 G

ATOM 1362 C LEU A 187 -31.446 -5.711 1. 00 24.15 C

ATOM 1363 0 LEU A 187 -32.636 -11.988 -6.009 1., 00 24.94 0

ATOM 1364 N TYR A 188 -30.800-12.871 -5.080 1.00 21.97

 ATOM 1365 CA TYR A 188-31.523-13.989 -4.486 1., 00 24.19 C

ATOM 1366 CB TYR A 188 -31.235 -15.275 -5.255 1., 00 22.14 C

ATOM 1367 CG TYR A 188-31.825 -15.277 -6.652 1., 00 24.42 C

ATOM • 1368 CD1 TYR A 188 -31.169 -14.655 -7.707 1., 00 23.64 C

ATOM 1369 GE1 TYR A 188 -31.707 -14.661 -8.986 1. .00 24.42 C

ATOM 1370 CD2 TYR A 188 -33.039 -15.907 -6.914 1. .00 23.69. C

ATOM 1371 CE2 TYR A 188 -33.581 -15.921-8.186 1, .00 23.04 G

ATOM 1372 CZ TYR A 188 -32.913 -15.299-9.219 1, .00 23.64 C

ATOM 1373 OH TYR A 188 -33.442 -15.330-10.490 1, .00 21.55 0

ATOM 1374 C TYR A 188 -31.121 -14.143 -3.033 1, .00 24.04 C

ATOM 1375 0 TYR A 188 -29.946 -14.320 -2.720 1 .00 26.43 0

ATOM 1376 N THR A 189-32.094 -14.055 -2.133 1, .00 24.98 N

ATOM 1377 CA THR A 189 -31.783-14.093 -0.709 1 .00 24.00 C

ATOM 1378 CB THR A 189 -31.922 -12.709 -0.068 1 ∎ 00 21.97 C

ATOM 1379 061 THR A 189 -31.449 -12.763 1.283 1 .00 23.56 0 ATOM 1380 CG2 THR A 189 -33.382 -12.275 -0.054 1.00 26.15 C

ATOM 1381 C THR A 189-32.699 -15.066 0.016 1. 00 23.40 C

ATOM 1382 0 THR A 189 -33.831 -15.292 -0.402 1.00 23.55 0

ATOM 1383 N ALA A 190 -32.203 -15.641 1. 00 23.37 N

ATOM 1384 CA ALA A 190 -32.975 -16.612 1.858 1.00 24.57 C

ATOM 1385 CB ALA A 190 -32.045 -17.517 2.656 1. 00 23.91 G

ATOM 1386 C ALA A 190 -33.941 -15.899 2.787 1.00 24.76 C

ATOM 1387 0 ALA A 190-34.818 -16.524 3.380 1. 00 25.08 0

ATOM 1388 N SER A 191 -33.775 -14.585 2.904 1. 00 25.68 N

ATOM 1389, CA SER A 191-34.650 -13.768 3.735 1. 00 27.21 C

ATOM 1390 CB SER A 191 -34.437-14.099 5.213 1. 00 28.97 G

ATOM 1391 .OG SER A 191 -35.357 -13.390 6.035 1. 00 31.71 0

ATOM 1392 C SER A 191 -34.426-12.272 3.526 1. 00 27.94 C

ATOM 1393 0 SER A 191 -33.298 -11.816 3.343 1. 00 29.02 0

ATOM 1394 N ILE A 192 -35.516 -11.514 3.543 1. 00 27.31 N

ATOM 1395 CA ILE A 192-35.443 -10.071 3.711 1. 00 26.16 C

ATOM 1396 CB ILE A 192 -36.429 -9.347 2.787 1. 00 25.83 C

ATOM 1397 CG2 ILE A 192-36.365-7.864 3.021 1. 00 25.09 C

ATOM 1398 CG1 ILE A 192-36.104 -9.656 1.327 1. 00 28.80 C

ATOM 1399 CD1 ILE A 192 -36.814 -8.748 0.351 1.00 26.38 C

ATOM 1400 C ILE A 192 -35.837 -9.795 5.155 1., 00 26.88 G

ATOM 1401 0 ILE A 192 -36.974 -10.044 5.549 1. .00 26.57 0

ATOM 1402 N ASP A 193-34.895-9.303 5.947 1. .00 25.27 N

ATOM 1403 CA ASP A 193 -35.166 -9.043 7.347 1. .00 26.83 C

ATOM 1404 CB ASP A 193 -33.890 -9.252 8., 172 1. .00 24.75 C

ATOM 1405 C6 ASP A 193 -33.627-10.723 8.464 1, .00 26.29 C

ATOM 1406 0D1 ASP A 193 -34.356-11.574 7.916 1, .00 28.85 0

ATOM 1407 0D2 ASP A 193 -32.701 -11.041 9.238 1, .00 26.89 0

ATOM 1408 C ASP A 193 -35.729 -7.632 7.525 1, .00 27.70 C

ATOM 1409 0 ASP A 193 -36.176 -7.018 6.560 1 .00 28.53 0

ATOM 1410 N GLN A 194 -35.716-7.125 8.753 1 .00 29.07 N

ATOM 1411 CA GLN A "194 -36.383-5.865 9.061 1 • 00 31.08 C

ATOM 1412 CB GLN A 194-36.755 -5.824 10.536 1 .00 33.91 C

ATOM 1413 CG GLN A 194 -37.681 -6.944 10.976 1 .00 37.12 C

ATOM 1414 CD GLN A 194-37.751 -7.071 12.486 1 .00 42.16 C

ATOM 1415 0E1 GLN A 194 -37.534-6.093 13.216 1 .00 42.61 0 89

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SSLU / L00ZdT / 13d OAV ATOM 1524 C ALA A 209 -20.093 -15.126 9.901 1.00 23.48 C

ATOM 1525 0 ALA A 209 -19.767 -16.311 9.891 1.00 24.70 0

ATOM 1526 N GLY A 210-19.262 1 14.142 9.570 1. 00 22.33 N

ATOM 1527 CA GLY A 210 -17.889 -14.419 9.169 1. 00 21.86 G

ATOM 1528 C GLY A 210 -17.139 -15.163 10.252 1. 00 23.63 C

ATOM 1529 0 GLY A 210 -16.464 -16.158 9.989 1.00 23.82 0

ATOM 1530 N ASP A 211 -17.272 -14.691 11.487 1. 00 23.68 N

ATOM 1531 CA ASP A 211 -16.663 -15.362 12.620 1. 00 23.09 C

ATOM 1532 CB ASP A 211 -16,773 -14.486 13.872 1. 00 25.39 C

ATOM 1533 CG ASP A 211 -15.818 -13.304 13.845 1. 00 28.17 C

ATOM 1534 0D1 ASP A 211 -14.731 -13.411 13.225 1. 00 29.28 0

ATOM 1535 0D2 ASP A 211 -16.152 -12.264 14,445 1. 00 30.38 0

ATOM 1536 C ASP A 211-17.281 -16.735 12.881 1. 00 23.71 C

ATOM 1537 0 ASP A 211 -16.574 -17.680 13.225 1. 00 22.52 0

ATOM 1538 N LYS A 212 -18.594 -16.859 12.707 1. 00 23.71 N

ATOM 1539 CA LYS A 212 -19.240 -18.159 12.886 1. 00 24.67 C

ATOM 1540 CB LYS A 212 -20.770 -18.038 12.763 1.00 C

ATOM 1541 CG LYS A 212 -21.452 -17.378 13.952 1. 00 29.13 C o t

 ATOM 1542 CD LYS A 212 -22.959 -17.254 13.728 1. .00 32.47 C

ATOM 1543 CE LYS A 212-23.570 -16.176 14.610 1., 00 34.43 C

ATOM 1544 NZ LYS A 212 -23.939 -16.662 15.974 1., 00 39.56 N

ATOM 1545 C LYS A 212 -18.727 -19.168 11.858 1. .00 C

ATOM 1546 0 LYS A 212 -18.444 -20.318 12.194 1., 00 25.54 0

ATOM 1547 N ILE A 213 -18.614 -18.730 10.608 1. .00 20.35 N

ATOM 1548 CA ILE A 213 -18.181 -19.599 9.527 1. .00 19.88 C

ATOM 1549 CB ILE A 213 -18.368 -18.903 8.161 1. .00 18.71 c

ATOM 1550 CG2 ILE A 213 -17.484 -19.534 7.114 1, .00 19.77 c

ATOM 1551 CG1 ILE A 213 -19.830 -19.010 7.730 1. .00 18.53 c

ATOM 1552 CD1 ILE A 213 -20.246 -17.988 6.693 1, .00 12.79 c

ATOM 1553 C ILE A 213 -16.729 -20.023 9.706 1.00 20.07 c

ATOM 1554 0 ILE A 213 -16.403 -21.210 9.620 1, .00 21.62 0

ATOM 1555 N PHE A 214 -15.861 -19.059 9.981 1 .00 21.28 N

ATOM 1556 CA PHE A 214 -14.431 -19.335 10.073 1, .00 21.86 C

ATOM 1557 CB PHE A 214 -13.630 -18.080 9.716 1 • 00 22.80 C

ATOM 1558 CG PHE A 214 -13.539 -17.840 8.246 1 .00 24.54 C

ATOM 1559 CD1 PHE A 214 -12.334 -17.985 7.581 1 ■ 00 27.07 C ATOM 1560 CD2 PHE A 214 -14.674 -17.536 7.511 1.00 25.86 C

ATOM 1561 CE1 PHE A 214-12.257 -17.839 6. 200 1. 00 27.82 C

ATOM 1562 CE2 PHE A 214 -14.605 -17.389 6. 129 1. 00 29.63 C

ATOM 1563 CZ PHE A 214 -13.393 -17.543 5. 473 1. 00 26.51 C

ATOM 1564 G PHE A 214-13.996 -19.865 11. 430 1. 00 20.00 C

ATOM 1565 0 PHE A 214 -12.881 -20.345 11. 580 1 00 19.46 0

ATOM 1566 N GLY A 215 One 14.882 -19.792 12. 414 1.00 20.82 N

ATOM 1567 CA 6LY A 215 -14.560 -20.328 13. 723 1 00 19.69 C

ATOM 1568 C GLY A 215 -13.642 -19.399 14.489 1. 00 20.47 C

ATOM 1569 0 GLY A 215 -12.876 -19.834 15. 340 1 00 19. 45 0

ATOM 1570 N THR A 216 -13.707-18.114 14. 171 1 00 23. 28 N

ATOM 1571 CA THR A 216 -12.943 -17.101 14. 889 1 00 25. 76 C

ATOM 1572 CB THR A 216 -12. 295 -16.099 13. 910 1 00 23. 50 C

ATOM 1573 061 THR A 216-13. 277 -15.640 12. 973 1 00 24. 09 0

ATOM 1574 CG2 THR A 216 -11. 155-16.751 13. 156 1 00 22. 35 C

ATOM 1575 G THR A 216 -13. 851 -16.352 15. 865 1 00 29. 11 C

ATOM 1576 0 THR A 216-13. 959 -15.129 15. 825 1 00 28. 38 0

ATOM 1577 N LYS A 217 -14. 512 -17.127 16. 719 1 00 35. 21 N

ATOM 1578 CA LYS A 217 -15. 332 -16.645 17. 835 1 00 40. 24 C

ATOM 1579 CB LYS A 217 -14. 615 -15.526 18. 593 1 00 41. 56 C

ATOM 1580 CG LYS A 217 -13. 284 -15.959 19. 160 1 00 45. 51 C

ATOM 1581 CD LYS A 217 -13. 264 -17.457 19. 436 1 00 47. 93 C

ATOM 1582 CE LYS A 217 -14. 044 -17.801 20.699 1 00 50. 99 C

ATOM 1583 NZ LYS A 217 -13. 171 -18.428 21. 744 1 00 52. 53 N

ATOM 1584 C LYS A 217 -16. 717 -16.178 17. 429 1 00 41. 81 C

ATOM 1585 0 LYS A 217 -17. 687 -16.883 17. 784 1 00 42. 64 0

ATOM 1586 OXT LYS A 217 1 16. 817 -15.124 16. 762 1 00 45. 71 0

TER 1587 LYS A 217

 ATOM 1588 CB LYS B 11 -50. 871 -35.197 -11. 020 1 00 37. 93 C

ATOM 1589 C6 LYS B 11-50. 925 -36.241 -9. 919 1 00 40. 68 C

ATOM 1590 CD LYS B 11-51. 366 -35.643 -8 596 1 00 42. 84 C

ATOM 1591 CE LYS B 11 -52. 817-35.184 -8. 634 1 00 46. 12 C

ATOM 1592 NZ LYS B 11-53. 044 -34.009-9 537 1 00 47. 61 N

ATOM 1593 C LYS B 11-48. 423-34.930-11 463 1 00 36. 39 C

ATOM 1594 0 LYS B 11 -47. 686 -35.579 -10 715 1 00 36. 43 0

ATOM 1595 N LYS B 11 1 49. 941-33.026 1 11 752 1 00 35 89 N ATOM 1596 CA LYS B 11 -49.679-34.244 -10.933 1.00 36.43 C

ATOM 1597 N ILE B 12 -48.191 -34.774 -12.765 1.00 35.05 Ν

ATOM 1598 CA ILE B 12 -46.981 -35.268 -13.416 1. 00 33.47 C

ATOM 1599 CB ILE B 12 -47.320 -36.050 -14.703 1.00 34.10 C

ATOM 1600 CG2 ILE B 12 -46.040 -36.573 -15.354 1. 00 33.35 C

ATOM 1601 CG1 ILE B 12 -48.274 -37.200 -14.370 1.00 34.78 C

ATOM 1602 CD1 ILE B 12 -47.734-38, 183 -13.341 1. 00 36.69 C

ATOM 1603 C ILE B 12-46.091 -34.089 -13.784 1. 00 30.96 C

ATOM 1604 0 ILE B 12 -46.501 -33.211 -14.542 1. 00 30.37 0

ATOM 1605 N VAL B 13-44.874 -34.064 -13.247 1. 00 30.64 Ν

ATOM 1606 CA VAL B 13 -43.995 -32. 921 -13.466 1. 00 30. 40 C

ATOM 1607 CB VAL B 13 -43.719 -32. 173 -12.150 1. 00 31. 37 C

ATOM 1608 CG1 VAL B 13 -42.802 -30. 985 -12. 419 1. 00 31. 11 ― C

ATOM 1609 CG2 VAL B 13 -45.035 -31. 701-11. 523 1. 00 30. 37 C

ATOM 1610 C VAL B 13 -42.659 -33. 285 -14. 098 1. 00 30. 07 C

ATOM 1611 0 VAL B 13 -41.825 -33. 952 -13. 478 1. 00 31. 66 0

ATOM 1612 N 6LU B 14 -42.453-32. 838 -15. 333 1. 00 29. 23 Ν

ATOM 1613 CA GLU B 14 -32. 955 -15. 970 1. 00 27. 91 C

ATOM 1614 CB 6LU B 14 -41.294-33. 066 -17. 494 1., 00 28. 32 C

ATOM 1615 CG GLU B 14 -39.972 -33. 298 -18. 235 1., 00 31. 95 C

ATOM 1616 CD GLU B 14 -40.138 -33. 406-19. 754 1., 00 35. 85 C

ATOM 1617 0E1 GLU B 14 -41.006 -32. 711-20. 317 1. .00 37. 32 0

ATOM 1618 0E2 GLU B 14 -39.393-34. 186 -20. 391 1., 00 38. 54 0

ATOM 1619 C GLU B 14 -40.335 -31. 712 -15. 622 1. .00 27. 70 C

ATOM 1620 0 GLU B 14 -40.649 -30. 614 -16. 083 1., 00 27. 15 0

ATOM 1621 N VAL B 15 -39.299 -31. 880 -14. 803 1. .00 26. 91 Ν

ATOM 1622 CA VAL B 15 -38.505 -30. 735 -14. 359 1. .00 26. 98 C

ATOM 1623 CB VAL B 15-37.676-31. 077 -13. 088 1. .00 27. 67 C

ATOM 1624 CG1 VAL B 15 -36.793 -29. 901 -12. 703 1. .00 25. 35 C

ATOM 1625 CG2 VAL B 15 -38.611-31. 446 -11. 938 1, .00 23. 27 C

ATOM 1626 C VAL B 15 -37.571 -30. 312 -15. 483 1. .00 26. 70 C

ATOM 1627 0 VAL B 15 -36.824-31. 128 -16. 021 1, .00 26. 41 0

ATOM 1628 N LYS B 16 -37.628 -29. 035 -15. 840 1, .00 27. 84 Ν

ATOM 1629 CA LYS B 16 -36.940 -28.544-17. 027 1, .00 30. 05 C

ATOM 1630 CB LYS B 16 -37.961-28. 001 -18. 031 1 .00 35. 77 C

ATOM 1631 CG LYS B 16 -39.063 -28. 986 1 18. 402 1, .00 39. 65 C ATOM 1632 CD LYS B 16 -39.814 -28.521 -19.643 1.00 43.69 C

ATOM 1633 CE LYS B 16 -41. 302 -28.856 -19.563 1. 00 46.00 C

ATOM 1634 NZ LYS B 16 -42.016 -28.057 -18.514 1. 00 46.78 N

ATOM 1635 C LYS B. 16 -35.902 -27.464 -16.730 1. 00 28.67 C

ATOM 1636 0 LYS B 16-35.438 -26.779 -17.642 1. 00 28.74 0

ATOM 1637 N HIS B 17 -35.552 -27.305 -15.456 1. 00 27.29 N

ATOM 1638 CA HIS B 17 -34.424 -26.465 -15.055 1. 00 25.97 C

ATOM 1639 CB HIS B 17-34.135 -26.681 -13.563 1.00 26.47 C

ATOM 1640 CG HIS B 17 -33.233 -25.651 -12.959 1.00 27.83 G

ATOM 1641 CD2 HIS B 17-33.470-24.700 -12.023 1. 00 28.47 C

ATOM 1642 ND1 HIS B 17 -31. 907 -25.517 -13.313 1. 00 25. 41 N

ATOM 1643 CE1 HIS B. 17 -31. 367 -24.527 -12.624 1. 00 27. 36 C

ATOM 1644 NE2 HIS B 17 -32. 294 -24.014-11.834 1. 00 28. 26 .N

ATOM 1645 C HIS B 17-33. 197 -26.858 -15.884 1. 00 26. 11 C

ATOM 1646 0 HIS B 17-32. 894 -28.038 -16.047 1. 00 26. 45 0

ATOM 1647 N PRO B 18 -32. 468 -25.871 -16.415 1. 00 25. 83 N

ATOM 1648 CD PRO B 18-32. 659-24.424 -16.243 1., 00 26. 71 G

ATOM 1649 CA PRO B 18 -31. 320-26.181 -17.271 1. 00 26. 49 C

ATOM 1650 CB PRO B 18-30. 854 -24.813 -17.765 1. 00 26. 14 C

ATOM 1651 CG PRO B 18 -31. 378 -23.853-16.768 1. .00 26. 31 C

ATOM 1652 C PRO B 18 -30. 200 -26.966-16.583 1., 00 27. 45 C

ATOM 1653 0 PRO B 18 -29. 439-27.660 -17.252 1., 00 27. 96 0

ATOM 1654 N LEU B 19-30. 098 -26.867 -15.260 1., 00 26. 58 N

ATOM 1655 CA LEU B 19 -29. 173 -27.723 -14.520 1. .00 27. 12 C

ATOM 1656 CB LEU B 19 -29. 009 -27.247 -13.073 1., 00 28. 46 C

ATOM 1657 CG LEU B 19 -28. 100-26.029 -12.857 1. .00 29. 18 C

ATOM 1658 CD1 LEU B 19 -27. 931 -25.795-11.378 1. .00 29. 40 C

ATOM 1659 CD2 LEU B 19-26. 735 -26.261 -13.507 1, .00 30. 33 C

ATOM 1660 C LEU B 19 -29. 586 -29.190 -14.522 1, .00 27. 20 C

ATOM 1661 0 LEU B 19 -28. 731 -30.072 -14.618 1, .00 26. 85 0

ATOM 1662 N VAL B 20-30. 883 -29.473 -14.431 1, .00 26. 96 N

ATOM 1663 CA VAL B 20 -31. 301 -30.872 -14.466 1, .00 28. 22 C

ATOM 1664 CB VAL B 20 -32. 773 -31.068 -13.985 1, .00 29. 32 C

ATOM 1665 CG1 VAL B 20 -32. 975 -30.409 -12.628 1, .00 27. 56 C

ATOM 1666 CG2 VAL B 20 -33. 738 -30.513 -14.994 1 .00 31. 48 C

ATOM 1667 C VAL B 20 -31. 136 -31.469 -15.870 1, .00 28. 65 C ATOM 1668 0 VAL B 20 -30.653 -32.593 -16.016 1.00 26.42 0

ATOM 1669 N LYS B 21 -31.524-30. 712 -16.896 1. 00 29.51 N

ATOM 1670 GA LYS B 21 -31 ■ 322 -31. 130 -18.282 1. 00 28.00 C

ATOM 1671 CB LYS B 21-31.747 -30. 027-19.257 1. 00 31.26 C

ATOM 1672 CG LYS B 21 -33.227 -29. 959 -19.549 1. 00 33.39 C

ATOM 1673 CD LYS B 21-33.542 -28. 795 -20.485 1. 00 35.43 C

ATOM 1674 CE LYS B 21 -34.991 -28. 855 -20.973 1. 00 37.68 C

ATOM 1675 NZ LYS B 21 -35.497 -27. 529 -21.416 1. 00 37.69 N

ATOM 1676 C LYS B 21-29.855-31. 421 -18.509 1. 00 27.22 C

ATOM 1677 0 LYS B 21 -29.499 -32. 373 -19.204 1. 00 26.27 0

ATOM 1678 N HIS B 22-29.002 -30. 584 -17.926 1. 00 25.63 N

ATOM 1679 CA HIS B 22 -27.572 -30. 695 -18.156 1. 00 25.05 C

ATOM 1680 CB HIS B 22 -26.832 -29. 505 -17.540 1. 00 23.62 C

ATOM 1681 CG HIS B 22-25.349 -29. 698 -17.462 1. 00 23.56 C

ATOM 1682 CD2 HIS B 22 -24.549-30. 055 -16.430 1., 00 23.90 C

ATOM 1683 ND1 HIS B 22 -24.519 -29.544 -18.552 1.00 24.07 N

ATOM 1684 CE1 HIS B 22 -23.273 -29. 798 -18.194 1., 00 22.22 C

ATOM 1685 NE2 HIS B 22 -23.263 -30. 110 -16.912 1., 00 22.27 N

ATOM 1686 C HIS B 22 -27.038 -31. 991 -17.558 1., 00 27.10 C

ATOM 1687 0 HIS B 22 -26.357 -32. 766 -18.234 1., 00 27.43 0

ATOM 1688 N LYS B 23 -27.345 -32. 225-16.286 1. .00 26.69 N

ATOM 1689 CA LYS B 23 -26.791 -33. 375 -15.592 1. .00 26.69 C

ATOM 1690 CB LYS B 23 -27.049 -33. 266-14.087 1., 00 25.01 C

ATOM 1691 C6 LYS B 23 -26.282-32. 145 -13.401 1. .00 24.88 C

ATOM 1692 CD LYS B 23 -26.940 -31. 746 -12.073 1. .00 24.14 C

ATOM 1693 CE LYS B 23-26.392 -30. 418 -11.561 1, .00 23.93 C

ATOM 1694 NZ LYS B 23 -24.942 -30. 496 -11.214 1, .00 23.40 N

ATOM 1695 C LYS B 23 -27.391-34. 666 -16.146 1. .00 27.92 C

ATOM 1696 0 LYS B 23 -26.676 -35. 653 -16.336 1, .00 27.78 0

ATOM 1697 N LEU B 24-28.693 -34. 655 -16.422 1, .00 25.62 N

ATOM 1698 CA LEU B 24 -29.341-35. 833 -16.986 1, .00 28.61 C

ATOM 1699 CB LEU B 24 -30.851 -35.609 -17.121 1 .00 28.56 C

ATOM 1700 CG LEU B 24 -31.759 -36. 776 -17.541 1 .00 31.41 C

ATOM 1701 CD1 LEU B 24 -31.642 -37. 009 -19.032 1 .00 32.28 C

ATOM 1702 CD2 LEU B 24 -31.398 -38. 038 -16.756 1 ■ 00 28.62 C

ATOM 1703 C LEU B 24 1 28.737 -36. 136 -18.351 1 • 00 30.71 C ATOM 1704 0 LEU B 24 -28.653-37.294 -18.749 1.00 32.38

ATOM 1705 N GLY B 25 -28.311 -35. 093 -19. 064 1. 00 29.81

ATOM 1706 CA GLY B 25 -27.784 -35. 289 -20. 402 1. 00 28.58

ATOM 1707 C GLY B 25 -26.458 -36. 023-20. 353 1. 00 29.44

ATOM 1708 0 GLY B 25 -26.204 -36. 945 -21. 136 1. 00 28.46

ATOM 1709 N LEU B 26 -25.610 -35. 611 -19. 420 1. 00 26.24

ATOM 1710 CA LEU B 26 -24.343 -36. 285 -19. 194 1. 00 27,43

ATOM 1711 CB LEU B 26 -23.611-35. 645 -18. 014 1. 00 24.76

ATOM 1712 CG LEU B 26 -23.167 -34. 203 -18. 236 1. 00 24.92

ATOM 1713 CD1 LEU B 26 -22.453-33. 708 -17. 001 1. 00 27.34

ATOM 1714 CD2 LEU B 26 -22.260 -34. 122 -19. 448 1. 00 22.42

ATOM 1715 C LEU B 26. -24.557 -37. 771-18. 907 1. 00 27.87

ATOM 1716 0 LEU B 26 -23.702 -38. 598 -19. 216 1. 00 28.88

ATOM 1717 N MET B 27-25.696 -38. 103 -18. 311 1. 00 28.21

ATOM 1718 CA MET B 27-25.940 -39. 467 -17. 872 1. 00 29.99

ATOM 1719 CB MET B 27 -27.074 -39. 504 -16. 839 1. 00 29.26

ATOM 1720 CG MET B 27-26.708-38. 837 -15. 505 1. 00 27.51

ATOM 1721 SD MET B 27-27.946 -39. 023 -14. 206 1., 00 28.17

ATOM 1722 CE MET B 27-27.645 -40. 713 -13. 666 1. 00 25.93

ATOM 1723 C MET B 27 -26.263 -40. 385 -19. 042 1., 00 30.91

ATOM 1724 0 MET B 27 -26.136 -41.595 -18.931 1..00 30.79

ATOM 1725 N ARG B 28 -26.668 -39. 812-20. 170 1., 00 31.26

ATOM 1726 CA ARG B 28 -27.000 -40. 629-21 '· 329 1. .00 31.33

ATOM 1727 CB ARG B 28 -27.893 -39. 846 -22. 296 1. .00 30.43

ATOM 1728 CG ARG B 28 -29.238 -39. 419 -21. 703 1. .00 29.10

ATOM 1729 CD ARG B 28-30.185 -38. 934 -22. 781 1. .00 30.15

ATOM 1730 NE ARG B 28-31.372-38. 282-22. 236 1. .00 34.17

ATOM 1731 CZ ARG B 28 -32.499 -38. 914 -21. 916 1. .00 33.96

ATOM 1732 NH1 AR6 B 28 -32.601 -40. 225-22. 081 1. .00 36.43

ATOM 1733 'NH2 ARG B 28 -33.527 -38. 235 -21. 435 1. .00 33.65

ATOM 1734 C ARG B 28 -25.741 -41. 116 -22. 048 1. .00 33.05

ATOM 1735 0 ARG B 28-25.818-41. 960 -22. 935 1, .00 30.34

ATOM 1736 N 6LU B 29 -24.584 -40. 586 -21. 661 1, .00 35.83

ATOM 1737 CA GLU B 29 -23.323-41. 012 -22. 251 1, .00 40.96

ATOM 1738 CB 6LU B 29 -22.155-40. 231 -21. 650 Λ, .00 44.02

ATOM 1739 CG GLU B 29 1 22.027 -38. 799 -22. 145 1 • 00 50.63 ATOM 1740 CD GLU B 29 -20.704-38.157 -21.744 1.00 53.37 G

ATOM 1741 0E1 GLU B 29 -19.713 -38.898 -21.522 1. 00 54.69 0

ATOM 1742 0E2 GLU B 29 -20.657 -36.911 -21.650 1.00 53.30 0

ATOM 1743 C GLU B 29-23.085 -42.501 -22.030 1. 00 43.27 C

ATOM 1744 0 GLU B 29 -23.022 -42.967-20.892 1. 00 43.60 0

ATOM 1745 N GLN B 30 -22.938 -43.239 -23.126 1. 00 45.50 N

ATOM 1746 CA GLN B 30-22.747 -44.683 -23.071 1. 00 46.98 C

ATOM 1747 CB GLN B 30-22.730 -45.250 -24.490 1. 00 48.99 C

ATOM 1748 CG GLN B 30 -22,152 -46.648 -24.615 1.00 51.57 G

ATOM 1749 CD GLN B 30 -21.416 -46.837-25.933 1. 00 54.28 C

ATOM 1750 0E1 GLN B 30-20.338 -46.270 -26.145 1, 00 54.38 0

ATOM 1751NE2 GLN B 30 -21.998 -47.631-26.830 1.00 55.18 N

ATOM 1752 C GLN B 30 -21.464 -45.074 -22.342 1.00 47.14 C

ATOM 1753 0 GLN B 30 -21.420-46.095 1.00 47.75 0

ATOM 1754 N ASP B 31 -20.425 -44.255 -22.484 1. 00 47.04 N

ATOM 1755 CA ASP B 31 -19.112 -44.572 -21.925 1.00 47.57 C

ATOM 1756 CB ASP B 31 -18.019-44.158 -22.911 1. 00 50.40 C

ATOM 1757 CG ASP B 31 -18.078 -42.679-23.253 1. 00 53.22 C

ATOM 1758 0D1 ASP B 31 -17.026 -42.006-23.171 1., 00 55.56 0

ATOM 1759 0D2 ASP B 31 -19.178-42.191 -23.602 1., 00 53.04 0

ATOM 1760 C ASP B 31 -18.834 -43.916 -20.568 1., 00 46.14 C

ATOM 1761 0 ASP B 31 -17.690 -43.892 -20.105 1., 00 46.39 0

ATOM 1762 N ILE B 32-19.871 -43.381-19.933 1. .00 43.92 N

ATOM 1763 CA ILE B 32 -19.702 -42.666-18.670 1. .00 41.41 C

ATOM 1764 CB ILE B 32 -21.034 -41.996 -18.248 1. .00 41.29 G

ATOM 1765 CG2 ILE B 32-22.078 -43.063 -17.931 1. .00 38.58 C

ATOM 1766 CG1 ILE B 32 -20.810 -41.078 -17.046 1, .00 40.51 C

ATOM 1767 CD1 ILE B 32 -22.048 -40.285-16.653 1. .00 38.12 C

ATOM 1768 G ILE B 32-19.232 -43.631 -17.575 1, .00 40.02 C

ATOM 1769 0 ILE B 32 -19.699 -44.765 -17.490 1, .00 40.44 0

ATOM 1770 N SER B 33 -18.296 -43.189 -16.746 1 .00 38.74 N

ATOM 1771 CA SER B 33 -17.766 -44.054-15.700 1, .00 38.69 C

ATOM 1772 CB SER B 33 -16.535 -43.414 -15.049 1 .00 38.50 C

ATOM 1773 OG SER B 33-16.790 -42.078 -14.651 1 .00 40.89 0

ATOM 1774 C SER B 33 -18.833 -44.323 -14.648 1 .00 38.97 C

ATOM 1775 0 SER B 33 -19.814 1 43.585 -14.550 1 • 00 39.97 0 ATOM 1776 N THR B 34 -18.648 -45.385 -13.870 1.00 37.65 N

ATOM 1777 CA THR B 34 -19.593 -45.716 -12.810 1. 00 38.20 C

ATOM 1778 CB THR B 34 -19.252-47.076 -12.161 1. 00 38.29 C

ATOM 1779 061 THR B 34 -19.495-48.127 -13.102 1. 00 40.16 0

ATOM 1780 C62 THR B 34 -20.106 -47.311 -10.929 1. 00 38.42 C

ATOM 1781 C THR B 34 -19.626 -44.643 -11. 721 1. 00 37.01 C

ATOM 1782 0 THR B 34 -20.653 -44.426 -11. 081 1. 00 37.10 0

ATOM 1783 N LYS B 35 -18.501 -43.972-11. 513 1. 00 36.23 N

ATOM 1784 CA LYS B 35 -18.419 -42.951 -10. 478 1. 00 35.92 C

ATOM 1785 CB LYS B 35 -16.963 -42.520 -10. 274 1. 00 35.85 c

ATOM 1786 CG LYS B 35-16.752 -41.664-9. 041 1. 00 36.97 c

ATOM 1787 CD LYS B 35 -16. 109 -40.336 -9. 380 1, 00 41.34 c

ATOM 1788 CE LYS B 35 -14. 629 -40.493 -9. 677 1. 00 42.18 c

ATOM 1789 NZ LYS B 35 —14. 154 -39.505 -10. 696 1. 00 44.20 N

ATOM 1790 C LYS B 35 -19. 267 -41.739 -10. 856 1. 00 35.52 C

ATOM 1791 0 LYS B 35-20. 111 -41.287 -10. 079 1. 00 34.80 0

ATOM 1792 N ARG B 36 -19. 046 -12. 058 1. 00 35.03 N

ATOM 1793 CA ARG B 36 -19. 736 -40.014 -12. 485 1. 00 34.99 C

ATOM 1794 CB ARG B 36 -19. 144 -39.509 -13. 809 1., 00 35.85 C

ATOM 1795 CG ARG B 36-19. 664-38.140 -14. 239 1. .00 36.63 C

ATOM 1796 CD ARG B 36-19. 246 -37.037-13, 266 1., 00 36.63 C

ATOM 1797 NE ARG B 36 -17. 866 -36.610 -13. 479 1., 00 37.70 N

ATOM 1798 CZ ARG B 36 -16. 876 -36.787 -12.607 1., 00 39.65 C

ATOM 1799 NH1 ARG B 36 -17. 104 -37.387 -11. 446 1. .00 41.48 N

ATOM 1800 NH2 ARG B 36 -15. 650 -36.371 -12. 900 1. .00 39.81 N

ATOM 1801 C ARG B 36-21. 239 -40.271 -12. 629 1. .00 33.54 C

ATOM 1802 0 ARG B 36 -22. 055 -39.420 -12. 277 1. .00 33.43 0

ATOM 1803 N PHE B 37 -21. 604 -41.449 -13. 126 1. .00 N

ATOM 1804 CA PHE B 37 -23. 016 -41.783 -13. 297 1, .00 31.46 C

ATOM 1805 CB PHE B 37-23. 174 -43.121 -14. 042 1, .00 29.56 c

ATOM 1806 CG PHE B 37 -24. 606 -43.472 -14. 367 1, .00 29.47 c

ATOM 1807 CD1 PHE B 37 -25. 133 -43.202 -15. 624 1 .00 29.71 c

ATOM 1808 CD2 PHE B 37 -25. 421 -44.067 -13. 419 1. .00 26.23 c

ATOM 1809 CE1 PHE B 37 -26. 448-43.521 -15. 926 1 • 00 30.25 c

ATOM 1810 CE2 PHE B 37 -26. 729 -44.388 -13. 710 1 • 00 27.99 c

ATOM 1811 GZ PHE B 37 One 27. 249 —44.115 One 14. 965 1 • 00 30.25 c ATOM 1812 C PHE B 37-23.678 -41.865 -11.925 1.00 30.52 C

ATOM 1813 0 PHE B 37-24.792 -41 ■ 390 -11.736 1. 00 30.45 0

ATOM 1814 N ARG B 38 -22.971 -42.449 -10.968 1. 00 31.10 N

ATOM 1815 CA ARG B 38 -23.481 -42.569 -9.610 1.00 34.63 C

ATOM 1816 CB ARG B 38 -22.514 -43.406 -8.763 1. 00 36.41 C

ATOM 1817 CG ARG B 38 -23.041 -43.761 -7.373 1. 00 42.74 C

ATOM 1818 CD ARG B 38 -21.913-44.231 -6.454 1.00 45.05 C

ATOM 1819 NE ARG B 38 -21. 268 -45.439 -6.964 1. 00 50.95 N

ATOM 1820 CZ AR6 B 38 -19.971-45.546 -7.243 1.00 51.90 C

ATOM 1821 NH1 ARG B 38 -19.155 -44.511-7.066 1. 00 51.22 N

ATOM 1822 NH2 ARG B 38 -19.491-I46.697-7.698 1. 00 51.47 N

ATOM. 1823 C ARG B 38 -23.648 -9.001 1.00 33.37 C

ATOM 1824 0 ARG B 38-24.638 -40.884O C-8.323 1. 00 32.68 0

ATOM 1825 N GLU B 39-22.676 -40.318-9.273 1. 00 31.91 N

ATOM 1826 CA GLU B 39 -22.667 -38.969 -8.736 1. 00 31.30 C

ATOM 1827 CB GLU B 39 -21. 319 -38.316-9.037 1. 00 33.48 C

ATOM 1828 CG GLU B 39 -21. 052 -37.011 -8.312 1. 00 40.15 C

ATOM 1829 CD GLU B 39 -19.585 -36.604 -8.392 1. 00 43.88 C

ATOM 830 0E1 GLU B 39 -18.795 -37.358-9.006 1., 00 46.54 0

ATOM 1831 0E2 GLU B 39 -19. 220 -35.541-7.842 1., 00 43.93 0

ATOM 1832 C GLU B 39 -23. 803-38.149 -9.344 1., 00 29.61 C

ATOM 1833 0 GLU B 39 -24. 480 -37.398-8.645 1. 00 28.47 0

ATOM 1834 N LEU B 40 -24. 015 -38.298 -10.646 1. .00 27.00 N

ATOM 1835 CA LEU B 40 -25. 014 -37.497 -11.328 1., 00 26.24 C

ATOM 1836 CB LEU B 40-24. 861 -37.643 -12.840 1., 00 25.85 C

ATOM 1837 CG LEU B 40 -23. 654 -36.912 -13.443 1. .00 24.52 C

ATOM 1838 CD1 LEU B 40-23. 568-37.209-14.933 1. .00 22.35 C

ATOM 1839 CD2 LEU B 40 -23. 783 -35.407 -13.200 1. ■ 00 20.97 C

ATOM 1840 C LEU B 40-26. 416 -37.897-10.897 1, .00 26.56 C

ATOM 1841 0 LEU B 40 -27. 304-37.056 -10.785 1, .00 26.26 0

ATOM 1842 N ALA B 41 -26. 602 -39.186 -10.638 1, .00 26.98 N

ATOM 1843 CA ALA B 41 -27. 876 -39.704 -10.165 1 .00 24.60 C

ATOM 1844 CB ALA B 41 -27. 757 -41.199 -9.901 1 .00 26.06 C

ATOM 1845 C ALA B 41 -28. 323 -38.986 -8.897 1, ■ 00 23.90 C

ATOM 1846 0 ALA B 41-29..473-38.582 -8.767 1 .00 22.22 0

ATOM 1847 N SER B 42 -27., 407 -38.826 —7, 957 1 ∎ 00 24.92 N ATOM 1848 CA SER B 42 -27.748 -38.t79 -6.699 1.00 25.26 C

ATOM 1849 CB SER B 42 -26.640 -38.428 -5.680 1.00 26.62 C

ATOM 1850 OG SER B 42-27.169 -38.496 -4.367 1.00 33.51 0

ATOM 1851 G SER B 42 -27.976 -36.674 -6. 881 1. 00 24.86 C

ATOM 1852 0 SER B 42 -28.915 -36.105 -6. 319 1. 00 25.77 0

ATOM 1853 N 6LU B 43 -27.123-36.031 -7. 671 1. 00 23.12 N

ATOM 1854 CA GLU B 43 -27.287 -34.611-7. 950 1. 00 25.47 C

ATOM 1855 CB GLU B 43 -26.200-34.113 8. 912 1. 00 23.38 C

ATOM 1856 CG GLU B 43 -24.826 -33.978-8. 264 1. 00 24.93 C

ATOM 1857 CD GLU B 43 -23.747 -33.538 -9. 238 1. 00 24.46 C

ATOM 1858 0E1 GLU B 43 -24.087 -32.918 -10. 263 1. 00 25.02 0

ATOM 1859 0E2 GLU B 43-22.556 -33.810 -8. 973 1.00 24.25 0

ATOM 1860 C GLU B 43 -28.661-34.331 -8. 538 1. 00 26.23 C

ATOM 1861 0 GLU B 43 -29.330 -33.388-8. 126 1. 00 28.40 0

ATOM 1862 N VAL B 44 -29.086 -35.152 -9. 496 1. 00 25.37 N

ATOM 1863 CA VAL B 44 -30.386 -34.949 -10. 107 1. 00 24.40 C

ATOM 1864 CB VAL B 44-30.580 -35.829 -11. 349 1. 00 24.77 C

ATOM 1865 C61 VAL B 44 -32.006-35.689 -11. 863 1. 00 22.78 C

ATOM 1866 C62 VAL B 44 -29.588 -35.410-12. 437 1. 00 25.28 C

ATOM 1867 C VAL B 44 -31 ■ 486 -35.255-9. 109 1. 00 24.74 C

ATOM 1868 0 VAL B 44 -32.437 -34.479 -8. 970 1. .00 23.92 0

ATOM 1869 N GLY B 45-31.349 -36.379 -8. 409 1. 00 23.03 N

ATOM 1870 CA GLY B 45 -32.300 -36.714-7.367 1., 00 23.71 C

ATOM 1871 C GLY B 45 -32. 36-35.561 -6. 390 1. .00 25.82 C

ATOM 1872 0 GLY B 45 -33.539 -35.211 -5. 968 1., 00 26.84 0

ATOM 1873 N SER B 46 -31.307 -34.953 -6. 051 1., 00 25.64 N

ATOM 1874 CA SER B 46 -31.290-33.803 -5. 168 1. .00 25.83 C

ATOM 1875 CB SER B 46 -29.858 -33.312 -4. 990 1., 00 26.51 C

ATOM 1876 OG SER B 46 -29.823 -32.120 -4. 237 1., 00 28.60 0

ATOM 1877 C SER B 46 -32.153-32.671 -5. 698 1, .00 26.12 C

ATOM 1878 0 SER B 46 -32.998 -32.138 -4. 982 1, .00 26.12 0

ATOM 1879 N LEU B 47 -31.939 -32.307 -6. 957 1, .00 27.59 N

ATOM 1880 CA LEU B 47 -32.717 -31.245 -7. 587 1, .00 27.00 C

ATOM 1881 CB LEU B 47-32.129 -30.927 -8. 965 1 .00 25.15 C

ATOM 1882 CG LEU B 47-30.684 -30.420 -8. 888 1, .00 25.88 C

ATOM 1883 GD1 LEU B 47 -30.122 -30.195 -10. 280 1 .00 25.86 C Five

ATOM 1884 CD2 LEU B 47 -30.645 -29, 126 -8.087 1. 00 22.32 C

ATOM 1885 C LEU B 47 -34.204 -7.708 1. 00 27.75 C

ATOM 1886 0 LEU B 47 -35.082-30.769 -7.542 1.00 27.73 0

ATOM 1887 N LEU B 48 -34.489 -32.886 -7.983 1.00 27.20 N

ATOM 1888 CA LEU B 48 -35.874 -33.335 -8.089 1. 00 28.82 C

ATOM 1889 CB LEU B 48-35.932 -34.795 -8.546 1. 00 26.78 C

ATOM 1890 CG LEU B 48 -35.475 -35.039 -9.983 1.00 27.84 C

ATOM 1891 CD1 LEU B 48 -35.660 -36.515 -10.351 1. 00 23.29 C

ATOM 1892 CD2 LEU B 48-36.275 -34.129 -10.914 1. 00 25.68 C

ATOM 1893 C LEU B 48-36.566 -33.201-6.738 1. 00 29.58 C

ATOM 1894 0 LEU B 48 -37.761 One 32.899 -6.663 1.00 29.00 0

ATOM 1895 N THR B 49-35.800-33.427 -5.673 1. 00 29.70 N

ATOM 1896 CA THR B 49-36.328 -33.35 £ (> 7 -4.317 1. 00 29.76 C

ATOM 1897 CB THR B 49 -35.276 -33.834 -3.276 1. 00 29.51 C

ATOM 1898 0G1 THR B 49-34.956-35.213-3.508 1.00 26.64 0

ATOM 1899 CG2 THR B 49 -35.809 -33.667 -1.863 1.00 23.67 C

ATOM 1900 C THR B 49 -36.743 -31.924 -3.996 1., 00 30.51 C

ATOM 1901 0 THR B 49 -37.702-3.259 1., 00 29.09 0

ATOM 1902 N TYR B 50-36.028 -30.959 -4.567 1., 00.31.19 N

ATOM 1903 CA TYR B 50-36.350 -29.554 -4.345 1., 00 33.26 C

ATOM 1904 CB TYR B 50 -35.261-28.658-4.939 1. .00 32.80 C

ATOM 1905 CG TYR B 50 -35.409 -27.197-4.582 1. .00 32.60 C

ATOM 1906 CD1 TYR B 50-35.099-26.739-3.308 1. .00 34.28 C

ATOM 1907 CE1 TYR B 50 -35.223 -25.403 -2.979 1., 00 32.81 C

ATOM 1908 CD2 TYR B 50 -35.850 -26.273 -5.518 1. .00 30.88 C

ATOM 1909 CE2 TYR B 50 -35.977 -24.937-5.197 1, .00 31.80 C

ATOM 1910 CZ TYR B 50-35.661 -24.507 -3.927 1, .00 32.00 C

ATOM 1911 OH TYR B 50 -35.777-23.176-3.601 1, .00 31.01 0

ATOM 1912 C TYR B 50 -37.715 -29.169 -4.922 1, .00 33.12 C

ATOM 1913 0 TYR B 50 -38.533 -28.561-4.232 1 .00 33.42 0

ATOM 1914 N 6LU B 51 -37.974 -29.517-6.177 1, ■ 00 34.84 N

ATOM 1915 CA 6LU B 51-39.289 -29.236 -6.744 1 .00 35.77 C

ATOM 1916 CB 6LU B 51 -39.311 -29.522 -8.251 1, ■ 00 36.73 C

ATOM 1917 CG GLU B 51 -39.195-28.264 -9.126 1, .00 39.18 C

ATOM 1918 CD 6LU B 51 -37.783-28.061 -9.653 1 .00 42.14 C

ATOM 1919 0E1 GLU B 51 -37.495 -26.993 -10.245 1 ∎ 00 38.37 0 Z8

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SSZ.l.0 / .00Zdf / X3d 0Cr.S0 / 600Z O ATOM 1956 N 6LU B 57-45. 200 -28. 256 4. 314 1. 00 42. 37 N

ATOM 1957 CA GLU B 57-45. 821 -27. 414 5. 327 1. 00 44. 68 C

ATOM 1958 CB 6LU B 57 -47. 025-28. 132 5. 935 1. 00 47. 69 C

ATOM 1959 CG GLU B 57-48. 199 One 27. 216 6. 189 1. 00 55. 23 C

ATOM 1960 CD GLU B 57 -48. 564-26. 401 4. 958 1. 00 58. 69 C

ATOM 1961 0E1 GLU B 57 -49. 224 -26. 959 4. 054 1. 00 59. 62 0

ATOM 1962 0E2 GLU B 57-48. 187 1 25. 204 4. 896 1. 00 61. 14 0

ATOM 1963 C GLU B 57 -44. 822 -27. 065 6. 427 1. 00 43. 37 C

ATOM 1964 0 GLU B 57 -44. 195 -27. 951 7. 013 1. 00 44. 44 0

ATOM 1965 N THR B 58 -44. 673 -25. 774 6. 700 1. 00 41. 63 N

ATOM 1966 CA THR B 58 -43. 855 -25. 323 7. 819 1. 00 40. 96 C

ATOM 1967 'CB THR B 58 -42. 916 -24. 165 7. 395 1. 00 40. 36 C

ATOM 1968 061 THR B 58 -43. 690 -23. 068 6. 896 1. 00 39. 82 0

ATOM 1969 CG2 THR B 58 -41. 954-24. 627 6. 307 1. 00 39. 86 C

ATOM 1970 C THR B 58 -44. 731 -24. 866 8. 989 1. 00 41. 58 C

ATOM 1971 0 THR B 58 -45. 860 -24. 423 8. 797 1. 00 40. 38 0

ATOM 1972 N GLU B 59 -44. 213-24. 992 10. 204 1. 00 41. 99 N

ATOM 1973 CA GLU B 59 -44. 874 -24. 422 11. 369 1. 00 43. 72 C

ATOM 1974 CB GLU B 59 -45. 235 -25. 528 12. 366 1. 00 46. 23 C

ATOM 1975 C6 GLU B 59 -44. 073-26. 456 12. 694 1. 00 49. 83 C

ATOM 1976 CD GLU B 59 -44. 298-27. 275 13. 953 1. 00 52. 13 C

ATOM 1977 0E1 GLU B 59 -43. 325-27. 888 14. 439 1. 00 52. 94 0

ATOM 1978 0E2 GLU B 59 -45. 442 -27. 307 14 '. 458 1.. 00 54. 84 0

ATOM 1979 C GLU B 59-43. 960 -23. 399 12. 042 1. 00 43. 71 C

ATOM 1980 0 GLU B 59-42. 748 -23. 599 12. 125 1., 00 41. 81 0

ATOM 1981 N LYS B 60 -44. 546 -22. 307 12. 524 1., 00 43. 32 N

ATOM 1982 CA LYS B 60 -43. 794 -21. 282 13. 242 1., 00 43. 10 C

ATOM 1983 CB LYS B 60 -44. 671-20. 055 13. 491 1.. 00 43. 12 C

ATOM 1984 CG LYS B 60 -44. 920 -19. 206 12. 259 1., 00 44. 85 C

ATOM 1985 CD LYS B 60 -43. 614 -18. 683 1.. 00 45. 93 C

ATOM 1986 CE LYS B 60 -43. 868 -17. 546 10. 705 1. .0 H 44. 67 C

ATOM 1987 NZ LYS B 60 -45. 016 -17. 846 9. 814 1.. 00 45. 20 N

ATOM 1988 C LYS B 60 -43. 264 -21. 792 14. 576 1.. 00 42. 34 C

ATOM 1989 0 LYS B 60 -43. 956 -22. 503 15. 297 1.. 00 43. 31 0

ATOM 1990 N VAL B 61-42. 028 -21. 421 14. 894 1,. 00 41. 83 N

ATOM 1991 CA VAL B 61 -41. 404 -21. 777 16. 162 1,. 00 40. 39 C ATOM 1992 CB VAL B 61 -40.526-23.049 16.021 1.00 41.48 C

ATOM 1993 CG1 VAL B 61 -39.854-23.373 17.344 1. 00 42.88 C

ATOM 1994 CG2 VAL B 61 -41. 372 -24.219 15.574 1. 00 42.04 C

ATOM 1995 C VAL B 61 -40.516-20.616 16.611 1. 00 39.54 C

ATOM 1996 0 VAL B 61 -39.819 -20.015 15.794 1. 00 40.07 0

ATOM 1997 N THR B 62-40.544-20.295 17. 902 1. 00 38.10 N

ATOM 1998 CA THR B 62 -39.626 -19.298 18. 444 1. 00 36. 07 C

ATOM 1999 CB THR B 62 -40.248 -18.458 19. 579 1. 00 36.45 C

ATOM 2000 0G1 THR B 62-40.475 -19.299 20. 720 1.00 38.26 0

ATOM 2001 CG2 THR B 62 -41. 546 -17.819 19. 128 1. 00 33.49 C

ATOM 2002 C THR B 62-38.420 -20.001 19. 036 1.00 34.52 C

ATOM 2003 0 THR B 62 -38.555 -20.907 19. 865 1. 00 32.54 0

ATOM 2004 N ILE B 63-37. 239 -19.571 18. 612 1. 00 32. 07 • N

ATOM 2005 CA ILE B 63-36. 003 -20.110 19. 147 1. 00 30. 10 C

ATOM 2006 CB ILE B 63 -35. 183 -20.794 18. 046 1. 00 30. 42 C

ATOM 2007 CG2 ILE B 63-36. 034-21.868 17. 358 1. 00 30. 92 C

ATOM 2008 CG1 ILE B 63 -34. 741 -19.757 17. 009 1. 00 31. 40 C

ATOM 2009 CD1 ILE B 63 -33. 738 -20.275 15. 992 1. 00 30. 19 C

ATOM 2010 C ILE B 63 -35. 219 -18.943 19. 704 1. 00 30. 15 C

ATOM 2011 0 ILE B 63 -35. 578 -17.783 19. 484 1., 00 28. 57 0

ATOM 2012 N GLU B 64 -34. 152 -19.245 20. 431 1. 00 31. 49 N

ATOM 2013 CA GLU B 64 -33. 242 -18.208 20. 892 1., 00 31. 50 C

ATOM 2014 CB GLU B 64 -32. 385 -18.743 22.041 1. .00 32. 54 C

ATOM 2015 CG GLU B 64 -31. 741 -17.653 22. 876 1., 00 38. 27 C

ATOM 2016 CD GLU B 64-32. 769 -16.721 23. 503 1., 00 43. 26 C

ATOM 2017 0E1 GLU B 64-33. 763 -17.225 24. 086 1. .00 42. 75 0

ATOM 2018 0E2 GLU B 64-32. 582 -15.485 23. 409 1. .00 45. 23 0

ATOM 2019 C GLU B 64 -32. 354 -17.795 19. 719 1. .00 31. 17 C

ATOM 2020 0 GLU B 64 -31. 520 -18.579 19. 257 1, .00 31. 02 0

ATOM '2021 N GLY B 65 -32. 547 -16.578 19. 221 1. .00 29. 21 N

ATOM 2022 CA GLY B 65-31. 685 -16.086 18. 163 1, .00 29. 60 C

ATOM 2023 C GLY B 65 -30. 399 -15.545 18. 764 1, .00 31. 01 C

ATOM 2024 0 GLY B 65 -30. 270 -15.470 19. 987 1, .00 30. 41 0

ATOM 2025 N TRP B 66 -29. 443 -15.164 17. 922 1, .00 31. 95 N

ATOM 2026 CA TRP B 66-28. 147 -14.719 18. 434 1 .00 31., 44 C

ATOM 2027 CB TRP B 66 -27. 180 -14.392 17. 286 1, .00 26., 39 C ATOM 2028 CG TRP 6 66 -27.583 -13.220 16.465 1.00 25.69 C

ATOM 2029 CD2 TRP B 66 -27.085 -11. 878 16.573 1. 00 25.88 C

ATOM 2030 CE2 TRP B 66 -27.780 -11. 100 15.627 1. 00 26.50 C

ATOM 2031 CE3 TRP B 66-26.122 -11. 260 17.379 1. 00 25.88 C

ATOM 2032 CD1 TRP B 66-28.525 -13.200 15.483 1.00 24.13 C

ATOM 2033 NE1 TRP B 66 -28.651 -11. 933 14.974 1. 00 24.69 N

ATOM 2034 CZ2 TRP B 66-27, 547 -9.733 15.462 1. 00 27.89 C

ATOM 2035 CZ3 TRP B 66 -25.891-9.902 17.215 1.00 27.89 C

ATOM 2036 CH2 TRP B 66 -26.601 -9.154 16.264 1. 00 29.65 C

 00

 ATOM 2037 C TRP B 66-28.343 -13.497 19.317 1. 00 31.41 Co

 ATOM 2038 0 TRP B 66 -27.668 -13.350 20.336 1. 00 34.65 0

ATOM 2039 N ASN B 67 -29.282 -12. 635 18.940 1. 00 30.80 N

ATOM 2040 CA ASN B 67 -29.596 -11. 456 19.744 1. 00 32.31. C

ATOM 2041 CB ASN B 67 -29.440 -10. 190 18.896 1. 00 32.90 G

ATOM 2042 CG ASN B 67 -30.327 -10. 200 .17.671 1. 00 34.82 C

ATOM 2043 0D1 ASN B 67 -11. 132 17.463 1. 00 35.60 0

ATOM 2044 ND2 ASN B 67 -30.213-9. 165 16.846 1. 00 36.33 N

ATOM 2045 C ASN B 67 -31.005 -11. 495 20.354 1. 00 32.08 C

ATOM 2046 0 ASN B 67 -31.750 -10. 516 20.287 1. 00. 31.12 0

ATOM 2047 N GLY B 68 -31.364 -12. 624 20.956 1. .00 32.32 N

ATOM 2048 CA GLY B 68 -32.683 -12. 744 21.554 1., 00 32.35 C

ATOM 2049 C GLY B 68 -33.674-13. 562 20.735 1., 00 32.30 G

ATOM 2050 0 GLY B 68 -33.338 -14. 068 19.661 1. .00 31.76 0

ATOM 2051 N PRO B 69 -34.918 -13. 702 21.224 1., 00 31.69 N

ATOM 2052 CD PRO B 69-35.399 -13. 078 22.467 1. .00 31.14 C

ATOM 2053 CA PRO B 69 1 35.941 -14. 569 20.631 1., 00 29.12 C

ATOM 2054 CB PRO B 69 -37.109 -14. 467 21.609 1. .00 30.67 C

ATOM 2055 CG PRO B 69 -36.499 -13. 992 22.883 1. .00 31.76 C

ATOM 2056 C PRO B 69 -36.345 -14. 162 19.215 1. .00 27.29 C

ATOM 2057 0 PRO B 69 -36.500 -12. 985 18.907 1, .00 27.97 0

ATOM 2058 N VAL B 70 -36.513-15. 154 18.356 1, .00 26.98 N

ATOM 2059 CA VAL B 70 -36.945 -14. 912 16.993 1, .00 26.49 C

ATOM 2060 CB VAL B 70 -35.737 -14. 783 16.026 1, .00 25.40 C

ATOM 2061 CG1 VAL B 70-34.901 -16. 051 16.056 1 .00 24.06 C

ATOM 2062 C62 VAL B 70 -36.226 -14. 495 14.619 1, .00 23.57 C

ATOM 2063 C VAL B 70 1 37.819 -16. 067 16.552 1 .00 27.86 G ATOM 2064 0 VAL B 70 -37.575 -17.215 16.919 1.00 30.95 0

ATOM 2065 N GLU B 71 -38.848 -15.752 -15.779 1. 00 29.23 N

ATOM 2066 CA GLU B 71-39.744-6.762 15.246 1. 00 31.34 C

ATOM 2067 CB GLU B 71 -41.164 -16.195 15.114 1. 00 31.35 C

ATOM 2068 CG GLU B 71 -42.187 -17.222 14.649 1. 00 34.85 C

ATOM 2069 CD GLU B 71-43.615 -16.702 14.702 1.00 35.30 C

ATOM 2070 0E1 GLU B 71 -44.284 -16.914 15.736 1.00 35.01 0

ATOM 2071 0E2 GLU B 71-44.064 -16.089 13.710 1.00 33.95 0

ATOM 2072 C GLU B 71 -39.246 -17.233 13. 883 1.00 31.00 C

ATOM 2073 0 GLU B 71 -38.946 -16.424 13.007 1. 00 30.75 0

ATOM 2074 N ILE B 72-39.164 -18.547 13. 714 1. 00 30.97 N

ATOM 2075 CA ILE B 72 -38.709 -19.133 12. 458 1. 00 32.19 C

ATOM 2076 CB ILE B 72 -37.342 -19.823 12. 643 1. 00 29.10 C

ATOM 2077 CG2 ILE B 72 -36.328 -18.815 13. 167 1. 00 27.70 C

ATOM 2078 CG1 ILE B 72 -37.477 -20.995 13. 621 1. .00 27.23 C

ATOM 2079 CD1 ILE B 72 -36.312 -21.965 13. 586 1. 00 24.66 C

ATOM 2080 C ILE B 72 -39.713 -20.160 11. 928 1. .00 32.57 C

ATOM 2081 0 ILE B 72 -40.595 -20.611 12. 662 1. .00 32.26 0

ATOM 2082 N ASP B 73 -39.573 -20.518 10. 652 1., 00. 33.66 N

ATOM 2083 CA ASP B 73-40.371-21.587 10. 044 1., 00 34.55 C

ATOM 2084 CB ASP B 73 -40.763 -21.220 8.615 1. .00 36.41 C

ATOM 2085 CG ASP B 73-41.430 -19.868 8. 524 1. .00 41.18 C

ATOM 2086 0D1 ASP B 73 -40.792 -18.935 7. 983 1. .00 43.47 0

ATOM 2087 0D2 ASP B 73-42.586 -19.735 8. 992 1, .00 42.58 0

ATOM 2088 C ASP B 73 -39.591 -22.893 10. 016 1, .00 34.44 C

ATOM 2089 0 ASP B 73 -38.452 -22.936 9. 564 1. .00 34.49 0

ATOM 2090 N GLN B 74-40.213 -23.961 10. 494 1, .00 35.35 N

ATOM 2091 CA GLN B 74 -39.559 -25.260 10. 543 1, .00 37.08 C

ATOM 2092 CB GLN B 74 -39.352-25.692 11. 995 1, .00 36.29 C

ATOM 2093 CG GLN B 74 -38.288-24.889 12. 716 1, .00 38.14 C

ATOM 2094 CD GLN B 74 -36.887 -25.152 12. 174 1 .00 38.45 C

ATOM 2095 0E1 GLN B 74 -36.192 -26.054 12. 639 1, .00 36.35 0

ATOM 2096 NE2 GLN B 74-36.470 -24.360 11. 190 1 .00 36.24 N

ATOM 2097 C GLN B 74 -40.357 -26.324 9. 807 1 .00 38.72 C

ATOM 2098 0 GLN B 74 -41.580-26.223 9.666 1 .00 37.83 0

ATOM 2099 N ILE B 75 -39.650 -27.341 9. 328 1 .00 39.30 N 18

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SS.l.0 / Z, 00idf / X3d 0CZ.S0 / 600Z ΟΛ \ ATOM 2136 C LYS B 79 -41.943 -37.207 7.943 1.00 42.26 C

ATOM 2137 0 LYS B 79 -43.007 -37.277 7.319 1. 00 41.27 0

ATOM 2138 N ILE B 80 -40.748-37.268 7.358 1. 00 38.92 N

ATOM 2139 CA ILE B 80 -40.587 -37.630 5.952 1. 00 35.77 C

ATOM 2140 GB ILE B 80 -39.856 -36.517 5.170 1. 00 35.07 C

ATOM 2141 CG2 ILE B 80 -39.462 -37.012 3.784 1. 00 31.39 C

ATOM 2142 CG1 ILE B 80 -40.754 -35.280 5.085 1. 00 32.96 C

ATOM 2143 .CD1 ILE B 80 -40.093 -34.101 4.435 1. 00 31.60 C

ATOM 2144 C ILE B 80 -39.791 -38.924 5.831 1. 00 35.31 C

ATOM 2145 0 ILE B 80 -38.901 -39.196 6.634 1. 00 35.01 0

ATOM 2146 N THR B 81 -40.122-39.728 4.831 1. 00 35.04 N

ATOM 2147 'CA THR B 81 -39.444 -40.999 4.631 1.00 35.43 C

ATOM 2148 CB THR B 81 -40. 362 -42.181 4.987 1. 00 36.39 C

ATOM 2149 061 THR B 81 -40. 660 -42.146 6.388 1. 00 37.15 0

ATOM 2150 CG2 THR B 81 -39. 680 -43.509 4.649 1. 00 37.25 C

ATOM 2151 C THR B 81 -38. 997-41.154 3.187 1. 00 34.94 C

ATOM 2152 0 THR B 81 -39. 794 -40.998 2.264 1. 00 36.72 0

ATOM 2153 N VAL B 82 -37. 721 -41.458 2.988 1. 00 32.59 N

ATOM 2154 CA VAL B 82-37, 220 1.643 1. 00 31.87 C

ATOM 2155 CB VAL B 82 -35. 749 1.495 1., 00 32.26 C

ATOM 2156 CG1 VAL B 82 -34. 835 -42.093 2.351 1., 00 32.83 C

ATOM 2157 GG2 VAL B 82 -35. 327 0.038 1. .00 31.89 C

ATOM 2158 C VAL B 82 -37. 324 -43.187 ί.361 1. .00 30.55 C

ATOM 2159 0 VAL B 82 -37. 056 -44.012 2.231 1., 00 31.05 0

ATOM 2160 N VAL B 83 -37. 744 -43.533 0.149 1., 00 29.95 N

ATOM 2161 CA VAL B 83-38. 042 -44.921 -0.179 1. .00 28.85 C

ATOM 2162 CB VAL B 83 -39. 562 -45.137-0.330 1. .00 28.66 C

ATOM 2163 CG1 VAL B 83 -39. 854 -46.604 -0.596 1, .00 29.23 C

ATOM 2164 CG2 VAL B 83 -40. 279 -44.669 0.931 1. .00 26.26 C

ATOM 2165 G VAL B 83 -37. 356 -45.342-1 467 1, .00 28.53 C

ATOM 2166 0 VAL B 83-37. 971-45.357 -2.530 1. .00 29.31 0

ATOM 2167 N PRO B 84 -36. 060 -45.677 -1.386 1, .00 27.87 N

ATOM 2168 CD PRO B 84 -35. 217-45.566-0.179 1, .00 27.24 C

ATOM 2169 CA PRO B 84-35. 296-46.128 -2.550 1 .00 27.40 C

ATOM 2170 CB PRO B 84 -33. 848 -46.010 -2.091 1. .00 26.56 C

ATOM 2171 C6 PRO B 84 -33. 922 -46.187 -0.598 1 .00 24.20 C ATOM 2172 C PRO B 84 -35.659 -47.557-2.927 1.00 28.63 C

ATOM 2173 0 PRO B 84-35. 702 -48.433-2.066 1. 00 28.04 0

ATOM 2174 N ILE B 85 -35. 915 -47.785 -4.213 1. 00 28.16 N

ATOM 2175 CA ILE B 85-36. 172-49.127-4.721 1. 00 29.20 C

ATOM 2176 CB ILE B 85 -37. 136 -49.087 -5.926 1. 00 26.50 C

ATOM 2177 CG2 ILE B 85 1 37. 446 -50.495-6.387 1. 00 24.30 C

ATOM 2178 CG1 ILE B 85 -38. 423 -48.359 -5.542 1. 00 26.10 C

ATOM 2179 CD1 ILE B 85 -39. 458-48.277-6.663 1. 00 23.76 C

ATOM 2180 C ILE B 85-34, 867-49.788-5.169 1. 00 30.78 C

ATO 2181 0 ILE B 85 -34.191 -49.284-6.067 1.00 32.64 0

ATOM 2182 N LEU B 86 -34.523-50.917 -4.557 1. 00 31.25 N

ATOM 2183 CA LEU B 86 -33.280 -51.622-4.878 1.00 32.98 C

ATOM 2184 CB LEU B 86 -33.064 -52.780 -3.904 1.00 31.87 C

ATOM 2185 C6 LEU B 86-33. 065 -52. 411 -2. 424 1. 00 32.81 C

ATOM 2186 CD1 LEU B 86 -33. 080 -53. 672-1. 585 1. 00 33.47 C

ATOM 2187 CD2 LEU B 86 -31. 847 -51. 555-2. 105 1. 00 33.99 C

ATOM 2188 C LEU B 86-33. 291 -52. 167-6. 310 1. 00 32.82 C

ATOM 2189 0 LEU B 86-34. 334 -52. 598-6. 805 1. 00 33.61 0

ATOM 2190 N AR6 B 87 -32. 138 -52. 147 One 6. 975 1. 00 32.17 N

ATOM 2191 CA ARG B 87 -30. 909 -51. 611 -6. 409 1., 00 32.94 C

ATOM 2192 CB ARG B 87 -29. 693 -52. 310 -7. 013 1. 00 35.84 C

ATOM 2193 CG ARG B 87 -29. 576 -53. 779-6. 728 1., 00 37.57 C

ATOM 2194 CD ARG B 87 -28. 377-54. 328 -7. 476 1. .00 38.82 C

ATOM 2195 NE ARG B 87 -28. 570 -54. 226-8. 921 1., 00 40.11 N

ATOM 2196 CZ ARG B 87 -27. 584 -54. 223-9. 809 1. .00 38.52 C

ATOM 2197 NH1 ARG B 87-27, 861 -54. 130-11. 103 1. .00 38.86 N

ATOM 2198 NH2 ARG B 87-26. 323 -54. 307 -9. 401 1. .00 35.76.

ATOM 2199 C ARG B 87 -30. 758-50. 120 -6. 677 1., 00 31.44 C

ATOM 2200 0 ARG B 87 -30. 330 -49. 367 -5. 803 1, .00 27.87 0

ATOM 2201 N ALA B 88 -31. 083 -49. 711 -7. 900 1. .00 32.13 N

ATOM 2202 CA ALA B 88 -30. 635 -48. 423-8. 423 1, .00 34.02 C

ATOM 2203 CB ALA B 88 -31. 041 -48. 284-9. 887 1, .00 32.88 C

ATOM 2204 C ALA B 88 -31. 185 -47. 256 -7. 608 1, .00 34.92 C

ATOM 2205 0 ALA B 88 -30. 617 -46. 164 -7. 600 1, ∎ 00 36.11 0

ATOM 2206 N GLY B 89 -32., 289-47. 495 -6. 915 1 • 00 34.86 N

ATOM 2207 CA GLY B 89 -32. 825 -46. 480 One 6. 036 1, ■ 00 34.20 C ATOM 2208 C GLY B 89 -45.969 -5.051 1.00 34.35 C

ATOM 2209 0 GLY B 89 -31.858 -44.817 -4.619 1.00 34.61 0

ATOM 2210 N LEU B 90 -30.836 -46.811 -4.686 1. 00 32.93 N

ATOM 2211 CA LEU B 90 -29.848 -46.396 -3.700 1.00 33.98 C

ATOM 2212 GB LEU B 90 -28.895 -47.543 -3.366 1. 00 33.89 C

ATOM 2213 CG LEU B 90 -29.456 -48.676 -2.500 1. 00 38.13 C

ATOM 2214 CD1 LEU B 90-28.369 -49.713 -2.243 1. 00 35.99 C

ATOM 2215 CD2 LEU B 90 -29.977 -48.107-1.182 1.00 38.22 C

ATOM 2216 C LEU B 90 -29.053 -45.215 -4.233 1.00 33.19 C

ATOM 2217 0 LEU B 90 -28.549 -44.399 -3.468 1. 00 33.78 0

ATOM 2218 N GLY B 91 -28.959 -45.124 -5.554 1. 00 32.70 N

ATOM 2219 CA GLY B 91 -28.052 -44.174 -6.165 1. 00 30.85 C

ATOM 2220 C GLY B 91 -28.575 -42.754 -6.214 1. 00 30.06 C

ATOM 2221 0 GLY B 91-27.836-41.840-6.567 1. 00 28.02 0

ATOM 2222 N MET B 92 -29.847 -42.568 -5.872 1. 00 30.50 N

ATOM 2223 CA MET B 92 -30.443 -41.232 -5.811 1. 00 30.11 C

ATOM 2224 CB MET B 92 -41.224 -6.522 1. 00 29.68 C

ATOM 2225 C6 MET B 92 -31.723 -41283 -8.043 1.00 30.21 C

ATOM 2226 SD MET B 92 -33.331 -41.671-8.786 1. 00 32.25 S

ATOM 2227 CE MET B 92 -34.141-40.099-8.731 1.00 27.53 C

ATOM 2228 C MET B 92 -30.632 -40.787-4.362 1., 00 29.96 C

ATOM 2229 0 MET B 92 -30.938 -39.625 -4.085 1.00 30.83 0

ATOM 2230 N MET B 93 -30.443 -41.725 -3.444 1., 00 N

ATOM 2231 CA MET B 93 -30.871 -41.566 -2.061 1., 00 29.53 C

ATOM 2232 CB MET B 93-30.685 -42.898 -1.322 1., 00 30.89 C

ATOM 2233 CG MET B 93-42.897 0.123 1. .00 35.85 C

ATOM 2234 SD MET B 93-30.727 1 44.440 0.965 1. .00 40.52 S

ATOM 2235 CE MET B 93 -28.992 -44.194 1.329 1. .00 38.21 C

ATOM 2236 C MET B 93 -30.143 -40.438 -1.324 1, .00 27.91 C

ATOM 2237 0 MET B 93-30.764 -39.687 -0.566 1, .00 25.95 0

ATOM 2238 N ASP B 94-28.836 -40.313 -1.552 1, .00 26.43 N

ATOM 2239 CA ASP B 94-28.031 -39.325-0.842 1. .00 26.06 C

ATOM 2240 CB ASP B 94 -26.543 -39.619-1.013 1, .00 29.28 C

ATOM 2241 CG ASP B 94 -26.084 -40.797 -0.181 1, .00 31.80 C

ATOM 2242 0D1 ASP B 94 -24.878 -41.097-0.208 1 .00 29.44 0

ATOM 2243 0D2 ASP B 94 1 26.934 -41.422 0.496 1, .00 34.98 0 ATOM 2244 C ASP B 94 -28.308-37.907 -1.299 1.00 27.15 C

ATOM 2245 0 ASP B 94 -28.143 -36.959 -0.533 1.00 25.99 0

ATOM 2246 N GLY B 95 -28.717 -37.764 -2.554 1.00 27.15 N

ATOM 2247 CA GLY B 95 -29.149 -36.469 -3.035 1. 00 27.18 C

ATOM 2248 C GLY B 95 -30.391-35.998 -2.297 1.00 27.71 C

ATOM 2249 0 GLY B 95 -30.505-34.819 -1.949 1.00 28.24 0

ATOM 2250 N VAL B 96 -31.320 -36.912-2.049 1. 00 26.15 N

ATOM 2251 CA VAL B 96-32.546-36.562 -1.346 1. 00 27.52 C

ATOM 2252 CB VAL B 96 -33.578 -37.723 -1 ■ 387 1. 00 28.78 C

ATOM 2253 CG1 VAL B 96 -34.818 -37.339-0.594 1.00 28.01 C

ATOM 2254 CG2 VAL B 96 -33.955 -38.050-2.838 1. 00 26.56 C

ATOM 2255 C VAL B 96-32.255 -36.210 0.115 1. 00 28.93 C

ATOM 2256 0 VAL B 96 -32.806 -35.243 0.649 1. 00 27.00 0

ATOM 2257 N LEU B 97 -31.387 -36.994 0.752 1. 00 28.39 N

ATOM 2258 CA LEU B 97-31.044 -36.783 2.157 1. 00 28.92 C

ATOM 2259 CB LEU B 97-30.214 -37.956 2.672 1. 00 28.16 C

ATOM 2260 CG LEU B 97 -30.946 -39.301 2.756 1. 00 26.58 C

ATOM 2261 CD1 LEU B 97-29.966 -40.400 3.092 1., 00 27.22 C

ATOM 2262 CD2 LEU B 97-32.037-39.213 3.805 1.00 24.03 C

ATOM 2263 C LEU B 97 -30.269 -35.486 2.345 1. .00 30.57 C

ATOM 2264 0 LEU B 97 -30.215 -34.926 3.438 1., 00 31.81 0

ATOM 2265 N GLU B 98 -29.661 -35.016 1.266 1., 00 32.20 N

ATOM 2266 CA GLU B 98-28.976-33.729 ΐ.262 1., 00 33.72 C

ATOM 2267 CB GLU B 98-28.423 -33.467 -0.143 1. .00 35.29 C

ATOM 2268 CG GLU B 98 -27.842 -32.084 -0.382 1., 00 42.20 C

ATOM 2269 CD GLU B 98 -27.486 -31.853-1.853 1., 00 45.23 C

ATOM 2270 0E1 GLU B 98 -27.034-32.813 -2.522 1. .00 44.95 0

ATOM 2271 0E2 GLU B 98 -27.662 -30.714 -2.341 1. .00 46.80 0

ATOM 2272 C GLU B 98 -29.979 -32.646 1.658 1. .00 32.90 C

ATOM 2273 0 GLU B 98 -29.660 -31.713 2.396 1, .00 34.75 0

ATOM 2274 N ASN B 99-31.205 -32.795 1, .00 30.76 N

ATOM 2275 CA ASN B 99 -32.238 -31.799 1.380 1, .00 30.45 C

ATOM 2276 CB ASN B 99-33.178 -31.796 0.178 1, .00 31.49 C

ATOM 2277 CG ASN B 99 -32.521 -31.239 -1.065 1 • 00 30.01 C

ATOM 2278 0D1 ASN B 99-32.619-30.048 -1.343 1, .00 29.77 0

ATOM 2279 ND2 ASN B 99-32.099 One 1.816 1 .00 27.97 N

ZZZZOOOOZOOOZOOOOZO i OOZOO

ATOM 2316 C ARG B 104 -36.223 -42.445 6.379 1.00 36.20 C

ATOM 2317 0 ARG B 104 -36.734-42.021 5.345 1. 00 38.07 0

ATOM 2318 N ILE B 105 -35.422 -43.503 6.410 1. 00 34.19 N

ATOM 2319 CA ILE B 105 -35.128 -44.279 5.213 1. 00 33.32 C

ATOM 2320 CB ILE B 105-33.610 --44.448 5.019 1. 00 32.38 C

ATOM 2321 C62 ILE B 105 -33.333 -45.220 3.741 1. 00 29.30 C

ATOM 2322 C61 ILE B 105 -32.937 -43.071 4.996 1.00 34.36 C

ATOM 2323 CD1 ILE B 105 -31. 430 -43.111 4.798 1. 00 37.28 C

ATOM 2324 C ILE B 105 -35.765 -45.668 5.291 1. 00 33.87 C

ATOM 2325 0 ILE B 105 -35.480 -46.447 6.202 1. 00 33.23 0

ATOM 2326 N SER B 106 -36. 628 -45.977 4.334 1. 00 33. 88 N

ATOM 2327 CA SER B 106 -37. 229 -47.299 4.288 1. 00 34. 37 C

ATOM 2328 CB SER B 106 -38. 727 -47.217 4.549 1. 00 33. 19. C

ATOM 2329 06 SER B 106 -39. 107 -48.227 5.464 1. 00 36. 35 0

ATOM 2330 C SER B 106 1 36. 975-47.957 2.947 1. 00 34. 37 C

ATOM 2331 0 SER B 106 -37. 658-47.671 1.965 1. 00 34. 89 0

ATOM 2332 N VAL B 107 -35. 985 -48.841 2.924 1. 00 34. 08 N

ATOM 2333 CA VAL B 107 -35. 570 -49.515 1.709 1. 00 34. 16 C

ATOM 2334 CB VAL B 107 -34. 228-50.251 1.914 1. 00 34. 63 C

ATOM 2335 CG1 VAL B 107-33. 938-51.132 0.715 1. .00 36. 39 C

ATOM 2336 CG2 VAL B 107-33. 099 -49.244 2.105 1. 00 33. 41 C

ATOM 2337 C VAL B 107 -36. 618 -50.530 1., 00 35. 35 C

ATOM 2338 0 VAL B 107 -37. 096 -51.314 2.114 1., 00 37. 06 0

ATOM 2339 N VAL B 108 -36. 975 -50.512 0.019 1, .00 34. 80 N

ATOM 2340 CA VAL B 108 -37. 898 -51.496 -0.523 1. .00 35. 74 C

ATOM 2341 CB VAL B 108 -39. 151 -50.819-1.110 1., 00 35. 71 C

ATOM 2342 CG1 VAL B 108 -40. 016 -51.853-1.830 1. .00 34. 36 C

ATOM 2343 C62 VAL B 108 -39. 930 -50.132-0.001 1. .00 32. 50 C

ATOM 2344 C VAL B 108-37. 210 -52.288 -1.623 1. .00 35. 80 C

ATOM 2345 0 VAL B 108-36. 588 -51.704 -2.507 1, .00 33. 54 0

ATOM 2346 N GLY B 109 -37. 317 -53.615 -1.548 1. .00 37. 20 N

ATOM 2347 CA GLY B 109 -36. 848 -54.472 -2.622 1, .00 39. 68 C

ATOM 2348 C GLY B 109 -37. 991 1 55.075-3, 426 1, .00 42. 77 C

ATOM 2349 0 GLY B 109-39. 163 -54.899 -3.092 1, .00 43. 50 0

ATOM 2350 N MET B 110 -37. 656 -55.787 -4.496 1 .00 46. 26 N

ATOM 2351 CA MET B 110 1 38. 663 1 56.458 -5.319 1, .00 48. 53 C ATOM 2352 CB MET B 110 -38.717 -55.830-6.718 1.00 47.52 C

ATOM 2353 CG MET B 110 -39.297 -54.417 -6.754 1. 00 49.74 C

ATOM 2354 SD MET B 110-41.111 -54.367 -6. 694 1. 00 52.87 S

ATOM 2355 CE MET B 110-41.393-53.046 -5. 538 1. 00 52.13 C

ATOM 2356 C MET B 110 -38.333-57.941-5. 435 1. 00 50.21 C

ATOM 2357 0 MET B 110 -37.182-58.308 -5. 660 1. 00 49.82 0

ATOM 2358 N TYR B 111-39.345-58.788-5. 277 1. 00 53.84 N

ATOM 2359 CA TYR B 111 -39.160 -60.237-5. 373 1. 00 57.42 C

ATOM 2360 CB TYR B 111 -40.242 -60.967 -4. 581 1. 00 59.24 C

ATOM 2361 CG TYR B 111 -39.787 -61.431-3. 225 1 00 62.82 C

ATOM 2362 CD1 TYR B 111 -40.429 -61.001 -2. 070 1 00 65.47 C

ATOM 2363 'CE1 TYR B 111 -40.011 -61.426 -0. 818 1. 00 66.49 C

ATOM 2364 CD2 TYR B 111 -38.712 -62.300-3.095 1.00 64.04 .C

ATOM 2365 CE2 TYR B 111 -38.287 -62.729-1. 852 1 00 66.35 C

ATOM 2366 CZ TYR B 111-38.940 -62.288 -0. 717 1 00 67.16 C

ATOM 2367 OH TYR B 111 -38.519-62.709 0. 523 1 00 69.48 0

ATOM 2368 C TYR B 111 -39.204-60.714-6. 815 1 00 58.67 C

ATOM 2369 0 TYR B 111 -40.273 -60.774 -7. 421 1 00 59.16 0

ATOM 2370 N ARG B 112 -38.042 -61.063 -7. 356 1 00 60.09 N

ATOM 2371 CA ARG B 112 -37.946 -61.468-8. 752 1 00 61.44 C

ATOM 2372 CB ARG B 112 -37.462 -60.297-9. 607 1 00 63.06 C

ATOM 2373 CG ARG B 112 -38.154-58.978 -9. 307 1 00 63.86 C

ATOM 2374 CD ARG B 112 -38.093 -58.047 -10.502 1 00 66.23 C

ATOM 2375 NE ARG B 112 -39.145 -58.350 -11. 467 1 00 68.13 N

ATOM 2376 CZ ARG B 112 -40.125 -57.513 -11. 792 1 00 69.74 C

ATOM 2377 NH1 ARG B 112 -40.191 -56.311 -11. 232 1 00 69.24 N

ATOM 2378 NH2 ARG B 112 -41.048 -57.881 -12. 672 1 00 71.84 N

ATOM 2379 C ARG B 112 -36.989 -62.644 -8. 912 1 00 61.92 C

ATOM 2380 0 ARG B 112 -37.417 -63.787 -9 062 1 00 61.80 0

ATOM 2381 N LEU B 117 -42.813 -64.168 -12 549 1 00 73.06 N

ATOM 2382 CA LEU B 117 -44.112 -63.534 -12 744 1 00 73.39 C

ATOM 2383 CB LEU B 117 -45.136-64.091 -11 746 1 00 73.45 C

ATOM 2384 CG LEU B 117 -45.454-65.586-11 793 1 00 73.49 G

ATOM 2385 CD1 LEU B 117 -45.712-65.997 -13 233 1 00 73.49 C

ATOM 2386 CD2 LEU B 117 -44.303-66.386-11 204 1 00 73.35 C

ATOM 2387 C LEU B 117 -44.014 1 62.020 -12 566 1 • 00 73.85 C ATOM 2388 0 LEU B 117 -43.195 -61.356-13.207 1.00 73.31 0

ATOM 2389 N GLU B 118 -44.865 -61. 489-11.689 1. 00 73.88 Ν

ATOM 2390 CA GLU B 118 -44.852 -60.073 1. 00 73.26 C

ATOM 2391 CB GLU B 118 -46.285 -59.546-11.224 1. 00 74.47 C

ATOM 2392 CG GLU B 118 -47.110 -60.230 -10.143 1. 00 76.52 C

ATOM 2393 CD GLU B 118-48.513 -59.661 -10.028 1. 00 78.16 C

ATOM 2394 0E1 GLU B 118 -49.137 -59.822 -8.955 1. 00 78.21 0

ATOM 2395 0E2 GLU B 118 -48.991 One 59.053 -11.012 1.00 78.44 0

ATOM 2396 C GLU B 118 -44.133 -59.885 -10.003 1. 00 72.25 C

ATOM 2397 0 GLU B 118 -44.065 -60.808 -9.186 1.00 71.89 0

ATOM 2398 N PRO B 119 -43.591-58. 679 -9.766 1. 00 70.74 Ν

ATOM 2399 CD PRO B 119-43.741 -57. 501 -10.641 1. 00 70.53 C

ATOM 2400 CA PRO B 119 -42. 788-58. 379 -8.573 1. 00 68.35 C

ATOM 2401 CB PRO B 119 -42. 219 -56. 993 -8.863 1. 00 69.21 C

ATOM 2402 CG PRO B 119-43. 216 -56. 370 -9.796 1. 00 70.61 C

ATOM 2403 C PRO B 119 -43. 596 -58. 397 -7.280 1. 00 66.24 C

ATOM 2404 0 PRO B 119-44. 761 -58. 006 -7.260 1., 00 66.27 0

ATOM 2405 N VAL B 120-42. 971 -58. 856 -6.203 1. .00 63.75 Ν

ATOM 2406 CA VAL B 120-43. 549 -58. 715 -4.873 1. 00. 61.73 C

ATOM 2407 CB VAL B 120 -43. 581 -60. 064 -4.125 1., 00 62.54 C

ATOM 2408 CG1 VAL B 120 -44. 231 -59. 885-2.764 1., 00 62.94 C

ATOM 2409 CG2 VAL B 120-44. 337 -61. 095 -4.941 1., 00 63.22 C

ATOM 2410 C VAL B 120 -42. 715 -57.732 -4.059 1., 00 59.75 C

ATOM 2411 0 VAL B 120-41. 577 -58. 026 -3.694 1. .00 60.05 0

ATOM 2412 N PRO B 121 -43. 272 -56. 546 -3.769 1. .00 58.03 Ν

ATOM 2413 CD PRO B 121 -44. 600 -56. 083 -4.212 1. .00 57.46 C

ATOM 2414 CA PRO B 121 -42. 572 -55. 522-2.983 1. .00 55.18 C

ATOM 2415 CB PRO B 121 -43. 412 -54. 267 -3.208 1, .00 55.73 C

ATOM 2416 CG PRO B 121 -44. 784 -54. 786 -3.465 1, .00 56.34 C

ATOM 2417 C PRO B 121-42. 477 -55. 892 -1.502 1, .00 52.30 C

ATOM 2418 0 PRO B 121 -43. 478-56. 235-0.878 1, .00 52.05 0

ATOM 2419 N TYR B 122 -41. 272 -55. 817 -0.947 1, .00 49.60 Ν

ATOM 2420 CA TYR B 122 -41. 060 -56. 107 0.467 1, .00 46.75 C

ATOM 2421 CB TYR B 122 -40. 376 -57. 467 0.626 1 .00 45.14 C

ATOM 2422 CG TYR B 122-39. 012 -57. 561-0.030 1 .00 45.87 C

ATOM 2423 CD1 TYR B 122 -38. 880 1 57. 952 -1.358 1, ■ 00 44.82 C ATOM 2424 CE1 TYR B 122 -37.636 -58.050 -1.956 1.00 43.77 C

ATOM 2425 CD2 TYR B 122-37.855 -57.268 0.682 1. 00 44.75 G

ATOM 2426 CE2 TYR B 122-36.608 -57.362 0.093 1. 00 44.58 C

ATOM 2427 CZ TYR B 122 -36.503 -57.754 -1 227 1. 00 44.76 C

ATOM 2428 OH TYR B 122-35.256 -57.855 -1.815 1.00 43.18 0

ATOM 2429 C TYR B 122 -40.217 -55.032 1.150 1. 00 45.89 C

ATOM 2430 0 TYR B 122-39.174 -54.624 0.631 1. 00 45.04 0

ATOM 2431 N PHE B 123 -40.672 -54.577 2.314 1. 00 44.81 N

ATOM 2432 CA PHE B 123 -39.859 -53.714 3.165 1. 00 44.33 C

ATOM 2433 CB PHE B 123 -40.638 -53.269 4.401 1.00 43.77 C

ATOM 2434 CG PHE B 123 -41.698 -52.247 4.125 1. 00 42.55 C

ATOM 2435 'CD1 PHE B 123-43.041 -52.563 4.282 1. 00 41.59 C

ATOM 2436 CD2 PHE B 123 -41.356 -50.962 3.740 1.00 40.87 C

ATOM 2437 CE1 PHE B 123 -44.019-51.611 4.062 1.00 41.02 C

ATOM 2438 CE2 PHE B 123 -42.331 -50.007 3.518 1. 00 39.38 G

ATOM 2439 CZ PHE B 123 -43.660-50.329 3.678 1. 00 39.68 C

ATOM 2440 C PHE B 123-38.656 -54.504 3.633 1. 00 45.26 C

ATOM 2441 0 PHE B 123-38.807 -55.617 4.123 1.00 47.52 0

ATOM 2442 N GLN B 124 -37.466 -53.932 3.501 1. 00 46.37 N

ATOM 2443 CA GLN B 124 -36.272 -54.575 4.033 1. 00 47.75 C

ATOM 2444 CB GLN B 124 -35.033 -53.718 3.760 1., 00 48.66 C

ATOM 2445 CG GLN B 124-33.724 -54.395 4.127 1. 00 48.19 C

ATOM 2446 CD GLN B 124 -33.421-55.570 3.224 1., 00 48.64 C

ATOM 2447 0E1 GLN B 124 -32.723 -56.504 3.610 1., 00 48.96 0

ATOM 2448 NE2 GLN B 124 -33.947 -55.527 2.008 1., 00 50.02 N

ATOM 2449 C GLN B 124 -36.448 -54.764 5.535 1. .00 48.81 C

ATOM 2450 0 GLN B 124 -36.041 -55.777 6.096 1., 00 49.55 0

ATOM 2451 N LYS B 125-37, 058 -53.775 6.178 1. .00 50.41 N

ATOM 2452 CA LYS B 125 -37.452-53.893 7.575 1. .00 53.10 C

ATOM 2453 CB LYS B 125 -36.347 -53.344 8.484 1, .00 54.08 C

ATOM 2454 CG LYS B 125 -36.600 -51.941 9.005 1, .00 57.49 C

ATOM 2455 CD LYS B 125-37.147 -51.977 10.423 1, .00 59.28 C

ATOM 2456 CE LYS B 125 -36.212 -52.742 11.351 1 .00 61.26 C

ATOM 2457 NZ LYS B 125-36.651-52.674 12.774 1, .00 62.80 N

ATOM 2458 C LYS B 125 -38.758 -53.127 7.792 1 .00 53.75 C

ATOM 2459 0 LYS B 125 -39.133 -52.292 6.975 1 .00 52.91 0 ATOM 2460 N LEU B 126 -39.442 -53.419 8.894 1.00 57.04 N

ATOM 2461 CA LEU B 126-40.819-52, 973 9.109 1. 00 59. 07 C

ATOM 2462 CB LEU B 126 —41. 375 -53. 586 10.405 1. 00 59. 89 C

ATOM 2463 CG LEU B 126 -40.708 -53. 414 11. 782 1. 00 59. 44 C

ATOM 2464 CD1 LEU B 126 -39.367-54. 129 11. 805 1. 00 57. 68 C

ATOM 2465 CD2 LEU B 126 -40.556 -51. 939 12.122 1. 00 59. 22 C

ATOM 2466 C LEU B 126 -41. 025-51. 458 9.129 1. 00 60. 76 C

ATOM 2467 0 LEU B 126-40.109-50. 686 9.424 1. 00 64.06 0

ATOM 2468 N ILE B 130 -47. 401 -44. 200 9. 112 1. 00 70. 87 N

ATOM 2469 CA ILE B 130 -48. 728-43. 662 9. 399 1. 00 72. 57 C

ATOM 2470 CB ILE B 130 -49. 502 1 44. 568 10. 399 1. 00 72. 88 C

ATOM 2471 CG2 ILE B 130 -48. 696 1 44. 764 11. 672 1. 00 73. 46 C

ATOM 2472 CG1 ILE B 130 -50. 861 -43. 948 10. 724 1. 00 73. 13 ― C

ATOM 2473 CD1 ILE B 130-51. 685 -44. 770 11. 696 1. 00 73. 08 C

ATOM 2474 C ILE B 130 -48. 668 -42. 238 9. 955 1. 00 72. 40 C

ATOM 2475 0 ILE B 130 -49. 336 -41. 338 9. 445 1. 00 72. 82 0

ATOM 2476 N ASP B 131 -47. 868-42. 035 10. 998 1. 00 72. 22 N

ATOM 2477 CA ASP B 131 -47. 601-40. 690 11. 502 1. 00 71. 60 C

ATOM 2478 CB ASP B 131 -46. 905 -40. 763 12. 861 1. 00. 73. 63 C

ATOM 2479 CG ASP B 131 -45. 654 -41. 620 12. 826 1. 00 75. 80 C

ATOM 2480 0D1 ASP B 131 1 44. 647 -41. 233 13. 458 1. 00 77. 30 0

ATOM 2481 0D2 ASP B 131 -45. 678 -42. 682 12. 165 1. 00 77. 06 0

ATOM 2482 C ASP B 131 -46. 707-39. 965 10. 503 1. 00 70. 22 C

ATOM 2483 0 ASP B 131 -46. 556 -38. 741 10. 550 1., 00 70. 54 0

ATOM 2484 N GLU B 132 -46. 115-40. 746 9. 602 1., 00 66. 98 N

ATOM 2485 CA GLU B 132 -45. 332 -40. 231 8. 486 1. 00 62. 77 C

ATOM 2486 CB GLU B 132 -44. 953 -41. 392 7. 561 1. 00 59. 87 C

ATOM 2487 CG GLU B 132 -44. 465 -40. 994 6. 180 1., 00 57. 42 C

ATOM 2488 CD GLU B 132 1 44. 361 -42. 184 5. 239 1., 00 55. 62 C

ATOM 2489 0E1 GLU B 132 -45. 169 -42. 271 4. 288 1., 00 54. 56 0

ATOM 2490 0E2 GLU B 132 -43. 473 -43. 033 5. 451 1. .00 53. 47 0

ATOM 2491 C GLU B 132 -46. 126 -39. 179 7. 716 1., 00 61. 53 C

ATOM 2492 0 GLU B 132 -47. 278 -39. 402 7. 356 1., 00 62. 53 0

ATOM 2493 N ARG B 133 -45. 511 -38. 029 7. 470 1. .00 60. 43 N

ATOM 2494 CA ARG B 133 -46. 192 -36. 952 6. 766 1. .00 59. 77 C

ATOM 2495 CB ARG B 133 -45. 635 1 35. 594 7. 202 1. .00 61. 40 C ATOM 2496 CG ARG B 133 -46.341 -34.406 6.557 1.00 65.29 C

ATOM 2497 CD ARG B 133 -45. 443 -33. 174 6. 490 1. 00 68. 49 C

ATOM 2498 NE ARG B 133 -45. 289 -32. 529 7. 793 1. 00 71. 01 N

ATOM 2499 CZ ARG B 133 1 44. 420 -31. 555 8. 049 1. 00 71. 63 C

ATOM 2500 NH1 ARG B 133 -43. 620 -31. 108 7. 089 1. 00 71. 15 N

ATOM 2501 NH2 ARG B 133 -44. 351 -31. 031 9. 266 1. 00 71. 39 N

ATOM 2502 C ARG B 133-46. 059 -37. 102 5. 248 1. 00 57. 92 C

ATOM 2503 0 ARG B 133 -46. 905 -36. 616 4. 491 1. 00 58. 36 0

ATOM 2504 N MET B 134 -45. 000 -37. 773 4. 805 1. 00 53. 71 N

ATOM 2505 CA MET B 134 -44. 758 -37. 950 3. 377 1. 00 49. 10 C

ATOM 2506 CB MET B 134 -44. 330-36. 624 2. 747 1. 00 50. 32 C

ATOM 2507 CG MET B 134-43. 987-36. 719 1. 272 1. 00 51. 15 C

ATOM 2508 SD MET B 134 -43. 387 -35. 154 0. 623 1. 00 54. 92 S

ATOM 2509 CE MET B 134 -44. 776 -34. 086 0. 975 1. 00 55. 01 C

ATOM 2510 C MET B 134 -43. 706 -39. 012 3. 082 1. 00 46. 57 C

ATOM 2511 0 MET B 134 -42. 733 -39. 177 3. 818 1. 00 45. 15 0

ATOM 2512 N ALA B 135 -43. 917 -39. 738 1. 993 1. 00 44. 38 N

ATOM 2513 CA ALA B 135 -42. 929 -40. 690 1. 512 1. 00 40. 96 C

ATOM 2514 CB ALA B 135 -43. 543 -42. 085 1. 443 1. 00 40. 18 C

ATOM 2515 C ALA B 135 -42. 435 -40. 261 0. 133 1. 00 38. 54 C

ATOM 2516 0 ALA B 135-43. 230 -39. 930 -0. 747 1. 00 36. 00 0

ATOM 2517 N LEU B 136 -41. 117-40. 258 -0. 037 1. 00 36. 64 N

ATOM 2518 CA LEU B 136 -40. 503 -40. 033 -r. 335 1. 00 34. 81 C

ATOM 2519 CB LEU B 136 -39. 441-38. 933-1. 247 1. 00 36. 45 C

ATOM 2520 CG LEU B 136-39. 851 -37. 456 -1. 291 1. 00 37. 42 C

ATOM 2521 CD1 LEU B 136-40. 826 -37. 145-0. 170 1., 00 38. 59 C

ATOM 2522 CD2 LEU B 136-38. 605 -36. 586 -1. 167 1., 00 35. 58 C

ATOM 2523 C LEU B 136 -39. 846 -41. 325 -1. 806 1. 00 33. 98 C

ATOM 2524 0 LEU B 136 -38. 806 -41. 725-1. 290 1. 00 34. 24 0

ATOM 2525 N ILE B 137 -40. 455 -41. 980-2. 783 1., 00 31. 92 N

ATOM 2526 CA ILE B 137-39. 832 -43. 133 -3. 400 1., 00 31. 29 C

ATOM 2527 CB ILE B 137 -40. 889 -44. 129 -3. 904 1. 00 33. 59 C

ATOM 2528 CG2 ILE B 137 -42. 239 -43. 472-3. 937 1., 00 34. 15 C

ATOM 2529 CG1 ILE B 137 -40. 472 -44. 686 -5. 262 1., 00 32. 49 C

ATOM 2530 CD1 ILE B 137 -41. 572 -45. 410 -5. 977 1. 00 38. 85 C

ATOM 2531 C ILE B 137 -38. 943 -42. 689 -4. 551 1. 00 29. 71 C ATOM 2532 0 I LE B 137 -39. 289 -41. 782-5. 308 1. 00 30. 57 0

ATOM 2533 N VAL B 138 -37. 775 -43. 308 -4.655 1 .00 27. 97 N

ATOM 2534 CA VAL B 138 -36. 822 -42. 937-5. 687 1. 00 27. 35 C

ATOM 2535 CB VAL B 138 -35. 598 -42. 196 -5. 078 1. 00 27. 61 C

ATOM 2536 CG1 VAL B 138 -36. 063 -40. 902 -4. 399 1. 00 28. 30 C

ATOM 2537 CG2 VAL B 138-34. 890 -43. 079 -4. 067 1. 00 26. 90 C

ATOM 2538 C VAL B 138 -36. 359 -44. 161 -6. 462 1. 00 27. 69 C

ATOM 2539 0 VAL B 138 -36. 015-45. 186-5. 878 1. 00 27. 45 0

ATOM 2540 N ASP B 139 -36. 367 -44. 038-7. 785 1. 00 28. 37 N

ATOM 2541 CA ASP B 139 -35. 974 -45. 108-8. 697 1.00 00.70 C

ATOM 2542 CB ASP B 139 -37. 145 -46. 076 -8. 898 1. 00 30. 23 C

ATOM 2543 CG ASP B 139 -36. 703 -47. 460-9. 338 1. 00 31 .25 C

ATOM 2544 0D1 ASP B 139 -35. 504 -47. 784 -9. 209 1 .00 34. 28 0

ATOM 2545 0D2 ASP B 139-37. 565 -48. 232-9. 810 1. 00 32. 48 0

ATOM 2546 C ASP B 139 -35. 650 -44. 400 -10. 011 1. 00 30. 00 C

ATOM 2547 0 ASP B 139 -36. 452 -43. 606 -10. 506 1. 00 28. 15 0

ATOM 2548 N PRO B 140 -34. 465 -44. 664 -10. 585 1. 00 29. 89 N

ATOM 2549 CD PRO B 140-33. 429 -45. 569-10. 064 1. 00 29. 98 C

ATOM. 2550 CA PRO B 140 -33. 983 -43. 892 -1 1. 738 1. 00 30. 27 C

ATOM 2551 CB PRO B 140 -32. 602 -44. 486 -12. 015 1 .00 30. 85 C

ATOM 2552 CG PRO B 140 -32. 174 -45. 042 -10. 701 1. 00 29. 97 C

ATOM 2553 C PRO B 140 -34. 879 -43. 930-12. 977 1., 00 31 .19 C

ATOM 2554 0 PRO B 140 -35. 003 -42. 930 -13. 688 1. 00 30. 88 0

ATOM 2555 -N MET B 141-35. 502 -45. 074 -13. 240 1. 00 31. 42 N

ATOM 2556 CA MET B 141 -36. 238 -45. 249 -14. 488 1.. 00 32. 43 C

ATOM 2557 CB MET B 141 -35. 508 -46. 238 -15. 395 1. 00 34. 66 C

ATOM 2558 CG MET B 141 -34. 049 -45. 915 -15. 615 1., 00 36. 71 'C

ATOM 2559 SD MET B 141 -33. 265 -47. 139-16. 653 1., 00 43. 43 S

ATOM 2560 CE MET B 141 -33. 688 -48. 651 -15. 762 1., 00 39. 34 C

ATOM 2561 C MET B 141 -37. 657 -45. 743 -14. 266 1., 00 32. 89 G

ATOM 2562 0 MET B 141 -37. 878 -46. 761-13. 609 1., 00 32. 77 0

ATOM 2563 N LEU B 142 -38. 617 -45. 016 -14. 827 1.. 00 33. 05 N

ATOM 2564 CA LEU B 142 -39. 999 -45. 467 -14. 873 1., 00 31 .54 C

ATOM 2565 CB LEU B 142 -40. 936-44. 310 -14. 530 1.. 00 30. 61 C

ATOM 2566 CG LEU B 142-42. 389 —44. 667 -14. 222 1., 00 30. 06 C

ATOM 2567 CD1 LEU B 142 1 42. 493 -45. 064 -12. 772 1., 00 29. 44 C ATOM 2568 CD2 LEU B 142 -43.299-43.479 -14.502 1.00 30.45 C

ATOM 2569 C LEU B 142 -40.288 -45.964 -16. 291 1. 00 31. 52 C

ATOM 2570 0 LEU B 142-40.630-45.174 -17. 177 1. 00 32.12 0

ATOM 2571 N ALA B 143 -40.146 -47. 267 -16. 505 1. 00 30.78 N

ATOM 2572 CA ALA B 143 -40.347-47. 836 -17. 831 1. 00 33.20 C

ATOM 2573 CB ALA B 143 -39.432 -49. 041 -18. 025 1. 00 32.10 C

ATOM 2574 C ALA B 143 -41. 811 -48. 235 -18. 024 1. 00 34.76 C

ATOM 2575 0 ALA B 143-42.569-47. 528 -18. 685 1. 00 35.78 0

ATOM 2576 N THR B 144 -42.209 -49. 359 -17. 434 1. 00 36.69 N

ATOM 2577 CA THR B 144-43. 609 -49. 773 -17. 447 1. 00 38.00 C

ATOM 2578 CB THR B 144-43. 746 -51. 305 -17. 447 1. 00 39. 26 C

ATOM 2579 061 THR B 144 -43. 054 -51. 839 -16. 315 1. 00 41. 81 0

ATOM 2580 CG2 THR B 144 -43. 162 -51. 902-18. 721 1. 00 39. 32.

ATOM 2581 C THR B 144 -44. 313 -49. 238 -16. 214 1. 00 38. 48 C

ATOM 2582 0 THR B 144 -45. 526 1 49. 033 -16. 218 1. 00 39. 62 0

ATOM 2583 N GLY B 145 -43. 544 1 49. 014 -15. 155 1. 00 39. 36 N

ATOM 2584 CA GLY B 145 -44. 110 -48. 480 -13. 931 1. 00 38. 58 C

ATOM 2585 C GLY B 145 -44. 474 -49. 566 -12. 940 1. 00 38. 26 C

ATOM 2586 0 GLY B 145 -45. 102 -49. 301 -11. 921 1. 00 37. 88 0

ATOM 2587 N GLY B 146 -44. 070 -50. 794 -13. 240 1. 00 38. 60 N

ATOM 2588 CA GLY B 146 -44. 402 -51. 910 -12. 376 1. 00 38. 58 C

ATOM 2589 C GLY B 146 -43. 873 -51. 746 -10. 969 1. 00 38. 23 C

ATOM 2590 0 GLY B 146 -44. 630 -51. 772 -10.009 1. 00 39. 98 0

ATOM 2591 N SER B 147-42. 564 -51. 573 -10. 847 1., 00 40. 40 N

ATOM 2592 CA SER B 147-41. 926 -51. 420 -9. 545 1. .00 39. 49 C

ATOM 2593 CB SER B 147 -40. 434-51. 160 -9. 725 1. .00 39. 92 C

ATOM 2594 06 SER B 147 -39. 864-52. 106 -10. 605 1., 00 43. 98 0

ATOM 2595 C SER B 147-42. 540 -50. 274 -8. 747 1., 00 39. 09 C

ATOM 2596 0 SER B 147 -42. 827 -50. 422 -7. 559 1., 00 39. 36 0

ATOM 2597 N VAL B 148 -42. 742 -49. 133 -9. 397 1., 00 37. 83 N

ATOM 2598 CA VAL B 148 -43. 230 -47. 951 -8. 692 1. .00 36. 73 C

ATOM 2599 CB VAL B 148-43. 264 -46. 703 -9. 622 1. .00 37. 02 C

ATOM 2600 CG1 VAL B 148 -44. 254 -46. 915 -10. 748 1. .00 39. 45 C

ATOM 2601 GG2 VAL B 148 -43. 644-45. 471 -8. 831 1. .00 37. 05 C

ATOM 2602 C VAL B 148 -44. 626 -48. 212-8. 149 1. .00 35. 22 C

ATOM 2603 0 VAL B 148 -44. 926 one 47.902 one 6. 993 1, .00 34. 22 0 ATOM 2604 N ILE B 149 -45.475 -48.801-8.982 1.00 34.77 N

ATOM 2605 CA ILE B 149 -46.869 -49.020 -8.611 1. 00 36.00 C

ATOM 2606 CB ILE B 149 -47.686 -49.566 -9.814 1. 00 35.79 C

ATOM 2607 CG2 ILE B 149 -49.086-49.938 -9.376 1. 00 36.33 C

ATOM 2608 CG1 ILE B 149 -47.742 -48.502-10.916 1. 00 35.31 C

ATOM 2609 CD1 ILE B 149 -48.451-48.946 -12.174 1.00 34.66 C

ATOM 2610 C ILE B 149-46.992 -49.975 -7.427 1. 00 34.41 C

ATOM 2611 0 ILE B 149-47.761 -49.730-6.499 1. 00 33.92 0

ATOM 2612 N ALA B 150-46.213-51. 047 -7, 446 1. 00 34.17 N

ATOM 2613 CA ALA B 150 -46.280 -52.038 -6.387 1. 00 35.05 C

ATOM 2614 CB ALA B 150 -45.500-53.273-6.791 1. 00 35. 14 C

ATOM 2615, C ALA B 150-45.752 -51.490 -5.061 1.00 36.06 C

ATOM 2616 0 ALA B 150 -46.267 -51. 828-3.993 1. 00 37. 15 0

ATOM 2617 N THR B 151-44.723 -50. 649-5.132 1. 00 35. 00 N

ATOM 2618 CA THR B 151 -44.159 -50. 029 -3.938 1. 00 32. 95 C

ATOM 2619 CB THR B 151 -42.867-49. 247 -4.267 1. 00 31. 48 G

ATOM 2620 0G1 THR B 151-41.920 -50. 124 -4.887 1., 00 28. 33 0

ATOM 2621 CG2 THR B 151 -42.256 -48. 672 -3.000 1., 00 32. 45 C

ATOM 2622 C THR B 151 -45.178-49. 065 -3.340 1. .00 33. 42 C

ATOM 2623 0 THR B 151 -45.296 -48. 946 -2.126 1., 00 33. 61 0

ATOM 2624 N ILE B 152-45.921-48. 382 -4.203 1., 00 34. 63

 ATOM 2625 CA ILE B 152 -46.988 -47. 498 -3.748 1. .00 34. 29 C

ATOM 2626 CB ILE B 152 -47.614 -46. 733 -4.935 1. .00 33. 44 C

ATOM 2627 C62 ILE B 152 -48.819 -45. 921-4.475 1. .00 30. 41 C

ATOM 2628 CG1 ILE B 152 -46.563 -45. 811-5.558 1. .00 30. 09 C

ATOM 2629 CD1 ILE B 152-47.023 -45. 154 -6.832 1, .00 33. 63 C

ATOM 2630 C ILE B 152 -48.061 -48. 316-3.040 1, .00 36. 62 C

ATOM 2631 0 ILE B 152 -48.560 -47. 918 -1.985 1, .00 37. 49 0

ATOM 2632 N ASP B 153 -48.398 -49. 470 -3.610 1, .00 37. 08 N

ATOM 2633 CA ASP B 153 -49.319 -50. 393-2.957 1 .00 37. 64 C

ATOM 2634 CB ASP B 153 -49.481 -51. 678 -3.787 1, .00 37. 48 C

ATOM 2635 C6 ASP B 153 -50.224 -51. 453-5.102 1, .00 38. 86 C

ATOM 2636 0D1 ASP B 153 -51 050 -50. 518-5.197 1 .00 39. 46 0

ATOM 263F 0D2 ASP B 153 -49.981 -52. 229 -6.050 1 .00 40. 55 0

ATOM 2638 C ASP B 153 -48.792-50. 751 -1.563 1 • 00 37. 97 C

ATOM 2639 0 ASP B 153 -49.507 -50. 634 1 0.574 1 .00 39. 02 0 ATOM 2640 N LEU B 154 -47.539 -51.183 -1.488 1.00 38.46 N

ATOM 2641 CA LEU B 154 -46.949 -51. 580 -0.212 1. 00 38.58 C

ATOM 2642 CB LEU B 154 -45.501 -52.024 -0.419 1.00 37.96 C

ATOM 2643 CG LEU B 154 -44.778 -52.490 0.845 1. 00 38.56 C

ATOM 2644 CD1 LEU B 154 -45.235-53.900 1. 190 1.00 38.92 C

ATOM 2645 CD2 LEU B 154 -43.274-52.449 0.631 1. 00 37.15 C

ATOM 2646 C LEU B 154 -46.994 -50.440 0.809 1. 00 38.40 C

ATOM 2647 0 LEU B 154 1 47.463 -50.617 1. 933 1. 00 39.11 0

ATOM 2648 N LEU B 155 -46.516 -49.267 0. 414 1. 00 38.83 N

ATOM 2649 CA LEU B 155 -46.505-48.121 1. 312 1. 00 39.36 C

ATOM 2650 CB LEU B 155-45.909 -46.898 0. 603 1. 00 38.25 C

ATOM 2651, C6 LEU B 155 -44. 407 -46. 933 0. 292 1. 00 36. 03 C

ATOM 2652 CD1 LEU B 155 -43. 966 -45. 611 -0. 332 1. 00 33. 99 C

ATOM 2653 CD2 LEU B 155 -43. 637 -47. 201 1. 571 1. 00 34. 60 C

ATOM 2654 C LEU B 155 -47. 915 -47. 805 1. 808 1. 00 41. 52 C

ATOM 2655 0 LEU B 155 --48. 113 -47. 475 2. 978 1. 00 41. 38 0

ATOM 2656 N LYS B 156 -48. 897 -47. 924 0. 920 1., 00 43. 49 N

ATOM 2657 CA LYS B 156 -50. 277 -47. 597 1. 262 1. 00 46. 03 C

ATOM 2658 CB LYS B 156 -51. 132 -47. 543-0. 009 1. .00 44. 69 C

ATOM 2659 CG LYS B 156 -50. 872 -46. 307 -0. 856 1., 00 45. 53 C

ATOM 2660 CD LYS B 156 -51. 903-46. 128 -1. 962 1., 00 45. 73 C

ATOM 2661 CE LYS B 156 -51. 723 —44. 781-2. 649 1., 00 45. 94 C

ATOM 2662 NZ LYS B 156 -52. 682 -44. 568-3. 767 1., 00 48. 41 N

ATOM 2663 C LYS B 156 -50. 895-48. 567 2. 274 1. .00 46. 62 C

ATOM 2664 0 LYS B 156 -51. 561 -48. 148 3. 219 1., 00 46. 65 0

ATOM 2665 N LYS B 157 -50. 673-49. 860 2. 085 1. .00 48. 60 N

ATOM 2666 CA LYS B 157 -51. 166 -50. 837 3. 044 1. .00 50. 61 C

ATOM 2667 CB LYS B 157 -50. 803 -52. 254 2. 593 1., 00 53. 32 C

ATOM 2668 CG LYS B 157 -51. 448-52. 676 1. 277 1, .00 56. 73 C

ATOM 2669 CD LYS B 157 -50. 800 -53. 940 0. 709 1. .00 57. 56 C

ATOM 2670 CE LYS B 157 -51. 143 -54. 123 -0. 769 1. .00 58. 91 C

ATOM 2671 NZ LYS B 157-50. 334 -55. 203 -1. 413 1. .00 59. 58 N

ATOM 2672 C LYS B 157 -50. 546 -50. 549 4. 404 1, .00 50. 45 C

ATOM 2673 0 LYS B 157 -51. 137 -50. 846 5. 442 1, .00 50. 96 0

ATOM 2674 N ALA B 158-49. 355 -49. 958 4. 391 1, .00 49. 55 N

ATOM 2675 CA ALA B 158 -48. 614 -49. 697 5. 619 1, .00 48. 71 C ATOM 2676 CB ALA B 158 -47.114-49.734 5.339 1.00 48.58 C

ATOM 2677 C ALA B 158 -48.991 -48.369 6.276 1. 00 48.77 C

ATOM 2678 0 ALA B 158 -48.420-47.994 7.300 1.00 48.92 0

ATOM 2679 N GLY B 159-49.944-47.654 5.688 1. 00 47.67 N

ATOM 2680 CA GLY B 159 -50.491 -46.487 6. 357 1. 00 47.73 C

ATOM 2681 C GLY B 159 -50.125 -45.148 5. 746 1. 00 47.85 C

ATOM 2682 0 GLY B 159 -50.642 -44.114 6. 170 1.00 47.96 0

ATOM 2683 N SER B 160-49.245 -45.158 4. 749 1. 00 48.18 N

ATOM 2684 CA SER B 160-48.782 -43.919 4. 134 1. 00 47.78 C

ATOM 2685 CB SER B 160 -47.857 -44.219 2. 951 1.00 47.86 C

ATOM 2686 OG SER B 160 -46.512 -44.334 3. 380 1. 00 45.45 0

ATOM 2687, C SER B 160 -49.943-43.048 3. 674 1. 00 48.28. C

ATOM 2688 0 SER B 160 -51.044 -43.538 3. 434 1. 00 49.57 0

ATOM 2689 N SER B 161 -49.682 -41.751 3. 551 1. 00 48.20 N

ATOM 2690 CA SER B 161 -50.737 -40.762 3. 389 1. 00 47.22 C

ATOM 2691 CB SER B 161 -50.730 -39.814 4. 589 1. 00 47.92 C

ATOM 2692 OG SER B 161-49.434 -39.747 5. 168 1., 00 45.91 0

ATOM 2693 C SER B 161 -50.580 -39.972 2. 095 1., 00 46.90 C

ATOM 2694 0 SER B 161-51 485 -39.939 1. 265 1., 00 48.29 0

ATOM 2695 N SER B 162 -49.435 -39.326 1. 924 1,, 00 44.22 N

ATOM 2696 CA SER B 162 -49.134 -38.695 0. 650 1. .00 43.02 C

ATOM 2697 CB SER B 162 -49.177 -37.170 0. 780 1. .00 43.23 C

ATOM 2698 OG SER B 162-48.216 -36.693 1'.704 1. .00 45.78 0

ATOM 2699 C SER B 162 -47.773 -39.149 0. 135 1, .00 41.27 C

ATOM 2700 0 SER B 162 -46.757 -39.008 0. 811 1, .00 42.47 0

ATOM 2701 N ILE B 163-47.770 -39.699-1. 069 1, .00 38.45 N

ATOM 2702 CA ILE B 163 -46.569 -40.263 -1. 653 1, .00 36.28 G

ATOM 2703 CB ILE B 163 -46.820 -41.719-2. 085 1, .00 34.85 C

ATOM 2704 CG2 ILE B 163 -45.559 -42.321 -2. 676 1, .00 35.89 C

ATOM 2705 C61 ILE B 163-47.255-42.539 -0. 872 1 .00 33.45 C

ATOM 2706 CD1 ILE B 163 -47.781 -43.912 -1. 213 1 .00 32.92 C

ATOM 2707 C ILE B 163 -46.172-39.433 -2. 860 1, 00 34.87 C

ATOM 2708 0 ILE B 163-47.022 -38.845 -3. 519 1 • 00 36.60 0

ATOM 2709 N LYS B 164 -44.876 -39.366-3. 132 1 ∎ 00 33.26 N

ATOM 2710 CA LYS B 164 -44.384 -38.746 -4. 357 1 .00 31.30 C

ATOM 2711 CB LYS B 164 -43.858 One 37.335 One 4., 093 1 .00 29.58 C ATOM 2712 CG LYS B 164-44.901 -36.380-3.549 1.00 28.48 C

ATOM 2713 CD LYS B 164-44.411 -34.954 -3.529 1. 00 28.66 C

ATOM 2714 CE LYS B 164-45.536 -34.006 -3.137 1. 00 30.54 C

ATOM 2715 NZ LYS B 164-45.215 -32.589 -3.474 1. 00 31. 79 N

ATOM 2716 C LYS B 164 -43.270-39.597 -4.930 1. 00 32.20 C

ATOM 2717 0 LYS B 164 -42.525 -40.251 -4.192 1.00 32.23 0

ATOM 2718 N VAL B 165 -43.165-39.594 -6.251 1. 00 30.92 N

ATOM 2719 CA VAL B 165 -42.164 -40.390-6.924 1. 00 29.05 C

ATOM 2720 CB VAL B 165-42.810 1 41. 334 -7.960 1. 00 30.43 C

ATOM 2721 CG1 VAL B 165 -41. 748 -42.240 -8.577 1. 00 29. 18 C

ATOM 2722 C62 VAL B 165-43. 899-42.161-7.300 1. 00 29. 15 C

ATOM 2723 G VAL B 165-41. 213 -39. 454 -7.638 1. 00 28. 76 C

ATOM 2724 0 VAL B 165 -41. 642 -38. 500 -8.284 1. 00 27. 62 _ 0

ATOM 2725 N LEU B 166-39. 921 -39. 730 -7.513 1. 00 28. 19 N

ATOM 2726 CA LEU B 166 -38. 905 -39. 017 -8.273 1. 00 29. 03 C

ATOM 2727 CB LEU B 166 -37. 930 -38. 309 -7.325 1. 00 29. 45 C

ATOM 2728 CG LEU B 166-38. 551 -37. 494 -6.181 1. 00 30. 13 C

ATOM 2729 CD1 LEU B 166-37. 464-37. 066-5.197 1. 00 30. 83 C

ATOM 2730 CD2 LEU B 166-39. 270 -36. 279 -6.743 1. 00 30. 20 C

ATOM 2731 C LEU B 166 -38. 154 -40. 037 -9.118 1. 00 29. 53 C

ATOM 2732 0 LEU B 166 -37. 676-41. 050 -8.606 1. 00 27. 37 0

ATOM 2733 N VAL B 167 -38. 062 -39. 770 -10.417 1., 00 28. 70 N

ATOM 2734 CA VAL B 167-37. 333-40. 647 -11'.322 1., 00 26. 19 C

ATOM 2735 CB VAL B 167-38. 306 -41. 546 -12.118 1., 00 25. 12 C

ATOM 2736 CG1 VAL B 167 -39. 303 -42. 181 -11. 61 1. .00 25. 33 C

ATOM 2737 CG2 VAL B 167-39 ・ 021-40. 748 -13.187 1., 00 24. 18 C

ATOM 2738 C VAL B 167-36. 488-39. 818 -12.284 1. .00 26. 84 C

ATOM 2739 0 VAL B 167-36. 763 -38. 640 -12.500 1. .00 27. 48 0

ATOM 2740 N LEU B 168 -35. 450 -40. 428-12.846 1. .00 27. 16 N

ATOM 2741 CA LEU B 168 -34. 560 -39. 722-13.759 1. .00 29. 41 C

ATOM 2742 CB LEU B 168 -33. 241 -40. 485 -13.906 1, .00. 29. 83 C

ATOM 2743 CG LEU B 168-32. 044-39. 981 -13.099 1. .00 32. 06 C

ATOM 2744 CD1 LEU B 168-32. 513 -39. 212 -11.874 1, .00 33. 68 C

ATOM 2745 GD2 LEU B 168 -31. 172 -41. 157 -12.711 1. .00 31. 30 C

ATOM 2746 C LEU B 168 -35. 221-39. 586-15.120 1, .00 29. 77 C

ATOM 2747 0 LEU B 168 -35. 305 -38. 494 -15.680 1, .00 32. 13 0 ATOM 2748 N VAL B 169-35.686 -40.712 -15.644 1.00 28.63 Ν

ATOM 2749 CA VAL B 169 -36.284 —40.769 -16.970 1. 00 28.63 C

ATOM 2750 CB VAL B 169 -35.334 -41.462 -17. 980 1. 00 28.15 C

ATOM 2751 CG1 VAL B 169-36.045 -41.699-19. 276 1. 00 30.68 C

ATOM 2752 CG2 VAL B 169 -34.114 -40.598 -18. 226 1. 00 27.79 C

ATOM 2753 C VAL B 169 -37.580 -41.560 -16. 889 1, 00 28.73 C

ATOM 2754 0 VAL B 169 -37.634 -42.608-16. 244 1. 00 29.20 0

ATOM 2755 N ALA B 170 -38.626 -17. 536 1. 00 28.82 Ν

ATOM 2756 CA ALA B 170 -39.923-41.726 -17. 486 1. 00 30.86 C

ATOM 2757 CB ALA B 170-40.894-40.920 -16. 629 1. 00 28.23 C

ATOM 2758 C ALA B 170 -40.494 1

 ATOM 2759, 0 ALA B 170-40.425

 O C

ATOM 2760 N ALA B 171 -41.047

O

 ATOM 2761 CA ALA B 171 -41.806 -43.357 -20. 349 1. 00 32.33 C

ATOM 2762 CB ALA B 171 -41 699 -44.823 -20. 721 1. 00 32.69 C

ATOM 2763 C ALA B 171 -43.273-42.973 -20. 139 1. 00 33.39 C

ATOM 2764 0 ALA B 171 -43.805-43 085 -19. 037 1. 00 33.16 0

ATOM 2765 N PRO B 172-43.940 -42.500 -21. 198 1. 00 34.16 Ν

 . 0 0

 ATOM 2766 CD PRO B 172-43.363-42.054 -22. 477 1 00 32.81 C

ATOM 2767 CA PRO B 172 -45.382 -42.243 -21. 123 1. 00 35.39 C

ATOM 2768 CB PRO B 172-45.729 -41.769 -22. 532 1. 00 35.98 C

ATOM 2769 CG PRO B 172-44.449-23. 052 1., 00 33.39 G

ATOM 2770 C PRO B 172 -46.171-43.492 -20.721 1. 00 38.36 C

ATOM 2771 0 PRO B 172 -47.112 -43.419 -19. 924 1., 00 38.64 0

ATOM 2772 N GLU B 173-45.777 -44.638-21. 273 1. .00 39.91 Ν

ATOM 2773 CA 6LU B 173 -46.413 -45.908 -20. 950 1. .00 41.28 C

ATOM 2774 CB GLU B 173-45.695 -47.061-21. 664 1. .00 42.98 C

ATOM 2775 CG GLU B 173 -45.679 -46.960 -23. 180 1. .00 46.29 C

ATOM 2776 CD GLU B 173 -44.603 -46.018 -23. 691 1. .00 49.89 C

ATOM 2777 0E1 GLU B 173-43.604 -46.511 -24. 254 1, .00 0

ATOM 2778 0E2 GLU B 173 -44.754 -44.785 -23. 534 1, .00 50.55 0

ATOM 2779 C GLU B 173 -46.372 -46.142 -19. 440 1, .00 41.30 C

ATOM 2780 0 GLU B 173 -47.344 -46.603 -18. 838 1, .00 41.88 0

ATOM 2781 N GLY B 174 -45.237 -45.825 -18. 833 1, .00 39.05 Ν

ATOM 2782 CA 6LY B 174 -45.130-45.953 -17., 396 1 .00 39.82 C

ATOM 2783 C GLY B 174 1 45.977 -44.907 -16., 701 1 .00 38.79 C PT / JP2007 / 071755

ATOM 2784 0 6LY B 174 -46.686 -45.200 -15.739 1. 00 39.70 0

ATOM 2785 N ILE B 175 -45.915 -43.679 -17.195 1. 00 38.20 N

ATOM 2786 CA ILE B 175 -46.642 -42.592 -16.566 1. 00 38.58 C

ATOM 2787 CB ILE B 175 -46.322 -41.245 -17.238 1. 00 37.68 C

ATOM 2788 CG2 ILE B 175 -47.298 -40.173 -16.754 1. 00 36.39 C

ATOM 2789 GG1 ILE B 175 -44.866 -40.860 -16.935 1.00 36.01 C

ATOM 2790 CD1 ILE B 175 -44.383-39.602 -17.640 1.00 32.89 C

ATOM 2791 G ILE B 175 -48.144-42.843 -16.598 1. 00 38.94 C

ATOM 2792 0 ILE B 175-48.819 -42.702 -15.577 1.00 41.09 0

ATOM 2793 N ALA B 176 -48.660 -43.233 -17.760 1. 00 38.25 N

ATOM 2794 CA ALA B 176 -50.077-43.556 -17.894 1. 00 36.65 C

ATOM 2795, CB ALA B 176 -50.366 -44.052 -19.300 1.00 35.11 C

ATOM 2796 C ALA B 176-50.492 -44.612 -16.867 1.00 36.86 C

ATOM 2797 0 ALA B 176-51.469-44.434-16.140 1. 00 37.79 0

ATOM 2798 N ALA B 177 -49.742 -45.703 -16.792 1. 00 35.29 N

ATOM 2799 CA ALA B 177-50.060 -46.760 -15.848 1. 00 34.80 C

ATOM 2800 CB ALA B 177-49.071 -47.881 -15.996 1.00 33.63 C

ATOM 2801 C ALA B 177 -50.080 -46.255 -14.401 1.00 37.41 C

ATOM 2802 0 ALA B 177 -50.942 -46.651 -13.615 1. 00 39.56 0

ATOM 2803 N LEU B 178-49.140 -45.380 -14.051 1. 00 37.13 N

ATOM 2804 CA LEU B 178 -49.090 -44.796 -12.709 1.00 36.65 C

ATOM 2805 CB LEU B 178 -47.857-43.891 -12.567 1., 00 35.80 C

ATOM 2806 CG LEU B 178 -47.222 -43.671-11.185 1., 00 34.97 C

ATOM 2807 CD1 LEU B 178-46.273-42.487 -11.273 1. .00 35.07 C

ATOM 2808 CD2 LEU B 178 -48.272 -43.414 -10.122 1. .00 34.37 C

ATOM 2809 C LEU B 178 -50.344 -43.964 -12.444 1. .00 37.21 C

ATOM 2810 0 LEU B 178-50.940 -44.038 -11.368 1. .00 35.69 0

ATOM 2811 N GLU B 179 -50.737 -43.159 -13.426 1. .00 39.38 N

ATOM 2812 CA GLU B 179 -51 868 -42.254 -13.249 1. .00 42.33 C

ATOM 2813 CB 6LU B 179 -52.012 -41.330 -14.462 1. .00 42.68 C

ATOM 2814 CG GLU B 179 -50.778-40.493 -14.762 1, .00.45.68 C

ATOM 2815 CD GLU B 179 -51.100 -39.229 -15.548 1, .00 47.43 C

ATOM 2816 0E1 GLU B 179 -50.483 -39.005 -16.612 1, .00 48.81 0

ATOM 2817 0E2 GLU B 179 -51.969-38.453-15.099 1, .00 49.40 0

ATOM 2818 C GLU B 179 -53.159 -43.041 -13.050 1, • 00 43.62 C

ATOM 2819 0 GLU B 179 -54.069 -42.593 -12.349 1 • 00 44.86 0 ATOM 2820 N LYS B 180 -53.235-44.219 -13.661 1.00 43.22 N

ATOM 2821 CA LYS B 180-54.445 -45.023-13.600 1. 00 44.03 C

ATOM 2822 CB LYS B 180 -54.470 -46.011 -14.770 1.00 46.05 C

ATOM 2823 CG LYS B 180 -55.834-46.604 -15.069 1.00 47.64 C

ATOM 2824 CD LYS B 180-55.747 -47.584-16.227 1. 00 50.24 C

ATOM 2825 CE LYS B 180 -57.052 -48.333 -16.429 1. 00 51.53 C

ATOM 2826 NZ LYS B 180 -56. 830 -49.614 -17.159 1. 00 52.98 N

ATOM 2827 C LYS B 180-54. 525 -45.774 -12.273 1. 00 43.08 C

ATOM 2828 0 LYS B 180 -55. 560-45.760 -11.607 1. 00 42.38 0

ATOM 2829 N ALA B 181 -53. 424 -46.413 -11.888 1.00 41.56 N

ATOM 2830 CA ALA B 181 -53. 367 -47. 162 -10.639 1. 00 39.82 C

ATOM 2831 ■ CB ALA B 181-52. 091 -47. 990 -10.579 1. 00 38.67 C

ATOM 2832 C ALA B 181 -53. 446 -46. 259-9.421 1. 00 39.80 G

ATOM 2833 0 ALA B 181 -54. 051 -46. 631 -8.419 1. 00 39.67 0

ATOM 2834 N HIS B 182 1 52. 831 -45. 080-9.508 1. 00 40.98 N

ATOM 2835 CA HIS B 182 -52. 705 -44. 173 -8.363 1. 00 41.47 C

ATOM 2836 CB HIS B 182-51. 372 -44. 408-7.654 1. 00 38.25 C

ATOM 2837 CG HIS B 182-51. 203 -45. 796-7.123 1. 00 36.94 C

ATOM 2838 CD2 HIS B 182-50. 437 -46. 827-7.550 1. 00. 37.24 C

ATOM 2839 ND1 HIS B 182-51. 869 -46. 251-6.006 1. 00 36.99 N

ATOM 2840 CE1 HIS B 182 -51. 520 1 47. 503 -5.767 1. 00 35.52 C

ATOM 2841 NE2 HIS B 182 -50. 652 -47. 876 -6.689 1. .00 35.53 N

ATOM 2842 C HIS B 182-52. 783-42. 701 -8.771 1. 00 43.53 C

ATOM 2843 0 HIS B 182-51. 767 -42. 018 -8.858 1., 00 45.23 0

ATOM 2844 N PRO B 183 -53. 995 -42. 188 -9.013 1., 00 44.97 N

ATOM 2845 CD PRO B 183 -55. 298-42. 835 -8.785 1. .00 46.61 C

ATOM 2846 CA PRO B 183 -54. 140 -40. 831 -9.549 1., 00 46.29 C

ATOM 2847 CB PRO B 183-55. 632 -40. 727-9.863 1. .00 45.16 C

ATOM 2848 CG PRO B 183 -56. 276 -41. 704-8.946 1., 00 45.11 C

ATOM 2849 G PRO B 183-53 672-39. 744-8.584 1. .00 47.34 C

ATOM 2850 0 PRO B 183 -53. 491 -38. 589 -8.974 1. .00 47.63 0

ATOM 2851 N ASP B 184 -53. 474 -40. 124-7.326 1. .00 48.28 N

ATOM 2852 CA ASP B 184-53. 118-39. 170 -6.275 1., 00 47.20 C

ATOM 2853 CB ASP B 184-53. 736 -39. 610 -4.946 1, .00 48.38 C

ATOM 2854 CG ASP B 184 -53. 437 -41. 055 -4.619 1. .00 49.85 C

ATOM 2855 0D1 ASP B 184 -53. 188 --41. 361 --3.432 1, .00 52.74 0 80ΐ

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SS.T.0 / .00Zdf / X3d ATOM 2892 OH TYR B 188 -44.423 -31.367 -7.200 1.00 29.03 0

ATOM 2893 C TYR B 188 -40.117 -36.477 -11.428 1. 00 27.69 C

ATOM 2894 0 TYR B 188 -39.460 -37.329 -10.843 1.00 27.63 0

ATOM 2895 N THR B 189 -39.902 -36.149 -12.692 1. 00 28.03 N

ATOM 2896 CA THR B 189 -38.892 -36.823 -13.491 1. 00 27.93 C

ATOM 2897 CB THR B 189 -39.544 -37.668 -14.596 1.00 26.85 C

ATOM 2898 0G1 THR B 189-38.525-38.288 -15.387 1. 00 27.85 0

ATOM 2899 CG2 THR B 189 -40.420 -36.794 -15.483 1.00 26.08 C

ATOM 2900 C THR B 189 -37.960 -35.812 -14.141 1.00 27.66 C

ATOM 2901 0 THR B 189 -38. 402 -34.777 --14.618 1. 00 28.88 0

ATOM 2902 N ALA B 190 -36.666 -36.108 -14.155 1.00 29.43 N

ATOM 2903 CA ALA B 190 35.724-35.265-14.875 1. 00 29.22.

ATOM 2904 CB ALA B 190 -34. 305 -35.779 -14.673 1. 00 30.42 C

ATOM 2905 C ALA B 190-36. 083-35.242 -16.363 1. 00 29.26 C

ATOM 2906 0 ALA B 190 -35. 708-34.323 -17.084n i 1. 00 29.23 0

ATOM 2907 N SER B 191-36. 821 -36.246 -16.825 1., 00 29.83 N

ATOM 2908 CA SER B 191 -37. 277-36.239 -18.212 1. 00 31.43 C

ATOM 2909 CB SER B 191 -36. 092 -36.518 -19.148 1., 00 30.89 C

ATOM 2910 OG SER B 191 -36. 500 -36.566 -20.505 1. 00 33.55 0

ATOM 2911 C SER B 191 -38. 433 -37.204 -18.531 1., 00 31.23 c

ATOM 2912 0 SER B 191 -38. 591 -38.249 -17.907 1., 00 27.23 0

ATOM 2913 N ILE B 192 -39. 239-36.823 -19.517 1., 00 33.28 N

ATOM '2914 CA ILE B 192 -40. 227 -37.710 -20.120 1..00 33.75 C

ATOM 2915 CB ILE B 192-41. 589 -36.991 -20.266 1. .00 33.93 C

ATOM 2916 CG2 ILE B 192 -42. 543 -37.832 1. .00 33.72 C

ATOM 2917 CG1 ILE B 192 -42. 173-36.691 -18.882 1. .00 32.41 C

ATOM 2918 CD1 ILE B 192 -43. 555 -36.064-18.923 1. .00 30.23 C

ATOM 2919 C ILE B 192 -39. 723 -38.100 -21 508 1. .00 34.32 C

ATOM 2920 0 ILE B 192-39. 773 -37.296 -22.436 1, .00 34.19 0

ATOM 2921 N ASP B 193 -39. 236 -39.327 1, .00 34.95 N

ATOM 2922 CA ASP B 193-38. 674 -39.761 -22.933 1, .00 36.17 G

ATOM 2923 CB ASP B 193 -37. 734 -40.950 -22.719 1, .00 35.94 C

ATOM 2924 C6 ASP B 193-36. 347 -40.526 -22.260 1, .00 36.01 C

ATOM 2925 0D1 ASP B 193-36. 162 -39.351 -21.877 1 .00 35.96 0

ATOM 2926 0D2 ASP B 193 -35. 435 -41.373 -22.286 1, .00 37.34 0

ATOM 2927 C ASP B 193 1 39, 730 -40.115 -23.988 1 • 00 37.77 C ATOM 2928 0 ASP B 193-40.931 -39.917 -23.780 1.00 35.55 0

ATOM 2929 N GLN B 194-39.274 -40.627 -25.130 1. 00 40.12 N

ATOM 2930 CA GLN B 194-40.167 -40.857 -26.264 1. 00 42.05 C

ATOM 2931 CB GLN B 194 -39.371 -41.244 -27.504 1. 00 44.35 C

ATOM 2932 CG GLN B 194 -38.342 -40.227 -27.920 1.00 50.08 C

ATOM 2933 CD GLN B 194 -37.479 -40.728 -29.061 1. 00 53.41 C

ATOM 2934 0E1 GLN B 194 -37.752 -41.787 -29.641 1. 00 55.01 0

ATOM 2935 NE2 GLN B 194 -36.430 -39.972 -29.391 1. 00 54.17 N

ATOM 2936 C GLN B 194 1 41. 160 -41.963 -25. 956 1. 00 40.82 C

ATOM 2937 0 GLN B 194 -42. 344 -41.853-26. 268 1. 00 41. 13 0

ATOM 2938 N GLY B 195-40. 661 -43.030-25. 345 1. 00 39.96 N

ATOM 2939 CA 6LY B 195 -41. 491-44.177 -25. 042 1. 00 38. 70 C

ATOM 2940 C GLY B 195 -40. 626 -45.403 -24. 840 1. 00 39. 37 C

ATOM 2941 0 GLY B 195-39. 412 -45.291 -24. 626 1. 00 36. 23 0

ATOM 2942 N LEU B 196 -41. 250 -46.574-24. 907 1. 00 40. 83 N

ATOM 2943 CA LEU B 196 -40. 539 -47.834 -24. 730 1. 00 44. 36 C

ATOM 2944 CB LEU B 196 -41. 374-48.794 -23. 891 1. 00 43. 37 C

ATOM 2945 CG LEU B 196 -41. 752 -48.306 -22. 495 1. 00 43. 86 G

ATOM 2946 CD1 LEU B 196 -42. 586 -49.367 -21. 791 1. 00 42. 63 C

ATOM 2947 CD2 LEU B 196 -40. 488 -48.015 -21. 713 1. 00 44. 22 C

ATOM 2948 C LEU B 196 -40. 194 -48.498 -26. 057 1., 00 46. 33 C

ATOM 2949 0 LEU B 196 -40. 965 -48.437 -27. 012 1. 00 46. 62 0

ATOM 2950 N ASN B 197 -39. 027 -49.133 -26. 096 1., 00 50. 07 N

ATOM 2951 CA ASN B 197 -38. 603 -49.966 -27. 217 1., 00 53. 61 C

ATOM 2952 CB ASN B 197-37. 301 -50.688-26. 863 1., 00 53. 45 C

ATOM 2953 CG ASN B 197-36. 151 -50.305 -27. 768 1. .00 55. 36 C

ATOM 2954 0D1 ASN B 197-36. 305 -49.496 -28. 688 1. .00 56. 56 0

ATOM 2955 ND2 ASN B 197 -34. 982 -50.885 -27. 510 1. .00 54. 64 N

ATOM 2956 C ASN B 197 -39. 647 -51.018 -27. 572 1. .00 57. 69 C

ATOM 2957 0 ASN B 197 -40. 765 -51.016 -27. 058 1. .00 58. 45 0

ATOM 2958 N GLU B 198 -39. 260 -51.928 -28. 455 1. .00 61. 03 N

ATOM 2959 CA 6LU B 198 -40. 035 -53.134 -28. 703 1, .00 64. 11 C

ATOM 2960 CB GLU B 198 -39. 442 -53.892-29. 895 1. .00 65. 19 C

ATOM 2961 CG GLU B 198 -37. 969 -54.272 -29. 727 1. .00 68. 83 C

ATOM 2962 CD GLU B 198 -37. 014-53.093 -29. 894 1, .00 70. 95 C

ATOM 2963 0E1 GLU B 198 1 35. 796 1 53.279 -29. 675 1, .00 71. 38 0 JP2007 / 071755

ATOM 2964 0E2 6LU B 198 -37.477 -51.983 -30.244 1.00 71.62 0

ATOM 2965 C GLU B 198 -39.995 -54.015 -27.452 1. 00 65.19 C

ATOM 2966 0 GLU B 198-40.919 -54.794 -27.191 1. 00 65.15 0

ATOM 2967 N HIS B 199 -38.920 -53.878 -26. 679 1. 00 65.91 Ν

ATOM 2968 GA HIS B 199 -38.707 -54.707 -25. 500 1. 00 66.37 C

ATOM 2969 CB HIS B 199 -37.433 -55.533 -25. 672 1.00 69.99 C

ATOM 2970 C6 HIS B 199 -37.516 -56.541 -26.776 1.00 73.69 C

ATOM 2971 CD2 HIS B 199 -36.689 -56.794 -27. 819 1. 00 75.49 G

ATOM 2972 ND1 HIS B 199 -38.560 -57.434 -26. 890 1. 00 74.98 Ν

ATOM 2973 CE1 HIS B 199 -38.374-58.193 -27. 956 1. 00 76.07 C

ATOM 2974 NE2 HIS B 199 -37.245 -57.825 -28. 537 1. 00 76.83 Ν

ATOM 2975 C HIS B 199 -38.632 -53.911-24. 198 1. 00 64.51 C

ATOM 2976 0 HIS B 199 -37.749 -54.137 -23. 374 1. 00 63.85 0

ATOM 2977 N GLY B 200 -39.561 -52.977-24. 025 1. 00 63.20 Ν

ATOM 2978 CA GLY B 200 -39.747 -52.330 -22. 737 1. 00 60.83 C

ATOM 2979 C GLY B 200-38.582 -51 507 -22. 211 1. 00 58.71 C

ATOM 2980 0 GLY B 200 -38.531 -51.204 -21. 018 1. 00 59.01 0

ATOM 2981 N TYR B 201 -37.644 -23. 082 1. 00 55.85 Ν

ATOM 2982 CA TYR B 201 -36.542-50.275 -22. 680 1., 00 52.03 C

ATOM 2983 CB TYR B 201 -35.239-50.732 -23. 336 1., 00 53.95 C

ATOM 2984 CG TYR B 201 -34.854 -52.154 -22. 994 1., 00 55.96 C

ATOM 2985 CD1 TYR B 201 -35.066 -53.189 -23. 899 1., 00 56.90 C

ATOM 2986 CE1 TYR B 201 -34.737 -54.498 -23.583 1., 00 57.18 C

ATOM 2987 CD2 TYR B 201 -34.297 -52.467-21. 759 1. .00 56.01 C

ATOM 2988 CE2 TYR B 201 -33.965-53.772-21. 434 1. .00 57.03 C

ATOM 2989 CZ TYR B 201 -34.189-54.783 -22. 349 1. .00 57.09 C

ATOM 2990 OH TYR B 201 -33.873 -56.083 -22. 023 1, .00 56.96 0

ATOM 2991 C TYR B 201 -36.832 -48.825 -23. 058 1, .00 49.21 C

ATOM 2992 0 TYR B 201 -37.209 -48.530 -24. 195 1, .00 47.53 0

ATOM 2993 N lLE B 202-36.656 -47.925 -22. 095 1, .00 44.81 Ν

ATOM 2994 CA ILE B 202 -36.946 -46.514-22. 302 1 .00 41.15 C

ATOM 2995 CB ILE B 202 -36.807 -45.728 -20. 996 1 .00 41.04 C

ATOM 2996 CG2 ILE B 202 -37.072 -44.255 -21. 250 1 .00 40.89 C

ATOM 2997 C61 ILE B 202 -37.769 -46.281 -19. 949 1 • 00 42.22 C

ATOM 2998 CD1 ILE B 202 -37.585-45.670-18. 564 1 • 00 43.12 C

ATOM 2999 C ILE B 202-35.974 -45.916 -23., 308 1 .00 39.13 C ATOM 3000 0 ILE B 202 -34.765-46.076 -23.171 1.00 38.26 0

ATOM 3001 N ILE B 203 -36.492 -45.226 -24.317 1. 00 37.87 N

ATOM 3002 CA ILE B 203 -35.615-44.501 -25.230 1. 00 38.41 C

ATOM 3003 CB ILE B 203 -35.650 -45.089 -26.663 1. 00 38.56 C

ATOM 3004 C62 ILE B 203 -35.366 -46.585 -26.624 1. 00 38.67 C

ATOM 3005 CG1 ILE B 203 -37.010-44.845 -27.303 1. 00 38.11 C

ATOM 3006 CD1 ILE B 203 -37.047 -45.221 -28.764 1. 00 37.85 C

ATOM 3007 C ILE B 203 -35.961 -43.013-25.296 1. 00 38.20 C

ATOM 3008 0 ILE B 203 One 37, 137 -42.629 -25.261 1. 00 37.90 0

ATOM 3009 N PRO B 204 -34.932 -42. 152 -25. 378 1. 00 37.34 N

ATOM 3010 CD PRO B 204 -35. 095-40. 697 -25. 526 1. 00 35. 96 C

ATOM 3011 CA PRO B 204-33. 519 -42. 560 -25. 411 1. 00 36. 71 C

ATOM 3012 CB PRO B 204 One 32. 772 -41. 260-25. 702 1. 00 36. 56 G

ATOM 3013 CG PRO B 204 -33. 716 -40. 172 -25. 296 1. 00 38. 24 C

ATOM 3014 C PRO B 204 -33. 007 -43. 249 -24. 148 1. 00 36. 74 C

ATOM 3015 0 PRO B 204-32. 015 -43. 974 -24. 195 1. 00 38. 57 0

ATOM 3016 N GLY B 205 -33. 675 -43. 019-23. 024 1. .00 36. 16 N

ATOM 301.7 CA GLY B 205 -33. 394 -43. 785 -21. 821 1. 00 35. 86 C

ATOM 3018 C GLY B 205 -31. 975 -43. 675 -21. 289 1., 00 37. 13 C

ATOM 3019 0 GLY B 205-31. 183-42. 856-21. 763 1., 00 38. 33 0

ATOM 3020 N LEU B 206 -31. 656 1 44. 507 -20. 299 1., 00 35. 80 N

ATOM 3021 GA LEU B 206-30. 338 -44. 503 -19. 674 1., 00 36. 61 C

ATOM 3022 CB LEU B 206 -30. 462 -44. 218 -18. 176 1. .00 35. 96 C

ATOM 3023 CG LEU B 206-31. 077 -42. 877 -17. 791 1., 00 36. 85 C

ATOM 3024 CD1 LEU B 206 -30. 838 -42. 619 -16. 305 1. .00 35. 29 C

ATOM 3025 CD2 LEU B 206 -30. 467 -41. 774 -18. 652 1. .00 34. 83 C

ATOM 3026 C LEU B 206 -29. 603 -45. 829 -19. 861 1, .00 37. 57 C

ATOM 3027 0 LEU B 206 -28. 419-45. 942 -19. 543 1, .00 37. 88 0

ATOM 3028 N GLY B 207-30. 304 -46. 835 -20. 365 1, .00 36. 70 N

ATOM 3029 CA GLY B 207-29. 724 -48. 162 -20. 387 1, .00 38. 23 C

ATOM 3030 C GLY B 207 -30. 026 -48. 871 -19. 082 1, .00 38. 05 C

ATOM 3031 0 GLY B 207 -31. 142 -48. 780 -18. 574 1. .00 39. 70 0

ATOM 3032 N ASP B 208 -29. 048 -49. 577 -18. 532 1, .00 37. 50 N

ATOM 3033 GA ASP B 208 -29. 294-50. 328 -17. 311 1, .00 38. 62 C

ATOM 3034 CB ASP B 208 -28. 643 -51. 708 -17. 388 1, .00 42. 07 C

ATOM 3035 CG ASP B 208 -29. 444 -52. 767 -16. 646 1, .00 48. 33 C ATOM 3036 0D1 ASP B 208 -30.112 -53.580 -17.324 1.00 51.50 0

ATOM 3037 0D2 ASP B 208 -29.410 -52.788 -15.392 1. 00 47.77 0

ATOM 3038 C ASP B 208 -28.766 -49.572 -16.101 1.00 37.03 C

ATOM 3039 0 ASP B 208 -27.632-49.774 -15.674 1. 00 36.18 0

ATOM 3040 N ALA B 209-29.608 -48.710 -15.549 1. 00 34.89 N

ATOM 3041 CA ALA B 209 -29.199 -47.798-14. 489 1. 00 34.93 C

ATOM 3042 CB ALA B 209-30.424 -47.017 -13. 976 1.00 34.36 C

ATOM 3043 C ALA B 209 -28.495 -48.509 -13. 326 1. 00 32.81 C

ATOM 3044 0 ALA B 209 -27.477-48.035 -12. 825 1. 00 31.03 0

ATOM 3045 N GLY B 210 1 29.035-49.644 -12. 903 1. 00 30.74 N

ATOM 3046 CA GLY B 210-28.460 -50.337-11. 767 1.00 30.25 C

ATOM 3047 C GLY B 210 -27.017-50.735-11. 998 1. 00 32.44 C

ATOM 3048 0 GLY B 210 -26.156 -50.536 -11. 137 1. 00 32.08 0

ATOM 3049 N ASP B 211-26.745 -51.295 -13. 171 1. 00 33.52 N

ATOM 3050 CA ASP B 211 -25.394 -51.719 -13. 510 1. 00 33.69 C

ATOM 3051 CB ASP B 211-25.404 -52.497 One 14. 827 1. 00 36.38 C

ATOM 3052 CG ASP B 211 -26.085 -53.845 -14. 703 1., 00 38.06 C

ATOM 3053 0D1 ASP B 211 -26.007 -54.450 -13. 610 1. 00 39.38 0

ATOM 3054 0D2 ASP B 211 -26.697 -54.299 -15. 699 1., 00 39.79 0

ATOM 3055 C ASP B 211-24.434 -50.530 -13. 614 1., 00 33.17 C

ATOM 3056 0 ASP B 211 -23.275 -50.620 -13. 208 1., 00 32.88 0

ATOM 3057 N LYS B 212 -24.910 -49.414 -14. 151 1. .00 30.29 N

ATOM 3058 CA LYS B 212 -24.059 -48.238 -14.261 1., 00 31.71 C

ATOM 3059 CB LYS B 212 -24.716 -47.188 -15. 161 1. .00 30.20 C

ATOM 3060 CG LYS B 212-24.925-47.681 -16. 585 1. .00 35.21 C

ATOM 3061 CD LYS B 212 -25.810 -46.752 -17. 400 1. .00 37.71 C

ATOM 3062 CE LYS B 212 -25.904 -47.209 -18. 851 1. .00 39.83 C

ATOM 3063 NZ LYS B 212 -24.610 -47.033 -19. 578 1. .00 42.00 N

ATOM 3064 C LYS B 212 -23.779 -47.655 -12. 878 1. .00 31.40 C

ATOM 3065 0 LYS B 212-22.686 1 47.148 -12. 615 1, .00 33.04 0

ATOM 3066 N ILE B 213-24.764 -47.737 -11. 990 1. .00 29.42 N

ATOM 3067 CA ILE B 213-24.590 -47.250 -10. 630 1, .00 31.08 C

ATOM 3068 CB ILE B 213-25.964-47.093 -9. 929 1, .00 29.04 C

ATOM 3069 CG2 ILE B 213 -25.775 -46.859 -8. 431 1, .00 28.14 C

ATOM 3070 CG1 ILE B 213 -26.739 -45.944 -10. 586 1 .00 28.91 C

ATOM 3071 CD1 ILE B 213 -28.208 1 45.864 -10. 199 1, .00 27.87 C

11S ATOM 3072 C ILE B 213 -23.685 -48.179 -9.808 1.0031.92 C

ATOM 3073 0 ILE B 213-22.780 -47.724 -9.107 1.00 31.94 0

ATOM 3074 N PHE B 214 -23.924 -49.479 -9.918 1. 00 34.11 N

ATOM 3075 CA PHE B 214 -23.261 -50.459 -9.069 1.00 37.24 C

ATOM 3076 CB PHE B 214 -24.227 -51. 602 -8.747 1. 00 36.73 C

ATOM 3077 CG PHE B 214-25.242 -51. 242-7.708 1. 00 38.00 C

ATOM 3078 CD1 PHE B 214 -25.122 -51. 712 -6.411 1. 00 39.50 C

ATOM 3079 CD2 PHE B 214 -26.286 -50.384 -8.010 1.00 36.99 C

ATOM 3080 CE1 PHE B 214-26.022 -51. 326 -5.434 1. 00 39.14 C

ATOM 3081 CE2 PHE B 214 -27.185 -49. 997 -7.039 1. 00 38.10 C

ATOM 3082 CZ PHE B 214-27.053-50. 466 -5.750 1. 00 38.84 C

ATOM 3083 C PHE B 214 -51. 019 -9.679 1. 00 39.22 C

ATOM 3084 0 PHE B 214 -21.281 -51. 804 -9.044 1. 00 36.67 0

ATOM 3085 N 6LY B 215 -21.706-50. 608 -10.910 1. 00 42.57 N

ATOM 3086 CA 6LY B 215 -20.574 -51. 166 -11.629 1. 00 46.51 C

ATOM 3087 C GLY B 215-20.706 -52. 667 -11.789 1. 00 48.97 C

ATOM 3088 0 GLY B 215 -19.747 -53. 398 -11.607 1. 00 49.30 0

ATOM 3089 N THR B 216 -53. 126 -12.131 1. 00 53.33 N

ATOM 3090 CA THR B 216 -22.215 -54. 549 -12.126 1., 00 58.09 C

ATOM 3091 CB THR B 216 -23.562 -54. 796 -11.418 1., 00 58.60 C

ATOM 3092 0G1 THR B 216 -23.369 -54. 733 -10.000 1., 00 58.81 0

ATOM 3093 CG2 THR B 216 -24.131 -56. 149 -11.802 1.00 60.24 C

ATOM 3094 C THR B 216 -22.260 -55. 186 -13.514 1., 00 60.87 C

ATOM 3095 0 THR B 216-21.899 -56. 350 -13.686 1., 00 61.47 0

ATOM 3096 N LYS B 217 -22.708 -54. 425 -14.503 1. .00 64.94 N

ATOM 3097 CA LYS B 217 -22.784-54.928-15.869 1. .00 68.75 C

ATOM 3098 CB LYS B 217-23.920 -55. 951 -15.992 1. .00 70.67 C

ATOM 3099 CG LYS B 217 -23.954-56. 705 -17.321 1. .00 72.83 C

ATOM 3100 CD LYS B 217 -22.621 -57. 386 -17.613 1. .00 74.05 C

ATOM 3101 CE LYS B 217 -22.824 -58. 705 -18.342 1, .00 74.38 C

ATOM 3102 NZ LYS B 217 -23.602 -59. 673 -17.514 1, .00 73.90 N

ATOM 3103 C LYS B 217 -23.013 -53. 773 -16.840 1, .00 70.04 C

ATOM 3104 0 LYS B 217-24.116 -53. 705 -17.430 1. .00 70.70 0

ATOM 3105 OXT LYS B 217-22.087-52. 943 -16.989 1 .00 70.58 0

TER 3106 LYS B 217

ATOM 3107 CB LYS C 11 -18.803 -15. 715 -32.263 1 .00 38.41 C ATOM 3108 CG LYS C 11-17.873 -16.912-32.263 1.00 41.03

ATOM 3109 CD LYS C 11 -18.005 -17. 703 -33.553 1. 00 44.31

ATOM 3110 CE LYS C 11 1 16.909 -18. 747 -33.663 1. 00 45.43

ATOM 3111 NZ LYS C 11 -16.838 -19. 593 -32.440 1. 00 49.14

ATOM 3112 C LYS C 11-17.269 -14. 403-30.798 1. 00 36.67

ATOM 3113 0 LYS C 11-16.567 -14. 111-31.765 1. 00 37.91

ATOM 3114 N LYS C 11-19.679-13. 736 -31.063 1. 00 38.03

ATOM 3115 CA LYS C 11 -18.712 -14. 876 -30.992 1. 00 37.76

ATOM 3116 N ILE C 12 -16.835 -14. 339 -29.543 1. 00 33.84

ATOM 3117 CA ILE C 12 -15.532 -13. 787 -29.201 1. 00 30.78

ATOM 3118 CB ILE C 12 -15.649 -12. 785 -28.040 1. 00 29.95

ATOM 3119 CG2 ILE C 12 -14.310-12. 151 -27.761 1. 00 27.78

ATOM 3120 CG1 ILE C 12 -16.701 -11. 726 -28.370 1. 00 31.05

ATOM 3121 CD1 ILE C 12 -16.609 -11. 183-29.781 1. 00 34.78

ATOM 3122 C ILE C 12 -14.580 One 14. 903-28.782 1. 00 31.81

ATOM 3123 0 ILE C 12 -14.847 -15. 639 -27.827 1. 00 32.24

ATOM 3124 N VAL C 13 -13.463 -15. 021 -29.491 1. 00 30.09

ATOM 3125 CA VAL C 13 -12.547 -16. 133 -29.279 1. 00 28.85

ATOM 3126 CB VAL C 13 -12.405-16. 966 -30.561 1., 00 29.94

ATOM 3127 CG1 VAL C 13 -11 441 -18. 117-30.328 1., 00 30.27

ATOM 3128 CG2 VAL C 13 -13.779 -17. 470 -31.010 1., 00 28.73

ATOM 3129 C VAL C 13 -15. 631 -28.883 1., 00 28.44

ATOM 3130 0 VAL C 13 -10.527-14. 934 -29 '· 654 1. .00 29.69

ATOM 3131 N GLU C 14 -10.715 -15. 978-27.684 1, .00 28.01

ATOM 3132 CA GLU c 14 -9.312 -15. 774 -27.332 1. .00 30.01

ATOM 3133 CB GLU c 14 -9.174 -15. 383 -25.857 1, .00 30.39

ATOM 3134 CG GLU c 14 -7.733 -15. 111 -25.433 1, .00 33.76

ATOM 3135 CD GLU c 14 -7.597 -14. 769 -23.960 1 .00 33.44

ATOM 3136 0E1 GLU c 14 -8.593 -14. 878-23.218 1, .00 38.19

ATOM- 3137 0E2 GLU c 14 -6.489 -14. 389-23.539 1, .00 35.80

ATOM 3138 C GLU c 14 -8.518 --17. 056 -27.601 1 .00 29.55

ATOM 3139 0 GLU c 14 -8.687 -18. 052 -26.897 1 ■ 00 30.66

ATOM 3140 N VAL c 15 -7.657 -17. 028 -28.619 1 .00 28.51

ATOM 3141 CA VAL c 15 -6.889-18. 210 -29.011 1 .00 25.40

ATOM 3142 CB VAL c 15 -6.187 -17. 998 -30.370 1 .00 26.36

ATOM 3143 CG1 VAL c 15 -5.281 -19. 197 one 30, 682 1 .00 20.35 ATOM 3144 CG2 VAL C 15 -7.234 -17.800 -31.471 1.0024.9.1 C

ATOM 3145 C VAL C 15 -5.831 -18. 562 27. 965 1.00 26.23 C

ATOM 3146 0 VAL C 15 -4.975 -17. 748 -27. 636 1 0027.43 0

ATOM 3147 N LYS C 16 -5.892 -19. 782 -27. 452 1.00 24.25 N

ATOM 3148 CA LYS G 16 -5.067-20. 160 -26. 318 1.00 26.70 C

ATOM 3149 CB LYS C 16 -5.937 -20. 815 -25. 244 1.00 28.15 C

ATOM 3150 CG LYS C 16 -7.116-19. 955 -24. 816 1.0034.22 C

ATOM 3151 CD LYS C 16 -7.019 -19. 551 -23. 362 1.00 34.49 C

ATOM 3152 CE LYS C 16 -7.994 -18. 431 -23. 057 1.0039.70 C

ATOM 3153 NZ LYS C 16 -8.120 -18. 168 -21.595 1.00 39.90 N

ATOM 3154 C LYS C 16 -3.926 -21. 097 -26. 698 1.00 24.66 G

ATOM 3155 .0 LYS C 16 -3.151 -21. 519-25. 841 1.00 24.95 0

ATOM 3156 N HIS C 17 -3.835 -21. 422 -27. 982 1.00 23.42 .N

ATOM 3157 CA HIS C 17 -2.782 -22. 284 -28. 500 1.00 22.18 C

ATOM 3158 CB HIS C 17 -2.849 -22. 297-30. 029 1.00 22.79 C

ATOM 3159 C6 HIS C 17 -2.026 -23. 374-30. 665 1.0022.34 C

ATOM 3160 CD2 HIS C 17 -2.383-24. 421 -31. 446 1.00 19.14 C

ATOM 3161 ND1 HIS C 17 -0.652-23. 429-30. 549 1.00 21.78 N

ATOM 3162 CE1 HIS C 17 -0.200 -24. 465-31. 235 1.00 20.73 C

ATOM 3163 NE2 HIS G 17 -1.229-25. 082 -31. 788 1.00 21.28 N

ATOM 3164 C HIS C 17 -1.402 -21. 811 -28. 037 1.00 22.85 C

ATOM 3165 0 HIS C 17 -1.095-20. 619 -28. 057 1.00 24.07 0

ATOM 3166 N PRO C 18 -0.548 -22. 750 -27. 613 1.00 22.74 N

ATOM 3167 CD PRO C 18 -0.744 -24. 209 -27. 671 1.00 19.87 C

ATOM 3168 CA PRO C 18 0.716 -22. 382 -26. 965 1.00 21.07 C

ATOM 3169 CB PRO C 18

-23. 719 -26. 492 1.00 21.29 C

ATOM 3170 CG PRO C 18 0.615 -24. 746 -27. 364 1.00 19.48 C

ATOM 3171 C PRO C 18 1.701 -21.613 one 27.844 1.00 21.38 C

ATOM 3172 0 PRO G 18 2.518-20. 856-27. 329 1.00 22.29 0

ATOM 3173 N LEU C 19 1.633-21. 797 -29. 157 1.00 20.50 N

ATOM 3174 CA LEU e 19 2.482 -21. 016-30. 058 1.00.21.76 C

ATOM 3175 CB LEU c 19 2.477 -21. 614 -31. 466 1.00 19.87 C

ATOM 3176 CG LEU c 19 3.066 -23. 013 -31. 645 1.00 20.40 C

ATOM 3177 CD1 LEU c 19 3.101 -23. 344 -33. 131 1.00 18.35 C

ATOM 3178 CD2 LEU c 19 4.464 -23. 076 -31. 034 1.00 17.59 C

ATOM 3179 C LEU c 19 2.020 -19. 560 -30. 136 1.00 24.38 C ATOM 3180 0 LEU C 19 2.835 -18.631 -30.186 1.00 27.96 0

ATOM 3181 N. VAL C 20 0. 709 -19.355 -30. 157 1. 00 24.79 Ν

ATOM 3182 CA VAL C 20 0. 179 -18.003 -30. 122 1. 00 23.50 C

ATOM 3183 CB VAL C 20-1. 355 -18.014 -30. 182 1. 00 21. 60 C

ATOM 3184 C61 VAL C 20 -1. 876 -16.618 -30. 068 1. 00 22.91 C

ATOM 3185 CG2 VAL C 20-1. 818 -18.644 -31. 481 1. 00 14.04 C

ATOM 3186 C VAL C 20 0. 648 -17.359 -28. 825 1. 00 24.87 G

ATOM 3187 0 VAL C 20 1. 240 -16.284-28. 836 1. 00 25.22 0

ATOM 3188 N LYS C 21 0. 422 -18.047 -27. 708 1. 00 26. 13 Ν

ATOM 3189 CA LYS C 21 0. 829 -17.534 -26. 404 1. 00 25. 78 C

ATOM 3190 CB LYS C 21 0. 553 -18.570 -25. 319 1. 00 28. 09 C

ATOM 3191 CG LYS C 21-0 · 905 -18. 717 -24. 925 1. 00 29. 54 C

ATOM 3192 CD LYS G 21-1. 026 -19. 730 -23. 793 1. 00 32. 86 C

ATOM 3193 CE LYS C 21-2. 417 -19. 726 -23. 169 1. 00 37. 22 C

ATOM 3194 NZ LYS C 21 -2. 911 -21. 116 -22. 909 1. 00 37. 82 Ν

ATOM 3195 C LYS C 21 2. 306-17. 191 -26. 392 1. 00 25. 85 C

ATOM 3196 0 LYS C 21 2. 717 One 16. 151 -25. 873 1. 00 25. 55 0

ATOM 3197 N HIS C 22 3. 104 -18. 082 -26. 969 1., 00 25. 86 Ν

ATOM 3198 CA HIS C 22 4.551 -17. 939-26. 955 1., 00 23. 39 C

ATOM 3199 CB HIS C 22 5. 204-19. 232 -27. 477 1. 00 24. 00 C

ATOM 3200 CG HIS C 22 6. 666 -19. 098 -27. 780 1. .00 23. 48 C

ATOM 3201 CD2 HIS C 22 7. 312-18. 825-28. 938 1., 00 23. 90 C

ATOM 3202 ND1 HIS c 22 7. 644 -19. 231 -26.817 1. .00 25. 11 Ν

ATOM 3203 CE1 HIS c 22 8. 829 -19. 042 -27. 370 1., 00 26. 40 C

ATOM 3204 NE2 HIS c 22 8. 655 -18. 795 -28. 656 1., 00 24. 39 Ν

ATOM 3205 C HIS c 22 4. 952 -16. 748 -27. 820 1. .00 22. 14 C

ATOM 3206 0 HIS c 22 5. 720 -15. 888-27. 397 1. .00 23. 44 0

ATOM 3207 N LYS c 23 4. 415 -16. 692 -29. 029 1. .00 22. 82 Ν

ATOM 3208 CA LYS c 23 4. 827 -15. 669-29. 976 1. .00 25. 27 C

ATO 3209 CB LYS c 23 4. 306 -16. 013 -31. 369 1, .00 25. 02 C

ATOM 3210 CG LYS c 23 4. 973 -17. 247 -31. 967 1, .00 24. 27 C

ATOM 3211 CD LYS c 23 4. 332 -17. 647 -33. 284 1. .00 22. 96 C

ATOM 3212 CE LYS c 23 4. 917 -18. 943 -33. 815 1, .00 25. 14 C

ATOM 3213 NZ LYS c 23 6. 326 -18. 815 -34. 305 1, .00 22. 73 Ν

ATOM 3214 C LYS c 23 4. 344 -14. 290 -29. 549 1, .00 26. 46 C

ATOM 3215 0 LYS c 23 5. 073 -13. 305 -29. 680 1, .00 29. 63 0 ATOM 3216 N LEU C 24 3.126 One 14.226-29.020 1.00 26.36 N

ATOM 3217 CA LEU C 24 2.571 -12.974 -28. 518 1. 00 26.28 C

ATOM 3218 CB LEU C 24 1.079 -13.156 -28. 208 1. 00 26.85 C

ATOM 3219 CG LEU C 24 0.187 -11. 961 -27. 830 1. 00 29.49 C

ATOM 3220 CD1 LEU C 24 0.488 -11. 525 -26. 420 1. 00 29.60 C

ATOM 3221 GD2 LEU C 24 0.384 -10.814 -28. 809 1. 00 29.92 C

ATOM 3222 C LEU C 24 3.329 -12. 525 -27. 268 1. 00 25.83 C

ATOM 3223 0 LEU C 24 3.635 -11. 345 -27. 107 1. 00 27.61 0

ATOM 3224 N 6LY C 25 3.647 -13. 462 -26. 387 1. 00 25.02 N

ATOM 3225 CA GLY C 25 4.409 -13. 101 -25. 204 1. 00 24.00 G

ATOM 3226 C 6LY C 25 5.734 -12. 421 -25. 527 1. 00 24.16 C

ATOM 3227 .0 GLY C 25 6.120 -11. 462 -24. 863 1. 00 26.23 0

ATOM 3228 N LEU C 26 6.441 -12. 903 -26. 543 1. 00 21.83 N

ATOM 3229 CA LEU C 26 7.710 -12. 285 -26. 920 1. 00 22.30 C

ATOM 3230 CB LEU C 26 8.377 -13. 075-28. 048 1.00 19.90 C

ATOM 3231 CG LEU C 26 8.940 -14. 447-27. 666 1. 00 21.82 C

ATOM 3232 CD1 LEU C 26 9.473-15. 157 -28. 909 1.00 20.00 C

ATOM 3233 CD2 LEU C 26 10.042 —14. 268 -26. 626 1. 00 19.33 C

ATOM 3234 C LEU C 26 7.532 -10. 825-27. 357 1. 00 22.54 C

ATOM 3235 0 LEU C 26 8.411 -9. 991 -27. 129 1. 00 21.69 0

ATOM 3236 N MET C 27 6.395 -10. 520 -27. 975 1. 00 21.36 N

ATOM 3237 CA MET C 27 6.156-9. 178 -28. 506 1. 00 23.85 C

ATOM 3238 CB MET C 27 .4.864-9. 146-29L 328 1., 00 20.66 C

ATOM 3239 CG MET C 27 4.893 -10. 096 -30. 501 1., 00 18.99 C

ATOM 3240 SD MET C 27 3.533 -9. 873 -31. 631 1., 00 22.53 S

ATOM 3241 CE MET C 27 3.825 -8. 167 -32. 166 1., 00 22.44 C

ATOM 3242 C MET C 27 6.087 -8. 139 -27. 398 1., 00 24.79 C

ATOM 3243 0 MET c 27 6.264 -6. 947 -27. 652 1., 00 25.33 0

ATOM 3244 N ARG c 28 5.846 -8. 601 -26. 172 1. .00 24.81 N

ATOM 3245 CA ARG c 28 5.750 -7. 722 -25. 013 1. .00 25.76 C

ATOM 3246 CB ARG c 28 5.006 -8. 438 -23. 877 1., 00 25.31 C

ATOM 3247 CG ARG c 28 3.595 -8. 910 -24. 236 1. .00 23.46 G

ATOM 3248 CD ARG c 28 2.785-9. 122-22. 976 1. .00 27.66 C

ATOM 3249 NE ARG c 28 1.573 -9, 915 -23. 170 1, .00 27.29 N

ATOM 3250 CZ ARG c 28 0.396-9. 411 -23. 524 1. .00 28.01 C

ATOM 3251 NH1 ARG G 28 0.266 -8. 110 1 23, 737 1, .00 27.16 N ATOM 3252 NH2 ARG C 28 -0.658 -10.206 -23.645 1.00 27.59 Ν

ATOM 3253 C ARG C 28 7.124 -7. 258 -24. 517 1.00 26.79 C

ATOM 3254 0 ARG C 28 7.220 -6.386 -23. 653 1. 00 26.86 0

ATOM 3255 N GLU C 29 8.177 -7. 850-25. 070 1. 00 29.47 Ν

ATOM 3256 CA GLU C 29 9.548-7. 639 -24. 608 1.00 33.79 C

ATOM 3257 CB GLU C 29 10.509 -8.437 -25. 494 1. 00 36.95 C

ATOM 3258 CG GLU C 29 11.499 -9.337 -24. 759 1. 00 42.00 C

ATOM 3259 CD GLU C 29 12.034 -10.462 -25. 647 1. 00 44.20 C

ATOM 3260 0E1 GLU C 29 -10.512 -26. 847 1. 00 44.20 0

ATOM 3261 0E2 GLU C 29 12.812-11. 302 -25. 145 1. 00 46.91 0

ATOM 3262 C GLU C 29 9.941 One 6.162-24. 646 1. 00 36.17 C

ATOM 3263 0 GLU C 29 9.810-5.500 -25. 673 1. 00 33.36 0

ATOM 3264 N GLN C 30 10.445 -5. 663 -23. 524 1. 00 40.57 Ν

ATOM 3265 CA GLN C 30 10.806 -4. 256 -23. 388 1. 00 45.37 C

ATOM 3266 CB GLN G 30 11.574 -4. 036-22. 086 1. 00 47.67 C

ATOM 3267 CG GLN C 30 12.056 -2. 604 -21. 891 1. 00 52.21 C

ATOM 3268 CD GLN C 30 13.041 -2. 480-20. 741 1. 00 53.91 C

ATOM 3269 0E1 GLN C 30 14.236-2. 740 -20. 902 1. 00 53.33 0

ATOM 3270 NE2 GLN C 30 12.541-2. 084-19. 571 1. 00. 53.93 Ν

ATOM 3271 C GLN C 30 11.640-3. 706 -24. 542 1. 00 46.26 C

ATOM 3272 0 GLN C 30 11.314-2. 664 -25. 107 1. .00 48.72 0

ATOM 3273 N ASP C 31 12.721 -4. 392-24. 884 1. 00 46.60 Ν

ATOM 3274 CA ASP C 31 Ϊ3.659 -3. 851 -25.858 1., 00 48.84 C

ATOM 3275 CB ASP C 31 15.090-3. 934 -25. 314 1., 00 52.15 C

ATOM 3276 CG ASP C 31 15.628 -2. 576 -24. 893 1., 00 55.71 C

ATOM 3277 0D1 ASP c 31 15.087 -1. 552 -25. 372 1, .00 56.76 0

ATOM 3278 0D2 ASP c 31 16.587 -2. 529 -24. 089 1. .00 58.07 .0

ATOM 3279 C ASP c 31 13.584 One 4. 535-27. 218 1. .00 47.54 C

ATOM 3280 0 ASP c 31 14.524 One 4.464 -28.007 1..00 47.73 0

ATOM 3281 N ILE c 32 12.457 -5. 186 -27. 488 1. .00 45.31 Ν

ATOM 3282 CA ILE c 32 12.290 -5. 958 -28. 710 1. .00 41.08 C

ATOM 3283 CB ILE G 32 10.880-6. 571-28. 780 1. .00 38.93 C

ATOM 3284 CG2 ILE C 32 9.838 -5. 466 -28. 826 1, .00 39.14 C

ATOM 3285 CG1 ILE C 32 10.764 -7. 468 -30. 008 1, .00 37.31 C

ATOM 3286 CD1 ILE c 32 9.429 -8. 138-30. 138 1, .00 37.58 C

ATOM 3287 C ILE c 32 12.530 -5. 091 -29. 948 1, .00 40.05 C ATOM 3288 0 ILE C 32 12.158 -3.916-29.982 1.00 40.91

ATOM 3289 N SER C 33 13.158 -5.684 -30.959 1. 00 37.41

ATOM 3290 CA SER c 33 13.622 -4.941-32.123 1. 00 34.25

ATOM 3291 CB SER c 33 14.865 -5.613-32.704 1. 00 35.48

ATOM 3292 OG SER c 33 14.515 -6.766 -33.456 1. 00 37.39

ATOM 3293 C SER c 33 12.548 -4.857 -33.202 1. 00 33.30

ATOM 3294 0 SER c 33 11.647-5.692-33.267 1. 00 32.71

ATOM 3295 N TH c 34 12.655-3.848 -34.056 1. 00 32.93

ATOM 3296 CA THR c 34 11,689-3.655 -35.123 1. 00 33.10

ATOM 3297 CB THR c 34 12.117 -2.521 -36.061 1.00 34.55

ATOM 3298 061 THR c 34 12.230 -1.302 -35.317 1.00 37.05

ATOM 3299 CG2 THR c 34 11.093 -2.337 -37.163 1: 00 34.56

ATOM 3300 C THR c 34 11.520 -4.918 -35.951 1.00 33.59

ATOM 3301 0 THR c 34 10.397 -5.306 -36.276 1.00 34.39

ATOM 3302 N LYS c 35 12.632 -5.566 -36.292 1. 00 33.34

ATOM 3303 CA LYS c 35 12.570 -6.775-37.106 1. 00 31.25

ATOM 3304 CB LYS c 35 13.981-7.287 -37.419 1. 00 31.60

ATOM 3305 CG LYS c 35 13.973-8.533 -38.299 1., 00 30.89

ATOM 3306 CD LYS c 35 15.368 -8.957 -38.701 1. 00. 34.56

ATOM 3307 CE LYS c 35 15.317 -10.141 -39.643 1., 00 31.86

ATOM 3308 NZ LYS c 35 14.420 -11.202 -39.114 1. .00 35.45

ATOM 3309 C LYS c 35 11.768 -7.884 -36.409 1., 00 29.22

ATOM 3310 0 LYS c 35 10.853 -8.473 -36.990 1. .00 22.71

ATOM 3311 N ARG c 36 12.117 -8.157 -35.160 1. .00 28.76

ATOM 3312 CA ARG c 36 11.481 -9.238 -34.419 1, .00 31.57

ATOM 3313 CB ARG c 36 12.150-9.377-33.050 1. .00 33.57

ATOM 3314 CG ARG c 36 12.177-10.794 -32.507 1, .00 43.50

ATOM 3315 CD ARG c 36 13.567-11.136 -31.963 1. .00 49.88

ATOM 3316 NE ARG c 36 14.178 -9.997-31.276 1, .00 54.09

ATOM 3317 CZ ARG c 36 15.157 -9.246 -31.779 1, .00 56.41

ATOM 3318 NH1 ARG c 36 15.636 -8.228 -31.076 1, .00 57.17

ATOM 3319 NH2 ARG c 36 15.668 -9.515 -32.975 1 .00 56.45

ATOM 3320 C ARG c 36 9.985 -8.954-34.258 1 .00 30.45

ATOM 3321 0 ARG c 36 9.150 -9.799 -34.565 1 .00 29.01

ATOM 3322 N PHE c 37 9.654 -7.748 -33.803 1 .00 30.90

ATOM 3323 CA PHE c 37 8.262-7.365 -33.578 1 .00 28.28 0 L0 "93 00 · ι 8½ ε- 619 Ofr 0 Π31 0 6 SSS WOIV

0 L9'92 00 ¹ ι 96, ζε-Z.69'8L- 99 ^ 'Z. 017 0 nai 300 89εε IN01V

0 00 'ι 6ΐε, LS-0' is SOL '8 0 nai LOO ζ.9εε WOIV

0 6S "83 00 'V εο9 80 £-80' ZL- 'O 0 Π3Ί 90 99εε IN01V

0 00 'V 960 εε-08fr-1 L-9ΐε-9 O 0 nai ao 99εε W01V

0 16 00 'Ί ε ε- 068. "-0fr6' 3 O 0 Π31 VO ½εε W01V

N ε'92 00 'L 89t- ■ 9ε---U6' 9 Ofr 0 Π3Ί N ε9ε IN01V ό 91. '62 00 'ι 913 L €-OBI 9 6 0 Π19 0 W01V

0 Z0 6Z 00 'L 63 9ε-Z.2Z.-U- Ζ96 "9 6 0 mo 0 W01V

0 0 00 'L εεζ' 6ε-6εε νι- 9WTLL 6ε 0 niD 330 09εε W01V

0 00 L 91L 6ε-091 l- 998 8 6ε 0 niD L30 6½ε W01V

0 6 -n 00 .800 6ε- ZL9 ΈΙ- 600 ΌΙ 6ε 0 me ao 8 ^ W01V

0 00 ι 989 8ε- 302 τι- ZLl OL 6ε 0 ma 90 mz W01V

0 00 ■ ί ns ■ ι L-Z.8 "6 6ε 0 HID ao 9½ε INOIV

0 69 ι 00 ι 989 ζ.ε- ηΐ'ΐι- L90'8 6 0 Π19 VO 9 ^ W01V

N 93 63 00 .ζ.ε- L69 "6- S6l" 8 6ε 0 mo N ^ ε IN01V

0 9 'οε 00 • ι 916, B ε- P5Z' 6- 80 9 8 0 0 ε εε ΙΛΙΟ 丄 V

0 86 '83 00 ■ ι SZ9 ■ .ε- 998.8-SZ.L '8ε 0 ○ ζ ζ W01V

N LL '8 00 L οιν Vi ■ L-8 0 ZHN W01V

N 6S'L £ 00 ■ ι 89 L Z.9L Έ-LZZ'ii βε 0 LHN om W01V

0 89 9 00 ■! ■ Z.6L .0 YA-60 ・ τ-686 '6 βε 0 10 6εεε WOIV

N 83'9S 00 • 1 910 O-9 s ε- Z.Z.6 '8 8ε 0 HV, 3N βεεε WOIV

0 L 'εε 00 ■ L 89 ■ 6S- 0Ζ.6-93 L 6 8ε 0 9¾iV ao εεε WOIV

0 n · εε 00 • ι 86 ^ ∎8ε-L ε '9-30fr · 8 βε 0 D¾V DO 9εεε IN01V

〇 9 and οε 00 06S 8ε-898 9-6εε8 8 0 9MV 90 '9εεε WOIV

0 00 1 083 LZ-S8C 8/8 0 OW VO ½ WOIV

N L9 '.3 00 ■ ι LZ.6 ■ 9ε-zn' L-L30'8 8ε 0 9¾JV N εεεε 1N01V

0 9CZ.2 00 'L 608 ε- 090 "8- 90S' 9 L 0 3Hd 0 ζεεε WOIV

0 89 '82 00 L 8f8 ε-8fr9 'L- on'L LZ 0 3Hd 0 ιεεε WOIV

〇 ZL 'LZ 00 L 90S "ΐε- LL8-19 LZ 0 3Hd zo οεεε WOIV

0% ζ 00 ∎L ε99 ∎ζε-6 9-L99 ε 0 3Hd 330 6ζεε IN01V

0 Z 'LZ 00 Ί S99' οε-N Sfr .S- S9fr'9 L £ 0 3Hd L30 2ΖΖΖ WOIV

0 Ζ6 '9Ζ 00 1 1 ζζεε-386-898' S LZ 0 3Hd ZQO LZZZ WOIV

0 9L 'S3 00 ■ L τη ■ ιε- L9L "S- 99 99' 9 ε 0 3Hd iao 93εε INOiV

0 LZ S3 00 L 9 'S- 288 9 0 3Hd 90 εε WOIV

0 19-Z 00 ■ 1 εζι, εε— L16.S— LSI '8 ε D 3Hd ao WOIV

SSZ. 0 / Z.00idf / X3d 0 S0 / 600 OAV ATOM 3360 0 LEU C 40 3.568 -12.211 -34.683 1.00 28.99 0

ATOM 3361 N ALA G 41 4.374 -10.209-35.323 1.00 25.24 N

ATOM 3362 CA ALA C 41 3.069 -9.678 -35.682 1. 00 23.26 C

ATOM 3363 CB ALA C 41 3.205 -8.235 -36.147 1.00 22.59 C

ATOM 3364 C ALA C 41 2.455 -10.523 -36.793 1.00 24.89 C

ATOM 3365 0 ALA C 41 1.290 -10.939-36.714 1.00 23.76 0

ATOM 3366 N SER C 42 3.246 -10.782-37.828 1. 00 23.52 N

ATOM 3367 CA SER C 42 2.772-11. 575 -38.952 1. 00 24.09 C

ATOM 3368 CB SER C 42 3.759 -11. 493-40. 108 1. 00 23.78 C

ATOM 3369 OG SER C 42 3.069-11. 098 -41. 276 1. 00 30.23 0

ATOM 3370 C SER G 42 2.541 -13.039 -38. 581 1. 00 22. 77 C

ATOM 3371 '0 SER C 42 1.564-13.648-39. 015 1. 00 21. 25 0

ATOM 3372 N. 6LU C 43 3.432 -13. 593 -37. 769 1. 00 21. 44 N

ATOM 3373 CA GLU C 43 3.311 -14. 982-37. 351 1. 00 24. 94 C

ATOM 3374 CB GLU C 43 4.504-15. 380 -36. 463 1. 00 25. 49 C

ATOM 3375 CG GLU C 43 5.804 -15. 581 -37. 235 1. 00 24. 79 C

ATOM 3376 CD GLU C 43 6.984 -15. 952-36. 349 1. 00 24. 72 C

ATOM 3377 0E1 GLU C 43 6.766 -16. 496-35. 250 1. 00 26. 17 0

ATOM 3378 0E2 GLU C 43 8.137 -15. 697 -36. 755 1., 00. 27. 47 0

ATOM 3379 C GLU C 43 1.999 -15. 200 -36. 602 1., 00 24. 32 C

ATOM 3380 0 GLU C 43 1.199 -16. 060 -36. 971 1., 00 25. 03 0

ATOM 3381 N VAL C 44 1.769 -14. 407 -35. 560 1., 00 24. 79 N

ATOM 3382 CA VAL G 44 0.544 -14. 526 -34. 781 1., 00 22. 14 C

ATOM 3383 CB VAL C 44 0.558-13. 569 -33. 572 1. .00 22. 23 C

ATOM 3384 CG1 VAL C 44 -0.759 -13. 638 -32. 825 1., 00 18. 47 C

ATOM 3385 CG2 VAL C 44 1.698 -13. 943 -32. 652 1. .00 18. 00 C

ATOM 3386 C VAL G 44 -0.651 -14. 227 -35. 659 1. .00 23. 03 C

ATOM 3387 0 VAL C 44 -1 705 -14. 832 -35. 506 1. .00 23. 81 0

ATOM 3388 N GLY C 45 -0.472 -13. 300 -36. 596 1. .00 24. 22 N

ATOM 3389 CA GLY C 45 -1.526 -12. 998 -37. 545 1. .00 21. 28 C

ATOM 3390 C GLY C 45 -1.886 -14. 219 -38. 359 1. .00 20. 94 C

ATOM 3391 0 GLY C 45 -3.064 -14. 534 -38. 540 1, .00 21. 16 0

ATOM 3392 N SER C 46 -0.871-14. 917 -38. 853 1. .00 20. 42 N

ATOM 3393 CA SER C 46 -1.093 -16. 146 -39. 599 1, .00 19. 90 C

ATOM 3394 CB SER C 46 0.241 -16. 762 -40. 013 1. .00 19. 39 C

ATOM 3395 06 SER C 46 0.015 -17. 996 -40. 668 1, .00 22. 06 0 ATOM 3396 C SER C 46 -1.885 -17.177 -38.788 1.00 19.99 C

ATOM 3397 0 SER C 46 -2.853 -17.749 -39.277 1.00 23.21 0

ATOM 3398 N LEU C 47 -1.475-17.414 -37.550 1.00 20.20 N

ATOM 3399 GA LEU C 47-2.166 -18.387 -36.716 1. 00 22.19 C

ATOM 3400 CB LEU C 47 -1.394 -18.582 -35.405 1. 00 23.38 C

ATOM 3401 CG LEU C 47 0.041 -19.088 One 35, 614 1. 00 23.73 C

ATOM 3402 CD1 LEU C 47 0.635 -19.542-34.290 1. 00 24.10 C

ATOM 3403 CD2 LEU C 47 0.037 -20.239 -36.619 1.00 21.42 C

ATOM 3404 C LEU C 47-3.624 -17.987 -36.437 1. 00 22.67 C

ATOM 3405 0 LEU C 47 -4.518 -18.839 -36.426 1. 00 19.11 0

ATOM 3406 N LEU C 48 -3.866 -16.691 -36.240 1.00 22.02 N

ATOM 3407, CA LEU C 48 -5.225 -16.211-36.028 1. 00 22.54 C

ATOM 3408 CB LEU C 48 -5.203 -14.722 1 35.689 1. 00 22.02 C

ATOM 3409 CG LEU C 48-4.678 -14.390 -34.291 1.00 22.66 C

ATOM 3410 CD1 LEU C 48 -4.759 -12.892 -34.055 1. 00 22.26 C

ATOM 3411 CD2 LEU C 48 -5.503 1 15.130 -33.252 1. 00 19.79 C

ATOM 3412 C LEU C 48 -6.117 -16.462-37.243 1. 00 23.04 C

ATOM 3413 0 LEU c 48 -7.302 -16.785 -37.111 1.00 22.83 0

ATOM 3414 N THR c 49 -5.538 -16.328-38.430 1. 00 23.55 N

ATOM 3415 CA THR c 49-6.272-16.548 -39.664 1., 00 23.20 C

ATOM 3416 CB THR c 49 -5.383 -16.287 -40.888 1.00 24.81 C

ATOM 3417 061 THR c 49 -4.996 -14.907 -40.915 1., 00 26.77 0

ATOM 3418 CG2 THR c 49 -6.126 -16.648 -42.173 1. .00 22.01 C

ATOM 3419 C THR c 49 -6.755-17.987 -39.733 1., 00 24.32 C

ATOM 3420 0 THR c 49 -7.847 -18.275 -40.239 1., 00 23.52 0

ATOM 3421 N TYR c 50 -5.924 -18.891 -39.229 1. .00 25.28 N

ATOM 3422 CA TYR c 50 -6.221 -20.315 -39.300 1. .00 26.92 C

ATOM 3423 CB TYR c 50 -5.015 -21.119 -38.809 1. .00 27.99 C

ATOM 3424 CG TYR c 50-5.185 -22.611 -38.899 1. .00 26.77 C

ATOM 3425 CD1 TYR c 50 -5.150 -23.257 -40.125 1, .00 29.74 G

ATOM 3426 CE1 TYR c 50-5.288-24.630 -40.214 1. .00 29.59 C

ATOM 3427 CD2 TYR c 50 -5.366 -23.376 -37.763 1, .00 28.16 C

ATOM 3428 CE2 TYR c 50-5.509 -24.747-37.843 1, .00 28.32 C

ATOM 3429 CZ TYR c 50 -5.469 -25.366 -39.070 1, .00 28.11 C

ATOM 3430 OH TYR c 50 -5.637-26.723 -39.159 1, .00 30.80 0

ATOM 3431 C TYR c 50-7.433 -20.587 One 38.420 1, .00 27.07 C Five

ATOM 3432 0 TYR C 50 -8.410 -21.203 -38.844 1.00 26.55

 ATOM 3433 N GLU C 51 -7.367 -20.097 -37.194 1.00 26.64

 ATOM 3434 CA GLU C 51-8.481 -20.200 -36.282 1. 00 28.92

 ATOM 3435 CB GLU C 51 -8.106 -19.505 -34.979 1. 00

 ATOM 3436 CG GLU C 51 -8.709 -20.148 -33.761 1. 00 37.67

 ATOM 3437 CD GLU C 51 -8.076 -21.482 -33.451 1. 00 39.22

 ATOM 3438 0E1 GLU C 51-8.833 1 22.462 -33.274 1. 00

 ATOM 3439 0E2 GLU C 51 -6.825 -21.547 -33.383 1. 00 39.30

 ATOM 3440 C GLU C 51-9.764 -19.581 —36.874 1. 00 29.51

 ATOM 3441 0 GLU C 51 -10.861 —20.127 -36.716 1. 00 29.62

 00

 ATOM 3442 N ALA C 52 -9.620 -18.450 -37.563 1.00 27.95

 ATOM 3443 CA ALA C 52 -10.770 -17.667 -38.003 1. 00 25.35

 ATOM 3444 CB ALA C 52 -10.385 -16.201 -38.155 1. 00 25.94

 ATOM 3445 C ALA C 52 -11.345 -18.178 -39.307 .1. 00 25.83

 ATOM 3446 0 ALA C 52 -12.438 -17.763 -39.711 1. 00 25.67

 ATOM 3447 N THR C 53 -10.614 -19.069-39.972 1. 00 24.06

 ATOM 3448 CA THR C 53 -11.104 -19.654 -41.215 1., 00 24.43

 ATOM 3449 CB THR C 53 -10.088 -19.474 -42.348 1., 00 25.96

 ATOM 3450 0G1 THR G 53 -8.824 -20.026 -41.958 1., 00 25.27

 ATOM 3451 CG2 THR C 53 -9.935 -17.999 -42.681 1., 00 25.66

 ATOM 3452 C THR C 53 -11.469 -21.137 -41.121 1. .00 24.38

 ATOM 3453 0 THR C 53 -21.811 -42.140 1, .00 24.55

 ATOM 3454 N ALA C 54 -11.623 -21.641 -39.904 1. .00 25.34

 ATOM 3455 CA ALA C 54 -12.054 -23.021-39.704 1. .00 28.08

 ATOM 3456 CB ALA C 54 -12.046 -23.362 -38.226 1. .00 26.09

 ATOM 3457 C ALA C 54 -13.432-23.297 -40.289 1, .00 30.67

 ATOM 3458 0 ALA C 54 -13.745 -24.441 -40.623 1, .00 33.13

 ATOM 3459 N ASP c 55 -14.259 `` 22.260 -40.421 1, .00 34.16

 ATOM 3460 CA ASP c 55 -15.632 -22.455 -40.893 1, .00 37.05

 ATOM 3461 CB ASP c 55 -16.629 -21.689 -40.004 1 .00 38.83

 ATOM 3462 CG ASP G 55 -16.456-20.176 -40.077 1 ■ 00 42.63

 ATOM 3463 0D1 ASP C 55 -15.789 -19.672 -41.008 1 ■ 00 44.84

 ATOM 3464 0D2 ASP C 55 -16.998 -19.484 -39.188 1 • 00 44.90

 ATOM 3465 C ASP C 55 -15.861 -22.092-42.358 1 ■ 00 37.94

 ATOM 3466 0 ASP C 55 -16.986 -22.176 -42.856 1 .00 38.64

ATOM 3467 N LEU c 56 -14.799 -21.699 -43.051 1 .00 38.08 ATOM 3468 CA LEU C 56 -14.892 -21.433 -44.481 1.00 39.66 C

ATOM 3469 CB LEU C 56 -13.498 -21.199 -45.059 1.00 39.35 C

ATOM 3470 CG LEU C 56 —12.953 -19.777 -44.913 1.00 39.55 G

ATOM 3471 CD1 LEU C 56 -11.463 -19.752 -45.222 1.0041.40 C

ATOM 3472 CD2 LEU C 56 -13.716 -18.862 -45.858 1.00 38.34 C

ATOM 3473 C LEU C 56-15.567 -22.583-45.218 1.00 40.73 C

ATOM 3474 0 LEU C 56-15.451-23.735 -44.815 1.00 41.37 0

ATOM 3475 N GLU C 57 -16.277 -22.264 -46.296 1.0043.38 N

ATOM 3476 CA 6LU C 57 -16.987 -23.275 -47.080 1.00 45.62 C

ATOM 3477 CB GLU C 57 -18.314 -22.715 -47.620 1.00 49.04 C

ATOM 3478 CG GLU G 57 -19.246 -22.115 -46.567 1.00 53.26 C

ATOM 3479 CD GLU C 57 -19.761-23.143 -45.569 1.00 57.06 C

ATOM 3480 0E1 GLU C 57 -20.104 -24.271 -45.994 1.00 58.50 0

ATOM 3481 0E2 GLU C 57 -19.823 -22.821 -44.359 1.0058.00 0

ATOM 3482 C GLU C 57 -16.132 -23.715 -48.258 1.00 44.89 C

ATOM 3483 0 GLU C 57 -15.579 -22.883 -48.964 1.00 45.97 0

ATOM 3484 N THR C 58 -16.032 -25.019 --48.480 1.00 45.15 N

ATOM 3485 CA THR C 58 -15.308 -25.519 -49.643 1.00 45.25 C

ATOM 3486 CB THR C 58 1 14.271 -26.577-49.250 1.00 43.45 C

ATOM 3487 0G1 THR C 58 -14.943 -27.776 -48.860 1.00 44.17 0

ATOM 3488 CG2 THR C 58 -13.427-26.090 -48.089 1.00 43.45 C

ATOM 3489 C THR C 58 -16.285-26.147 -50.630 1.0045.95 C

ATOM 3490 0 THR C 58 -17.429 -26.436 One 50.279 1.00 46.47 0

ATOM 3491 N GLU C 59-15.834 -26.348 -51.864 1.00 45.64 N

ATOM 3492 CA GLU c 59 -16.651 -27.010 -52.873 1.0046.80 C

ATOM 3493 CB GLU c 59 -17.158 -25.998-53.900 1.00 48.11 C

ATOM 3494 CG GLU c 59 -16.077 -25.455-54.818 1.00 52.65 C

ATOM 3495 CD GLU c 59 -16.497 -24.187 -55.547 1.00 55.22 C

ATOM 3496 0E1 GLU c 59 -17.335 -23.430-55.005 1.00 56.12 0

ATOM 3497 0E2 GLU c 59 -15.987-23.949 -56.663 1.00 56.32 0

ATOM 3498 C GLU G 59 -15.850 -28.097 -53.579 1.00 46.35 C

ATOM 3499 0 GLU C 59 One 14.632 -27.991 -53.719 1.0045.49 0

ATOM 3500 N LYS C 60 -16.545-29.142 -54.018 1.0045.98 N

ATOM 3501 CA LYS c 60-15.912 -30.268 -54.694 1.00 45.84 C

ATOM 3502 CB LYS c 60 -16.828 -31.492 -54.658 1 00 44.48 C

ATOM 3503 CG LYS c 60 -17.202 -31.954 One 53.264 1.0044.00 C ATOM 3504 CD LYS C 60 -15.992-32.453-52.509 1.00 44.67 C

ATOM 3505 CE LYS C 60 -16.397 -33.313 -51. 326 1.00 44.46 C

ATOM 3506 NZ LYS C 60 -15.224 -33.697 -50. 491 1.00 43.55 N

ATOM 3507 C LYS C 60 1 15.613 -29.921 -56. 141 1.00 45.75 C

ATOM 3508 0 LYS C 60 -16.514 -29.588 -56. 904 1.00 46.03 0

ATOM 3509 N VAL C 61 -14.344 -29.997-56. 513 1.00 45.78 N

ATOM 3510 CA VAL C 61 -13.959 -29.884 -57. 910 1.00 46.58 C

ATOM 3511 CB VAL C 61 -13.026 -28.678-58. 139 1.00 47.74 C

ATOM 3512 CG1 VAL C 61 -12.860 -28.423-59. 628 1.00 47.93 C

ATOM 3513 CG2 VAL C 61 -13.583 -27.447 -57. 444 1.00 49.67 C

ATOM 3514 C VAL C 61 -13.217 -58. 295 1.00 46.85 C

ATOM 3515 .0 VAL C 61-12.555 -31.778 -57. 463 1.00 46.84 0

ATOM 3516 N THR C 62 -13.332 -59. 551 1 00 47.43 N

ATOM 3517 CA THR C 62 -12.575 -32.717 -60. 017 1.00 46.92 C

ATOM 3518 CB THR C 62 -13.455 -33.675 -60. 839 1.00 47.57 C

ATOM 3519 061 THR C 62 -13.928 -33.003-62. 014 1.00 51.34 0

ATOM 3520 CG2 THR C 62 -14.643 -34.140 -60. 009 1.00 45.03 C

ATOM 3521 C THR C 62 -11.409 -32.242-60. 869 1.00 46.21 C

ATOM 3522 0 THR C 62 -11.569 -31 371 -61. 729 1.00 45.26 0

ATOM 3523 N ILE C 63 -10.235 -32.806-60. 607 1.00 44.42 N

ATOM 3524 CA ILE C 63 -9.029 -32.465 -61. 347 1.00 43.58 C

ATOM 3525 CB ILE C 63 -8.029 -31.698 -60. 462 1.00 43.67 C

ATOM 3526 CG2 ILE C 63 -8.685 -30.448 -59.898 1.00 42.56 C

ATOM 3527 CG1 ILE c 63 -7.561 -32.605-59. 323 1.00 44.31 C

ATOM 3528 CD1 ILE c 63 -6.354 -32.092 -58. 576 1 00 44.88 C

ATOM 3529 C ILE c 63 -8.353 -33.746 -61. 813 1.00 42.82 C

ATOM 3530 0 ILE c 63 -8.648 -34.830 -61. 319 1.00 40.78 0

ATOM 3531 N GLU c 64 -7.441 -33.616 -62. 766 1.00 43.80 N

ATOM 3532 CA GLU c 64 -6.630-34.743-63. 184 1.00 44.47 C

ATOM 3533 CB GLU c 64 -6.128 -34.522-64. 611 1.00 46.29 C

ATOM 3534 CG GLU c 64-7.062 -35.062-65. 674 1.00.47.76 C

ATOM 3535 CD GLU G 64-7.133 -36.576 -65. 652 1.00 48.92 C

ATOM 3536 0E1 GLU G 64-8.249 -37.116 -65. 799 1.00 50.69 0

ATOM 3537 0E2 GLU C 64 -6.073-37.226-65. 484 1.00 46.66 0

ATOM 3538 C GLU C 64 -5.449-34.929 -62. 234 1.00 45.09 C

ATOM 3539 0 GLU C 64 -4.553 -34.086 1 62. 163 1.00 43.22 0 ATOM 3540 N GLY C 65 -5.459 -36.040 -61.504 1.00 44.88 N

ATOM 3541 CA GLY C 65 -4.355 -36.355 -60.623 1.00 45.52 C

ATOM 3542 C GLY C 65 -3.268 1 37.163 -61.311 1.00 47.69 C

ATOM 3543 0 GLY C 65-3.373 -37.509 -62.491 1.0046.81 0

ATOM 3544 N TRP C 66 -2.218 -37.476 -60.561 1.00 49.43 N

ATOM 3545 CA TRP C 66 -1.061-38.152 -61.120 1.00 51.09 C

ATOM 3546 CB TRP C 66 0.029 -38.295 -60.058 1.0053.22 C

ATOM 3547 CG TRP C 66 -0.237 -39.394 -59.083 1.00 54.46 C

ATOM 3548 CD2 TRP C 66 0.252 1 40.737 -59.155 1.00 55.14 C

ATOM 3549 CE2 TRP C 66 -0.249 1 41.425 1 58.032 1.0055.25 C

ATOM 3550 CE3 TRP C 66 1.065 -41.424 -60.059 1.00 56.13 C

ATOM 3551 CD1 TRP C 66 -0.993-39.322 -57.952 1.00 54.87 C

ATOM 3552 NE1 TRP C 66-1.006 -40.540 -57.313 1.00 55.33 N

ATOM 3553 CZ2 TRP C 66 0.035 -42.767 -57.789 1.00 56.58 C

ATOM 3554 CZ3 TRP C 66 1.348 -42.756 -59.817 1.00 57.78 C

ATOM 3555 CH2 TRP C 66 0.834 -43.413 -58.691 1.00 57.43 C

ATOM 3556 C TRP C 66 -1.446 -39.527 -61.641 1.00 51.31 C

ATOM 3557 0 TRP C 66 -0.711 -40.125-62.423 1.00 53.00 0

ATOM 3558 N ASN c 67 -2.595 -40.027 -61.201 1.00 50.44 N

ATOM 3559 CA ASN c 67-3.047 -41.353 -61.599 1.00 50.48 C

ATOM 3560 CB ASN c 67 -2.821-42.343 -60.452 1.00 53.11 C

ATOM 3561 CG ASN c 67 -2.967 -43.790 -60.889 1.00 55.38 C

ATOM 3562 0D1 ASN c 67 -3.111 --44.083 --62.079 1.00 55.12 0

ATOM 3563 ND2 ASN c 67 -2.929 -44.705 -59.925 1.00 56.01 N

ATOM 3564 C ASN c 67 -4.526 -41.349 -61.998 1.0049.39 C

ATOM 3565 0 ASN c 67 -5.284 -42.248 -61.626 1 ■ 0048.36 0

ATOM 3566 N GLY c 68 -4.930 -40.334—62.758 1.0047.94 N

ATOM 3567 CA GLY c 68 -6.317 -40.228 -63.172 1.00 44.99 C

ATOM 3568 C GLY c 68 -7.101 -39.213 -62.362 1.00 43.86 C

ATO 3569 0 GLY c 68 -6.569 -38.610 -61.434 1.0043.49 0

ATOM 3570 N PRO c 69 -8.385 -39.012—62.687 1.00 42.62 N

ATOM 3571 CD PRO c 69 -9.117 -39.733 -63.742 1.00 41.58 C

ATOM 3572 CA PRO c 69 -9.226-38.003 -62.035 1.0041.95 C

ATOM 3573 CB PRO c 69-10.577 -38.159 -62.728 1.0040.98 C

ATOM 3574 CG PRO c 69-10.261 -38.819 -64.025 1.0042.29 C

ATOM 3575 C PRO c 69 I 9, 340 -38.200 -60.525 1.0041.96 C ATOM 3576 0 PRO C 69 -9.437-39.328 -60.038 1.0043.16 0

ATOM 3577 N VAL C 70 -9.327 37.092 -59.791 1. 00 40.23 N

ATOM 3578 CA VAL C 70 -9.605-37.107 -58.360 1.00 40.30 C

ATOM 3579 CB VAL C 70 -8.304 -36.928 -57.538 1. 00 41.29 C

ATOM 3580 C61 VAL C 70 -8.630 -36.821-56.063 1. 00 42.28 C

ATOM 3581 CG2 VAL C 70 -7.378 -38.098-57.772 1. 00 42.51 C

ATOM 3582 C VAL C 70 -10.565 -35.975-58.007 1. 00 39.37 G

ATOM 3583 0 VAL C 70 -10.478 -34.883 -58.562 1. 00 39.92 0

ATOM 3584 N 6LU C 71-T11.483 -36.231 -57.083 1. 00 39.63 N

ATOM 3585 CA 6LU C 71 -12.3o t18 -35.157 -56.556 1.00 40.01 C

ATOM 3586 CB 6LU C 71 -13.664-35.707 -56.091 1.00 40.54 C

ATOM 3587, CG GLU C 71 -14.636 -34.621-55.667 1.00 45.34 Co

 ATOM 3588 CD 6LU C 71 -16.021 -35.149 -55.338 1. 00 46.96. C

ATOM 3589 0E1 GLU C 71 -16.936 -34.991 -56.179 1.00 47.72 0

ATOM 3590 0E2 GLU C 71 -16.194 -35.715 -54.237 1. 00 48.08 0

ATOM 3591 C GLU C 71 -34.476-55.389 1. 00 39.33 G

ATOM 3592 0 GLU C 71 -11.142-35.137 -54.463 1. 00 39.71 0

ATOM 3593 N ILE C 72 -11500 -33.154 -55.438 1., 00 39.21 N

ATOM 3594 CA ILE c 72 -10.788 -32.421 -54.396 1. .00 38.58 C

ATOM 3595 CB ILE c 72 -9.505 -31.770 -54.935 1. 00 38.20 C

ATOM 3596 CG2 ILE c 72 -8.570 -32.833-55.503 1., 00 36.20 C

ATOM 3597 CG1 ILE c 72 -9.872 -30.743-56.009 1., 00 37.32 C

ATOM 3598 CD1 ILE c 72 -8.890 -29.605 -56.134 1. .00 36.83 C

ATOM 3599 C ILE c 72 -11.656 -31.314 -53.824 1. .00 40.08 C

ATOM 3600 0 ILE c 72 -12.676 -30.934 -54.410 1. .00 38.59 0

ATOM 3601 N ASP c 73 -30.789-52.679 1, .00 40.56 N

ATOM 3602 CA ASP c 73 -11.939 -29.676 -52.064 1, .00 41.81 C

ATOM 3603 CB ASP c 73 -12.072-29.907-50.559 1, .00 43.07 C

ATOM 3604 CG ASP c 73-12.943 -50.230 1, .00 43.69 C

ATO 3605 0D1 ASP c 73 -12.377 -32.187 -49.965 1, .00 46.41 0

ATOM 3606 0D2 ASP c 73 -14.188 -30.975 -50.234 1, .00 42.84 0

ATOM 3607 C ASP c 73 -11.213 -28.369 -52.333 1 .00 41.96 C

ATOM 3608 0 ASP c 73 -9.983 -28.317 -52.325 1 .00 41.30 0

ATOM 3609 N GLN c 74 -11.986 -27.315 -52.577 1 .00 42.31 N

ATOM 3610 CA GLN c 74 -11 ■ 428 -26.018 -52.938 1 • 00 42.85 C

ATOM 3611 CB GLN c 74 -11.460 -25.826 1 54.454 1, 00 42.16 C ATOM 3612 CG GLN C 74 -10.547-26.766 -55.224 1.00 43.95 C

ATOM 3613 CD GLN C 74-9.090 -26.332 -55.197 1. 00 43.96 C

ATOM 3614 0E1 GLN C 74 -8.696-25.394 -55.897 1. 00 42.88 0

ATOM 3615 NE2 GLN C 74 -8.280 -27.016 -54.390 1. 00 42.88 N

ATOM 3616 C GLN G 74 -12.194 -24.886 -52.287 1. 00 43.49 C

ATOM 3617 0 GLN C 74 -13.419 -24.914 -52.218 1. 00 45.63 0

ATOM 3618 N ILE C 75 -11.463 -23.885 -51. 816 1. 00 43.98 N

ATOM 3619 CA ILE C 75 -12.057 -22.612 -51. 447 1. 00 46.17 C

ATOM 3620 CB ILE C 75 -11.382 -22.048 -50.183 1.00 47.73 C

ATOM 3621 C62 ILE C 75 -12.000 -20.716 -49.800 1.00 51.04 C

ATOM 3622 CG1 ILE C 75 -11.560 -23.031-49. 028 1. 00 50.02 C

ATOM 3623, CD1 ILE C 75 -11.132 -22.471 -47. 692 1. 00 52.41 C

ATOM 3624 C ILE C 75 -11.870 -21.630 -52. 606 1. 00 46.61 C

ATOM 3625 0 ILE C 75 -11.040 -21.850 -53. 488 1. 00 46.81 0

ATOM 3626 N LYS C 76 -12.650 -20.556 -52. 615 1., 00 47.08 N

ATOM 3627 CA LYS C 76-12.419 -19.467 -53. 558 1., 00 47.30 C

ATOM 3628 CB LYS C 76 -13.754 -18.949 -54. 098 1. .00 50.05 C

ATOM 3629 CG LYS C 76 -14.622 -20.005 -54. 783 1. .00 51.14 C

ATOM 3630 CD LYS C 76 -14.126 -20.301 -56. 196 1. .00 52.67 C

ATOM 3631 CE LYS C 76-15.221 -20.932 -57. 053 1. .00 55.06 C

ATOM 3632 NZ LYS C 76 -14.773 -21.222 -58. 455 1., 00 52.51 N

ATOM 3633 C LYS c .76 -11.675-18.334 -52. 847 1., 00 46.47 C

ATOM 3634 0 LYS c 76 -12.293 -17.490 -52. 195 1, .00 46.57 0

ATOM 3635 N GLY c 77 1 10.351 -18.320 -52. 977 1. .00 44.29 N

ATOM 3636 CA GLY c 77 -9.549 -17.303-52. 320 1. .00 42.25 C

ATOM 3637 C GLY c 77 -9.931 -15.877 -52. 680 1. .00 41.71 C

ATOM 3638 0 GLY c 77-9.976 -15.004-51. 811 1, .00 41.17 0

ATOM 3639 N LYS c 78 -10.217 -15.641 -53. 956 1, .00 41.34 N

ATOM 3640 CA LYS c 78 -10.558 -14.305 -54. 442 1, .00 41.48 C

ATO 3641 CB LYS c 78 -10.819 -14.343 -55. 949 1, .00 42.69 C

ATOM 3642 CG LYS c 78 -9.581 -14.616 -56. 782 1 .00 46.30 C

ATOM 3643 CD LYS c 78 -9.855 -15.692 -57. 821 1 .00 49.98 C

ATOM 3644 CE LYS c 78 -10.895 -15.236 -58. 827 1 .00 50.46 C

ATOM 3645 NZ LYS c 78 -10.313-14.267 -59. 799 1 • 00 52.37 N

ATOM 3646 C LYS c 78 -11.773 -13.704 -53. 738 1 • 00 40.46 C

ATOM 3647 0 LYS c 78 -11.931 -12.479 -53. 695 1 .00 39.00 0 ATOM 3648 N LYS C 79-12.629 -14.564 -53.194 1.00 37.88 N

ATOM 3649 CA LYS C 79 -13.840 "14.104 -52.531 1. 00 38.68 C

ATOM 3650 CB LYS C 79 -14.930 -15.173 -52.621 1.00 41.38 C

ATOM 3651 CG LYS C 79 -15.379 -15.463 -54.046 1. 00 45.34 C

ATOM 3652 CD LYS C 79 -16.526 -16.462 -54.089 1. 00 48.58 C

ATOM 3653 CE LYS C 79-17.874 1 15.761-54.091 1.00 51.03 C

ATOM 3654 NZ LYS C 79 -18.010 One 14.842 -55.254 1. 00 53.69 N

ATOM 3655 C LYS C 79 -13.575 -13.743-51.071 1. 00 37.19 C

ATOM, 3656 0 LYS C 79 -14.508 -13.494 -50.301 1.00 36.68 0

ATOM 3657 N ILE C 80 -12.298 -13.714 -50.696 1. 00 33.68 N

ATOM 3658 CA ILE C 80-11.900-13.224 -49.384 1. 00 30.49 C

ATOM 3659 CB ILE C 80 -11.039 -14.278 48.628 1. 00 30.39. C

ATOM 3660 CG2 ILE C 80 -10.601 -13.735 -47.279 1.00 26.09 .C

ATOM 3661 C61 ILE C 80 -11.845 -15.564 -48.426 1. 00 30.71 C

ATOM 3662 CD1 ILE C 80 -11.125 -16.616-47.595 1. 00 28.69 C

ATOM 3663 C ILE C 80 -11.098 -11.932 -49.533 1. 00 29.51 C

ATOM 3664 0 ILE C 80 -10.199-11.850 -50.376 1. 00 30.92 0

ATOM 3665 N THR C 81 -11.429 -10.929 -48.718 1. 00 27.34 N

ATOM 3666 CA THR C 81 -10.671 -9.679 -48.669 1., 00 24.20 C

ATOM 3667 CB THR C 81 -11.583 -8.439 -48.830 1., 00 24.63 C

ATOM 3668 0G1 THR C 81-12.367 -8.549-50.024 1., 00 27.93 0

ATOM 3669 CG2 THR C 81 -10.740-7.172 -48.898 1., 00 22.31 C

ATOM 3670 C THR C 81 -9.970 -9.542 -47.316 1. .00 25.25 C

ATOM 3671 0 THR C 81 -10.602 -9.679 -46.264 1. .00 24.15 0

ATOM 3672 N VAL c 82 -8.670 -9.254 -47.338 1. .00 23.63 N

ATOM 3673 CA VAL c 82-7.989 -8.834 -46.125 1. .00 23.81 C

ATOM 3674 CB VAL c 82 -6.527 -9.259-46.107 1, .00 25.32 C

ATOM 3675 CG1 VAL c 82 -5.972 -9.079-44.701 1, .00 25.02 C

ATOM 3676 CG2 VAL c 82-6.391 -10.678 -46.593 1, .00 28.27 C

ATOM 3677 C VAL c 82 -8.018 -7.314-46.035 1, .00 23.89 C

ATOM 3678 0 VAL c 82 -7.792-6.617 -47.029 1 .00 23.74 0

ATOM 3679 N VAL c 83 -8.287 -6.808-44.836 1 .00 23.90 N

ATOM 3680 CA VAL c 83 -8.537 -5.384-44.633 1 .00 20.61 C

ATOM 3681 CB VAL c 83 -10.019 -5.136 -44.289 1 .00 22.60 C

ATOM 3682 C61 VAL c 83 -10.246 -3.663 -43.958 1 .00 20.56 C

ATOM 3683 CG2 VAL c 83 -10.895 -5.563 -45.461 1 .00 18.54 G ATOM 3684 C VAL C 83-7.663 -4.861 -43.506 1.00 20.82 C

ATOM 3685 0 VAL C 83 -8.078-4.812 -42.353 1.00 22.46 0

ATOM 3686 N PRO C 84-6.422-4.479 -43.831 1 00 20.66 N

ATOM 3687 CD PRO C 84 -5.780-4.609-45.157 1.00 18.75 C

ATOM 3688 CA PRO C 84 -5.528 -3.891 -42.836 1.00 19.93 C

ATOM 3689 CB PRO C 84 -4.162 -3.941 -43.513 1.00 20.97 C

ATOM 3690 C6 PRO C 84-4.482-3.876 -44.994 1.00 19.74 C

ATOM 3691 C PRO C 84 -5.951 -2.462 -42.543 1.00 21.86 C

ATOM 3692 0 PRO C 84 -6.254-1.699 -43.462 1.00 20.40 0

 I

ATOM 3693 N ILE C 85 -5.966 -2.104 -41.263 1.00 21.99 N

ATOM 3694 GA ILE C 85 -6.218 -0.734 -40.860 1.00 21.26 C

ATOM 3695 CB ILE C 85 -6.966 1 0.693 -39.514 1.00 21.02

ATOM 3696 CG2 ILE C 85-7.105 0.738 -39.036 1.00 15.87 C

ATOM 3697 CG1 ILE C 85 -8.344 -1.336 -39.681 1.00 20.34 C

ATOM 3698 CD1 ILE C 85-9.212 -1.277 -38.437 1.00 26.00 C

ATOM 3699 C ILE C 85 -4.904 0.035 -40.752 1.0020.90 C

ATOM 3700 0 ILE C 85 -4.003-0.351 -40.020 1 ■ 00 20.64 0

ATOM 3701 N LEU C 86 -4.810 1.133 -41.482 1.00 21.14 N

ATOM 3702 CA LEU C 86-3.520 1.697 -41.816 1.0024.95 C

ATOM 3703 CB LEU C 86 -3.666 2.866 -42.787 1.00 25.07 C

ATOM 3704 CG LEU C 86-3.400 2.370 -44.205 1.00 22.90 C

ATOM 3705 CD1 LEU C 86 -3.579 3.490 -45.193 1.0022.96 C

ATOM 3706 CD2 LEU C 86 1.796 -44.266 1.00 21.80 C

ATOM 3707 C LEU C 86-2.618 2.115 -40.682 1.00 27.31 G

ATOM 3708 0 LEU C 86 -3.055 2.526-39.602 1.00 26.21 0

ATOM 3709 N AR6 C 87-1.334 2.060 -41.016 1.00 29.28 N

ATOM 3710 CA ARG C 87-0 267 1.672 -40.124 1 00 29.03 C

ATOM 3711 CB ARG c 87-0.151 2.668 -38.981 1.0031.94 C

ATOM 3712 CG ARG c 87 0.506 3.960 -39.453 1.00 33.11 C

ATOM 3713 CD ARG c 87 1.273 4.626 -38.337 1.00 31.52 C

ATOM 3714 NE ARG c 87 2.700 4.642 -38.601 1.0024.59 N

ATOM 3715 CZ ARG c 87 3.625 4.728 -37.654 1.00 28.52 C

ATOM 3716 NH1 ARG c 87 3.270 4.795 -36.376 1.00 25.54 N

ATOM 3717 NH2 ARG c 87 4.906 4.779-37.990 1.0030.55 N

ATOM 3718 C ARG c 87 -0.412 0.245 -39.620 1.00 26.41 C

ATOM 3719 0 ARG c 87 -0.269-0.699 -40.399 1.00 26.64 0 ATOM 3720 N ALA C 88 -0.701 0.083-38.336 1.00 23.53 N

ATOM 3721 CA ALA G 88 -0.331-1.139-37.653 1. 00 21.34 C

ATOM 3722 CB ALA C 88 -0.761-1.069-36.209 1. 00 21.59 C

ATOM 3723 C ALA C 88 -0.882 -2.404 -38.325 1. 00 23.73 C

ATOM 3724 0 ALA C 88-0.212 -3.437 -38.340 1. 00 25.01 0

ATOM 3725 N GLY C 89-2.082 -2.326 -38.897 1.00 22.35 N

ATOM 3726 CA GLY C 89 -2.622 -3.464-39. 628 1. 00 23.34 C

ATOM 3727 C GLY C 89 -1.695 -4.064 -40. 686 1. 00 22.86 C

ATOM 3728 0 GLY C 89 -1.669-5.274 -40. 878 1. 00 23.87 0

ATOM 3729 N LEU C 90-0.930-3.229-41. 376 1. 00 22.86 N

ATOM 3730 CA LEU C 90 -0.043 -3.711 -42. 434 1. 00 23.57 C

ATOM 3731 CB LEU C 90 0.792-2.568-43. 006 1. 00 21.55 C

ATOM 3732 CG LEU c 90 0.048 -1.533 -43. 844 1 00 25.12 C

ATOM 3733 CD1 LEU c 90 1.020 -0.450 -44. 266 1. 00 24.95 C

ATOM 3734 CD2 LEU c 90-0.579 -2.191-45. 061 1. 00 24.48 C

ATOM 3735 C LEU c 90 0.895 -4.786 -41. 914 1. 00 22.23 C

ATOM 3736 0 LEU c 90 1.305 -5.664-42. 658 1. 00 24.66 0

ATOM 3737 N GLY c 91 1.225 —4.710 -40. 632 1., 00 21.67 N

ATOM 3738 CA GLY c 91 2.189 -5.628 -40. 055 1., 00 22.09 C

ATOM 3739 C GLY c 91 1.657 -7.024 -39. 805 1.00 23.05 C

ATOM 3740 0 GLY c 91 2.415-7.929 -39. 449 1., 00 25.46 0

ATOM 3741 N MET c 92 0.353-7.202 -39. 976 1., 00 21.48 N

ATOM 3742 CA MET c 92 -0.259 -8.514 -39.849 1., 00 20.67 C

ATOM 3743 CB MET c 92 -1.514 -8.433 -38. 977 1. .00 20.56 C

ATOM 3744 CG MET c 92 -1.230 -8.329 -37. 498 1. .00 22.15 C

ATOM 3745 SD MET c 92 -2.663-7.823-36. 560 1, .00 27.11 S

ATOM 3746 CE MET c 92 -3.677-9.330-36. 663 1, .00 25.33 C

ATOM 3747 C MET c 92 -0.627-9.043 -41. 229 1, .00 22.66 C

ATOM 3748 0 MET c 92 -0.981 -10.213-41. 376 1, .00 22.52 0

ATOM 3749 N MET c 93 -0.532-8.179 -42. 240 1, .00 23.03 N

ATOM 3750 CA MET c 93 -1.124-8.475 -43. 539 1, .00 24.67 C

ATOM 3751 CB MET c 93 -1.026 -7.263 One 44. 480 1 .00 24.72 C

ATOM 3752 CG MET c 93 -1.910 -7.384 -45. 723 1 ■ 00 25.93 C

ATOM 3753 SD MET c 93 -1.728 -6.006-46. 895 1 • 00 32.45 S

ATOM 3754 CE MET c 93 0.003 -5.597 -46. 675 1 • 00 28.34 C

ATOM 3755 C MET c 93 -0.513 -9.696 -44. 211 1 ■ 00 23.09 C ATOM 3756 0 MET C 93 -1.244 -10.535 -44.736 1.00 23.91 0

ATOM 3757 N ASP C 94 0.815-9.805 -44.188 1. 00 23.60 Ν

ATOM 3758 CA ASP C 94 1.500 -10.922 -44.842 1.00 24.31 C

ATOM 3759 CB ASP G 94 3.023 -10.771 -44.747 1. 00 22.61 C

ATOM 3760 CG ASP C 94 3.574-9.747 -45.726 1. 00 26.40 C

ATOM 3761 0D1 ASP C 94 2.835-9.355-46.654 1.00 25.09 0

ATOM 3762 0D2 ASP C 94 4.748 -9.337-45. 564 1. 00 26.38 0

ATOM 3763 C ASP C 94 1.098 -12.254 —44. 213 1. 00 25.29 C

ATOM 3764 0 ASP C 94 1.037 -13.282 --44. 893 1. 00 25.50 0

ATOM 3765 N GLY C 95 0.830 -12. 226 -42. 913 1. 00 24.00 Ν

ATOM 3766 CA 6LY C 95 0.532 -13. 449 -42. 198 1. 00 26.00 C

ATOM 3767 C GLY C 95 -0.812 -13. 98.4 -42. 640 1. 00 27.41 C

ATOM 3768 0 GLY C 95 -1 000 -15 200 -42.744 1.00 27.95 0

ATOM 3769 N VAL C 96 -1.743 -13. 080 -42. 924 1. 00 25.41 Ν

ATOM 3770 CA VAL C 96-3.045 -13. 495 -43. 435 1. 00 25.35 C

ATOM 3771 CB VAL C 96 -4.050 1 12, 323-43. 474 1., 00 24.50 C

ATOM 3772 CG1 VAL C 96 -5.322 -12. 756 -44. 184 1., 00 23.33 G

ATOM 3773 CG2 VAL C 96 -4.355-11. 858 -42. 063 1. 00 25.84 C

ATOM 3774 C VAL C 96 -2.920 -14. 060 -44. 839 1., 00 24.38 C

ATOM 3775 0 VAL C 96 -3.534 -15. 077 -45. 158 1., 00 22.65 0

ATOM 3776 N LEU C 97 -2.124 -13. 397-45. 674 1., 00 25.11 Ν

ATOM 3777 CA LEU C 97 -1.998 -13. 774 -47. 082 1. .00 25.99 C

ATOM 3778 CB LEU G 97 -1.295 -12. 658-47.868 1. .00 21.71 C

ATOM 3779 CG LEU C 97 -2.039 -11. 314 -47. 913 1. .00 23.68 C

ATOM 3780 CD1 LEU C 97 -1.112-10. 222 -48. 448 1. .00 19.17 C

ATOM 3781 CD2 LEU C 97 -3.302-11. 449 -48. 776 1, .00 18.82 C

ATOM 3782 C LEU C 97-1.243 -15. 097 -47. 265 1. .00 27.34 C

ATOM 3783 0 LEU C 97 -1.470 -15. 815-48. 242 1. .00 27.28 0

ATOM 3784 N GLU C 98 -0.350 -15. 423 -46. 333 1, .00 28.39 Ν

ATOM 3785 CA GLU C 98 0.288 -16. 741 -46. 342 1, .00 31.36 G

ATOM 3786 CB GLU C 98 1.045 -16. 996 One 45. 033 1, .00 36.73 C

ATOM 3787 CG GLU C 98 2.258 -16. 120 -44. 781 1 .00 42.53 G

ATOM 3788 CD GLU c 98 2.953 -16. 465 -43. 463 1 .00 47.85 C

ATOM 3789 0E1 GLU c 98 3.633-15. 577 -42. 891 1, .00 50.38 0

ATOM 3790 0E2 GLU c 98 2.818 -17. 624 -42. 998 1 ∎ 00 46.16 0

ATOM 3791 C GLU c 98-0 793 1 17. 813 -46. 493 1 • 00 29.34 C ATOM 3792 0 GLU C 98-0.652-18.743 -47.284 1.00 30.95 0

ATOM 3793 N ASN C 99 —1.871 -17.663 -45.727 1. 00 26.45 N

ATOM 3794 CA ASN C 99-2.952 -18.645-45.678 1. 00 24.22 C

ATOM 3795 CB ASN G 99 -3.772 -18.453-44.402 1. 00 20.56 C

ATOM 3796 CG ASN C 99-3.001-18.842-43.161 1. 00 22.65 C

ATOM 3797 0D1 ASN C 99 -3.065 -19.987 -42.719 1. 00 23.58 0

ATOM 3798 ND2 ASN C 99 -2.252 -17.896 -42.598 1. 00 19.92 N

ATOM 3799 C ASN C 99 -3.877 -18.590 -46.884 1.00 25.68 C

ATOM 3800 0 ASN C 99 -4.383 -19.624 -47.334 1.00 24.53 0

ATOM 3801 N VAL C 100 -4.115 -17.380-47.391 1. 00 24.46 N

ATOM 3802 CA VAL C 100 -5.048 -17.181 -48.498 1. 00 24.57 C

ATOM 3803 .CB VAL C 100 -6.415-16.658 -47.990 1.00 27.45 C

ATOM 3804 CG1 VAL C 100-7.398 -16.556-49.143 1. 00 29.53. C

ATOM 3805 CG2 VAL C 100 -6.971 -17.587-46.925 1.00 27.76 G

ATOM 3806 C VAL C ioo-4.442-16.170 -49.472 1. 00 24.78 C

ATOM 3807 0 VAL C 100 -4.880 -15.026 -49.558 1. 00 22.21 0

ATOM 3808 N PRO C 101 -3.402 -16.591 -50.212 1. 00 25.46 N

ATOM 3809 CD PRO C 101-2.899 -17.975-50.205 1.00 23.98 C

ATOM 3810 CA PRO C 101 -2.592 -15.723 -51.071 1., 00 26.72 C

ATOM 3811 CB PRO C 101-1.444 -16.625 -51.524 1., 00 25.81 C

ATOM 3812 CG PRO C 101 -1.968 1 17.995 -51.384 1. .00 25.88 C

ATOM 3813 C PRO C 101-3.354 -15.132-52.250 1. .00 28.11 C

ATOM 3814 0 PRO C 101-2.824 -14.291 -52.976 1. .00 27.00 0

ATOM 3815 N SER C 102-4.590 -15.579 -52.438 1. .00 28.79 N

ATOM 3816 CA SER C 102 -5.426 -15.084 -53.526 1, .00 31.06 C

ATOM 3817 CB SER C 102 -6.210 -16.239 -54.154 1, .00 32.18 C

ATOM 3818 OG SER C 102-5.326 -17.185 -54.733 1. .00 38.18 0

ATOM 3819 C SER C 102-6.400 -14.000 -53.069 1. .00 29.96 C

ATOM 3820 0 SER c 102 -7.108 -13.420 -53.887 1. .00 30.15 0

ATOM 3821 N ALA c 103 -6.437-13.736 -51.764 1, .00 28.37 N

ATOM 3822 CA ALA c 103 -7.383 -12.775 -51.202 1, .00 27.48 C

ATOM 3823 CB ALA c 103 -7.254-12.727-49.683 1, .00 24.82 C

ATOM 3824 C ALA c 103 -7.160 -11.382 -51.770 1, .00 27.08 C

ATOM 3825 0 ALA c 103 -6.036 -10.999 -52.086 1 .00 26.01 0

ATOM 3826 N AR6 c 104 -8.248 -10.629 -51.886 1 .00 27.36 N

ATOM 3827 CA AR6 c 104 -8.170 --9.205 1 52.163 1 ■ 00 24.55 C ATOM 3828 CB ARG C 104 -9.559 -8.624 -52.382 1.00 27.39 C

ATOM 3829 CG A G C 104 -10. 075 -8.719 -53.793 1.00 31.79 C

ATOM 3830 CD ARG C 104 -11. 081-7.599 -54.050 1.00 34.77 C

ATOM 3831 NE ARG C 104-11. 949 -7.390 -52.891 1.00 34.79 N

ATOM 3832 CZ AR6 C 104 -13. 063 -6.664-52. 909 1. 00 35.51 C

ATOM 3833 NH1 ARG C 104 -13. 790 -6.533 -51. 804 1. 00 35.08 N

ATOM 3834 NH2 ARG C 104 -13. 449 -6.072 -54. 030 1. 00 33.41 N

ATOM 3835 C ARG C 104-7. 537 -8.504-50. 977 1. 00 23.94 C

ATOM 3836 0 ARG C 104-7, 506-9.036 -49. 868 1. 00 22.12 0

ATOM 3837 N ILE C 105 -7. 032 -7.304 -51. 224 1. 00 21.61 N

ATOM 3838 CA ILE C 105-6. 557 -6.452 -50. 162 1. 00 21.64 C

ATOM 3839 CB ILE C 105 -5. 032 -6.286 -50. 242 1. 00 23.38 C

ATOM 3840 C62 ILE C 105 -4. 535 -5.429 -49. 096 1. 00 21.02 C

ATOM 3841 C61 ILE C 105-4.369-7.669 -50. 194 1. 00 25.64 C

ATOM 3842 CD1 ILE C 105 -2. 853 -7.627 -50. 232 1. 00 27.03 C

ATOM 3843 C ILE C 105-7. 236 -5.101 -50. 301 1.00 22.16 C

ATOM 3844 0 ILE C 105-7. 164-4.469 -51. 357 1. 00 23.34 0

ATOM 3845 N SER C 106 -7. 922 -4.671 -49. 243 1. 00 21.82 N

ATOM 3846 CA SER C 106 -8. 498 -3.334 -49. 204 1. 00 21.06 C

ATOM 3847 CB SER C 106-10. 024 -3.395 -49. 176 1. 00 24.14 C

ATOM 3848 OG SER C 106 -10. 533-3.932 -50. 384 1., 00 30.32 0

ATOM 3849 G SER C 106-8. 000 -2.627 -47. 962 1., 00 21.73 C

ATOM 3850 0 SER C 106-8. 523 -2.832-46 867 1. .00 21.65 0

ATOM 3851 N VAL C 107 -6. 980 -1.800 -48. 140 1., 00 20.86 N

ATOM 3852 CA VAL c 107-6. 440 -1.015 -47. 048 1., 00 21.20 C

ATOM 3853 CB VAL c 107 -5. 130 -0.329 -47. 483 1., 00 21.47 C

ATOM 3854 CG1 VAL c 107 -4.660 0.614 -46. 409 1., 00 23.78 C

ATOM 3855 CG2 VAL c 107 -4. 059 -1.380 -47. 767 1. .00 21.68 C

ATOM 3856 C VAL c 107 -7. 464 0.037 -46. 618 1. .00 21.35 C

ATOM 3857 0 VAL c 107 -8. 109 0.668 -47. 449 1. .00 21.49 0

ATOM 3858 N VAL c 108 -7., 620 0.206 -45. 315 1. .00 21.97 N

ATOM 3859 CA VAL c 108-8., 502 1.226 -44. 772 1, .00 21.77 C

ATOM 3860 CB VAL c 108 -9. 630 0.604 -43. 931 1, .00 20.25 C

ATOM 3861 CG1 VAL c 108 -10., 410 1.705 -43., 195 1 .00 19.95 C

ATOM 3862 C62 VAL c 108 -10., 572 -0.182 -44., 835 1 .00 23.16 C

ATOM 3863 C VAL c 108 -7., 700 2.163 -43., 892 1 .00 24.27 C 9ST

 0 L8 83 00 L SOS ε-ε89 9- Zii 0 0 668 W01V

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0 09 Z 00 L SLO 6ε- 8 ^ 6 ΌΙ 120 '0 卜 III 0 Human 0 0 8888 WOIV

0 S9'Lfr 00 L 089 6ε- 690 'U L96' 8- III 0 M Human 丄 0 Ζ.88 W01V

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〇 L0 OS 00 L 893 9fr- 868 '01 2t-9 "6- III 0 y People ZO 988C WOIV

0 9Z "8fr 00 L fr99 ■ Sfr-098 ΌΙ C8Z. '01 · —III 0 y person 丄 330 88ε WOIV

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0 9V £ 00 L LL6 29ε "IL8 '6- III D M People ao 6LS2 IN01V

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0 89 00 .L LQO 'Sfr— OZL'l 068.9— 80 L 0 1VA 0 8S WOIV

SS.lZ, 0 / .00Zdf / X3d 0 £ Z.S0 / 600Z OAV 1755

ATOM 3900 N ASN C 113 -8.749 14.361 -38.173 1. 00 54.15 N

ATOM 3901 CA ASN c 113 -8.729 15.818 -38.178 1. 00 56.01 C

ATOM 3902 CB ASN c 113 -9.417 16.335-39.449 1. 00 57.57 C

ATOM 3903 CG ASN c 113 -9.168 17.812 -39.697 1.00 58.80 C

ATOM 3904 0D1 ASN c 113 -8.496 18.485 -38. 916 1.00 59.32 0

ATOM 3905 ND2 ASN c 113 -9.716 18.324-40. 796 1. 00 59.50 N

ATOM 3906 C ASN c 113 -9.465 16.316 -36.936 1. 00 57.02 C

ATOM 3907 0 ASN c 113 -10.479 15.747 -36. 530 1. 00 57.04 0

ATOM 3908 N GLU c 114 -8.946 17.376 -36. 331 1. 00 57.67 N

ATOM 3909 CA GLU c 114 -9.518 17.912 -35. 101 1. 00 58.41 C

ATOM 3910 CB GLU G 114 -8.554 18.927 -34. 488 1. 00 58.83 C

ATOM 3911 CG GLU C 114 -7.086 18.598 -34. 732 1. 00 60.90 C

ATOM 3912 CD GLU c 114 -6.658 18.848 -36. 175 1. 00 62.10 C

ATOM 3913 0E1 GLU c 114 -6.631 20.028-36. 595 1. 00 63.06 0

ATOM 3914 0E2 GLU c 114 -6.349 17.868 -36. 888 1. 00 60.87 0

ATOM 3915 C GLU c 114-10.863 18.580 -35. 386 1. 00 58.57 C

ATOM 3916 0 GLU c 114 -11.810 18.461 -34. 604 1. 00 57.62 0

ATOM 3917 N GLU c 115 -10.938 19.272 -36. 518 1. 00 58.18 N

ATOM 3918 CA GLU c 115 -12.119 20.042-36. 880 1., 00 57.99 C

ATOM 3919 CB GLU c 115 -11.746 21.111 One 37. 910 1. .00 60.01 C

ATOM 3920 CG GLU c 115 -10.586 20.740 -38. 809 1., 00 61.65 C

ATOM 3921 CD GLU c 115 -9.485-38. 775 1., 00 64.00 C

ATOM 3922 0E1 GLU c 115-9.283 22.472 -39.801 1., 00 64.14 0

ATOM 3923 0E2 GLU c 115 -8.823 21.915 -37. 721 1. .00 64.82 0

ATOM 3924 C GLU c 115 -13.270 19.198 -37. 415 1. .00 56.87 C

ATOM 3925 0 GLU c 115 -14.334 19.726 -37. 745 1. .00 54.94 0

ATOM 3926 N THR c 116 -13.057 17.889 -37. 508 1, .00 56.42 N

ATOM 3927 CA THR c 116 -14.125 16.976 -37. 903 1, .00 56.17 C

ATOM 3928 CB THR c 116 -13.644 15.995 -39. 001 1 .00 55.65 C

ATOM 3929 061 THR c 116 -14.716 15.113 -39. 355 1 .00 57.01 0

ATOM 3930 CG2 THR c 116 -12.464 15.172 -38. 512 1 .00 56.03 C

ATOM 3931 C THR c 116 -14.631 16.191 -36.690 1, 00 56.08 C

ATOM 3932 0 THR c 116 -15.799 15.801 -36. 626 1 .00 54.81 0

ATOM 3933 N LEU c 117 -13.742 15.970 -35., 725 1 .00 57.42 N

ATOM 3934 CA LEU G 117 -14.127 15.380 -34., 449 1 .00 58.43 C

ATOM 3935 CB LEU G 117 -15.095 16.313 One 33..722 1 .00 59.70 C ATOM 3936 C6 LEU C 117 -14.606 17.719-33, 370 1.00 59.44 C

ATOM 3937 CD1 LEU C 117 -15.778 18.558 -32.882 1.00 60.11 C

ATOM 3938 CD2 LEU C 117 -13.528 17.626 -32.302 1. 00 61.07 C

ATOM 3939 C LEU C 117-14.790 14.022 -34.647 1. 00 58.32 C

ATOM 3940 0 LEU C 117 -15.780 13.709 -33.983 1.00 58.11 0

ATOM 3941 N GLU C 118 -14.251 13.219 -35.561 1. 00 58.12 N

ATOM 3942 CA GLU C 118 -14.942 12.011-35. 987 1. 00 57.75 C

ATOM 3943 CB GLU G 118 -14.801 11.826-37. 497 1. 00 59.97 C

ATOM 3944 CG GLU C 118 -16,036 11.214-38. 147 1. 00 62.52 C

ATOM 3945 CD GLU C 118 -17.108 12.249 -38. 438 1. 00 62.94 C

ATOM 3946 0E1 GLU C 118 -16.869 13.447 -38. 164 1. 00 62.82 0

ATOM 3947 0E2 GLU C 118 -18.186 11.863-38. 943 1. 00 62.16 0

ATOM 3948 C GLU C 118 -14.487 10.759 -35. 232 1. 00 55.52 C

ATOM 3949 0 GLU C 118 -15.200 10.302 -34. 339 1. 00 56.36 0

ATOM 3950 N PRO C 119 -13.314 10.168 -35. 567 1. 00 53.12 N

ATOM 3951 CD PRO C 119-12.618 9.600 -34. 398 1. 00 52.07 C

ATOM 3952 CA PRO C 119 -12.450 10.125 -36.762 1. 00 48.45 C

ATOM 3953 CB PRO C 119 -11.162 9.480-36. 251 1. 00 50.16 C

ATOM 3954 CG PRO C 119 9.706 -34. 783 1., 00 50.56 C

ATOM 3955 C PRO C 119 -13.060 9.315 -37. 913 1., 00 44.31 C

ATOM 3956 0 PRO C 119 -14.009 8.560 -37. 716 1., 00 43.27 0

ATOM 3957 N VAL C 120 -12.503 9.465-39. 110 1., 00 40.49 N

ATOM 3958 CA VAL c 120 -13.163 8.985 -40.326 1. .00 39.02 C

ATOM 3959 CB VAL c 120 -13.302 10.127 -41. 358 1. .00 39.32 C

ATOM 3960 CG1 VAL c 120 -14.056 9.637 -42. 574 1. .00 38.96 C

ATOM 3961 CG2 VAL c 120 -14.001 11.318 -40. 734 1. .00 40.64 C

ATOM 3962 C VAL c 120-12.428 7.827 -41. 020 1, .00 36.70 C

ATOM 3963 0 VAL c 120 -11.290 7.974 -41. 453 1, .00 35.65 0

ATOM 3964 N PRO c 121 -13.086 6.665 -41. 152 1, .00 35.27 N

ATOM 3965 CD PRO c 121 -14.377 6.315 -40. 532 1, .00 34.91 C

ATOM 3966 CA PRO c 121 -12.559 5.562 -41. 966 1 .00 32.29 C

ATOM 3967 CB PRO c 121 -13.424 4.378 -41. 558 1, .00 31.81 C

ATOM 3968 CG PRO G 121 -14.726 4.998 -41. 187 1, .00 34.47 C

ATOM 3969 C PRO c 121 -12.671 5.851 -43. 468 1, .00 30.58 C

ATOM 3970 0 PRO c 121 -13.663 6.411 -43. 931 1 .00 31.11 0

ATOM 3971 N TYR c 122 -11.658 5.462 -44. 230 1 • 00 28.08 N 621

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0 00 'L 310 Ό9- ηι ε 902 9- 0 ΝΊ9 80 966ε 隱 V

0 06 ZS 00 I 03 L OS-196 ε 8fr 'L- m 0 N1D νο 566 W01V

N 08 οε 00 l L6Sεε C89 '8- 0 N19 Ν P66S W01V

0 'οε 00 l OS' 6fr— 1.8L '9 698 6-ZZl 0 3Hd 0 S66S W01V

0 90 "ΐε 00 Ί 9S I" 6f- ζο 889 '6- £ Zl 0 3Hd 0 3668 WOIV

0 οι 'ζε 00' I. 19Z '8fr-Ζ51 Ό- £ Zl 0 3Hd ζο 166 £ W01V

0 90 2 00 L 38ε "8fr- 9 £ 1 'L UO'SL- SZl 0 3Hd 230 066 WOIV

0 00 989 09- 09 'ει- ΖΖΪ 0 3Hd L30 686Ε WO 丄 V

0 ε8 οε 00 'I L L -8fr- QU' Ζ 9 ん-Zl 0 3Hd 200 8868 W01V

0 00 'L 606 8t δΟί-Ό ηνζι- ZZl 0 3Hd ιαο /.86 賺 V

0 9L 'οε 00 ■ L 8tO "6fr-6εζ.Ί τ L ζν- ZZl 0 3Hd DO 9868 1N01V

0 06 SZ 00 Ί 2½ '6fr-ILL U- Ul 0 3Hd ao 9869 Hidden V

0 00 'I' 8fr-. OH · ε Ζ.08 '01-ZZi 0 3Hd νο 86ε WO 丄 V

N ΖΖ 6Ζ .00 ■ L 329 'N-060 US'Ll- ZZY ○ 3Hd

0 L6'93 00 i S06 "Sfr-o-9S6" 6-ZZl 0 y People 0 286ε IN01V

0 t-9 '82 00 Ί 08S 966 ZL6 'Ot-ZZl 0 y Human 0 L86S WO V

0 00 L 66 'η- 619' Ζ. 99 '9- ZZl 0 Μλΐ ΗΟ 0868 W01V

0 96 '83 00 -L vn 'st-- VL 986 "9- ZZl 0 y people ζο 6 6ε IN01V

0 38 "92 00 ε εο 600 · IfS 'L-ZZl 0 iU 丄 330 8 6ε W01V

0 S9'LZ 00 Ί £ '9fr-LS8'9 L69 8-ZZl 0 Μλΐ ZQ LL6S WOiV

0 61 6Ζ 00 'I 961' η- S6 'L-ZZl 0 y Person L30 9Ζ.68 匪 V

0 VZ '9Ζ 00 "I 119' η-99'L 683 '6- ZZl 0 y Human LGO s 6ε IN01V

0 ZQ'LZ 00 'L ILL' 9fr- ZZl 'L S89' 6- ZZl 0 y People 90 WOIV

0 W92 00 L 90 L "9fr- tS6'9 03 L · \ Υ- ZZl 0 ϋ 人 丄 ao εζ, θε IN01V

0 18'LZ 00 ■ L εζ.9 "Sfr-n 09 'S LZL'U- ZZl 0 Μλΐ νο ZL62 WOIV

SSLlL0 / L00Zdr / 13d

0C∑.S0 / 600Z OJX ATOM 4008 CE LYS C 125 -9.545 1.564 -58.082 1.0044.47 C

ATOM 4009 NZ LYS c 125 -9.041 0.658 -59.155 1. 00 43.42 N

ATOM 4010 C LYS c 125 -10.764 2.233 -53.028 1. 00 38.73 C

ATOM 4011 0 LYS c 125-10.819 1.084 -52.596 1. 00 38.17 0

ATOM 4012 N LEU c 126 -11. 846 2.927 -53.362 1. 00 39.62 N

ATOM 4013 CA LEU c 126 -13.172 2.426-53.039 1. 00 42.71 C

ATOM 4014 CB LEU c 126 -14.211 3.561 -53.137 1. 00 44.58 C

ATOM 4015 CG LEU c 126 -14.812 4.092 -54. 445 1. 00 47.25 C

ATOM 4016 CD1 LEU c 126 -13.836 3.914 -55. 610 1. 00 49.72 C

ATOM 4017 CD2 LEU c 126 -16.121 3.366 -54. 714 1.00 47.87 c

ATOM 4018 C LEU c 126 -13.547 1.250-53. 934 1. 00 42.61 c

ATOM 4019, 0 LEU c 126-13.242 1.240 -55. 125 1. 00 42.48 0

ATOM 4020 N VAL c 127-14. 184 0.246 -53. 338 1. 00 43.18 ―

ATOM 4021 CA VAL c 127 -14. 549 -0.978-54. 045 1. 00 45.17 G

ATOM 4022 CB VAL c 127 -13. 475 -2.083 -53. 857 1. 00 46.21 C

ATOM 4023 CG1 VAL c 127 -12. 193 -1.697 -54. 575 1. 00 45.37 C

ATOM 4024 CG2 VAL c 127 -13. 205 -2.292 -52. 373 1. 00 45.17 C

ATOM 4025 C VAL c 127 -15. 886 -1.520 -53. 539 1., 00 46.19 C

ATOM 4026 0 VAL c 127 -16. 413-1.048 -52. 530 1. 00 48.24 o 0

ATOM 4027 N SER c 128 -16. 434 -2.508 -54. 239 1. 00 45.77 N

ATOM 4028 CA SER c 128 -17. 650 -3.168-53. 778 1., 00 47.29 C

ATOM 4029 CB SER c 128 -18. 596 -3.435 -54. 950 1., 00 46.84 C

ATOM 4030 OG SER c 128 -18. 061 -4.427 -55.810 1., 00 51.26 0

ATOM 4031 C SER c 128 -17. 315 -4.488 -53. 091 1. .00 46.15 C

ATOM 4032 0 SER c 128 -16. 447 -5.232 -53. 547 1. .00 43.88 0

ATOM 4033 N ASN c 129 -18. 015 -4.767 -51. 996 1. .00 46.24 N

ATOM 4034 CA ASN c 129 -17. 866-6.025-51. 278 1. .00 47.01 C

ATOM 4035 CB ASN c 129 -17. 686 -5.766 -49. 782 1, .00 45.15 C

ATOM 4036 CG ASN c 129 1 16. 515 -4.854 -49. 483 1. .00 44.91 C

ATOM 4037 0D1 ASN c 129 -15. 467 -4.933 -50. 126 1. .00 44.23 0

ATOM 4038 ND2 ASN c 129 -16. 688 -3.980 -48. 500 1, .00 45.41 N

ATOM 4039 C ASN c 129 -19. 084 -6.918 -51. 480 1, .00 49.12 C

ATOM 4040 0 ASN c 129 -19. 366 -7.784 -50. 650 1 .00 51.00 0

ATOM 4041 N ILE c 130 -19. 814 -6.707 -52. 570 1 .00 49.98 N

ATOM 4042 CA ILE c 130 -21. 022 -7.490 -52. 823 1 .00 C

ATOM 4043 CB ILE c 130 -21. 885-6.866 -53. 955 1 • 00 C ATOM 4044 CG2 ILE C 130-23.101 -7.744-54.227 1.00 50.07 C

ATOM 4045 GG1 ILE c 130 -22.344 -5.461-53.556 1. 00 52.53 C

ATOM 4046 CD1 ILE c 130-23.324 -5.441 -52.400 1. 00 53.13 C

ATOM 4047 C ILE c 130-20.693-8.937 -53.197 1. 00 50.40 C

ATOM 4048 0 ILE c 130 -21.397 -9.857 -52. 791 1. 00 51.03 0

ATOM 4049 N ASP c 131 -19.622 -9.137-53. 964 1. 00 49.68 N

ATOM 4050 CA ASP c 131 -19.219 -10.484 -54. 375 1. 00 49.36 C

ATOM 4051 CB ASP c 131 -18.518 -10.446 -55. 744 1. 00 C

ATOM 4052 C6 ASP c 131 -19.381-9.820 -56. 836 1. 00 53.59 c

ATOM 4053 0D1 ASP c 131 -20.588 -10.141 -56. 918 1. 00 54.44 0

ATOM 4054 0D2 ASP c 131 -18.847 -9.002 -57. 619 1. 00 54.26 0

ATOM 4055 C ASP c 131 -18.280 -11.115 -53. 344 1. 00 47.70 G

ATOM 4056 0 ASP c 131 -17.701 -12.173 -53. 578 1. 00 48.34 0

ATOM 4057 N GLU c 132 -18.133 -10.456-52. 203 1. 00 45.31 N

ATOM 4058 CA GLU c 132 -17.164 -10.864 -51. 198 1. 00 43.68 C

ATOM 4059 CB GLU c 132-16.656 -9.622 -50. 468 1. 00 42.10 C

ATOM 4060 CG GLU c 132 -15.959 -9.892-49. 160 1. 00 39.73 C

ATOM 4061 CD GLU c 132 -15.837-8.636 -48. 324 1., 00 40.15 C

ATOM 4062 0E1 GLU c 132 -16.680 -8.445 -47. 419 1. .00 39.20o t 0

ATOM 4063 0E2 GLU c 132 -14.904 -7.840 -48. 574 1., 00 38.12 0

ATOM 4064 C GLU c 132 -17.785 -11.838-50. 203 1., 00 42.80 C

ATOM 4065 0 GLU c 132 -18.812 -11.542 -49. 607 1., 00 44.48 0

ATOM 4066 N ARG c 133 -17.163-12.995 -50.020 1. .00 N

ATOM 4067 CA ARG c 133 -17.704 -14.003 -49. 114 1. .00 42.01 c

ATOM 4068 CB ARG c 133 -17.163 -15.392-49. 470 1, .00 45.71 c

ATOM 4069 CG ARG c 133 -17.721 -15.964-50. 769 1. .00 c

ATOM 4070 CD ARG c 133 -18.485 -17.268 -50. 541 1, .00 54.29 c

ATOM 4071 NE ARG c 133 -17.719 -18.442 -50. 956 1, .00 58.21 N

ATOM 4072 CZ ARG c 133 -18.181 -19.690 -50. 912 1 .00 60.24 c

ATOM 4073 NH1 ARG c 133 -19.410 -19.928 -50. 468 1, .00 59.85 N

ATOM 4074 NH2 ARG c 133 -17.416 -20.699-51. 313 1, .00. 60.31 N

ATOM 4075 C ARG c 133 -17.378 -13.689 -47. 659 1 .00 40.23 C

ATOM 4076 0 ARG c 133 -18.186 -13.928 -46. 765 1, .00 39.39 0

ATOM 4077 N MET c 134 -16.187-13.156-47. 423 1 .00 38.08 N

ATOM 4078 CA MET c 134 -15.798 -12.767 -46. 076 1 .00 36.79 C

ATOM 4079 CB MET c 134 -15.314 -13.979 -45., 280 1 .00 38.38 C ATOM 4080 CG MET C 134 1 14.915-13.639 -43.859 1.0041.23 C

ATOM 4081 SD MET C 134 -14.380 -15.079 -42.933 1.0049.97 S

ATOM 4082 CE MET C 134 -13.450 -15.944 -44.192 1.0046.67 C

ATOM 4083 C MET C 134-14.702 -11.717 —46.091 1.0035.00 C

ATOM 4084 0 MET C 134 -13.872 -11.675 -47.002 1.00 34.91 0

ATOM 4085 N ALA C 135 -14.701 -10.877 -45.065 1.00 30.95 N

ATOM 4086 CA ALA C 135 -13.689-9.852 -44.924 1.00 28.39 C

ATOM 4087 CB ALA C 135 -14.338 -8.483-44.956 1.0025.94 C

ATOM 4088 C ALA C 135-12.980 -10.070 -43.600 1.00 28.09 C

ATOM 4089 0 ALA C 135 -13.628 -10.238 -42.568 1.00 30.20 0

ATOM 4090 N LEU C 136 i 1.651 -10.077-43.634 1.00 25.68 N

ATOM 4091 CA. LEU C 13 €-10.858 -10.239 -42.427 1.00 24.79 C

ATOM 4092 CB LEU C 136-9.878 -11.408 -42.587 1.00 24.56 C

ATOM 4093 CG LEU C 136 -10.446 -12.835 -42.527 1.00 28.70 C

ATOM 4094 CD1 LEU C 136 -11.722 -12.929 -43.342 1.00 29.04 C

ATOM 4095 CD2 LEU C 136 -9.420 -13.822 -43.062 1.00 26.67 C

ATOM 4096 C LEU C 136 -10.089 -8.950 -42.150 1.00 24.24 C

ATOM 4097 0 LEU C 136 -9.014 -8.730-42.705 1.00 23.14 0

ATOM 4098 N ILE C 137 -10.639 -8.091 -41.302 1.00 22.55 N

ATOM 4099 CA ILE C 137-9.954 -6.850 -41.011 1.00 23.48 C

ATOM 4100 CB ILE C 137 -10.952 -5.697 -40.611 1.0024.13 C

ATOM 4101 CG2 ILE c 137 -12.377-6.124 -40.828 1.00 23.20 C

ATOM 4102 CG1 ILE c 137 -10.737 -5.274 -39.168 1.00 21.68 C

ATOM 4103 CD1 ILE c 137-9.535 -4.404-38.980 1.00 22.84 C

ATOM 4104 C ILE c 137 -8.935 -7.118 -39.904 1.00 23.01 C

ATOM 4105 0 ILE c 137 -9.235 -7.760 -38.895 1.00 23.43 0

ATOM 4106 N VAL c 138 -7.713 -6.650 -40.114 1.00 20.41 N

ATOM 4107 CA VAL c 138 -6.645-6.962 -39.191 1.00 20.93 C

ATOM 4108 CB VAL c 138-5.512 -7.776-39.884 1.00 20.83 C

ATOM 4109 C61 VAL c 138-6.076 -9.064 -40.451 1.00 19.07 C

ATOM 4110 CG2 VAL c 138 -4.873 -6.965 -40.982 1.00 16.89 C

ATOM 4111 C VAL c 138 -6.070-5.697 -38.596 1.00 21.63 C

ATOM 4112 0 VAL c 138 -5.821 -4.722 -39.297 1.00 23.10 0

ATOM 4113 N ASP c 139 -5.872 -5.720 -37.290 1.0022.42 N

ATOM 4114 CA ASP c 139 -5.309 -4.589 -36,585 1.00 24.24 C

ATOM 4115 CB ASP c 139 -6.412 -3.553 -36.322 1.0027.11 C ATOM 4116 C6 ASP C 139 -5.860 -2.178 -36.006 1.00 30.99 C

ATOM 4117 0D1 ASP C 139 -4.642 -1.969 -36. 205 1.00 33.30 0

ATOM 4118 0D2 ASP C 139 -6.641 -1.307 -35. 560 1. 00 34.23 0

ATOM 4119 C ASP C 139-4.738 -5.133-35. 271 1. 00 23.69 C

ATOM 4120 0 ASP C 139 -5.395-5.878 -34.566 1.00 25.94 0

ATOM 4121 N PRO C 1 0 -3.498 -4.774 -34.941 1. 00 22.97 N

ATOM 4122 CD PRO C 140 -2.573 -4.008-35.790 1.00 22.29 C

ATOM 4123 CA PRO C 140 -2.838-5.285-33.736 1. 00 24.30 C

ATOM 4124 CB PRO C 140 -1.477 -4.601 -33.763 1.00 22.57 C

ATOM 4125 CG PRO C 140 -1.237-4.357-35.216 1. 00 24.32 C

ATOM 4126 C PRO C 140 -3.562 00-5.064-32.405 1.00 26.62 C

ATOM 4127 0 PRO C 140 -3.642 -5.980 -31: 582 1. 00 26.02 0

ATOM 4128 N MET C 141 -4.078-3.859 00 -32.179 1.00 26.48 N

ATOM 4129 CA MET C 141 -4.605 -3.517-30. 862 1. 00 27.76 C

ATOM 4130 CB MET C 141 -3.686-2.500 -30. 195 1. 00 25.82 C

ATOM 4131 CG MET C 141 -2.267 -2.984 -30. 060 1., 00 26.13 C

ATOM 4132 SD MET C 141 -1.283 -1.884 -29. 054 1. 00 29.50 S

ATOM 4133 CE MET C 141 -0.256 -29. 822 1., 00 27.22 C

ATOM 4134 C MET C 141 -6.034 -2.982 -30. 879 1. .00 27.58 C

ATOM 4135 0 MET C 141 -6.319 -1.971 -31. 507 1. .00 30.56 0

ATOM 4136 N LEU C 142 -6.922 -3.670 -30. 177 1. .00 27.80 N

ATOM 4137 CA LEU C 142 -8.308-3.242 -30. 029 1. .00 27.58 C

ATOM 4138 CB LEU C 142 -9.232 -4.442 -30. 220 1. .00 28.95 C

ATOM 4139 CG LEU C 142 -10.728 -4.228 -30. 432 1. .00 29.33 C

ATOM 4140 CD1 LEU C 142 -10.970 -3.709-31. 834 1, .00 31.16 C

ATOM 4141 CD2 LEU c 142 -11.465 -5.558-30. 247 1, .00 31.53 C

ATOM 4142 C LEU c 1 2 -8.482 -2.674-28. 618 1 .00 26.62 C

ATOM 4143 0 LEU c 142 -8.820 -3.404-27. 690 1, .00 24.00 0

ATOM 4144 N ALA c 143 -8.237 -1.376 -28. 464 1 .00 26.16 N

ATOM 4145 CA ALA c 143 -8.264 -0.735-27. 155 1 • 00 28.25 C

ATOM 4146 CB ALA c 143 -7.272 0.433 -27. 117 1 ■ 00 27.47 C

ATOM 4147 C ALA c 143 -9.666 -0.249 -26. 816 1 • 00 28.96 C

ATOM 4148 0 ALA c 143-10.276 -0.725-25. 858 1 .00 30.83 0

ATOM 4149 N THR c 144 -10.188 0.682 -27. 606 1 .00 29.60 N

ATOM 4150 CA THR G 144 -11.552 -27. 397 1 .00 29.17 C

ATOM 4151 GB THR c 144 -11.644 2.687 -27. 532 1 .00 29.83 C ffj

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N 9 τζ οο ■ ι ZSL ■ 9ε-SS9 ΈΙ.- 09 L 0 V1V N 98l.fr W01V

0 63 00 ¹ ι / .ε- 06 L Ό LOZ -LI- 6f L 0 311 0 8 W01V

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0 38 οε ΌΟ ■ '1 · S99 οεζ .ο-90 L -Z.L- 6t-L 3 311 Lao WOIV

0 00 'ι 966 ζζ- 818 Ό-989 9L- 6frL 0 311 LDD L8 WOIV

0 63 '92 00 'L 36ε ε- 9EL 0 690' 8 L- 617 L 0 311 390 08 WOIV

0 .SZ οο ■ ι 9ΖΙ νε- ΡΟΖ 0 999 '9L- 6PI 0 311 90 6Z.Lt- WOIV

0 63 3 00 L 96ε θε- L £ .0- 860 -91- 6frL 0 311 VO 8

N 80 '2 00 ■ L L93 "9ε- L69 Ό- εζ.9' l- 6 I 0 311. N LLl ^ WOIV

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0 6 '£ Ζ 00 613 613' ε- 990 291 τι- 〇 yas 0 69 WOIV

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0 S8.LZ 00 ■ L Ζ.82 s-968 "1 989 '6- 0« 3S ao 991V WOIV

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SSZ, T.0 / .00Zdf / X3d TJP2007 / 071755

ATOM 4188 C ALA C 150 -15.503 1.782 -39.189 1.00 24.99 C

ATOM 4189 0 ALA C 150 -16.195 1.999-40.188 1.00 25.69 0

ATOM 4190 N THR C 151 -14.467 0.946 -39.197 1. 00 24.96 N

ATOM 4191 CA THR C 151 -14.097 0.203 -40.400 1.00 24.49 C

ATOM 4192 CB THR C 151 -12.809 -0.637 -40.163 1. 00 25.27 C

ATOM 4193 061 THR C 151 -11.733 0.237 -39.802 1.00 23.26 0

ATOM 4194 C62 THR C 151 -12.418 -1.409 -41.421 1. 00 22.15 C

ATOM 4195 C THR C 151 -15.237 -0.722 -40.819 1.00 24.87 C

ATOM 4196 0 THR C 151-15.600 -0.791 -41.997 1.00 23.81 0

ATOM 4197 N ILE C 152 -15.812 -1 427 -39.852 1. 00 26.51 N

ATOM 4198 CA ILE C 152 -16.904 -2.338-40.158 1. 00 28.01 C

ATOM 4199 CB ILE C 152 -17.408-3, 051 -38.890 1. 00 27.73 C

ATOM 4200 CG2 ILE C 152 -18.597 -3.938 -39.226 1. 00 25.32 C

ATOM 4201 C61 ILE C 152 -16.276 -3.881 -38.283 1. 00 25.75 C

ATOM 4202 CD1 ILE C 152 -16.686 -4.669 -37.075 1. 00 24.74 C

ATOM 4203 C ILE C 152 -18.064 -1.583-40.807 1.00 30.66 C

ATOM 4204 0 ILE C 152 -18.641 -2.054 -41.797 1.00 31.92 0

ATOM 4205 N ASP C 153-18.394 -0.411 -40.262 1. 00 29.43 N

ATOM 4206 CA ASP c 153 -19.441 0.422 -40.846 1. 00 30.45 C

ATOM 4207 CB ASP c 153 -19.574 1.739 -40.075 1., 00 32.68 C

ATOM 4208 CG ASP c 153 -20.113 1.546 -38.659 1., 00 33.86 C

ATOM 4209 0D1 ASP c 153 -20.948 0.638 -38.456 1., 00 34.99 0

ATOM 4210 0D2 ASP c 153 -t9.703 2.305 -37.752 1., 00 32.67 0

ATOM 4211 C ASP G 153 -19.087 0.709 -42.298 1., 00 30.78 C

ATOM 4212 0 ASP C 153 -19.928 0.604 -43. '191 1., 00 32.60 0

ATOM 4213 N LEU C 154 -17.826 1.056 -42.526 1., 00 30.34 N

ATOM 4214 CA LEU C 154 -17.318 1.280-43.873 1. .00 28.37 C

ATOM 4215 CB LEU c 154 -15.827 1.617 -43.804 1, .00 27.90 C

ATOM 4216 C6 LEU c 154 -15.184 2.566 -44.820 1, .00 28.84 C

ATOM 4217 CD1 LEU c 154 -13.901 1.939 -45.348 1, .00 26.13 C

ATOM 4218 CD2 LEU e 154 -16.144 2.870 -45.949 1, .00. 28.01 C

ATOM 4219 C LEU c 154 -17.537 0.041 -44.745 1, .00 27.83 C

ATOM 4220 0 LEU c 154 -18.078 0.139-45.847 1, .00 27.60 0

ATOM 4221 N LEU c 155 -17.120-1.126 -44.255 1, .00 27.97 N

ATOM 4222 CA LEU c 155 -17.253 -2.362 -45.034 1, .00 27.53 C

ATOM 4223 CB LEU c 155 -16.499 -3.516 -44.370 1 .00 25.95 C ATOM 4224 CG LEU C 155 -14.982 -3.427 -44.212 1.00 27.67 C

ATOM 4225 CD1 LEU C 155-14.466 -4.764 -43.684 1. 00 23. 55 C

ATOM 4226 CD2 LEU C 155 -14.329 -3.074 -45.537 1. 00 27. 09 C

ATOM 4227 C LEU C 155 -18.714 -2.782 -45.232 1. 00 28. 03 C

ATOM 4228 0 LEU C 155 -19.087 -3.243 -46.302 1. 00 26. 77 0

ATOM 4229 N LYS C 156 -19.535 -2.630 -44.197 1. 00 28. 95 N

ATOM 4230 CA LYS C 156 -20.949 -2.961 -44.312 1. 00 31. 09 G

ATOM 4231 CB LYS C 156 -21.650-2.834 -42.957 1. 00 30. 59 C

ATOM 4232 CG LYS C 156-21.537 -4.073 -42.097 1. 00 31. 28 C

ATOM 4233 CD LYS C 156-22.282 -3.923 -40.783 1.00 34. 45 C

ATOM 4234 CE LYS C 156 -22.305 -5.247 -40.018 1.00 37. 05 C

ATOM 4235 NZ LYS C 156-22.574 -5.045 -38.562 1. 00 37. 19 N

ATOM 4236 C LYS C 156 -2.077 -45.329 1. 00 32. 72 C

ATOM 4237 0 LYS C 156 -22.532 -2.544 -46.053 1.00 33. 72 0

ATOM 4238 N ALA C 157 -21.274-0.804 -45.386 1. 00 33. 79 N

ATOM 4239 CA ALA C 157 -21.887 0.112 -46.339 1. 00 34.60 C

ATOM 4240 CB ALA C 157-21.424 1.544 -46.076 1., 00 35. 65 C

ATOM 4241 C ALA C 157 -21.511 -0.315 -47.749 1., 00 36.68 C

ATOM 4242 0 ALA C 157-22.331 -0.249 -48.672 1,, 00 .38. 40 0

ATOM 4243 N ALA C 158 -20.275 -0.777 -47.910 1. .00 35. 31 N

ATOM 4244 CA ALA C 158 -19.770 -1.140 -49.227 1. .00 34. 58 C

ATOM 4245 CB ALA C 158-18.247 -1.191 -49.208 1. .00 34. 51 C

ATOM 4246 C ALA C 158-20.335-2.478 -49.693 1. .00 34. 63 C

ATOM 4247 0 ALA C 158 -20.107 -2.889-50.832 1. .00 34. 34 0

ATOM 4248 N GLY c 159 -21.062 -3.160 -48.813 1. .00 33. 83 N

ATOM 4249 CA 6LY c 159 -21.714-4.397 -49.210 1, .00 33. 89 C

ATOM 4250 C GLY c 159-21.230-5.663 -48.524 1, .00 34. 91 C

ATOM 4251 0 GLY c 159 -21.758 -6.746 -48.790 1, .00 33. 72 0

ATOM 4252 N SER c 160-20.236 -5.544 -47.645 1, .00 34. 67 N

ATOM 4253 CA SER c 160-19.747 -6.702 -46.900 1, .00 37. 19 C

ATOM 4254 CB SER c 160-18.642 -6.292 -45.917 1, .00 38. 78 C

ATOM 4255 OG SER c 160 -17.390 -6.155 -46.571 1, .00 40. 76 0

ATOM 4256 C SER c 160 -20.887 -7.359-46.127 1 .00 37. 18 C

ATOM 4257 0 SER c 160 -21.778 -6.674-45.625 1 .00 37., 48 0

ATOM 4258 N SER c 161-20.850 -8.683-46.025 1 .00 36., 30 N

ATOM 4259 CA SER c 161 -21.909 -9.419 -45.339 1 ∎ 00 36., 85 C ATOM 4260 CB SER C 161-22.689 -10.250 -46.351 1.00 36.08 C

ATOM 4261 OG SE C 61 -21.852 -11.222 -46.945 1. 00 36. 39 0

ATOM 4262 C SER G 161-21.383 -10.328 -44.221 1. 00 37. 77 C

ATOM 4263 0 SER C 161 -22.051 -10.533 -43.202 1. 00 38. 81 0

ATOM 4264 N SER C 162 -20.195 -10.886 -44. 416 1. 00 35. 74 N

ATOM 4265 CA SER C 162 -19.551-11.654 -43. 361 1. 00 33. 37 C

ATOM 4266 CB SER C 162 -19.441 -13.126-43. 763 1. 00 35. 11 C

ATOM 4267 06 SER C 162 -18.797 -13.885 -42. 751 1. 00 38. 27 0

ATOM 4268 C SER C 162 -18.167 -11.086 -43. 061 1. 00 31. 82 C

ATOM 4269 0 SER G 162 -17.324 -10.953 -43. 955 1. 00 31. 65 0

ATOM 4270 N ILE C 163 -17.946 -10.757 -41. 794 1. 00 28. 08 N

ATOM 4271 CA ILE C 163 -16.787-9.983 -41. 390 1. 00 26. 00 C

ATOM 4272 CB ILE C 163 -17.167 -8.511 -41. 140 1. 00 23. 13 C

ATOM 4273 CG2 ILE C 163 -15.965 -7.745 -40. 612 1. 00 24.45 C

ATOM 4274 CG1 ILE C 163-17.676 -7.878 -42. 432 1. 00 24.83 C

ATOM 4275 CD1 ILE C 163 -18.207 -6.455 -42. 253 1.00 26.88 C

ATOM 4276 C ILE C 163 -16.212 -10.554-40. 105 1., 00 25.45 C

ATOM 4277 0 ILE C 163-16.953 -10.844 -39. 175 1. 00 24.87 0

ATOM 4278 N LYS C 164 -14.892 -10.710 -40. 068 1., 00 24. 55 N

ATOM 4279 CA LYS C 164 -14.178 -11.138-38. 869 1,, 00 24. 33 C

ATOM 4280 CB LYS C 164 -13.650 -12.568 -39. 043 1., 00 22. 91 C

ATOM 4281 CG LYS C 164 I 14.709-13.557-39. 517 1. .00 25. 26 C

ATOM 4282 CD LYS C 164 -14.180-14.988 -39.611 1. .00 26. 10 C

ATOM 4283 CE LYS C 164 -15.319 -15.974 -39. 887 1. .00 26. 00 C

ATOM 4284 NZ LYS C 164 -15.151 -17.256 -39. 118 1. .00 28. 53 N

ATOM 4285 C LYS C 164 -13.010 -10.187-38. 629 1. .00 23. 28 C

ATOM 4286 0 LYS C 164 -12.434-9.648 -39. 571 1, .00 22. 37 0

ATOM 4287 N VAL c 165 -12.670 -9.985 -37. 363 1, .00 23. 08 N

ATOM 4288 CA VAL c 165 -11.592 -9.087 -36.985 1, .00 23. 71 C

ATOM 4289 CB VAL c 165-12.109 -8.010 -36. 012 1, .00 23. 60 C

ATOM 4290 CG1 VAL c 165 -10.981-7.064 -35. 626 1 .00 19. 98 C

ATOM 4291 CG2 VA c 165 -13.266 -7.256 -36.648 1 .00 20. 12 C

ATOM 4292 C VAL c 165-10.483 -9.886 -36.297 1 .00 25. 41 C

ATOM 4293 0 VAL c 165 -10.757 -10.681-35. 401 1 • 00 26., 70 0

ATOM 4294 N LEU c 166-9.237 -9.690-36. 717 1 .00 24. 51 N

ATOM 4295 CA LEU c 166 -8.124 1 10.348 —36., 039 1 .00 23,, 45 C ATOM 4296 CB LEU C 166 -7.263-11.132 -37.027 1.00 20.78 C

ATOM 4297 ce LEU C 166-7. 997 -11. 877 -38. 137 1. 00 23.39 C

ATOM 4298 CD1 LEU C 166-7. 005 -12.643 -39. 009 1.00 24.68 C

ATOM 4299 CD2 LEU C 166 -8.997 -12.811 -37. 530 1.00 24.95 C

ATOM 4300 C LEU G 166-7.261-9.305 -35. 345 1. 00 21. 92 C

ATOM 4301 0 LEU C 166 -6.766 -8.378 -35. 982 1. 00 20.46 0

ATOM 4302 N VAL C 167 -7. 081 -9.456 1 34.038 1. 00 20.38 N

ATOM 4303 CA VAL C 167-6.207 -8.556 -33. 318 1. 00 20.91 C

ATOM 4304 CB VAL C 167-7. 034 -7.558 -32. 494 1. 00 21. 15 C

ATOM 4305 C61 VAL C 167-8.187 -7. 030 -33. 354 1. 00 19.32 C

ATOM 4306 CG2 VAL C 167 -7. 554 -8.209-31. 237 1. 00 19.82 C

ATOM 4307 C VAL C 167-5. 244 -9.318 -32. 419 1. 00 22.21 C

ATOM 4308 0 VAL C 167-5. 529-10. 437 -32. 006 1. 00 23. 10 0

ATOM 4309 N LEU C 168 -4. 096 -8. 712 -32. 130 1. 00 22. 76 N

ATOM 4310 CA LEU C 168 -3. 090 -9. 325 -31. 268 1. 00 21. 51 C

ATOM 4311 CB LEU C 168-1. 732 -8. 649 -31. 497 1. 00 20. 44 C

ATOM 4312 CG LEU C 168-0. 794-9. 324 -32. 512 1. 00 21. 50 C

ATOM 4313 CD1 LEU C 168-1. 584-9. 905-33. 649 1. 00 20. 81 C

ATOM 4314 CD2 LEU C 168 0. 225 -8. 328 -33. 028 1. .00 19. 04 C

ATOM 4315 C LEU C 168 -3. 501 -9. 206 -29. 802 1.00 23. 01 C

ATOM 4316 0 LEU C 168 -3. 330-10. 137-29. 010 1. 00 20. 94 0

ATOM 4317 N VAL C 169 4. 065-8. 054 -29. 450 1., 00 24. 45 N

ATOM 4318 CA VAL C 169-4. 472 -7. 786 -28.078 1., 00 24. 65 C

ATOM 4319 CB VAL C 169 -3. 326 -7. 112 -27. 299 1. .00 28. 57 C

ATOM 4320 CG1 VAL C 169 -2. 965 -5. 771-27. 943 1., 00 27. 39 C

ATOM 4321 CG2 VAL C 169-3. 735 -6. 920 -25. 860 1., 00 32. 76 C

ATOM 4322 C VAL C 169 -5. 726-6. 904 -28. 002 1., 00 24. 21 C

ATOM 4323 0 VAL C 169 -5. 935 -6. 029 -28. 840 1. .00 24. 66 0

ATOM 4324 N ALA C 170 -6. 557 -7. 148 -26. 993 1. .00 22. 80 N

ATO 4325 CA ALA c 170 -7. 847 -6. 486-26. 883 1. .00 22. 45 C

ATOM 4326 CB ALA c 170 -8. 907 -7. 319 -27. 565 1, .00 21. 01 C

ATOM 4327 C ALA c 170 -8. 221-6. 248 -25. 422 1. .00 24. 63 C

ATOM 4328 0 ALA c 170 -8. 076 -7. 132 -24. 580 1. .00 25. 77 0

ATOM 4329 N ALA c 171-8. 690 -5. 043 -25. 120 1, .00 26. 75 N

ATOM 4330 CA ALA c 171 -9. 179 -4. 733 -23. 779 1, .00 28. 35 C

ATOM 4331 CB ALA c 171 -8. 947 —3. 264 -23. 456 1. .00 27. 33 C ATOM 4332 C ALA C 171-10.665 -5.049 -23.735 1.00 29.55 C

ATOM 4333 0 ALA C 171 -11.354 -4.967 -24.757 1. 00 29.58 0

ATOM 4334 N PRO C 172 -11.178 -5.417 -22.551 1. 00 29.31 N

ATOM 4335 CD PRO C 172-10.431-5.569 -21. 291 1.00 30.00 C

ATOM 4336 CA PRO C 172 -12.590 -5.797 -22.400 1. 00 30.19 C

ATOM 4337 CB PRO C 172-12.749 -6.002 -20. 888 1. 00 28.34 C

ATOM 4338 C6 PRO C 172 -11.372 -6.394-20. 434 1. 00 28.54 C

ATOM 4339 C PRO C 172 -13.573 -4.765 -22. 956 1. 00 30.09 C

ATOM 4340 0 PRO C 172 -14.502 -5.119 -23. 684 1. 00 31.36 0

ATOM 4341 N 6LU C 173 -13.352 -3.493 -22. 632 1. 00 29.16 N

ATOM 4342 CA 6LU C 173 -14.272 -2.439 -23. 037 1. 00 30.84 C

ATOM 4343 CB GLU C 173 -13.919 -1.136-22, 328 1. 00 35.33 C

ATOM 4344 CG GLU C 173-12.617 -0.515 -22. 770 1. 00 38.29. C

ATOM 4345 CD GLU C 173-12.199 0.616 -21.857 1.00 43.11 C

ATOM 4346 0E1 GLU C 173 -12.457 1.791-22. 202 1.00 45.63 0

ATOM 4347 0E2 GLU C 173 -11.620 0.329 -20. 787 1. 00 45.48 0

ATOM 4348 C GLU C 173 -14.290 -2.206 -24. 543 1., 00 29.65 C

ATOM 4349 0 GLU C 173 -15.324 -1.858-25. 110 1., 00 29.19 0

ATOM 4350 N GLY C 174 -13.141-2.390 -25. 187 1., 00 29.16 N

ATOM 4351 CA GLY C 174-13.103 -2.393 -26. 636 1. .00 25.16 C

ATOM 4352 C GLY C 174 -13.955 -3.516 -27. 189 1. .00 24.48 C

ATOM 4353 0 GLY C 174 -14.733 -3.316 -28. 121 1. .00 25.26 0

ATOM 4354 N ILE C 175 -13.823-4.703 -26.608 1, .00 23.67 N

ATOM 4355 CA ILE C 175-14.622 -5.839-27. 043 1, .00 23.88 C

ATOM 4356 CB ILE C 175-14.196-7.143 -26. 329 1. .00 25.49 C

ATOM 4357 CG2 ILE C 175 -15.046 -8.298 -26. 804 1, ∎ 00 25.68 C

ATOM 4358 C61 ILE C 175 -12.733-7.464 -26. 641 1, .00 25.82 C

ATOM 4359 CD1 ILE c 175 -12.130 -8.495 -25. 706 1, .00 28.17 C

ATOM 4360 C ILE c 175 -16.097-5.582 -26.767 1 .00 24.80 C

ATOM 4361 0 ILE c 175 -16.950 -5.915 -27. 585 1 • 00 24.94 0

ATOM 4362 N ALA G 176 -16.402-4.975 -25. 623 1 ∎ 00. 25.10 N

ATOM 4363 CA ALA C 176 -17.790 -4.679 -25. 292 1 .00 26.65 C

ATOM 4364 CB ALA C 176 -17.887-4.100-23., 881 1 .00 27.04 C

ATOM 4365 C ALA C 176 -18.414 -3.718 -26., 304 1 .00 27.46 C

ATOM 4366 0 ALA C 176 -19.533 -3.938 -26..769 1 .00 28.96 0

ATOM 4367 N ALA c 177 -17.687 -2.661 -26..653 1 .00 27.15 N ATOM 4368 CA ALA C 177 -18.151 -27.674 1.00 28.24 C

ATOM 4369 CB ALA C 177 -17.195-0.536 -27.767 1. 00 26.20 C

ATOM 4370 C ALA C 177 -18.288 -2.391 -29.044 1. 00 30.20 C

ATOM 4371 0 ALA C 177 -19.115 -1.986 -29. 858 1. 00 30.77 0

ATOM 4372 N LEU C 178 -17.472 -3.412 -29. 299 1. 00 32.16 N

ATOM 4373 CA LEU C 178 -17.520 -4.125 -30. 573 1. 00 32.66 C

ATOM 4374 CB LEU C 178 -16.311 -5.053 -30. 712 1. 00 32.62 C

ATOM 4375 CG LEU C 178 -15.818 -5.395 -32. 121 1. 00 33.36 C

ATOM 4376 CD1 LEU C 178 -15.250-6.802-32. 106 1. 00 30.90 C

ATOM 4377 CD2 LEU C 178 -16.942 -5.282 -33. 142 1. 00 32.62 C

ATOM 4378 C LEU C 178-18.795-4.955 -30. 644 1. 00 33.51 C

ATOM 4379 .0 LEU C 178 -19.519 -4.911 -31. 636 1. 00 33.84 0

ATOM 4380 N 6LU C 179-19. 063 -5.717 -29. 590 1. 00 34.21.

ATOM 4381 CA GLU G 179 -20. 252-6.551-29. 557 1. 00 36.90 C

ATOM 4382 CB GLU C 179 -20. 293 -7.362 -28. 258 1. 00 38.81 C

ATOM 4383 CG GLU C 179 -19. 081-8.260 -28. 043 1. 00 42.09 c

ATOM 4384 CD GLU C 179 —19. 230 -9.167-26. 827 1. 00 43.95 c

ATOM 4385 0E1 GLU C 179 -18. 989 -8.689 -25. 695 1. 00 44.27 0

ATOM 4386 0E2 GLU C 179 -19. 587 -10.355-27. 008 1. .00 42.30 0

ATOM 4387 C GLU C 179-21. 501 -5.680 -29. 664 1., 00 37.56 G

ATOM 4388 0 GLU C 179 -22. 430 -5.985 -30. 417 1., 00 38.29 0

ATOM 4389 N LYS C 180 -21. 513 -4.585-28. 918 1. .00 37.21 N

ATOM 4390 CA LYS C 180 -22. 674 -3.709 1. .00 37.87 C

ATOM 4391 CB LYS C 180-22. 413-2.558 -27. 904 1. .00 39.34 C

ATOM 4392 CG LYS C 180 -23. 636 -1.741 -27. 532 1. .00 43.66 C

ATOM 4393 CD LYS C 180 -23. 288 -0.724-26. 449 1, .00 46.80 C

ATOM 4394 CE LYS C 180-24. 375 0.328-26. 300 1, .00 49.82 G

ATOM 4395 NZ LYS C 180 -23. 807 1.676 -25. 989 1. .00 51.50 N

ATOM 4396 C LYS c 180-23. 004-3.162 -30. 275 1, .00 35.51 C

ATOM 4397 0 LYS c 180-24. 144 -3.246-30. 726 1, .00 35.69 0

ATOM 4398 N ALA c 181 -22. 005 -2.616 -30. 960 1, .00 33.73 N

ATOM 4399 CA ALA c 181 -22. 237-1.963 -32. 247 1 .00 32.58 C

ATOM 4400 CB ALA c 181-21. 074 -1.044 -32. 585 t .00 30.33 C

ATOM 4401 C ALA c 181 -22. 447 -2.958 -33. 376 1, .00 31.38 C

ATOM 4402 0 ALA c 181-23. 220 -2.708 -34. 303 1 ∎ 00 32.05 0

ATOM 4403 N HIS c 182 1 21. 747 —4.083 1 33. 302 1 • 00 N JP2007 / 071755

ATOM 4404 CA HIS C 182 -21. 795 -5.077 -34.363 1. 0033.01 C

ATOM 4405 CB HIS C 182-20. 617 -4.873 -35.310 1. 00 32.12 C

ATOM 4406 GG HIS C 182 -20. 622-3.549 -36.005 1. 00 30.23 C

ATOM 4407 CD2 HIS C 182 -19. 889 -2.430 1 35.797 1. 00 31.52 C

ATOM 4408 ND1 HIS C 182 -21. 446 -3.276 -37.075 1. 00 29.55 N

ATOM 4409 CE1 HIS C 182 -21. 219 -2.046 -37.499 1. 0030.92 C

ATOM 4410 NE2 HIS C 182 -20. 278-1.510-36.741 1. 00 33.12 N

ATOM 4411 C HIS C 182 -21. 771 -6.497 -33.798 1. 00 34.25 C

ATOM 4412 0 HIS C 182 -20. 734 -7.162 -33.785 1. 0036.52 0

ATOM 4413 N PRO C 183 -22. 926 -6.979-33.321 1. 00 33.70 N

ATOM 4414 CD PRO C 183 -24. 218 -6.269 -33.331 1. 00 32.35 C

ATOM 4415, CA PRO C 183 -23. 020 -8.286 -32.668 1. 0032.09 C

ATOM 4416 CB PRO C 183 -24. 406 -8.267 -32.031 1. 00 31.83 C

ATOM 4417 CG PRO C 183 -25. 192-7.325-32.886 1. 00 32.82 C

ATOM 4418 C PRO C 183 -22. 849 -9.448-33.638 1. 00 31.60 C

ATOM 4419 0 PRO C 183 -22. 709 -10.598 -33.225 1. 00 31.71 0

ATOM 4420 N ASP C 184 -22. 863 -9.146 -34.929 1. 0031.80 N

ATOM 4421 CA ASP C 184 -22. 793 -10.186 -35.948 1. 00 31.79 C

ATOM 4422 CB ASP C 184 -23. 660 -9.798 -37.146 1. 00 34.14 C

ATOM 4423 CG ASP C 184 -23. 265 -8.460 -37.735 1. .00 39.25 C

ATOM 4424 0D1 ASP C 184 -23. 439 -8.272-38.958 1., 00 40.93 0

ATOM 4425 0D2 ASP C 184 -22. 773-7.596 -36.973 1., 0041.24 0

ATOM 4426 C ASP C 184 -21.363-10.441 -36.415 1., 00 31.86 C

ATOM 4427 0 ASP c 184 -21. 132 -11.278 -37.288 1., 00 31.02 0

ATOM 4428 N VAL c 185 -20. 403-9.719-35.840 1., 0031.60 N

ATOM 4429 CA VA c 185 -19. 012 -9.838 -36.276 1. .00 29.49 C

ATOM 4430 CB VAL c 185 -18. 372 -8.452 -36.494 1, .00 31.27 C

ATOM 4431 CG1 VAL c 185 -16. 906 -8.617 -36.912 1..00 30.57 C

ATOM 4432 CG2 VAL c 185 -19. 159 -7.673 -37.553 1, .00 27.52 C

ATO 4433 C VAL c 185 -18. 160 -10.605 -35.283 1, .00 28.61 C

ATOM 4434 0 VAL c 185-18. 114 -10.263 -34.104 1, .00.28.40 0

ATOM 4435 N GLU c 186 1 17. 478 -11.641 -35.770 1 .00 29.34 N

ATOM 4436 CA GLU c 186 -16. 590 -12.450 -34.935 1 ■ 00 27.81 C

ATOM 4437 CB GLU c 186 -16. 242 -13.759 -35.642 1 • 00 29.85 C

ATOM 4438 C6 GLU c 186 -17. 430-14.593 -36.057 1 • 00 33.25 C

ATOM 4439 CD GLU c 186 1 17. 047 -16.027 -36.322 1 .00 35.24 C ATOM 4440 0E1 GLU C 186 -17.933 -16.818 -36.688 1.00 36.53 0

ATOM 4441 0E2 GLU C 186 -15.854 -16.364 -36.162 1.00 39.53 0

ATOM 4442 C GLU C 186 1 15.287 -11.725 —34.592 1. 00 26.64 C

ATOM 4443 0 GLU C 186 -14.717 -11.017 -35.420 1.00 25.82 0

ATOM 4444 N LEU C 187 -14.820 -11.915 -33.366 1. 00 25.86 N

ATOM 4445 CA LEU C 187-13.491 -11.465 -32.979 1. 00 27.20 C

ATOM 4446 CB LEU C 187 -13.582 -10.537 1. 00 25.30 C

ATOM 4447 CG LEU C 187 -12.263 -9.941 -31.254 1. 00 26.29 C

ATOM 4448 CD1 LEU C 187 -11.758-8.932 -32.266 1. 00 23.47 C

ATOM 4449 CD2 LEU C 187 -12.459 -9.285 -29.895 1.00 24.91 C

ATOM 4450 C LEU C 187 -12.567 -12.656 -32.663 1. 00 27.89 C

ATOM 4451, 0 LEU C 187 -12.929 -13.563 -31.902 1.00 25.43 0

ATOM 4452 N TYR C 188 -11.378 -12.642 -33.257 1. 00 27.15-

ATOM 4453 CA TYR C 188 -10.298 -13.535-32.855 1. 00 27.85 C

ATOM 4454 CB TYR C 188-9.876 -14.432 -34.02 003 1. 00 27.89 C

ATOM 4455 CG TYR C 188-10.954 -15.389-34.461 1.00 28.39 C

ATOM 4456 CD1 TYR C 188 -11.972-14.972 -35.305 1. 00 28.19 C

ATOM 4457 CE1 TYR C 188-12.970 -15.833 -35.697 1.00 28.25 C

ATOM 4458 CD2 TYR C 188 -10.964, 16.707 -34.021 1.00 27.65 C

ATOM 4459 CE2 TYR C 188-11.960 -17.577-34.408 1. .00 27.72 C

ATOM 4460 CZ TYR C 188 -12.962 -17.133-35.246 1. .00 27.98 C

ATOM 4461 OH TYR C 188 -13.969 -17.983 -35.636 1. .00 30.13 0

ATOM 4462 C TYR C 188 `` 9.099 -12.720 -32.387 1. .00 27.72 C

ATOM 4463 0 TYR C 188 -8.540 -11.918 -33.138 1, .00 27.66 0

ATOM 4464 N THR C 189 -8.700-12.935 -31.143 1, .00 26.62 N

ATOM 4465 CA THR C 189 -7.598 -12.186-30.566 1, .00 24.18 C

ATOM 4466 CB THR C 189 -8.112 -11.201 -29.507 1 .00 23.65 C

ATOM 4467 0G1 THR c 189-7.001 -10.560 -28.868 1, .00 22.35 0

ATOM 4468 CG2 THR c 189 -8.958 -11.936-28.470 1, 00 19.95 C

ATOM 4469 C THR c 189 -6.593 -13.139 -29.923 1 .00 25.18 G

ATOM 4470 0 THR c 189 -6.958 -14.228 -29.463 1 .00 23.94 0

ATOM 4471 N ALA c 190-5.329-12.727-29.899 1 .00 23.95 N

ATOM 4472 CA ALA c 190 -4.277 -13.544-29.308 1 .00 24.15 C

ATOM 4473 CB ALA c 190 -2.914 -13.129 -29.861 1 .00 19.04 C

ATOM 4474 C ALA c 190-4.308 -13.392 -27.792 1 .00 24.34 C

ATOM 4475 0 ALA c 190-3.838 -14.262 1 27.057 1 .00 24.22 0 7071755

ATOM 4476 N SER C 191 -4.870 One 12. 283 -27.326 1. 00 25.74 N

ATOM 4477 CA SER C 191 -5.093 1 12, 107 -25.906 1. 00 26.50 C

ATOM 4478 CB SER C 191-3.800 -11. 680-25.226 1. 00 27.73 C

ATOM 4479 OG SER C 191-3.963 -11. 713 -23.820 1.00 29.83 0

ATOM 4480 C SER C 191 -6.195 -11. 114 -25.556 1. 00 26.09 C

ATOM 4481 0 SER C 191 -6.333 -10. 065 -26.177 1.00 26.65 0

ATOM 4482 N ILE C 192 -6.986 -11. 461 -24.552 1. 00 26.45 N

ATOM 4483 CA ILE C 192 -7.792 -10.477 -23.857 1.00 25.80 C

ATOM 4484 CB ILE C 192 -9.132-11. 081-23.406 1.00 26.75 C

ATOM 4485 CG2 ILE C 192 -9.944 -10. 051-22.645 1. 00 26.09 C

ATOM 4486 CG1 ILE C 192 -9.909 -11. 570 -24.628 1. 00 28.57 C

ATOM 4487 CD1 ILE C 192 -11.306 -12. 058 -24,319 1. 00 30.86 C

ATOM 4488 C ILE C 192 -6. 988 -10. 025 -22.642 1. 00 27.13 C

ATOM 4489 0 ILE C 192 -6. 757 -10. 813 -21.723 1. 00 25.62 0

ATOM 4490 N ASP C 193 -6. 545 -8. 766 -22.651 1. 00 26.19 N

ATOM 4491 CA ASP C 193 -5. 728 -8. 240 -21.562 1. 00 27.79 C

ATOM 4492 CB ASP C 193 One 4. 714 -7. 208 -22.105 1. 00 29.15 C

ATOM 4493 C6 ASP C 193 -3. 556 -7. 861 -22.892 1., 00 33.51 C

ATOM 4494 0D1 ASP C 193 -3. 585-9. Q96-23.103 1., 00 34.53 0

ATOM 4495 0D2 ASP C 193-2. 607 -7. 146 -23.302 1., 00 32.06 0

ATOM 4496 C ASP C 193 -6. 597-7. 627 -20.453 1, .00 28.98 C

ATOM 4497 0 ASP C 193 -7. 816-7. 815 -20.433 1. .00 25.42 0

ATOM 4498 N GLN C 194 5. 970 -6. 907-19.524 1. .00 29.98 N

ATOM 4499 CA 6LN C 194 -6. 652-6. 479 -18.311 1. ■ 00 32.59 C

ATOM 4500 CB GLN c 194 -5. 635-6. 148-17.221 1, .00 36.97 C

ATOM 4501 C6 GLN c 194 —4. 466-7. 110 -17.135 1, .0040.66 C

ATOM 4502 CD GLN c 194-3. 293 -6. 490 -16.406 1 • 0043.66 C

ATOM 4503 0E1 GLN c 194-3. 454-5. 498 -15.697 1 .0046.94 0

ATOM 4504 NE2 GLN c 194-2. 106 -7. 062 -16.580 1 .00 45.22 N

ATOM 4505 C GLN c 194-7. 534 -5. 262 -18.564 1 .00 32.70 C

ATOM 4506 0 GLN c 194 -8. 709-5. 259 -18.203 1 .0031.90 0

ATOM 4507 N GLY c 195-6. 964 one 4. 231 -19.188 1 • 00 33.36 N

ATOM 4508 CA 6LY c 195-7. 745-3. 058 -19.554 1 .00 32.42 C

ATOM 4509 C GLY c 195 -6. 901-1. 928 -20.117 1 .00 33.18 C

ATOM 4510 0 GLY c 195 -5. 836 -2. 159 -20.700 1 .00 31.49 0

ATOM 4511 N LEU c 196 1 7. 383 1 0. 698 -19.952 1 ■ 00 34.49 N TJP2007 / 071755

ATOM 4512 CA LEU C 196 -6. 630 0.488 -20.360 1. 00 35.38 C

ATOM 4513 CB LEU C 196 -7. 512 1.414 -21.201 1.00 34.52 C

ATOM 4514 CG LEU C 196-8. 229 0.797 -22.406 1. 00 35.17 C

ATOM 4515 CD1 LEU C 196-9. 026 1.864 -23.140 1.00 34.81 C

ATOM 4516 CD2 LEU C 196 -7. 211 0.173 -23.339 1. 00 33.76 C

ATOM 4517 C LEU G 196 -6. 127 1.239 -19.130 1.00 37.71 C

ATOM 4518 0 LEU C 196 -6.774 1.234 -18.082 1.00 39.90 0

ATOM 4519 N ASN C 197 -4. 969 1.877-19.250 1.00 39.14 N

ATOM 4520 CA ASN C 197-4, 465 2.716 -18.170 1. 00 40.85 C

ATOM 4521 CB ASN C 197 -2.937 2.607 -18.059 1.00 40.32 C

ATOM 4522 CG ASN C 197 -2.220 3.006 -19.336 1. 00 38.92 C

ATOM 4523 0D1 ASN C 197 -2.802 3.620 -20.228 1.00 40.72 0

ATOM 4524 ND2 ASN C 197-0.948 2.655 -19.428 1. 00 38.19 N

ATOM 4525 C ASN G 197-4.868 4.163 -18.403 1. 00 42.72 C

ATOM 4526 0 ASN C 197 -5.573 4.473 -19.368 1. 00 43.39 0

ATOM 4527 N GLU C 198-4.428 5.049 -17.516 1.00 44.83 N

ATOM 4528 CA GLU C 198-4.748 6.467 -17.648 1. 00 46.65 C

ATOM 4529 CB GLU C 198 -3.946 7.292-16.636 1. 00 48.31 C

ATOM 4530 C6 GLU C 198 —4. 502 7.257 -15.219 1. .00 51.45 C

ATOM 4531 CD GLU C 198 -3. 823 8.264 -14.299 1., 00 53.88 C

ATOM 4532 0E1 GLU C 198 -2. 577 8.195 -14.153 1. .00 52.20 0

ATOM 4533 0E2 GLU C 198 -4. 536 9.124 -13.730 1. .00 52.91 0

ATOM 4534 C GLU G 198 -4. 452 6.960 -19.061 1, .00 46.03 C

ATOM '4535 0 GLU C 198-5. 229 7.718 -19.645 1. .00 46.26 0

ATOM 4536 N HIS C 199 -3. 332 6.511 -19.614 1. .00 44.73 ^: N

ATOM 4537 CA HIS C 199-2. 902 6.982 -20.922 1. .00 44.02 C

ATOM 4538 CB HIS C 199 -1. 373 6.959-20.996 1, .00 44.48 C

ATOM 4539 CG HIS C 199-0 719 7.947 -20.080 1, .00 46.52 C

ATOM 4540 CD2 HIS C 199-0. 532 9.282 -20.199 1, .00 46.06 C

ATOM 4541 ND1 HIS C 199 -0. 169 7.590-18.867 1, .00 46.57 N

ATOM 4542 CE1 HIS G 199 0. 332 8.662-18.280 1 .00 45.56 C

ATOM 4543 NE2 HIS C 199 0. 125 9.702 -19.067 1 .00 47.23 N

ATOM 4544 C HIS C 199-3. 512 6.201 -22.084 1 • 00 41.62 C

ATOM 4545 0 HIS C 199 -3. 111 6.371 -23.237 1 .00 39.89 0

ATOM 4546 N 6LY C 200 One 4. 487 5.349 -21.776 1 • 00 41.15 N

ATOM 4547 CA GLY C 200 -5. 238 4.677 -22.822 1 .00 38.02 C PT / JP2007 / 071755

ATOM 4548 C 6LY C 200 -4.486 3.542 -23.491 1. 00 37.35 C

ATOM 4549 0 GLY G 200 -4.789. 3.179 -24.628 1. 00 36.72 0

ATOM 4550 N TYR C 201 -3.500 2.984 -22.794 1.00 35.34 Ν

ATOM 4551 CA TYR C 201 -2.760 1.834 -23.306 1. 00 33.14 C

ATOM 4552 CB TYR C 201 -1.311 1.867 -22.837 1.00 34.62 C

ATOM 4553 CG TYR C 201 -0.413 2.775-23.636 1.00 37.75 C

ATOM 4554 CD1 TYR C 201 0.061 3.964 -23.095 1. 00 36.66 C

ATOM 4555 CE1 TYR C 201 0.928 4.770 -23.800 1.00 38.34 C

ATOM 4556 GD2 TYR C 201 0.002 2.419-24.912 1. 00 36.54 C

ATOM 4557 CE2 TYR G 201 0.869 3.214 -25.623 1. 00 39.77 C

ATOM 4558 CZ TYR C 201 1.333 4.390-25.063 1.00 40.01 G

 I

ATOM 4559, 0H TYR C 201 2.222 5.173-25.764 1.00 39.10 0

ATOM 4560 C TYR C 201-3.384 0.550 -22.814 1.00 31.82 C

 I

ATOM 4561 0 TYR C 201-3.833 0.463 -21.677 1. 00 32.28 0

ATOM 4562 N ILE C 202 -3.399-0 461 -23.66 017 1. 00 30.54 Ν

ATOM 4563 CA ILE C 202 -3.791 -23.217 1. 00 29.03 C

ATOM 4564 CB ILE C 202 -3.984-2.714 -24.407 1. 00 25.29 C

ATOM 4565 CG2 ILE C 202-4.472 -4.070 -23.935 1., 00 24.77 C

ATOM 4566 CG1 ILE C 202-4.998 -2.100 -25.361 1. .00 21.50 C

ATOM 4567 CD1 ILE C 202-5.431 -3.022 -26.466 1., 00 23.65 C

ATOM 4568 C ILE C 202 -2.708 -2.324 -22.287 1. .00 29.20 C

ATOM 4569 0 ILE C 202 -1.521-2.224-22.581 1. .00 29.41 0

ATOM 4570 N ILE C 203 3.125-2.867 1. .00 29.54 Ν

ATOM 4571 CA ILE C 203-2.202 -3.469 -20.197 1. .00 29.83 C

ATOM 4572 CB ILE C 203 -2.323 -2.818 -18.795 1. .00 29.18 C

ATOM 4573 CG2 ILE c 203 -1 288-3.426-17.850 1. .00 29.42 C

ATOM 4574 CG1 ILE c 203-2.108-1.303-18.889 1. .00 27.64 C

ATOM 4575 CD1 ILE c 203 -0.700 -0.889-19.266 1. .00 25.55 C

ATOM 4576 C ILE c 203 -2.561 -4.946-20.075 1. .00 31.46 C

ATOM 4577 0 ILE c 203 -3.736 -5.299 -19.966 1 '.00 30.30 0

ATOM 4578 N PRO G 204 -1.553 -5.832 -20.107 1 .00 33.17 Ν

ATOM 4579 CD PRO C 204 -1.757 -7.280 -19.926 1 .00 33.54 C

ATOM 4580 CA PRO C 204 -0.141-5.501-20.341 1 ∎ 00 33.07 C

ATOM 4581 CB PRO C 204 0.585 -6.825-20.121 1 ∎ 00 32.47 C

ATOM 4582 CG PRO c 204-0.457-7.866-20.384 1 ■ 00 33.71 C

ATOM 4583 C PRO c 204 0.112 -4.942 -21.737 1 ∎ 00 32.91 C Five

ATOM 4584 0 PRO C 204 1. 050 -4.172 -21.943 1. 00 34.00 0

ATOM 4585 N 6LY C 205 -0.723-5.339 -22.691 1.00 31.15 N

ATOM 4586 CA GLY C 205 -0.648 -4.767 -24.024 1. 00 31.26 C

ATOM 4587 C GLY C 205 0.727-4.829 -24.663 1. 00 29.91 C

ATOM 4588 0 GLY C 205 1. 581 -5.591-24.225 1.00 30.07 0

ATOM 4589 N LEU C 206 0.941 -4.012 -25.693 1. 00 29.65 N

ATOM 4590 CA LEU C 206. 2.153-4.081 -26.500 1. 00 28.23 C

ATOM 4591 CB LEU C 206 1. 819 -4.638 -27.880 1. 00 25.50 C

ATOM 4592 C6 LEU C 206 1. 179-6.023 -27.912 1. 00 24.15 C

ATOM 4593 CD1 LEU C 206 0. 640-6.291 -29.296 1. 00 23.53 C

ATOM 4594 CD2 LEU C 206 2. 197-7.075 -27.511 1. 00 24.08 C

ATOM 4595, C LEU C 206 2. 867 -2.734 -26.663 1. 00 28.36 C

ATOM 4596 0 LEU C 206 3. 912 -2.657 -27.306 1. 00 28.53 0

ATOM 4597 N GLY C 207 2. 304-1.676 -26.092 1. 00 27.75 N

ATOM 4598 CA GLY C 207 2. 877 -0.358 -26.285 1.00 24.98 C

 o

 ATOM 4599 C GLY C 207 2. 507 0.222 -27.637 1. 00 25.89 C

ATOM 4600 0 GLY C 207 1. 457-0.096 -28.191 1. 00 25.13 0

ATOM 4601 N ASP C 208 3. 372 1.075 -28.176 1. 00 26.13 N

ATOM 4602 CA ASP C 208 3. 110 1.709 -29.460 1.00 26.85 C

ATOM 4603 CB ASP C 208 4. 001 2.943 -29.626 1. 00 29.71 C

ATOM 4604 CG ASP C 208 3. 769 3.973 -28.544 1., 00 32.90 C

ATOM 4605 0D1 ASP C 208 2. 593 4.356-28.344 1., 00 36.64 0

ATOM 4606 0D2 ASP c 208 4.752 4.396 -27.889 1., 00 34.46 0

ATOM 4607 C ASP c 208 3. 381 0.732 -30.590 1. .00 26.52 C

ATOM 4608 0 ASP c 208 4.445 0.782 -31.219 1. .00 26.14 0

ATOM 4609 N ALA c 209 2. 416 -0.146 -30.855 1. .00 25.74 N

ATOM 4610 CA ALA c 209 2. 592 -1.204 1. .00 26.00 C

ATOM 4611 CB ALA c 209 1. 402 -2.166-31.820 1. .00 26.00 C

ATOM 4612 C ALA c 209 2. 760 -0.625 -33.253 1., 00 25.61 C

ATOM 4613 0 ALA c 209 3. 491-1.171 -34.083 1, .00 26.24 0

ATOM 4614 N GLY c 210 2. 079 0.480 -33.514 1, .00 24.47 N

ATOM 4615 CA GLY c 210 2. 283 1.175-34.770 1, .00 23.64 C

ATOM 4616 C GLY c 210 3. 739 1.541-34.985 1, .00 24.35 C

ATOM 4617 0 GLY c 210 4. 315 1.234 -36.032 1, .00 24.94 0

ATOM 4618 N ASP c 211 4. 350 2.187 -33.998 1 .00 24.43 N

ATOM 4619 CA ASP c 211 5. 726 2.645 -34.156 1 .00 28.14 C P2007 / 071755

ATOM 4620 CB ASP C 211 6.085 3.643-33.048 1. 00 30.16 C

ATOM 4621 CG ASP C 211 5.431 5.003 -33.254 1.00 34.51 C

ATOM 4622 0D1 ASP C 211 5.062 5.333 -34.405 1.00 32.30 0

ATOM 4623 0D2 ASP C 211 5.289 5. 742 -32.258 1. 00 37.23 0

ATOM 4624 C ASP C 211 6.743 1. 496 -34.176 1. 00 28.21 C

ATOM 4625 0 ASP C 211 7.724 1. 547 -34.913 1. 00 28.65 0

ATOM 4626 N LYS C 212 6.500 0.462 -33.375 1. 00 27.03 N

ATOM 4627 CA LYS C 212 7.403 -0.682 -33.312 1. 00 26.65 C

ATOM 4628 CB LYS C 212 7.076-1. 542 -32.092 1. 00 25.83 C

ATOM 4629 CG LYS C 212 7.376 -0.866 -30.768 1.00 26.73 C

ATOM 4630 CD LYS C 212 6.463 -1. 403 -29.691 1. 00 28.40 C

ATOM 4631 CE LYS C 212 7.196-1. 612 -28.396 1. 00 30.58 C

ATOM 4632 NZ LYS C 212 6.306-2. 296 -27.428 1. 00 32.71 N

ATOM 4633 C LYS C 212 7.356-1. 551 -34.568 1. 00 26.39 C

ATOM 4634 0 LYS C 212 8.314 -2. 260 -34.875 1. 00 30.24 0

ATOM 4635 N ILE C 213 6.241-1. 514-35.288 1. 00 24.71 N

ATOM 4636 CA ILE C 213 6.182 -2. 178 -36.579 1. 00 22.79 C

ATOM 4637 CB ILE C 213 4.736 -2. 442 -37.021 1. 00 22.33 C

ATOM 4638 CG2 ILE C 213 4.710-2. 831 -38.483 1., 00 21.68 C

ATOM 4639 CG1 ILE C 213 4.115-3. 536-36.152 1. .00 23.48 C

ATOM 4640 CD1 ILE C 213 2.638-3. 761 -36.402 1. .00 19.37 C

ATOM 4641 C ILE C 213 6.873 -1. 354 -37.657 1. .00 22.94 C

ATOM 4642 0 ILE C 213 7.600-1. 891 -38.484 1,, 00 22.68 0

ATOM 4643 N PHE C 214 6.653-0. 044 1 37.641 1. .00 23.27 N

ATOM 4644 CA PHE c 214 7.186 0. 822 -38.684 1. .00 23.12 C

ATOM 4645 CB PHE c 214 6.182 1. 942 -38.986 1. .00 24.23 C

ATOM 4646 CG PHE c 214 4.999 1. 480 -39.795 1, .00 26.78 C

ATOM 4647 CD1 PHE c 214 4.845 1. 880 -41.117 1, .00 25.91 C

ATOM 4648 CD2 PHE G 214 4.073 0. 590-39.254 1, .00 27.24 C

ATOM 4649 CE1 PHE C 214 3.788 1. 399-41 ■ 892 1, .00 26.17 G

ATOM 4650 CE2 PHE C 214 3.012 0. 102-40.024 1, .00 27.67 C

ATOM 4651 CZ PHE C 214 2.875 0. 510 -41.346 1, .00 27.64 C

ATOM 4652 C PHE G 214 8.557 1. 403 -38.341 1, .00 23.43 C

ATOM 4653 0 PHE C 214 9.233 1. 959-39.202 1 .00 20.52 0

ATOM 4654 N 6LY C 215 8.956 1., 268 -37.080 1 .00 21.92 N

ATOM 4655 CA GLY C 215 10.278 1., 699 -36.661 1 ∎ 00 25.47 C ATOM 4656 C GLY C 215 10.354 3.200 -36.477 1.00 28.04 C

ATOM 4657 0 GLY C 215 11.384 3.814 -36. 738 1.00 26.42 0

ATOM 4658 N THR C 216 9.256 3.793 -36. 029 1.00 31.50 N

ATOM 4659 CA THR C 216 9.148 5.242 -35. 953 1.00 35.50 C

ATOM 4660 CB THR C 216 7.922 5.747 -36.729 1.00 34.44 C

ATOM 4661 0G1 THR C 216 6.763 5.016 -36. 311 1.00 34.87 0

ATOM 4662 CG2 THR C 216 8.121 5.567 -38. 222 1.00 35.57 C

ATOM 4663 C THR C 216 9.060 5.754 -34. 523 1.00 39.59 C

ATOM 4664 0 THR C 216 9, 479 5.082 -33. 580 1.00 39.66 0

ATOM 4665 N LYS C 217 8.506 6.952 -34. 375 1.00 44.74 N

ATOM 4666 GA LYS C 217 8.635 7.719-33. 141 1.00 49.83 C

ATOM 4667 CB LYS C 217 9.505 8.960-33. 387 1.00 51.54 C

ATOM 4668 CG LYS C 217 10.830 8.682 -34. 095 1.00 52.81 C

ATOM 4669 CD LYS C 217 10.640 8.477 -35. 601 1.00 52.85 C

ATOM 4670 CE LYS C 217 11.949 8.078 -36.283 1.00 53.43 G

ATOM 4671 NZ LYS C 217 12.569 6.847 1 35. 697 1.00 53.76 N

ATOM 4672 C LYS C 217 7.271 8.145 -32. 590 1.00 51.54 G

ATOM 4673 0 LYS C 217 7.032 7.932 -31. 380 1.00 52.97 0

ATOM 4674 OXT LYS c 217 6.464 8.698 -33. 368 1.00 52.31 0

TER 4675 LYS c 217

 ATOM 4676 CB LYS D 11 -4.082 -39.843 -30. 708 1.00 35.97 C

ATOM 4677 CG LYS D 11 -5.127 -38.819 -31. 122 1.00 39.33 C

ATOM 4678 CD LYS D 11-4.679-37. 401 -30. 759 1.00 42.37 C

ATOM 4679 CE LYS D 11-5.860 -36. 470 -30. 541 1 00 44.05 C

ATOM 4680 NZ LYS D 11 -5.418 -35. 089 -30. 188 1.00 46.44 N

ATOM 4681 C LYS D 11 -3.718 -40. 578 -33. 068 1.00 32.06 C

ATOM 4682 0 LYS D 11-2.694 -39. 959 -33. 357 1.00 33.57 0

ATOM 4683 N LYS D 11 -2.954 -42. 010 -31. 123 1.00 32.44 N

ATOM 4684 CA LYS D 11 -3.990 -41. 054 -31. 633 1.00 33.95 C

ATOM 4685 N ILE D 12 -4.663-40. 861 -33. 951 1.00 29.28 N

ATOM 4686 CA ILE D 12 -4.494 1 40. 665 -35. 380 1.00 27.74 C

ATOM 4687 CB ILE D 12 -4.822 -41. 968 -36. 141 1.00 27.88 C

ATOM 4688 CG2 ILE D 12 -4.578 -41. 781 -37. 626 1.00 29.09 C

ATOM 4689 CG1 ILE D 12 -4.007 -43. 137 -35. 562 1.00 31.39 C

ATOM 4690 CD1 ILE D 12 -2.491 -42. 974 1 35. 648 1.00 28.40 C

ATOM 4691 C ILE D 12 1 5.454 -39. 573 1 35. 854 1.00 27.20 C ATOM 4692 0 ILE D 12 -6.665-39.762-35.830 1.00 23.10 0

ATOM 4693 N VAL D 13 -4.904 -38.445 -36. 301 1.00 27.74 N

ATOM 4694 CA VAL D 13 -5.699 -37.253 -36. 617 1.00 27.59 C

ATOM 4695 CB VAL D. 13 -5.206 -36.019 -35 .. 821 1.00 26.16 C

ATOM 4696 CG1 VAL D 13-6.026 -34.801 -36. 197 1.00 28.30 C

ATOM 4697 CG2 VAL D 13 -5.296-36.277 -34. 332 1.00 26.57 C

ATOM 4698 C VAL D 13 -5.667 -36.885 -38. 100 1.0027.62 C

ATOM 4699 0 VAL D 13 -4.631 -36.507 -38. 631 1.00 28.79 0

ATOM 4700 N GLU D 14 -6.808 -36.982 -38. 767 1.00 29.49 N

ATOM 4701 CA GLU D 14 -6.921 -36.454 -40. 116 1.00 31.15 C

ATOM 4702 CB GLU D 14 -7.898n -37.294 -40. 942 1.00 30.78 C

ATOM 4703, CG GLU D 14 -8.113 -36.757 -42. 346 1.0033.02 C

ATOM 4704 CD GLU D 14 -9.039 -37.628 -43. 169 1.00 35.04 C

ATOM 4705 0E1 GLU D 14 -10.048 -38.118 -42. 617 1.0037.88 0

ATOM 4706 0E2 GLU D 14-8.756 -37.826 1 44. 367 1.0033.83 0

ATOM 4707 C GLU D 14 -7.411-35.009 -40. 045 1.00 32.33 C

ATOM 4708 0 GLU D 14 -8.585 -34.747 -39. 772 1.0033.36 0

ATOM 4709 N VAL D 15 -6.505-34.073 -40. 286 1.00 32.98 N

ATOM 4710 CA VAL D 15 -6.822-32.662 -40. 130 1.00 32.23 C

ATOM 4711 CB VAL D 15 -5.546 -31.818 -40. 167 1.0032.96 C

ATOM 4712 CG1 VAL D 15-5.890 -30.340 -40. 097 1.00 32.88 C

ATOM 4713 CG2 VAL D 15 -4.648 -32.212 -38. 999 1.0033.01 C

ATOM 4714 C VAL D 15 -7.764 -32.221 -41: 236 1.0031.60 C

ATOM 4715 0 VAL D 15 -7.493 -32.448 -42. 413 1.00 34.69 0

ATOM 4716 N LYS D 16-8.876 -31.599 -40. 861 1.0028.49 N

ATOM 4717 CA LYS D 16 -9.949 -31.387 -41.817 1.00 27.79 C

ATOM 4718 CB LYS D 16-32, 127 -41. 349 1.0029.53 C

ATOM 4719 C6 LYS D 16 -11.122-33.634 -41. 578 1.0032.92 C

ATOM 4720 CD LYS D 16 -12.016 -34.403 -40. 633 1.0034.56 C

ATOM 4721 CE LYS D 16 -12.234 -35.821 -41. 134 1.0035.68 C

ATOM 4722 NZ LYS D 16 -13.535 -36.383 -40. 652 1.0038.29 N

ATOM 4723 C LYS D 16 -10.260 -29.920 -42. 082 1.00 25.86 C

ATOM 4724 0 LYS D 16 -11.220 -29.596-42. 789 1.0026.76 0

ATOM 4725 N HIS D 17 -9.438-29.041 -41. 520 1.00 23.05 N

ATOM 4726 CA HIS D 17 -9.567 -27.602 -41. 738 1.00 22.44 C

ATOM 4727 CB HIS D 17 --8.370 -26.872 One 41. 107 1.0020.27 C Five

ATOM, 4728 CG HIS D 17 -8.502 -25. 380 -41. 103 1.00 20.24

 ATOM 4729 CD2 HIS D 17-8.679 -24. 504 -40. 084 1. 00 19.26

 ATOM 4730 ND1 HIS D 17 -8.468 -24. 626 -42. 258 1. 00 17.66

 ATOM 4731 CE1 HIS D 17-8.623 -23. 350 -41. 949 1. 00 20.48

 ATOM 4732 NE2 HIS D 17-8.755-23. 249 -40. 637 1. 00 20.23

 ATOM 4733 C HIS D 17 -9.629 -27. 310 -43. 232 1. 00 21.46

 ATOM 4734 0 HIS D 17 -8.863 -27. 863 -44. 014 1. 00 25.13

 ATOM 4735 N PRO D 18 -10.546 -26. 429 -43. 649 1. 00 23.35

 ATOM 4736 CD PRO D 18-I11.472 -25. 670 -42. 796 1. 00 21.13

 ATOM 4737 CA PRO D 18-10.75 o4 -26. 149 -45. 074 1. 00 22.28

 ATOM 4738 GB PRO D 18 -25. 144 -45. 084 1.00 21.91

 ATOM 4739 CG PRO D. 18 -11.959 -24. 600 -43. 711 1. 0 21.69

 ATOM 4740 C PRO D 18 -9.536 -25. 651 -45. 846 1. 00 23.38

 ATOM 4741 0 PRO D 18-9.403 -25. 936-47. 037 1. 00 25.54

 ATOM 4742 N LEU D 19 -8.642 -24. 924 -45. 185 1. 00 23.95

 ATOM 4743 CA LEU D 19 -7.401 -24. 506 -45. 842 1. 00 23.43

 ATOM 4744 CB LEU D 19-6.669 -23. 442 -45. 007 1. 00 24.09

 ATOM 4745 CG LEU D 19 -7.376 -22. 078 -44. 895 1. 00 22.59

 ATOM 4746 CD1 LEU D 19 -6.519 -21. 102 —44. 100 1. 00 21.12

 ATOM 4747 CD2 LEU D 19 -7.645 -21. 530 -46. 283 1. 00 21.62

 ATOM 4748 C LEU D 19-6.471 -25. 690-46. 109 1., 00 23.81

 ATOM 4749 0 LEU D 19-5.870-25. 776 -47. 177 1., 00 23.92

 ATOM 4750 N VAL D 20 -6.355 -26. 609 -45. 154 1., 00 22.80

 ATOM 4751 CA VAL D 20 -5.566-27. 810 -45. 398 1., 00 21.42

 ATOM 4752 CB VAL D 20-5.497 -28. 712 -44. 139 1., 00 20.10

 ATOM 4753 CG1 VAL D 20 -4.778-30. 002-44. 458 1, .00 18.15

 ATOM 4754 C62 VAL D 20 -4.743 -28. 004 -43. 036 1, .00 16.08

 ATOM 4755 C VAL D 20 -6.158 -28. 588-46. 578 1. .00 22.61

 ATOM 4756 0 VAL D 20-5.432 -29. 009 -47. 472 1. .00 22.86

 ATOM 4757 N LYS D 21 -7.477 -28. 746 -46. 605 1, .00 24.43

 ATOM 4758 CA LYS D 21-8.122 -29. 427-47. 725 1, .00 26.19

 ATOM 4759 CB LYS D 21-9.631 -29. 510 -47. 518 1, .00 29.26

 ATOM 4760 CG LYS D 21 -10.100-30. 408 -46. 389 1 .00 32.26

 ATOM 4761 CD LYS D 21 -11.620 -30. 512 -46. 434 1 .00 32.27

 ATOM 4762 CE LYS D 21 -12.183 -31. 194 -45. 207 1 .00 34.20

ATOM 4763 NZ LYS D 21 —13.668 -31. 043 1 45. 142 1 .00 35.71 ATOM 4764 C LYS D 21 -7.856 -28.718 -49.052 1.00 26.76 C

ATOM 4765 0 LYS D 21 -7.542 -29.361 -50. 056 1. 00 25. 73 0

ATOM 4766 N HIS D 22-7.993 -27.394 One 49. 059 1. 00 25. 36 N

ATOM 4767 GA HIS D 22 -7.760 -26.612 -50. 273 1. 00 24. 11 C

ATOM 4768 CB HIS D 22 -8.065 -25.129 -50. 003 1. 00 24. 53 C

ATOM 4769 CG HIS D 22 -7.697 -24.215 -51. 132 1. 00 23. 89 C

ATOM 4770 CD2 HIS D 22 -6.677 -23.334 -51 270 1.00 24.27 C

ATOM 4771 ND1 HIS D 22 -8.434-24.133-52. 295 1. 00 22.94 N

ATOM 4772 CE1 HIS D 22 -7.885 -23.239 -53. 099 1. 00 23. 49 C

ATOM 4773 NE2 HIS D 22 -6.817 -22.740-52. 502 1. 00 25. 66 N

ATOM 4774 C HIS D 22-6.319-26.769 1 50. 773-1. 00 24. 93 C

ATOM 4775 .0 HIS D 22 -6.089 -27.050 -51. 947 1. 00 24.85. 0

ATOM 4776 N LYS D 23 -5.352 -26.600 -49. 877 1. 00 25. 22 N

ATOM 4777 CA LYS D 23-3.954 -26.647 -50. 262 1. 00 25. 90 C

ATOM 4778 CB LYS D 23-3.074 -26.164-49. 107 1. 00 26.70 C

ATOM 4779 CG LYS D 23 -3.034 -24.640 -48. 965 1. 00 28. 68 C

ATOM 4780 CD LYS D 23 -2.637 -24.192 -47. 562 1. 00 26.85 C

ATOM 4781 CE LYS D 23 -3.123-22.772 -47. 266 1. 00 25.88 C

ATOM 4782 NZ LYS D 23 -2.417-21.727 -48. 068 1. 00 23. 94 N

ATOM 4783 C LYS D 23 -3.541 -28.052 -50. 698 1., 00 28.32 C

ATOM 4784 0 LYS D 23 -2.864 -28.207 -51. 714 1., 00 27. 50 0

ATOM 4785 N LEU D 24-3.961-29.072 -49. 947 1. .00 28.29 N

ATOM 4786 CA LEU D 24 -3.659-30.457 -50. 316 1. .00 28.99 C

ATOM 4787 CB LEU D 24 -4.211 -31.439 -49. 265 1. .00 29. 23 C

ATOM 4788 CG LEU D 24-4.158 -32.944 -49. 598 1, .00 30.05 C

ATOM 4789 CD1 LEU D 24-4.378 -33.777-48. 337 1, .00 30.15 C

ATOM 4790 CD2 LEU D 24-5, 233 -33.286 -50. 613 1, .00 28.18 C

ATOM 4791 C LEU D 24 -4.262 -30.770 -51. 684 1, .00 28. 88 C

ATOM 4792 0 LEU D 24-3.645 -31.453 -52. 499 1 .00 29.41 0

ATO 4793 N GLY D 25 -5.460 -30.255 -51. 934 1 .00 27.58 N

ATOM 4794 CA GLY D 25 -6.118 -30.513 -53. 200 1 ■ 00. 29.32 C

ATOM 4795 C GLY D 25 -5.331 -30.018 -54. 400 1 .00 29. 69 C

ATOM 4796 0 GLY D 25 -5.243-30.699 -55. 418 1 .00 31.36 0

ATOM 4797 N LEU D 26 -4.756-28.826 -54. 289 1 .00 28. 67 N

ATOM 4798 CA LEU D 26 -3.964 -28.271 -55. 374 1 .00 26. 89 C

ATOM 4799 CB LEU D 26 -3.515-26.844-55. 015 1 .00 27.22 C ATOM 4800 CG LEU D 26-4.652-25.808-55.056 1.00 27.90 C

ATOM 4801 CD1 LEU D 26 -A.234 -24.513 -54.393 1.00 25.34 C

ATOM 4802 GD2 LEU D 26 -5.049 -25.571-56.502 1.00 26.97 C

ATOM 4803 C LEU D 26 -2.758-29.161 -55.663 1. 00 27.36 C

ATOM 4804 0 LEU D 26 -2.321 -29.269 -56.810 1.00 27.58 0

ATOM 4805 N MET D 27 -2.232 -29.814 -54.626 1.00 26.11 N

ATOM 4806 CA MET D 27 -1.062 -30.671-54.792 1. 00 26.84 C

ATOM 4807 CB MET D 27 -0.489 -31. 069 -53.425 1. 00 28.13 C

ATOM 4808 CG MET D 27 0.036 -29.907 -52.583 1.00 24.50 C

ATOM 4809 SD MET D 27 0.786-30.446-51.023 1. 00 24.75 S

ATOM 4810 CE MET D 27 2.475-30.896 -51.587 1. 00 19.54 C

ATOM 4811 C MET D 27 -1.366 -31. 928 -55.606 1. 00 27.95 C

ATOM 4812 0 MET D 27 -0.466 -32.537 -56.180 1.00 28.72 0

ATOM 4813 N ARG D 28 -2.631 -32. 324 -55.671 1. 00 29.31 N

ATOM 4814 CA AR6 D 28-2.965-33.554 -56.372 1. 00 30.49 C

ATOM 4815 CB ARG D 28 -4.319 -34.085 -55.889 1., 00 29.95 C

ATOM 4816 CG ARG D 28 -4.352 -34.480 -54.410 1. 00 29.89 C

ATOM 4817 CD ARG D 28 -5.589 -35.306 -54.107 1..00 29.57 C

ATOM 4818 NE ARG D 28-5.796 -35.531 -52.675 1., 00 31.52 N

ATOM 4819 CZ ARG D 28 -5.369-36.604 -52.009 1. .00 30.48 C

ATOM 4820 NH1 ARG D 28-4.700 -37.558 -52.640 1., 00 30.49 N

ATOM 4821 NH2 ARG D 28 -5.633 -36.735 -50.715 1. .00 28.78 N

ATOM 4822 C ARG D 28 -2.985-33.358-57.889 1, .00 33.00 C

ATOM 4823 0 ARG D 28 -3.059 -34.327 -58.643 1. .00 31.38 0

ATOM 4824 N GLU D 29-2.919 -32.105 -58.332 1, .00 36.30 N

ATOM 4825 CA GLU D 29-2.981 -31. 785 1 59.759 1 .00 42.81 C

ATOM 4826 CB GLU D 29-3.172 -30. 282-59.947 1, .00 46.69 C

ATOM 4827 CG GLU D 29 -2.918-29. 793 -61.368 1 .00 53.21 C

ATOM 4828 CD GLU D 29 -2.763-28. 278 -61.439 1 • 00 57.48 C

ATOM 4829 0E1 GLU D 29 -1.721 -27. 806 -61.953 1 .00 57.49 0

ATOM 4830 0E2 GLU D 29 -3.683 -27. 560 -60.974 1 ∎ 00 59.41 0

ATOM 4831 C GLU D 29 -1.722 -32. 225-60.502 1 .00 43.60 C

ATOM 4832 0 GLU D 29 -0.629-31. 759 -60.201 1 ■ 00 44.29 0

ATOM 4833 N 6LN D 30 -1 881-33. 105 -61.485 1 .00 46.51 N

ATOM 4834 CA GLN D 30 -0.739-33. 740 -62.147 1 .00 49.40 C

ATOM 4835 CB GLN D 30 -1.224 1 34. 703 -63.236 1 .00 51.80 C ATOM 4836 C6 6LN D 30 -1.891 -34.018 -64.435 1.00 54.95 C

ATOM 4837 CD 6LN D 30 -1.947 34.911 -65.673 1.0057.46 C

ATOM 4838 0E1 6LN D 30 -1.234-35.917 -65.764 1.00 57.65 0

ATOM 4839 NE2 GLN D 30 -2.797 -34.544 -66.634 1.00 56.79 N

ATOM 4840 C GLN D 30 0.227 -32.732-62.770 1.00 50.34 C

ATOM 4841 0 GLN D 30 1.446 -32.872 -62.661 1.00 50.04 0

ATOM 4842 N ASP D 31 -0.324 -31.716 -63.424 1.00 50.59 N

ATOM 4843 CA ASP D 31 0.478 -30.783 -64.205 1.00 51.69 C

ATOM 4844 CB ASP D 31-0.339 -30.275 -65.392 1.00 54.57 C

ATOM 4845 CG ASP D 31-1.720 -29.800 -64.982 1.00 58.40 C

ATOM 4846 0D1 ASP D 31 -2.033 -28.611 -65.204 1.00 60.78 0

ATOM 4847 .0D2 ASP D 31 -2.493 -30.619 -64.433 1.00 60.25 0

ATOM 4848 C ASP D 31 0.961 -29.598 -63.369 1.00 49: 93 C

ATOM 4849 0 ASP D 31 1.060 -28.476 -63.869 1.0051.00 0

ATOM 4850 N ILE D 32 1.258 -29.851 -62.098 1.0045.77 N

ATOM 4851 CA ILE D 32 1.693 -28.792 -61.194 1.00 41.53 C

ATOM 4852 CB ILE D 32 1.271 -29.091 -59.731 1.00 39.96 C

ATOM 4853 CG2 ILE D 32 1.941-30.363 -59.243 1.00 36.91 C

ATOM 4854 CG1 ILE D 32 1.659 -27.925 -58.826 1.00 38.71 C

ATOM 4855 CD1 ILE D 32 1.153 -28.061 -57.401 1.00 39.57 C

ATOM 4856 C ILE D 32 3.209 -28.632 -61.256 1.00 39.11 C

ATOM 4857 0 ILE D 32 3.936 -29.611 -61.429 1.00 38.36 0

ATOM 4858 N SER D 33 3.674 -27.393 -61'.110 1.00 36.16 N

ATOM 4859 CA SER D 33 5.093 -27.074 -61240 1.00 34.67 C

ATOM 4860 CB SER D 33 5.276-25.590 -61.532 1.00 32.34 C

ATOM 4861 06 SER D 33 5.122-24.837 -60.338 1.00 35.14 0

ATOM 4862 C SER D 33 5.827 -27.410 -59.949 1.00 34.48 C

ATOM 4863 0 SER D 33 5.212 -27.520 -58.893 1.00 37.08 0

ATOM 4864 N THR D 34 7.145 -27.539 -60.022 1.00 31.93 N

ATO 4865 CA THR D 34 7.898 -27.936 -58.852 1.00 32.29 C

ATOM 4866 CB THR D 34 9.366 -28.287 -59.219 1.00 32.58 C

ATOM 4867 061 THR D 34 10.004 -28.916-58.102 1.00 33.51 0

ATOM 4868 CG2 THR D 34 10.144 -27.039 -59.565 1.0036.37 C

ATOM 4869 C THR D 34 7.871-26.830 -57.798 1.00 31.61 C

ATOM 4870 0 THR D 34 7.892 -27.101 -56.604 1.00 32.30 0

ATOM 4871 N LYS D 35 7.811 -25.579 -58.233 1.00 32.25 N ATOM 4872 CA LYS D 35 7.798 -24.467 -57.294 1.00 31.07

ATOM 4873 CB LYS D 35 7.897-23.133 -58.038 1. 00 33.69

ATOM 4874 CG LYS D 35 7.864 -21.921 -57.122 1. 00 35.31

ATOM 4875 CD LYS D 35 6.916 -20.848 -57.650 1. 00 39.87

ATOM 4876 CE LYS D 35 7.072 -19.526 -56.884 1. 00 42.44

ATOM 4877 NZ LYS D 35 6.815 -19.641-55.407 1.00 41.77

ATOM 4878 C LYS D 35 6.526 -24.483 -56.453 1. 00 30.26

ATOM 4879 0 LYS D 35 6.584 -24.384-55.224 1. 00 28.68

ATOM 4880 N ARG D 36 5.382 -24.620 -57.118 1.00 28.47

ATOM 4881 CA ARG D 36 4.088 -24.572-56.439 1. 00 27.63

ATOM 4882 CB AR6 D 36 2.958-24, 547 -57.471 1. 00 30.47

ATOM 4883 CG ARG D 36 1.572 -24.401 -56.869 1.00 34.55

ATOM 4884 CD ARG D 36 1.372 -23.011 -56.289 1.00 39.00

ATOM 4885 NE ARG D 36 1.307 -21.983 -57.326 1. 00 43.43

ATOM 4886 CZ ARG D 36 1.652 -20.711 -57.137 1. 00 44.82

ATOM 4887 NH1 ARG D 36 2.090-20.315 -55.953 1.00 47.10

ATOM 4888 NH2 ARG D 36 1.553 -19.832 -58.125 1.00 47.08

ATOM 4889 C ARG D 36 3.895 -25.762-55.495 1. 00 26.55

ATOM 4890 0 ARG D 36 3.371 -25.615 -54.380 1., 00 22.24

ATOM 4891 N PHE D 37 4.326 -26.937-55.947 1. .00 26.03

ATOM 4892 CA PHE D 37 4.253-28.146 -55.133 1., 00 26.35

ATOM 4893 CB PHE D 37 4.745 -29.357 -55.934 1. .00 24.56

ATOM 4894 CG PHE D 37 4.461 -30.680 -55.273 1. .00 25.15

ATOM 4895 CD1 PHE D 37 3.346 -31.424 -55.632 1, .00 27.12

ATOM 4896 CD2 PHE D 37 5.307 -31.176 -54.293 1, .00 27.22

ATOM 4897 CE1 PHE D 37 3.079 -32.645 -55.023 1, .00 30.07

ATOM 4898 CE2 PHE D 37 5.054-32.394-53.676 1, .00 28.31

ATOM 4899 CZ PHE D 37 3.935 -33.131 -54.043 1 • 00 30.71

ATOM 4900 C PHE D 37 5.113 -27.972 -53.890 1 • 00 26.48

ATOM 4901 0 PHE D 37 4.730-28.376 -52.796 1 • 00 28.97

ATOM 4902 N ARG D 38 6.271 -27.349 -54.073 1 ■ 00 27.98

ATOM 4903 CA ARG D 38 7.273 -27.207 -53.023 1 .00 29.73

ATOM 4904 CB ARG D 38 8.562 -26.645 -53.626 1 .00 31.17

ATOM 4905 CG ARG D 38 9.783 -26.725 -52.731 1 .00 37.07

ATOM 4906 CD ARG D 38 11.022-26.174-53.451 1 .00 38.67

ATOM 4907 NE ARG D 38 11.042 -26.516 -54.874 1 .00 39.74 ATOM 4908 CZ ARG D 38 12.132-26.474-55.636 1.00 40.99 C

ATOM 4909 NH1 ARG D 38 13.291-26.108-55. 110 1. 00 44.85 N

ATOM 4910 NH2 ARG D 38 12.068 -26.784 -56. 923 1. 00 41.53 N

ATOM 4911 C ARG D 38 6.793 -26.303 -51. 892 1. 00 30.48 C

ATOM 4912 0 ARG D 38 7.091 -26.545 -50. 724 1. 00 31.80 0

ATOM 4913 N 6LU D 39 6.051 -25.258-52. 229 1. 00 30.72 N

ATOM 4914 CA GLU D 39 5.571 -24.352-51. 196 1. 00 32.78 C

ATOM 4915 CB 6LU D 39 5.391 -22.932 -51. 755 1. 00 36.73 C

ATOM 4916 C6 GLU D 39 4.503 -22.824-52. 974 1.00 41.25 C

ATOM 4917 CD GLU D 39 4.179 -21.381 -53. 317 1. 00 45.62 C

ATOM 4918 0E1 GLU D 39 4.041 -20.564 -52. 380 1. 00 49.26 0

ATOM 4919 ΌΕ2 GLU D 39 4.065 -21.063 -54. 521 1.00 47.23 0

ATOM 4920 C GLU D 39 4.277-24.831-50. 548 1. 00 29.98 C

ATOM 4921 0 GLU D 39 4.079 -24.636 -49. 354 1. 00 30.09 0

ATOM 4922 N LEU D 40 3.403-25.460 -51. 331 1. 00 27.71 N

ATOM 4923 CA LEU D 40 2.222 -26.117-50. 770 1.00 25.73 C

ATOM 4924 CB LEU D 40 1.376 -26.721-51. 885 1. 00 23.55 C

ATOM 4925 GG LEU D 40 0.593 -25.681 -52. 683 1. 00 25.96 C

ATOM 4926 CD1 LEU D 40 -0.081 -26.326 -53. 875 1. 00 25.16 C

ATOM 4927 CD2 LEU D 40 -0.442-25.031-51. 758 1. 00 26.50 C

ATOM 4928 C LEU D 40 2.602 -27.204-49. 763 1. 00 24.60 C

ATOM 4929 0 LEU D 40 1.970 -27.334-48. 725 1.00 24.03 0

ATOM 4930 N ALA D 41 3.650 -27.967 -50.067 1.00 24.21 N

ATOM 4931 CA ALA D 41 4.130-28.986 -49. 149 1., 00 24.46 C

ATOM 4932 CB ALA D 41 5.296-29.757 -49. 772 1., 00 27.12 C

ATOM 4933 C ALA D 41 4.565-28.340-47. 846 1. .00 24.28 C

ATOM 4934 0 ALA D 41 4.390 -28.910 -46.774 1..00 26.32 0

ATOM 4935 N SER D 42 5.126 -27.141-47. 935 1. .00 23.64 N

ATOM 4936 CA SER D 42 5.551 -26.439 -46. 740 1. .00 22.19 C

ATO 4937 CB SER D 42 6.599 -25.389 -47. 096 1, .00 23.58 G

ATOM 4938 OG SER D 42 7.435-25.139 -45. 981 1. .00 28.84 0

ATOM 4939 C SER D 42 4.373 -25.775 -46. 018 1. .00 21.79 C

ATOM 4940 0 SER D 42 4.315 -25.751 -44. 790 1, .00 20.02 0

ATOM 4941 N GLU D 43 3.433 -25.228 -46. 771 1, .00 21.16 N

ATOM 4942 CA GLU D 43 2.286 -24.593 -46. 133 1, .00 23.54 G

ATOM 4943 CB GLU D 43 1.390 -23.924 -47. 178 1. .00 23.43 C ATOM 4944 CG 6LU D 43-22.563 -47.610 1.00 23.62

ATOM 4945 CD GLU D 43 1.409 -22.166 -48. 976 • 1.00 24.21

ATOM 4946 0E1 GLU D 43 0.268 -22.523 -49. 325 1. 00 24.51

ATOM 4947 0E2 GLU D 43 2.169 -21.492 -49. 703 1. 00 28.25

ATOM 4948 C GLU D 43 1.484 -25.602-45. 319 1. 00 23.81

ATOM 4949 0 GLU D 43 1.215 -25.380 -44. 135 1. 00 24.30

ATOM 4950 N VAL D 44 1.121 -26.717 -45. 943 1. 00 24.31

ATOM 4951 CA VAL D 44 0.348 -27.735-45. 248 1. 00 25.12

ATOM 4952 GB VAL D 44 -0.062 -28.869 -46. 206 1. 00 26.37

ATOM 4953 CG1 VAL D 44 1.170-29.433 -46. 874 1. 00 34.50

ATOM 4954 CG2 VAL D 44 -0.798 -29.965 -45. 446 1. 00 25.26

ATOM 4955 C VAL D 44 1.145-28.298 -44. 072 1. 00 23.87

ATOM 4956 0 VAL D 44 0.597 -28.521-42. 998 1. 00 26.25

ATOM 4957 N GLY D 45 2.444 -28.499 -44. 255 1. 00 22.55

ATOM 4958 CA GLY D 45 3.261-28.921-43. 130 1. 00 21.41

ATOM 4959 C GLY D 45 3.153 -27.947 -41. 960 1. 00 22.26

ATOM 4960 0 GLY D 45 3.091 -28.347 -40. 797 1., 00 20.27

ATOM 4961 N SER D 46 3.127-26.656-42. 271 1. 00 20.30

ATOM 4962 CA SER D 46 2.960-25.629-41. 253 1., 00 18.61

ATOM 4963 CB SER D 46 2.986 -24.235 -41. 890 1., 00 18.56

ATOM 4964 OG SER D 46 3.029 -23.248 -40. 883 1., 00 17.72

ATOM 4965 C SER D 46 1.641 -25.802 -40. 505 1. .00 18.23

ATOM 4966 0 SER D 46 1.609 -25.778 -39. 276 1., 00 17.68

ATOM 4967 N LEU D 47 0.554 -25.986-41. 248 1., 00 17.00

ATOM 4968 CA LEU D 47 -0.755 -26.171 -40. 630 1. .00 18.85

ATOM 4969 GB LEU D 47 -1.837 -26.207 -41. 712 1. .00 17.78

ATOM 4970 CG LEU D 47 -1.759 -24.996 -42.657 1, .00 20.10

ATOM 4971 CD1 LEU D 47-2.937 -25.000-43. 638 1. .00 17.01

ATOM 4972 CD2 LEU D 47 -1.730 -23.709 -41. 826 1. .00 15.85

ATO 4973 C LEU D 47 -0.816 -27.436 -39. 763 1, .00 19.72

ATOM 4974 0 LEU D 47-1.434 -27.438 -38. 696 1, .00 19.38

ATOM 4975 N LEU D 48 -0.153 -28.502 -40. 211 1 .00 21.50

ATOM 4976 CA LEU D 48-0.095-29.742 -39. 447 1, .00 21.44

ATOM 4977 CB LEU D 48 0.567 -30.837 -40. 284 1, .00 21.06

ATOM 4978 CG LEU D 48 -0.223 -41. 546 1 ■ 00 25.44

ATOM 4979 CD1 LEU D 48 0.595 -32.149 -42. 400 1 • 00 25.20 ATOM 4980 CD2 LEU D 48 -1.579 -31.811-41.163 1.00 23.61 C

ATOM 4981 C LEU D 48 0.667 -29.544 -38.136 1. 00 22.30 C

ATOM 4982 0 LEU D 48 0.303 -30.108 -37.105 1.00 22.33 0

ATOM 4983 N THR D 49 1.716 -28.727-38.176 1. 00 23.56 N

ATOM 4984 CA THR D 49 2.511 -28. 34 -36.991 1. 00 23.27 C

ATOM 4985 CB THR D 49 3.691 -27.516 -37. 359 1. 00 25.20 C

ATOM 4986 0G1 THR D 49 4.523 -28.180 -38. 321 1. 00 27.09 0

ATOM 4987 CG2 THR D 49 4.516 -27.172 -36. 136 1. 00 23.40 G

ATOM 4988 C THR D 49 1.650 -27.769 -35. 914 1.00 25.42 C

ATOM 4989 0 THR D 49 1.805 -28.035 -34. 720 1.00 25.37 0

ATOM 4990 N TY D 50 0.722-26.922 -36. 347 1. 00 25.83 N

ATOM 4991 CA TYR D 50 -0.153 -26.204-35. 435 1. 00 26.92 C

ATOM 4992 CB TYR D 50 -0.984 -25.184 -36. 214 1. 00 27.94 C

ATOM 4993 CG TYR D 50 -1.857-24 293 -35. 361 1. 00 27.21 C

ATOM 4994 CD1 TYR D 50 -1.311 -23.239 -34. 644 1. 00 28.80 G

ATOM 4995 CE1 TYR D 50 -2.112-22.382 -33. 913 1. 00 29.57 G

ATOM 4996 CD2 TYR D 50-3.235 -24.472-35. 318 1. .00 30.87 C

ATOM 4997 CE2 TYR D 50-4.048 -23.619-34. 584 1., 00 29.93 C

ATOM 4998 CZ TYR D 50 -3.478-22.576-33. 884 1., 00 29.93 C

ATOM 4999 OH TYR D 50 -4.270 -21.731 -33. 1 0 1. .00 30.41 0

ATOM 5000 C TYR D 50-1.081 -27.184-34. 732 1. .00 27.35 C

ATOM 5001 0 TYR D 50-1.248 -27.145 -33. 514 1. .00 24.79 0

ATOM 5002 N GLU D 51-1.693 -28.053-35'.524 1. .00 27.76 N

ATOM 5003 CA GLU D 51 -2.551 -29.094 -34. 998 1, .00 29.07 C

ATOM 5004 CB GLU D 51 -3.089 -29.941-36. 154 1, .00 29.59 C

ATOM 5005 Cfi GLU D 51-3.963-29.160 -37. 118 1, .00 34.32 C

ATOM 5006 CD GLU D 51 -5.291-28.768 -36. 491 1, .00 35.17 C

ATOM 5007 0E1 GLU D 51 -5.680 -29.421 -35. 499 1, .00 34.54 0

ATOM 5008 0E2 GLU D 51 -5.942 -27.814 -36. 988 1, .00 34.18 0

ATOM 5009 C GLU D 51 -1.785-29.973 -34. 013 .1 .00 28.07 C

ATOM 5010 0 GLU D 51 -2.297 -30.317-32. 951 1 .00 28.02 0

ATOM 5011 N ALA D 52 -0.550 -30.318-34. 362 1 .00 27.26 N

ATOM 5012 CA ALA D 52 0.204 -31.302 -33. 596 1 .00 26.84 C

ATOM 5013 CB ALA D 52 1.269 -31.937-34. 477 1 .00 25.50 C

ATOM 5014 C ALA D 52 0.845 -30.725 -32. 332 1 .00 26.79 C

ATOM 5015 0 ALA D 52 1.266 -31.481 One 31. 454 1 ∎ 00 27.32 0 ATOM 5016 N THR D 53 0.927 -29.399 -32.236 1.00 24.62 N

ATOM 5017 CA THR D 53 1.526 -28.768 -31.063 1.00 26.23 C

ATOM 5018 CB THR D 53 2.541-27.675 -31.466 1. 00 26.76 C

ATOM 5019 0G1 THR D 53 1.905-26.727 -32.328 1.00 29.63 0

ATOM 5020 CG2 THR D 53 3.728 -28.287 -32.180 1. 00 28.13 C

ATOM 5021 C THR D 53 0.499 -28.149 -30.105 1. 00 25.56 C

ATOM 5022 0 THR D 53 0.865 -27.559-29.087 1.00 26.49 0

ATOM 5023 N ALA D 54 -0.780-28.293-30.432 1. 00 24.30 N

ATOM 5024 CA ALA D 54 -1.861 -27.738 -29.626 1. 00 25.08 C

ATOM 5025 CB ALA D 54-3.197 -28.202 -30.178 1. 00 24.10 C

ATOM 5026 C ALA D 54-1.746-28.126 -28.155 1.00 26.24 C

ATOM 5027 .0 ALA D 54-2.245 -27.427 -27.276 1. 00 25.64 0

ATOM 5028 N ASP D 55 -1.077 -29.240 -27.887 1. 00 28.46.

ATOM 5029 CA ASP D 55 -1.039-29.795 -26.539 1. 00 32.27 C

ATOM 5030 CB ASP D 55-1.264 -31.304 -26.600 1.00 37.68 C

ATOM 5031 CG ASP D 55 -0.327 -31.991 -27.578 1. 00 42.08 C

ATOM 5032 0D1 ASP D 55 0.319-31.280-28.384 1. 00 47.50 .0

ATOM 5033 0D2 ASP D 55-0.233 -33.236 -27.545 1., 00 44.09 0

ATOM 5034 C ASP D 55 0.281 -29.501 -25.834 1., 00 32.80 C

ATOM 5035 0 ASP D 55 0.428 -29.763 -24.640 1. .00 33.86 0

ATOM 5036 N LEU D 56 1.240-28.956 -26.574 1. .00 31.03 N

ATOM 5037 CA LEU D 56 2.528 -28.598 -25.999 1., 00 29.53 C

ATOM 5038 CB LEU D 56 3.385 -27.915 -27.058 1. .00 30.90 C

ATOM 5039 CG LEU D 56 4.821 -27.588 -26.667 1. .00 33.06 C

ATOM 5040 CD1 LEU D 56 5.598-28.881 -26.448 1. .00 34.20 C

ATOM 5041 CD2 LEU D 56 5.458 -26.758-27.767 1, .00 34.23 C

ATOM 5042 C LEU D 56 2.313 -27.657 -24.821 1, .00 28.86 C

ATOM 5043 0 LEU D 56 1.469 -26.768 -24.886 1 .00 28.25 0

ATOM 5044 N GLU D 57 3.072 -27.849 -23.745 1 .00 28.07 N

ATOM 5045 CA GLU D 57 2.905 -27.018 -22.554 1, .00 28.10 C

ATOM 5046 CB GLU D 57 3.450 -27.722 -21.309 1 • 00 28.51 C

ATOM 5047 CG GLU D 57 4: 957 -27.633 1 .00 30.17 C

ATOM 5048 CD GLU D 57 5.692-28.694-21.959 1 .00 29.84 C

ATOM 5049 0E1 GLU D 57 5.028 -29.511 -22.633 1 • 00 31.87 0

ATOM 5050 0E2 GLU D 57 6.937 -28.712-21.905 1 .00 29.62 0

ATOM 5051 C GLU D 57 3.601 -25.669-22.687 1 .00 28.17 C ATOM 5052 0 GLU D 57 4.579-25.525-23.424 1.00 25.99

ATOM 5053 N THR D 58 3.084-24.683 -21 ■ 962 1. 00 27.43

ATOM 5054 CA THR D 58 3.782 -23.417 -21.779 1. 00 28.34

ATOM 5055 CB THR D 58 2.878 -22.208 -22.118 1. 00 28.86

ATOM 5056 0G1 THR D 58 1.694 -22.246-21.306 1. 00 29.60

ATOM 5057 CG2 THR D 58 2.488 -22.232 -23.585 1.00 26.18

ATOM 5058 C THR D 58 4.226 -23.291-20.331 1. 00 28.88

ATOM 5059 0 THR D 58 3.685 -23.966 -19.446 1. 00 27.69

ATOM 5060 N GLU D 59 5.219 -22.437 -20.101 1. 00 28.46

ATOM 5061 CA GLU D 59 5.604 -22.052 -18.750 1. 00 30.96

ATOM 5062 CB GLU D 59 7.010 -22.569 -18.434 1. 00 32.55

ATOM 5063 C6 GLU D 59 7.082 -24.083 -18, 360 1. 00 37.26

ATOM 5064 CD GLU D 59 8.448 -24.589 -17.948 1. 00 39.52

ATOM 5065 0E1 GLU D 59 9.451 -23.903 -18.241 1. 00 42.91

ATOM 5066 0E2 GLU D 59 8.512 -25.674-17.328 1. 00 40.94

ATOM 5067 C GLU D 59 5.549-20.535 -18.556 1. 00 30.88

ATOM 5068 0 GLU D 59 5.891 -19.765 -19.460 1. 00 29.72

ATOM 5069 N LYS D 60 5.114 -20.110 -17.374 1. 00 28.81

ATOM 5070 CA LYS D 60 5.066 -18.693 -17.066 1. 00 30.24

ATOM 5071 CB LYS D 60 4.215 -18.437 -15.821 1. 00 29.85

ATOM 5072 CG LYS D 60 2.784 -18.911 -15.909 1., 00 31.33

ATOM 5073 CD LYS D 60 2.050 -18.653—14.591 1. .00 33.69

ATOM 5074 CE LYS D 60 0.562 -18.984-14 '695 1. .00 33.30

ATOM 5075 NZ LYS D 60 -0.149 —18.676 -13.433 1. .00 35.32

ATOM 5076 C LYS D 60 6.475 -18.175 -16.822 1. .00 30.08

ATOM 5077 0 LYS D 60 7.220 -18.726 -16.012 1, .00 29.57

ATOM 5078 N VAL D 61 6.836 -17.103 -17.513 1, .00 31.49

ATOM 5079 CA VAL D 61 8.129 -16.470 -17.285 1, .00 32.73

ATOM 5080 CB VAL D 61 9.109 -16.773 -18.441 1 .00 32.59

ATOM '5081 CG1 VAL D 61 10.491 1 16.228 -18.108 1 .00 31.51

ATOM 5082 CG2 VAL D 61 9.170 -18.270 -18.680 1 • 00 31.57

ATOM 5083 C VAL D 61 7.963 -14.963 -17.153 1, 00 32.87

ATOM 5084 0 VAL D 61 7.252 -14.334—17.939 1 .00 30.51

ATOM 5085 N THR D 62 8.618 -14.383 -16.153 1 .00 32.88

ATOM 5086 CA THR D 62 8.531 -12.944 -15.956 1 .00 34.11

ATOM 5087 CB THR D 62 8.539 One 12.584 -14.458 1 .00 34.66 ATOM 5088 061 THR D 62 7.281 -12.947 -13.887 1.00 33.61 0

ATOM 5089 CG2 THR D 62 8.763 -11.090 -14. 260 1. 00 36.31 C

ATOM 5090 C THR D 62 9.661 -12.211 -16. 658 1. 00 33.76 C

ATOM 5091 0 THR D 62 10.834 -12.437 -16. 366 1. 00 34.08 0

ATOM 5092 N ILE D 63 9.292 -11.340 -17. 595 1. 00 32.53 N

ATOM 5093 CA ILE D 63 10.262 -10.547 -18. 336 1. 00 33.96 C

ATOM 5094 CB ILE D 63 10.204-10.841 -19. 853 1. 00 33.54 C

ATOM 5095 CG2 ILE D 63 10.564 -12.302 -20. 129 1. 00 31.94 C

ATOM 5096 C61 ILE D 63 8.808 -10.512 -20. 384 1. 00 32.39 C

ATOM 5097 CD1 ILE D 63 8.744 -10.397 -21. 883 1. 00 32.18 C

ATOM 5098 C ILE D 63 9.995-9.057 -18. 150 1. 00 35.95 C

ATOM 5099 0 ILE D 63 8.870 -8.643 -17. 852 1. 00 35.61 0

ATOM 5100 N GLU D 64 11.034 -8.252 -18. 330 1. 00 36.84.

ATOM 5101 CA GLU D 64 10.849 -6.820-18. 488 1. 00 38.36 C

ATOM 5102 CB GLU D 64 12.206 -6.111 -18. 543 1. 00 41.05 C

ATOM 5103 CG GLU D 64 12.649 -5.529 -17. 209 1. 00 45.74 C

ATOM 5104 CD GLU D 64 11.782 -4.356 -16. 771 1.00 50.75 C

ATOM 5105 0E1 GLU D 64 11.568 -4.198 -15. 548 1. 00 52.61 0

ATOM 5106 0E2 GLU D 64 11.311 -3.590 -17. 648 1., 00 50.80 0

ATOM 5107 C GLU D 64 10.073-6.558 -19. 772 1., 00 37.16 C

ATOM 5108 0 GLU D 64 10.558 -6.821 -20. 872 1. 00 36.74 0

ATOM 5109 N GLY D 65 8.858 -6.044 -19. 621 1. 00 37.62 N

ATOM 5110 CA GLY D 65 8.054 -5.683 -20.770 1., 00 36.52 C

ATOM 5111 C GLY D 65 8.252 -4.231 -21.152 1., 00 36.72 C

ATOM 5112 0 GLY D 65 9.134 -3.553 -20. 632 1., 00 36.94 0

ATOM 5113 N TRP D 66 7.420 -3.756 -22. 068 1. .00 37.45 N

ATOM 5114 CA T P D 66 7.524 -2.398-22. 582 1. .00 36.81 C

ATOM 5115 CB TRP D 66 6.617-2.244 -23. 802 1. .00 33.95 C

ATOM 5116 CG TRP D 66 5.183 -2.283 -23. 447 1. .00 32.67 C

ATOM 5117 CD2 TRP D 66 4.362-1.166-23. 094 1, .00 33.40 C

ATOM 5118 CE2 TRP D 66 3.072 -1.668 -22. 818 1, .00 34.41 C

ATOM 5119 CE3 TRP D 66 4.590 0.210 -22. 987 1, .00 29.90 C

ATOM 5120 CD1 TRP D 66 4.385 -3.386 -23. 373 1 .00 32.79 C

ATOM 5121 NE1 TRP D 66 3.114 -3.026 -22. 996 1 .00 33.74 N

ATOM 5122 CZ2 TRP D 66 2.014 -0.843 -22. 441 1 .00 32.75 C

ATOM 5123 CZ3 TRP D 66 3.541 1.027 -22. 615 1 .00 29.85 C ATOM 5124 CH2 TRP D 66 0.498 -22.345 1.00 33.29 C

ATOM 5125 C TRP D 66 7. 122 -1 382 -21. 518 1. 00 37.74 C

ATOM 5126 0 TRP D 66 7.544 -0.227 -21. 554 1.00 37.66 0

ATOM 5127 N ASN D 67 6.293 -1.819 -20.578 1. 00 39.82 N

ATOM 5128 CA ASN D 67 5.796 -0.947 -19.516 1.00 40.32 C

ATOM 5129 CB ASN D 67 4.264 -0.873 -19.571 1.00 40.44 C

ATOM 5130 GG ASN D 67 3.690 0.128 -18. 582 1. 00 42.88 C

ATOM 5131 0D1 ASN D 67 2.571 -0.035-18. 086 1. 00 44.18 0

ATOM 5132 ND2 ASN D 67 4.453 -18. 292 1. 00 42.02 N

ATOM 5133 C ASN D 67 6.241 -1 482-18. 159 1. 00 39.94 C

ATOM 5134 0 ASN D 67 5.617 -1.207 -17. 137 1. 00 41.13 0

ATOM 5135 N GLY D 68 7. 322 -2.255-18. 159 1. 00 40.29 N

ATOM 5136 CA GLY D 68 7. 798-2.858 -16. 926 1. 00 40.56 C

ATOM 5137 C GLY D 68 7. 675 -4.371-16. 906 1. 00 40.37 C

ATOM 5138 0 GLY D 68 7. 366 -4.991 -17. 927 1. 00 38.38 0

ATOM 5139 N PRO D 69 7. 907 -4.996 -15. 739 1. 00 40.61 N

ATOM 5140 CD PRO 0 69 8.179 -4.310-14. 467 1. 00 40.85 C

ATOM 5141 CA PRO D 69 7. 927 -6.455-15. 580 1. .00 40.30 C

ATOM 5142 CB PRO D 69 8.254 -6.654 -14. 100 1. 00 40.55 C

ATOM 5143 CG PRO D 69 8.869-5.367 -13. 665 1. 00 41.13 C

ATOM 5144 C PRO D 69 6.584 -7.080 -15. 943 1., 00 39.10 C

ATOM 5145 0 PRO D 69 5.556 -6.728-15. 376 1,, 00 40.66 0

ATOM 5146 N VAL D 70 6.590 -8.009 -16.886 1., 00 37.33 N

ATOM 5147 CA VAL D 70 5.356-8.681 -17.258 1. .00 35.14 C

ATOM 5148 CB VAL D 70 4.827 -8.155 -18.597 1. .00 33.45 C

ATOM 5149 CG1 VAL D 70 5. 841 -8.423 -19.691 1, .00 29.60 C

ATOM 5150 C62 VAL D 70 3. 501 -8.798 -18. 919 1. .00 31.53 C

ATOM 5151 C VAL D 70 5. 551 -10.195-17. 352 1. .00 36.56 C

ATOM 5152 0 VAL D 70 6. 572 -10.680-17. 853 1, .00 36.03 0

ATOM '5153 N GLU D 71 4. 563 -10.933 -16. 857 1, .00 35.99 N

ATOM 5154 CA GLU D 71 4. 615 -12.382 -16. 857 1, .00 35.23 C

ATOM 5155 CB GLU D 71 3. 922 -12.923 -15., 610 1 • 00 36.25 C

ATOM 5156 CG GLU D 71 3. 500 -14.373-15. 723 1 .00 36.91 C

ATOM 5157 CD GLU D 71 3. 384 -15.054 -14. 380 1 ■ 00 35.48 C

ATOM 5158 0E1 GLU D 71 2. 273 -15.495 -14. .024 1 .00 35.12 0

ATOM 5159 0E2 GLU D 71 4. 416 -15.148 —13..685 1 .00 37.52 0 ATOM 5160 C GLU D 71 3.951 -12.947 -18.108 1.0034.66

ATOM 5161 0 GLU D 71 2.758 1 12. 750 -18. 326 1. 00 34.52

ATOM 5162 N ILE D 72 4.734 -13. 655 -18. 918 1. 00 31.99

ATOM 5163 CA ILE D. 72 4.240 -14. 233 -20. 160 1. 00 29.25

ATOM 5164 CB ILE D 72 5.020 -13. 685 -21. 363 1. 00 28.20

ATOM 5165 CG2 ILE D 72 4.882 -12. 170 -21. 411 1. 00 27.39

ATOM 5166 CG1 ILE D 72 6.501 -14. 058 -21. 245 1. 00 28.82

ATOM 5167 CD1 ILE D 72 7.317 -13. 689 -22. 453 1. 00 25.30

ATOM 5168 C ILE D 72 4.334 -15. 755 -20. 164 1. 00 29.91

ATOM 5169 0 ILE D 72 4.961-16. 354 -19. 290 1. 00 28.36

ATOM 5170 N ASP D 73 3.695 -16. 377 -21. 148 1. 00 29.76

ATOM 5171 CA ASP D 73 3.788-17. 821 -21. 323 1. 00 30.18

ATOM 5172 CB ASP D 73 2.419 -18. 408 -21. 708 1. 00 33.58

ATOM 5173 CG ASP D 73 1.318 -18. 056 -20. 710 1. 00 35.93

ATOM 5174 0D1 ASP D 73 0.388 -17. 315-21. 098 1. 00 40.36

ATOM 5175 0D2 ASP D 73 1.376 -18. 519 -19. 549 1. 00 33.96

ATOM 5176 C ASP D 73 4.802-18. 131 -22. 426 1. 00 30.69

ATOM 5177 0 ASP D 73 4.842 -17. 446-23. 453 1. 00 30.29

ATOM 5178 N GLN D 74 5.614 -19. 165 -22. 208 1. 00 29.18

ATOM 5179 CA GLN D 74 6.625 -19. 574 -23. 181 1. 00 29.17

ATOM 5180 CB GLN D 74 8.007 -19. 083 -22. 743 1., 00 30.65

ATOM 5181 CG GLN D 74 8.141 -17. 579 -22. 674 1., 00 33.29

ATOM 5182 CD GLN D 74 8.283 -16. 948-24. 040 1. 00 35.11

ATOM 5183 0E1 GLN D 74 9.396 -16.777 1 24.543 1., 00 39.17

ATOM 5184 NE2 GLN D 74 7.158 -16. 600 -24. 653 1., 00 34.02

ATOM 5185 C GLN D 74 6.688-21. 088 -23. 373 1., 00 27.83

ATOM 5186 0 GLN D 74 6.466 -21. 853-22. 434 1. .00 25.42

ATOM 5187 N ILE D 75 7.003 -21. 517 -24. 591 1. .00 27.38

ATOM 5188 CA ILE D 75 7.387 -22. 908 -24. 823 1. .00 27.07

ATOM 5189 CB ILE D 75 6.818 -23. 446 -26. 139 1. .00 25.07

ATOM 5190 CG2 ILE D 75 5.334 -23. 204 -26. 183 1, .00.24.07

ATOM 5191 CG1 ILE D 75 7.547 -22. 805 -27. 322 1, .00 23.09

ATOM 5192 CD1 ILE D 75 7.182 -23. 392 -28. 669 1, .00 23.75

ATOM 5193 C ILE D 75 8.908-23. 038 1 24. 888 1 .00 27.47

ATOM 5194 0 ILE D 75 9.624 -22. 044 -24. 931 1, .00 28.07

ATOM 5195 N LYS D 76 9.401 -24. 270 -24. 890 1 .00 30.06 ATOM 5196 CA LYS D 76 10. 833-24. 507 -25. 053 1. 00 31. 82 C

ATOM 5197 CB LYS D 76 11. 298 -25. 598 -24. 086 1. 00 34. 67 C

ATOM 5198 C6 LYS D 76 10. 893 -25. 377-22. 634 1. 00 38. 34 C

ATOM 5199 CD LYS D 76 12. 049 -24. 857 -21. 788 1. 00 41. 49 C

ATOM 5200 CE LYS D 76 11. 752 -24. 998 -20. 295 1. 00 42. 59 C

ATOM 5201 NZ LYS D 76 11. 288 -26. 379 -19. 957 1. 00 42. 94 Ν

ATOM 5202 C LYS D 76 11. 127 -24. 937 -26. 491 1. 00 30. 50 C

ATOM 5203 0 LYS D 76 -26. 126 -26. 788 1. 00 30. 52 0

ATOM 5204 N 6LY D 77 11. 350-23. 969 -27. 374 1. 00 28. 35 Ν

ATOM 5205 CA GLY D 77 11. 480 -24. 276 -28. 786 1. 00 27. 44 C

ATOM 5206 C GLY D 77 12. 685-25. 136 -29. 109 1. 00 28. 65 C

ATOM 5207 0 GLY D 77 12. 624-25. 998 -29. 989 1. 00 27. 42 0

ATOM 5208 N LYS D 78 13. 782 -24. 907-28. 395 1. 00 29. 26 Ν

ATOM 5209 CA LYS D 78 15. 004-25. 672 -28. 603 1. 00 30. 35 C

ATOM 5210 CB LYS D 78 16. 129 -25. 158 -27. 694 1. 00 32. 11 C

ATOM 5211 C6 LYS D 78 16. 614 -23. 740 -27. 991 1. 00 36. 12 C

ATOM 5212 CD LYS D 78 18. 034-23. 521-27. 445 1. 00 39. 65 C

ATOM 5213 CE LYS D 78 18. 338 -22. 039 -27. 205 1. 00 43. 23 C

ATOM 5214 NZ LYS D 78 19. 798 -21. 694 -27. 250 1. 00 .42. 56 Ν

ATOM 5215 C LYS D 78 14. 780-27. 158 -28. 333 1. 00 29. 24 C

ATOM 5216 0 LYS D 78 15. 357 -28. 002 -29. 011 1., 00 31. 95 0

ATOM 5217 N LYS D 79 13. 944 -27. 478-27. 351 1., 00 26. 85 Ν

ATOM. 5218 CA LYS D 79 1'3. 693 -28. 870 -27. 000 1., 00 24. 55 C

ATOM 5219 CB LYS D 79 13. 043-28. 978 -25. 612 1.. 00 26. 32 C

ATOM 5220 C6 LYS D 79 13. 845 -28. 394 -24. 447 1,. 00 28. 98 C

ATOM 5221 CD LYS 0 79 15. 274 -28. 029 -24. 823 1.. 00 33. 15 C

ATOM 5222 CE LYS D 79 16. 239 -29. 191 -24. 570 1,. 00 35. 82 C

ATOM 5223 NZ LYS D 79 17. 669 -28. 758 -24. 632 1, 00 36. 87 Ν

ATOM 5224 C LYS D 79 12. 781 -29. 536 -28. 029 1,. 00 23. 06 C

ATOM 5225 0 LYS D 79 12. 370 -30. 685 -27. 855 1. 00 22. 09 0

ATOM 5226 N I LE D 80 12. 454 -28. 816 -29. 094 1 ■ 00 20. 20 Ν

ATOM 5227 CA I LE D 80 11. 684 -29. 403 -30. 182 1. 00 23. 66 C

ATOM 5228 CB I LE D 80 10. 651 -28. 395 -30. 756 1. 00 25. 86 C

ATOM 5229 C62 I LE D 80 9. 854 -29. 044 -31. 873 1. 00 20. 36 C

ATOM 5230 CG1 I LE D 80 9. 685 -27. 944 -29. 662 1. 00 25. 33 C

ATOM 5231 CD1 I LE D 80 8. 533 -28. 901 -29. 445 1. 00 27. 99 C ATOM 5232 C! LE D 80 12.647 -29.818 -31.294 1.0023.80 C

ATOM 5233 0 ILE D 80 13.577 -29.081-31. 632 1.00 23.75 0

ATOM 5234 N THR D 81 12.439 -31. 003 -31. 854 1. 00 25.08 N

ATOM 5235 CA THR D 81 13.286 -31. 461 -32.952 1. 00 24.73 C

ATOM 5236 CB THR D 81 14.111 -32.712 -32.570 1. 00 25.83 C

ATOM 5237 061 THR D 81 14.951 -32.417 -31. 445 1. 00 26.95 0

ATOM 5238 C62 THR D 81 14.990 -33.143 -33. 746 1. 00 22.92 C

ATOM 5239 C THR D 81 12.455 -31.799 One 34.170 1.00 23.76 C

ATOM 5240 0 THR D 81 11. 532 -32.612 -34. 098 1.00 23.44 0

ATOM 5241 N VAL D 82 12.776 -31. 170 -35. 294 1. 00 21. 11 N

ATOM 5242 CA VAL D 82 12.135 -31. 532 -36. 544 1. 00 21. 50 C

ATOM 5243 CB VAL D 82 11. 987 -30.318 -37. 456 1. 00 22.92 C

ATOM 5244 C61 VAL D 82 11. 140 -30.676 -38. 658 1. 00 20.60 C

ATOM 5245 C62 VAL D 82 11. 391 -29.174-36. 680 1. 00 28.44 C

ATOM 5246 C VAL D 82 13.004 -32.564 -37. 248 1. 00 21. 42 C

ATOM 5247 0 VAL D 82 14.215-32.378 -37. 372 1. 00 19.87 0

ATOM 5248 N VAL D 83 12.375-33.642 -37. 709 1. 00 21. 45 N

ATOM 5249 CA VAL D 83 13.082 -34.780 -38. 285 1. 00 19.30 C

ATOM 5250 CB VAL D 83 12.931-36.035 -37. 387 1., 00 20.30 C

ATOM 5251 CG1 VAL D 83 13.682-37.220-38. 007 1., 00 21. 02 C

ATOM 5252 CG2 VAL D 83 13.478 -35.744 -35. 989 1., 00 19.50 C

ATOM 5253 C VAL D 83 12.548 -35.100 -39. 679 1, .00 19.25 C

ATOM 5254 0 VAL D 83 11. 647 -35.922 -39.846 1, .00 20. 53 0

ATOM 5255 N PRO D 84 13.092-34.438-40.702 1. .00 17. 88 N

ATOM 5256 CD PRO D 84 14. 026-33. 296 -40. 637 1. .00 17. 38 C

ATOM 5257 CA PRO D 84 12. 676-34. 740 -42. 071 1, .00 16. 89 C

ATOM 5258 CB PRO D 84 13. 113 -33. 508 -42. 857 1 .00 15. 88 C

ATOM 5259 C6 PRO D 84 14. 301-32. 985-42. 095 1, .00 16. 62 C

ATOM 5260 C PRO D 84 13. 329 -36. 021 -42., 594 1 .00 18. 84 C

ATOM 5261 0 PRO D 84 14. 536 -36. 220-42., 443 1 .00 16. 36 0

ATOM 5262 N ILE D 85 12. 523 -36. 884 -43. .209 1 ■ 00 19. 08 N

ATOM 5263 CA ILE D 85 13. 046 -38. 049 -43., 896 1 ■ 00 19. 68 C

ATOM 5264 CB ILE D 85 11. 994-39. 176 -43..956 1 .00 19. 66 C

ATOM 5265 CG2 E D 85 12. 624 1 40. 428-44. .538 1 .00 17. 45 C

ATOM 5266 CG1 ILE D 85 11. 448 -39. 470 -42, .559 1 .00 18. 16 C

ATOM 5267 GD1 ILE D 85 10. 332 -40..495 -42, .539 1 .00 17. 62 C ATOM 5268 C ILE D 85 13.444 -37.675 -45.331 1.00 20.49 C

ATOM 5269 0 ILE D 85 12.600 -37.276 -46.131 1.00 20.33 0

ATOM 5270 N LEU D 86 14.731 -37.811 -45.646 1. 00 22.04 N

ATOM 5271 CA LEU D 86 15.238 -37.557 -46.993 1.00 22.39 C

ATOM 5272 CB LEU D 86 16.735 -37.803 -47.047 1. 00 20.39 C

ATOM 5273 CG LEU D 86 17.559 -36.798 -46.264 1.00 20.02 C

ATOM 5274 CD1 LEU D 86 19.019 -37.208 -46. 303 1. 00 19.60 C

ATOM 5275 CD2 LEU D 86 17.354 -35.412 -46. 865 1. 00 17.73 C

ATOM 5276 C LEU D 86 14.573 -38.474-47. 986 1.00 23.03 C

ATOM 5277 0 LEU D 86 14.336 -39.627 -47. 678 1. 00 25.78 0

ATOM 5278 N ARG D 87 14.273-37.970 One 49. 177 1.00 24.16 N

ATOM 5279 CA ARG D 87 14.485 -36.566-49. 519 1. 00 23.64 C

ATOM 5280 CB ARG D 87 14.786-36.430 -51. 009 1.00 24.40 C

ATOM 5281 CG ARG D 87 15.867 -37.341 -51. 539 1. 00 24.60 C

ATOM 5282 CD ARG D 87 16.063 -37.116-53. 026 1.00 18.01 C

ATOM 5283 NE ARG D 87 14.947-37.675-53. 774 1. 00 20.19 N

ATOM 5284 CZ ARG 0 87 14.597 -37.295 -54. 996 1.00 17.03 C

ATOM 5285 NH1 ARG D 87 15.279 -36.344-55. 616 1. 00 18.73 N

ATOM 5286 NH2 ARG D 87 13.564 -37.870 -55. 593 1. 00 .15.25 N

ATOM 5287 C ARG D 87 13.244 -35.731 -49. 213 1.00 23.19 C

ATOM 5288 0 ARG D 87 13.343 -34.601 -48. 743 1., 00 23.18 0

ATOM 5289 N ALA D 88 12.079 -36.304 —49. 497 1., 00 23.84 N

ATOM 5290 CA ALA 0 88 10.831 -35.560 -49.570 1. .00 24.54 C

ATOM 5291 CB ALA D 88 9.694 -36.503 -49. 935 1., 00 25.50 C

ATOM 5292 C ALA D 88 10.489 -34.802-48. 294 1., 00 25.83 C

ATOM 5293 0 ALA D 88 9.867 -33.751 -48. 349 1. .00 27.26 0

ATOM 5294 N GLY D 89 10.892-35.335 -47. 147 1. .00 27.05 N

ATOM 5295 CA 6LY D 89 10.650 -34.641 -45. 899 1. .00 26.97 C

ATOM 5296 C GLY D 89 11.176-33, 212 -45. 890 1, .00 29.18 C

ATO 5297 0 GLY D 89 10.636 -32.361 -45. 176 1, .00 28.83 0

ATOM 5298 N LEU D 90 12.219 -32.932 -46. 670 1, .00 26.50 N

ATOM 5299 CA LEU D 90 12.814 -31.599 -46. 656 1 .00 26.91 C

ATOM 5300 CB LEU D 90 14.150 -31.584 -47. 405 1 .00 26.73 C

ATOM 5301 CG LEU D 90 15.351 -32.057 -46. 582 1 .00 27.12 C

ATOM 5302 CD1 LEU D 90 16.621 -31.796 -47., 352 1 ∎ 00 28.19 C

ATOM 5303 CD2 LEU D 90 15.394 -31.333 -45., 244 1 .00 29.20 C ATOM 5304 C LEU D 90 11.894-30.523 -47.233 1.00 26.25 C

ATOM 5305 0 LEU D 90 12.082 29.342-46.971 1.00 26.44 0

ATOM 5306 N GLY D 91 10.894 -30.934 -48.005 1.00 26.09 N

ATOM 5307 CA GLY D 91 9.934 -29.987 1 48.539 1.00 25.59 C

ATOM 5308 C GLY D 91 8.946 -29.512 --47.492 1.00 26.88 C

ATOM 5309 0 GLY D 91 8.300 -28.486 -47.659 1.00 27.16 0

ATOM 5310 N MET D 92 8.825 One 30.256 -46.402 1.00 28.05 N

ATOM 5311 CA MET D 92 7.890-29.898 -45.341 1.00 27.25 C

ATOM 5312 CB MET D 92 7.176 -31.153 -44.813 1.00 26.93 C

ATOM 5313 GG MET D 92 6.141 -31.737 -45.780 1.00 26.29 C

ATOM 5314 SD MET D 92 5.520-33.374 -45.302 1.00 29.00 S

ATOM 5315, CE MET D 92 4.365 -32.947 -43.948 1.00 24.42 C

ATOM 5316 C MET D 92 8.615 -29.196 -44.201 1.00 26.60 C

ATOM 5317 0 MET D 92 7.992 -28.560 -43.361 1.00 26.87 0

ATOM 5318 N MET D 93 9.936 -29.302 -44.184 1.00 26.06 N

ATOM 5319 CA MET D 93 10.714-28.846 -43.046 1.00 26.20 C

ATOM 5320 CB MET D 93 12.212 -29.097 -43.285 1.00 27.07 C

ATOM 5321 CG MET D 93 13.076 -28.868 -42.046 1.00 26.47 C

ATOM 5322 SD MET D 93 14.838 -29.053 -42.326 1.00 30.90 S

ATOM 5323 CE MET D 93 15.069-28.226 -43.884 1.00 25.92 C

ATOM 5324 C MET D 93 10.488 -27.371 -42.723 1.00 26.76 C

ATOM 5325 0 MET D 93 10.273 -27.019 -41.563 1.00 28.49 0

ATOM 5326 N ASP D 94 TO.542 1 26.508 -43.737 1.00 26.06 N

ATOM 5327 CA ASP D 94 10.447 -25.068 -43.505 1.00 25.30 C

ATOM 5328 CB ASP D 94 10.630 -24.288 -44.813 1.00 27.64 C

ATOM 5329 CG ASP D 94 12.081 -24.214 -45.254 1 00 30.75 C

ATOM 5330 0D1 ASP D 94 12.322 -23.712 -46.373 1.00 30.78 0

ATOM 5331 0D2 ASP D 94 12.975, 24.653 -44.491 1.00 32.45 0

ATOM 5332 C ASP D 94 9.110 1 24, 687 -42.891 1.00 25.06 C

ATOM 5333 0 ASP D 94 9.041 -23.791 -42.048 1.00 23.81 0

ATOM 5334 N GLY D 95 8.052 -25.367-43.327 1.00 24.81 N

ATOM 5335 CA GLY D 95 6.746 -25.152 -42.741 1.00 24.46 C

ATOM 5336 C GLY D 95 6.761 -25.400 -41.241 1.00 25.16 C

ATOM 5337 0 GLY D 95 6.203 -24.613 -40.474 1.00 26.20 0

ATOM 5338 N VAL D 96 7.403 -26.483 -40.810 1.00 21.26 N

ATOM 5339 CA VAL D 96 7.436-26.807 -39.390 1.00 20.76 C JP2007 / 071755

ATOM 5340 CB VAL D 96 8.117-28. 179 -39. 112 1. 00 21.16 C

ATOM 5341 CG1 VAL D 96 8.037-28. 510 -37. 638 1. 00 16.53 C

ATOM 5342 CG2 VAL D 96 7.470 -29. 265 -39. 938 1. 00 21.70 C

ATOM 5343 C VAL D 96 8.240 -25. 732 -38. 679 1. 00 22.76 C

ATOM 5344 0 VAL D 96 7.840 -25. 236-37. 628 1. 00 22.47 0

ATOM 5345 N LEU D 97 9.379 -25. 378 -39. 265 1. 00 23.07 N

ATOM 5346 CA LEU D 97 10.293 -24. 415 -38. 666 1. 00 26.17 C

ATOM 5347 CB LEU D 9F 11.609 -24. 381 -39. 458 1. 00 28.30 C

ATOM 5348 CG LEU D 97 12.522 -25. 607 -39. 370 1. 00 27.01 C

ATOM 5349 CD1 LEU D 97 13.755-25. 379-40. 231 1. 00 26.40 C

ATOM 5350 CD2 LEU D 97 12.916 -25. 847 -37. 924 1. 00 26.41 C

ATOM 5351 C LEU D 97 9.724 -22. 995-38. 575 1. 00 26.46 C

ATOM 5352 0 LEU D 97 10.148 -22. 205 -37. 729 1. 00 25.84 0

ATOM 5353 N 6LU D 98 8.776 -22. 668-39. 446 1. 00 27.27 N

ATOM 5354 CA GLU D 98 8.121 -21. 367 -39. 383 1. 00 28.99 C

ATOM 5355 CB GLU D 98 7.150 -21. 199 -40. 555 1. 00 32.24 C

ATOM 5356 CG GLU D 98 7.805 -20. 747 -41. 846 1. 00 41.45 C

ATOM 5357 CD GLU D 98 6.873 -20. 860-43. 045 1., 00 44.96 C

ATOM 5358 0E1 GLU D 98 5.686 -21. 210 -42. 847 1. .00 48.15 0

ATOM 5359 0E2 GLU D 98 7.330 -20. 603 -44. 183 1. .00 46.76 0

ATOM 5360 C GLU D 98 7.362 -21. 203 -38. 060 1. .00 27.69 C

ATOM 5361 0 GLU D 98 7.310-20. 104-37. 495 1. .00 26.29 0

ATOM 5362 N ASN D 99 6.784 -22. 303 -37'.581 1. .00 23.97 N

ATOM 5363 CA ASN D 99 6.086 -22. 341-36. 299 1. .00 23.31 C

ATOM 5364 CB ASN D 99 5.186 -23. 572 -36. 234 1. .00 23.44 C

ATOM 5365 CG ASN D 99 4.008 -23. 479 -37. 168 1. .00 24.78 C

ATOM 5366 0D1 ASN D 99 2.912 -23. 112-36. 758 1, .00 30.19 0

ATOM 5367 ND2 ASN D 99 4.221 -23. 811 -38. 431 1, .00 26.43 N

ATOM 5368 C ASN D 99 7.023 One 22. 360 -35. 096 1, .00 23.47 C

ATOM '5369 0 ASN D 99 6.788 -21. 664 -34. 116 1, .00 22.16 0

ATOM 5370 N VAL D 100 8.070 -23. 181 -35. 165 1, .00 24.71 N

ATOM 5371 CA VAL D 100 9.004 -23. 344 -34. 055 1 .00 24.36 C

ATOM 5372 CB VAL D 100 8.908 -24. 762 -33. 466 1 .00 24.87 C

ATOM 5373 CG1 VAL D 100 9.486-24. 793 -32. 072 1 • 00 23.20 C

ATOM 5374 C62 VAL D 100 7.474 -25. 220-33. 464 1 • 00 28.91 C

ATOM 5375 C VAL D 100 10.435 One 23. 125 -34. 560 1 • 00 26.52 C ATOM 5376 0 VAL D 100 11.202 -24.071 -34.717 1.00 28.76 0

ATOM 5377 N PRO D 101 10.807 -21.868 -34. 827 1. 00 27.02 N

ATOM 5378 CD PRO D 101 10.000 -20.658 -34. 592 1. 00 26.39 C

ATOM 5379 CA PRO D 101 12.092 -21.555 -35. 464 1. 00 27.75 C

ATOM 5380 CB PRO D 101 11.971 -20.075-35. 817 1. 00 26.37 C

ATOM 5381 CG PRO D 101 10.987 -19.540 -34.830 1.00 27.66 C

ATOM 5382 C PRO D 101 13.317 -21.833 1 34. 599 1. 00 28.56 C

ATOM 5383 0 PRO D 101 14.441 -21.814 1 35. 093 1.00 29.42 0

ATOM 5384 N SER D 102 13.099 -22.079 -33. 312 1. 00 28.30 N

ATOM 5385 CA SER D 102 14.182 -22.435 -32. 408 1. 00 28.69 C

ATOM 5386 CB SER D 102 13.776-22.146 -30. 957 1. 00 32.24 C

ATOM 5387 OG SER D 102 13.717 -20.755 -30. 699 1.00 34.90 0

ATOM 5388 C SER D 102 14.561 -23.908 -32. 528 1. 00 28.20 C

ATOM 5389 0 SER D 102 15.637-24.328 -32. 070 1.00 27.94 0

ATOM 5390 N ALA D 103 13.669 -24.687-33. 137 1., 00 25.55 N

ATOM 5391 CA ALA D 103 13.775 -26.144 -33. 125 1., 00 25.64 C

ATOM 5392 CB ALA 0 103 12.598-26.763 -33. 877 1., 00 25.46 C

ATOM 5393 C ALA D 103 15.081-26.677-33. 696 1., 00 24.39 C

ATOM 5394 0 ALA D 103 15.682 -26.091 -34. 591 1., 00 22.69 0

ATOM 5395 N ARG D 104 15.503 -27.812 -33. 159 1. .00 26.62 N

ATOM 5396 CA ARG D 104 16.662 -28.528 -33. 657 1. .00 25.24 C

ATOM 5397 CB ARG D 104 17.164-29.505 -32. 589 1. .00 25.66 C

ATOM 5398 CG ARG D 104 18.440 -30.257 -32.965 1., 00 29.66 C

ATOM 5399 CD ARG D 104 18.934 -31.110 -31. 804 1. .00 30.06 C

ATOM 5400 NE ARG D 104 17.899-32.035 -31. 357 1. .00 32.71 N

ATOM 5401 CZ ARG D 104 18.124 -33.101-30. 599 1. .00 31.61 C

ATOM 5402 NH1 ARG D 104 19.357-33.381 -30. 197 1, .00 32.34 N

ATOM 5403 NH2 ARG D 104 17.114 -33.887 -30. 247 1, .00 30.70 N

ATOM 5404 C ARG D 104 16.237-29.283-34. 907 1, .00 24.52 C

ATOM 5405 0 ARG D 104 15.069 -29.624-35. 067 1, .00 24.83 0

ATOM 5406 N ILE D 105 17.185 -29.533 -35. 798 1, .00 24.25 N

ATOM 5407 CA ILE D 105 16.893 -30.268 -37. 018 1 .00 23.80 C

ATOM 5408 CB ILE D 105 17.206 -29.413 -38. 276 1 .00 26.75 C

ATOM 5409 CG2 ILE D 105 16.876 -30.196 -39. 538 1, .00 26.07 C

ATOM 5410 CG1 ILE D 105 16.409-28.107 -38., 241 1 • 00 28.18 C

ATOM 5411 GD1 ILE D 105 16.611 One 27.226 -39. 470 1 • 00 29.80 C ATOM 5412 C ILE D 105 17.764 -31.520-37.050 1.00 22.69 C

ATOM 5413 0 ILE D 105 18.988 -31.423-36. 987 1.00 20.27 0

ATOM 5414 N SER D 106 17.119 -32.684 -37. 136 1. 00 22.61 N

ATOM 5415 GA SER D 106 17.798 -33.966-37. 299 1. 00 22.64 C

ATOM 5416 CB SER D 106 17.504-34.898 -36. 121 1. 00 24.41 C

ATOM 5417 OG SER D 106 18.355 -34.623 -35. 024 1. 00 28.23 0

ATOM 5418 C SER D 106 17.326 -34.641 -38. 566 1. 00 22.74 C

ATOM 5419 0 SER D 106 16.271 One 35.271 -38. 584 1. 00 23.29 0

ATOM 5420 N VAL D 107 18.110 -34.518-39. 626 1. 00 22.49 N

ATOM 5421 CA VAL D 107 17.810 -35.221 -40. 864 1. 00 23.78 C

ATOM 5422 CB VAL D 107 18.604 -34.620 -42. 020 1. 00 24.74 C

ATOM 5423 .GG1 VAL H 107 17.768 -33.609 -42. 743. 1. 00 25.57 C

ATOM 5424 CG2 VAL D 107 19.853-33.944 -41. 461 1. 00 28.48 C

ATOM 5425 C VAL D 107 18.153 -36.704 -40. 746 1. 00 22.07 C

ATOM 5426 0 VAL D 107 19.218-37.059 -40.260 1., 00 18.50 0

ATOM 5427 N VAL D 108 17.233-37.553 -41. 194 1. 00 24.18 N

ATOM 5428 CA VAL D 108 17.437 -38.992 -41.230 1., 00 25.92 C

ATOM 5429 CB VAL D 108 16.447 -39.714 -40. 300 1., 00 24.71 C

ATOM 5430 C61 VAL D 108 15.043 -39.231 -40. 573 1. .00 28.67 C

ATOM 5431 CG2 VAL D 108 16.500 -41 · 211 -40. 542 1., 00 26.25 C

ATOM 5432 C VAL D 108 17.241 -39.523 -42. 647 1., 00 27.70 C

ATOM 5433 0 VAL D 108 16.314 -39.118-43. 342 1. .00 26.25 0

ATOM 5434 N GLY D 109 18.118 -40.434 -43.067 1., 00 30.55 N

ATOM 5435 CA 6LY D 109 17.963 -41.076 -44. 362 1. .00 32.00 C

ATOM 5436 C GLY D 109 17.649 -42.569 -44. 315 1., 00 34.16 C

ATOM 5437 0 GLY D 109 17.618 -43.194-43. 252 1. .00 33.24 0

ATOM 5438 N MET D 110 17.399 -43.138 -45. 487 1. .00 34.79 N

ATOM 5439 CA MET D 110 17.246 -44.574 -45. 622 1, .00 36.81 C

ATOM 5440 CB MET D 110 15.889 -44.895-46. 260 1. .00 38.53 C

ATOM 5441 CG MET D 110 14.676 -44.423 -45. 459 1, .00 42.60 C

ATOM 5442 SD MET D 110 14.473-45.285 -43. 872 1, .00 46.27 S

ATOM 5443 CE MET D 110 14.623 -43.929 -42. 737 1, .00 46.56 C

ATOM 5444 C MET D 110 18.372 -45.099 -46. 513 1, .00 37.45 C

ATOM 5445 0 MET D 110 18.472 -44.701 -47. 669 1, .00 35.96 0

ATOM 5446 N TY D 111 19.225-45.972 -45., 981 1 .00 38.17 N

ATOM 5447 CA TYR D 111 20.155 -46.711 -46. 830 1 .00 40.58 C ATOM 5448 CB TYR D 111 21 201-47.469 -46.001 1.0042.26 C

ATOM 5449 CG TYR D 111 22.324-46. 626 -45. 423 1.0045.69 C

ATOM 5450 CD1 TYR D 111 23.032-45. 722 -46. 212 1.0046.50 C

ATOM 5451 CE1 TYR D 111 24.068 -44. 951 -45. 671 1.0046.98 C

ATOM 5452 CD2 TYR D 111 22.686 -46. 740 -44. 079 1.0046.45 C

ATOM 5453 CE2 TYR D "111 23.716 -45. 980 -43. 535 1.0043.72 C

ATOM 5454 CZ TYR D 111 24.400 -45. 089 -44. 331 1.0045.97 C

ATOM 5455 OH TYR D 111 25.406 -44. 327-43. 780 1.0046.18 0

ATOM 5456 C TYR D 111 19.311-47. 716 -47. 592 1.0042.34 C

ATOM 5457 0 TYR D 111 18.519 -48. 435 -46. 991 1.00.42.92 0

ATOM 5458 N ARG D 112 19.463-47. 766 -48. 910 1.0044.37 N

ATOM 5459 CA ARG D 112 18.720 -48. 736 -49. 703 1.0048.85 C

ATOM 5460 CB ARG D 112 17.678-48: 021 -50. 569 1.0051.35 C

ATOM 5461 CG ARG D 112 16.589 -47. 322 -49. 762 1.00 54.43 C

ATOM 5462 CD ARG D 112 15.505 -46. 756 -50. 661 1.0057.21 C

ATOM 5463 NE ARG D 112 14.633 -45. 820 -49. 954 1.00 58.70 N

ATOM 5464 CZ ARG D 112 14.837 -44. 506 -49. 895 1.00 60.17 C

ATOM 5465 NH1 ARG D 112 15.887 -43. 964-50. 501 1.00 60.48 N

ATOM 5466 NH2 ARG D 112 13.987 -43. 730 -49. 235 1.00 62.25 N

ATOM 5467 C ARG D 112 19.632 -49. 588 -50. 580 1.0049.36 C

ATOM 5468 0 ARG D 112 19.930 -49. 231 -51. 716 1.0049.85 0

ATOM 5469 N ASN D 113 20.075 -50. 718 -50. 043 1.0049.82 N

ATOM 5470 CA ASN D 113 20.912 -51. 639 -50. 796 1.00 50.43 C

ATOM 5471 CB ASN D 113 22.302-51. 734 -50. 162 1.0051.12 C

ATOM 5472 CG ASN D 113 23.242 -52. 639-50. 946 1.00 53.75 C

ATOM 5473 0D1 ASN D 113 22.839 -53. 295 -51. 914 1.00 53.40 0

ATOM 5474 ND2 ASN D 113 24.506 -52.679 -50.530 1 00 53.75 N

ATOM 5475 C ASN D 113 20.279-53. 021 -50. 844 1.00 50.60 C

ATOM 5476 0 ASN D 113 19.772-53. 519 -49. 839 1.0049.48 0

ATOM 5477 N GLU D 114 20.311-53. 637 -52. 020 1.0051.84 N

ATOM 5478 CA GLU D 114 19.885 -55. 020 -52. 163 1.0053.79 C

ATOM 5479 CB GLU D 114 20.132 -55. 499 -53. 595 1.00 56.21 C

ATOM 5480 CG GLU D 114 18.938 -55. 329-54. 523 1.00 60.85 C

ATOM 5481 CD GLU D 114 17.757 -56. 206 -54. 126 1.00 63.12 C

ATOM 5482 0E1 GLU D 114 17.309-57. 025 -54. 963 1.00 62.50 0

ATOM 5483 0E2 GLU D 114 17.278 1 56, 076 1 52. 976 1.00 64.41 0 ATOM 5484 C GLU D 114 20.610-55.942 -51.181 1.00 53.21 C

ATOM 5485 0 6LU D 114 20.043 -56.928 -50. 715 1.00 52.95 0

ATOM 5486 N GLU D 115 21.859 -55.613 -50. 863 1. 00 52.61 N

ATOM 5487 CA GLU D 115 22.693 1 56.491 -50. 049 1. 00 53.27 C

ATOM 5488 CB GLU D 115 24.153 -56.041-50. 093 1. 00 55.13 C

ATOM 5489 CG GLU D 115 24.879 -56.403 -51. 374 1. 00 58.23 C

ATOM 5490 CD GLU D 115 24.412 -55.582 -52. 555 1. 00 60.85 C

ATOM 5491 0E1 GLU D 115 25.059 -54.553 -52. 848 1. 00 62.53 0

ATOM 5492 0E2 GLU D 115 23.402 -55.962 -53. 190 1. 00 61.37 0

ATOM 5493 C GLU D 115 22.252 -56.580-48. 594 1. 00 52.68 C

ATOM 5494 0 GLU D 115 22.578 -57.550 -47. 909 1.00 51.40 0

ATOM 5495 .N THR D 116 21.527 -55.570-48. 119 1. 00 51.10 N

ATOM 5496 CA THR D 116 -55.534 -46. 718 1. 00 50.35 C

ATOM 5497 CB THR D 116 -54.105 -46. 140 1. 00 49.97 C

ATOM 5498 0G1 THR D 116 20.260 -53.260 -46. 824 1. 00 48.47 0

ATOM 5499 GG2 THR D 116 22.603-53.539 -46. 296 1. 00 47.77 C

ATOM 5500 C THR D 116 19.704 -56.064 -46. 537 1. 00 50.75 C

ATOM 5501 0 THR D 116 19.011 -56.346 -47. 509 1.00 51.19 0

ATOM 5502 N LEU D 117 19.286-56.199-45. 284 1., 00 52.40 N

ATOM 5503 CA LEU D 117 18.031 -56.865 -44. 954 1. .00 54.07 C

ATOM 5504 CB LEU D 117 18.011-57.225 -43. 465 1. 00 53.99 C

ATOM 5505 C6 LEU D 117 16.726 -57.850-42. 917 1., 00 55.31 C

ATOM 5506 CD1 LEU D 117 16.345 -59.072 -43.740 1., 00 53.98 C

ATOM 5507 CD2 LEU D 117 16.934 -58.225 -41. 462 1. .00 54.10 C

ATOM 5508 C LEU D 117 16.818-56.002 -45. 290 1. .00 54.61 G

ATOM 5509 0 LEU D 117 15.847 -56.470 -45. 888 1, .00 55.58 0

ATOM 5510 N GLU D 118 16.876 -54.740 -44. 893 1. .00 54.69. N

ATOM 5511 CA GLU D 118 15.798 -53.805 -45. 169 1. .00 54.28 C

ATOM 5512 CB GLU D 118 14.909 -53.643 -43. 935 1, .00 56.41 C

ATO 5513 CG GLU D 118 14.286-54.935 -43. 431 1, .00 61.32 C

ATOM 5514 CD GLU D 118 13.770 -54.820 -42. 003 1 .00 63.28 C

ATOM 5515 0E1 GLU D 118 14.419 -54.134 -41. 182 1, .00 62.64 0

ATOM 5516 0E2 GLU D 118 12.712 -55.416-41. 703 1 .00 65.46 0

ATOM 5517 C GLU D 118 16.425 -52.469 -45. 520 1 • 00 52.04 C

ATOM 5518 0 GLU D 118 17.646 -52.319 -45. 483 1 .00 52.20 0

ATOM 5519 N PRO D 119 15.598 -51.479 1 45. 875 1 ■ 00 49.93 N ATOM 5520 CD PRO D 119 14.279 -51.575 -46.525 1.00 49.84 C

ATOM 5521 CA PRO D 119 16.054 -50.092 -45.756 1. 00 46.92 C

ATOM 5522 CB PRO D 119 14.856 -49.279 -46.242 1. 00 47.69 C

ATOM 5523 CG PRO D 119 14.114 -50.216 -47.145 1. 00 48.77 C

ATOM 5524 C PRO D 119 16.397 -49.792 -44.299 1.00 44.44 C

ATOM 5525 0 PRO D 119 15.583 -50.011 -43.401 1.00 45.45 0

ATOM 5526 N VAL D 120 17.603 -49.305 -44.056 1. 00 40.16 N

ATOM 5527 CA VAL D 120 17.960 -48.890 -42.712 1. 00 40.29 C

ATOM 5528 CB VAL D 120 19.322 -49.487 -42.281 1.00 40.18 G

ATOM 5529 CG1 VAL D 120 19.182 -50.991 -42.057 1.00 41.53 C

ATOM 5530 CG2 VAL D 120 20.365 -49.223-43.350 1. 00 40.85 C

ATOM 5531 C VAL D 120 18.002 -47.368 One 42.586 1. 00 39.21 C

ATOM 5532 0 VAL D 120 18.651 -46.675 -43.372 1. 00 38.73 0

ATOM 5533 N PRO D 121 17.289 -46.829 -41.588 1. 00 37.36 N

ATOM 5534 CD PRO D 121 16.397-47.590 -40.696 1. 00 35.27 C

ATOM 5535 CA PRO D 121 17.352-45.406 1. 00 36.27 C

ATOM 5536 CB PRO D 121 16.245 -45.248 -40.194 1., 00 36.27 C

ATOM 5537 CG PRO D 121 16.102 -46.620 -39.589 1. 00 36.51 C

ATOM 5538 C PRO D 121 18.725 -45.025 -40.673 1., 00 34.96 C

ATOM 5539 0 PRO D 121 19.398 -45.849-40.045 1., 00 34.34 0

ATOM 5540 TYR D 122 19.140 -43.781 -40.898 1., 00 33.83 N

ATOM 5541 CA TYR D 122 20.377 -43.279 -40.297 1. .00 32.12 C

ATOM 5542 CB TYR D 122 21.586 -43.619 -41'.179 1., 00 30.04 C

ATOM 5543 CG TYR D 122 21.553 -42.995-42.559 1, .00 28.53 c

ATOM 5544 CD1 TYR D 122 22.092 -41.734 -42.790 1. .00 29.52 c

ATOM 5545 CE1 TYR D 122 22.081 -44.057 1, .00 28.26 c

ATOM 5546 CD2 TYR D 122 21.001 -43.675 -43.632 1, .00 26.75 c

ATOM 5547 CE2 TYR D 122 20.984 -43.124 -44.897 1, .00 27.64 c

ATOM 5548 CZ TYR D 122 21.526 -41.875-45.106 1, .00 28.29 c

ATOM 5549 OH TYR D 122 21.515 -41.334 -46.369 1, .00 25.82 0

ATOM 5550 C TYR D 122 20.334 -41.775 -40.069 1 .00 31.20 c

ATOM 5551 0 TYR D 122 19.688-41.048 -40.817 1 • 00 0

ATOM 5552 N PHE D 123 21.030 -41.325-39.030 1, .00 30.73 N

ATOM 5553 CA PHE D 123 21 ■ 246-39.902-38.788 1 ■ 00 32.19 c

ATOM 5554 CB PHE D 123 21.744-39.667 -37.359 1 .00 31.58 c

ATOM 5555 CG PHE D 123 20.703-39.893-36.304 1 .00 31.58 c ATOM 5556 CD1 PHE D 123 19.648 -39.010 -36.155 1.00 29.83 G

ATOM 5557 CD2 PHE D 123 20.797 -40.971-35.442 1. 00 29.33 C

ATOM 5558 CE1 PHE D 123 18.709 -39.192 -35.169 1. 00 30.67 C

ATOM 5559 CE2 PHE D 123 19.858 -41.162 -34.449 1. 00 31.80 C

ATOM 5560 CZ PHE D 123 18.811 -40.272 -34.310 1. 00 31.70 C

ATOM 5561 C PHE D 123 22.287-39.353 -39. 754 1. 00 33.49 C

ATOM 5562 0 PHE D 123 23.330.- 39.979 -39. 984 1. 00 32.79 0

ATOM 5563 N GLN D 124 22.019 -38.179 -40. 314 1. 00 31.74 N

ATOM 5564 CA GLN D 124 23.043 -37.510 -41. 099 1.00 31.81 C

ATOM 5565 CB GLN D 124 22.487-36.255-41. 772 1. 00 31.55 C

ATOM 5566 C6 GLN D 124 23.421-35.683 -42. 806 1. 00 28.63 C

ATOM 5567 CD GLN D 124 23.761 -36.695 -43. 878 1. 00 27.42 C

ATOM 5568 0E1 GLN D 124 22.896-37.442-44. 334 1. 00 24.20 0

ATOM 5569 NE2 GLN D 124 25.028-36.729 -44. 284 1. 00 26.91 N

ATOM 5570 C GLN D 124 24.172 -37.132 -40. 160 1. 00 30.81 C

ATOM 5571 0 GLN D 124 25.339 -37.277 -40. 499 1. 00 31.37 0

ATOM 5572 N LYS D 125 23.813 -36.636-38. 978 1. 00 31.26 N

ATOM 5573 CA LYS D 125 24.761 -36.505 -37. 877 1. 00 30.83 C

ATOM 5574 CB LYS D 125 25.118 -35.040 -37. 622 1. .00 32.81 C

ATOM 5575 CG LYS D 125 26.034 -34.877-36. 410 1., 00 33.84 C

ATOM 5576 CD LYS D 125 26.521 -33.459 -36. 212 1., 00 35.58 C

ATOM 5577 CE LYS D 125 27.556 -33.418 -35. 092 1. .00 38.81 C

ATOM 5578 NZ LYS D 125 28.264 -32.110 -35.000 1. .00 40.99 N

ATOM 5579 C LYS D 125 24.173 -37.097-36. 605 1. .00 30.70 C

ATOM 5580 0 LYS D 125 23.003 -36.909 -36. 306 1. .00 30.34 0

ATOM 5581 N LEU D 126 24.994 -37.808-35. 848 1, .00 33.29 N

ATOM 5582 CA LEU D 126 24.513 -38.510-34. 666 1, .00 33.47 C

ATOM 5583 CB LEU D 126 25.517-39.590-34. 252 1, .00 34.71 C

ATOM 5584 CG LEU D 126 25.040 -40.817 -33. 459 1 .00 37.46 C

ATOM 5585 CD1 LEU D 126 26.260 -41.461 -32. 822 1, .00 38.41 G

ATOM 5586 CD2 LEU D 126 24.031 -40.445 -32. 385 1, .00 35.66 C

ATOM 5587 C LEU D 126 24.351 -37.501-33. 542 1, .00 32.68 C

ATOM 5588 0 LEU D 126 25.288 -36.773 -33. 221 1 .00 30.70 0

ATOM 5589 N VAL D 127 23.156 -37.461-32. 955 1 .00 33.23 N

ATOM 5590 CA VAL D 127 22.882 -36.624 -31. 790 1 .00 33.16 C

ATOM 5591 CB VAL D 127 22.002 1 35.407 -32. 165 1 ■ 00 32.47 C ATOM 5592 CG1 VAL D 127 22.767 -34.476-33.073 1.00 30.65 C

ATOM 5593 C62 VAL D 127 20.723 -35.872 -32. 853 1. 00 32.43 C

ATOM 5594 C VAL D 127 22.166 -37.436 -30. 710 1.00 35.00 C

ATOM 5595 0 VAL D 127 21.611 -38.503 -30. 992 1. 00 35.10 0

ATOM 5596 N SER D 128 22.189 -36.938 -29.475 1. 00 35.43 N

ATOM 5597 CA SER D 128 21.431 -37.557 -28. 388 1. 00 35.57 C

ATOM 5598 CB SER D 128 22.198 1 37.471-27. 073 1. 00 36.43 C

ATOM 5599 OG SER D 128 21.433-38.027 -26. 015 1. 00 39.44 0

ATOM 5600 C SER D 128 20.089 -36.870-28. 214 1. 00 35.99 C

ATOM 5601 0 SER D 128 19.999 -35.647 -28. 292 1. 00 36.30 0

ATOM 5602 N ASN D 129 19.050-37.663 -27. 971 1. 00 36.38 N

ATOM 5603 CA ASN D. 129 17.700-37.141 -27. 802 1.00 36.88 C

ATOM 5604 CB ASN D 129 16.708 -37.927 -28. 670 1.00 36.94 C

ATOM 5605 CG ASN D 129 16.902 -37.683 -30. 152 1. 00 35.30 C

ATOM 5606 0D1 ASN D 129 17.572 -36.734 -30. 553 1. 00 34.19 0

ATOM 5607 ND2 ASN D 129 16.311 -38.541 -30. 977 1. 00 33.70 N

ATOM 5608 C ASN D 129 17.242 -37.213-26. 347 1. 00 38.33 C

ATOM 5609 0 ASN D 129 16.051 -37.355 -26. 078 1. 00 38.51 0

ATOM 5610 N ILE D 130 18.176 -37.118 -25. 408 1., 00 39.64 N

ATOM 5611 CA ILE D 130 17.824 -37.293 -24. 007 1., 00 42.76 C

ATOM 5612 CB ILE D 130 19.077-37.555-23. 138 1. .00 44.38 C

ATOM 5613 CG2 ILE D 130 18.765 -37.290 -21. 677 1. .00 45.37 C

ATOM 5614 CG1 ILE D 130 19.549 -39.000 -23.336 1. .00 46.42 C

ATOM 5615 CD1 ILE D 130 20.715-39.401 -22. 443 1. .00 47.11 C

ATOM 5616 C ILE D 130 17.043-36. 123 -23. 418 1, .00 43.41 C

ATOM 5617 0 ILE D 130 16.035 -36. 332-22. 742 1, .00 44.57 0

ATOM 5618 N ASP D 131 17.495 1 34. 899 -23. 674 1, .00 42.35 N

ATOM 5619 CA ASP D 131 16.837 -33. 721 -23. 111 1 ■ 00 43.21 C

ATOM 5620 CB ASP D 131 17.848 -32. 588 -22. 925 1 .00 48.92 C

ATOM 5621 CG ASP D 131 19.147-33. 057 -22. 286 1 .00 54.22 C

ATOM 5622 0D1 ASP D 131 19.111 —34. 019 -21. 484 1 .00 55.78 0

ATOM 5623 0D2 ASP D 131 20.207-32. 460 -22. 592 1 .00 56.74 0

ATOM 5624 C ASP D 131 15.692 -33. 225 -23. 995 1 .00 41.47 C

ATOM 5625 0 ASP D 131 15.119 -32. 165 -23.747 1 ■ 00 41.04 0

ATOM 5626 N GLU D 132 15.369 -33. 996-25. 027 1 .00 38.81 N

ATOM 5627 CA 6LU D 132 14.404 -33. 577 -26. 034 1 .00 36.20 C ATOM 5628 CB 6LU D 132 14.570 -34.438 One 27.290 1.00 34.98 C

ATOM 5629 CG 6LU D 132 13.443 -34.321-28.302 1.00 34.23 C

ATOM 5630 CD 6LU D 132 13.588 -35.300 -29.454 1.00 34.78 C

ATOM 5631 0E1 GLU D 132 14.402-35.029-30.366 1.00 36.52 0

ATOM 5632 0E2 6LU D 132 12.893 -36.339 -29.447 1. 00 32.31 0

ATOM 5633 C GLU D 132 12.972 -33.690 -25.512 1. 00 36.15 C

ATOM 5634 0 GLU D 132 12.585 -34.715 -24.953 1.00 38.00 0

ATOM 5635 N ARG D 133 12.182 -32.638 -25. 695 1. 00 33.28 N

ATOM 5636 CA ARG D 133 10.788-32.662 -25. 266 1. 00 31.64 C

ATOM 5637 CB AR6 D 133 10.284 -31. 234 -25. 036 1. 00 31.26 C

ATOM 5638 C6 ARG D 133 8.769 -31. 104 -24. 946 1. 00 30.34 C

 1

 ATOM 5639 CD ARG D 133 8.199 -31 8.5 9 • 59 -23. 838 1. 00 29.61 C

ATOM 5640 NE ARG D 133 6.758 -31. 784-23. 704 1. 00 29.67 _ N

ATOM 5641 CZ ARG D 133 5.855 -32.477 -24. 388 1. 00 32.05 C

ATOM 5642 NH1 ARG D 133 6.245 -33.399-25. 255 1. 00 32.13 N

ATOM 5643 NH2 ARG D 133 4.559 -32.242 -24. 216 1., 00 32.49 N

ATOM 5644 C ARG D 133 9.908 -33.356 -26. 301 1. 00 31.31 C

ATOM 5645 0 ARG D 133 9.035 -34.155 -25. 962 1., 00 29.18 0

ATOM 5646 N MET D 134 10.140-33.051 -27. 571 1., 00 30.41 N

ATOM 5647 CA MET D 134 9.309 -33.616 -28.615 1. .00 30.10 C

ATOM 5648 CB MET D 134 8.006 -32.825 -28.722 1, .00 31.12 C

ATOM 5649 CG MET D 134 7.009 -33.397-29. 705 1. .00 33.35 C

ATOM 5650 SD MET D 134 5.425 -32.553 -29.610 1, .00 36.04 S

ATOM 5651 CE MET D 134 5.922 -30.933-30.045 1 .00 36.35 C

ATOM 5652 C MET D 134 10.018-33.633 -29.964 1, .00 30.22 C

ATOM 5653 0 MET D 134 10.730-32. 687-30.325 1 .00 30.24 0

ATOM 5654 N ALA 0 135 9.816-34. 721-30. 701 1 • 00 26.99 N

ATOM 5655 CA ALA D 135 10.272-34. 818 -32. 078 1 ■ 00 24.95 C

ATOM 5656 CB ALA D 135 11.102 -36. 078-32. 274 1 ∎ 00 24.67 C

ATOM 5657 C ALA D 135 9.072-34. 846 -33. 005 1 .00 23.55 C

ATOM 5658 0 ALA D 135 8.067 -35. 480-32. 711 1 • 00 20.68 0

ATOM 5659 N LEU D 136 9.190 -34. 145 -34., 124 1 .00 23.75 N

ATOM 5660 CA LEU D 136 8.181 -34. 162-35. 169 1 .00 24.20 C

ATOM 5661 CB LEU D 136 7.674-32. 742 -35., 431 1 .00 26.26 C

ATOM 5662 CG LEU D 136 6.569 -32. 136-34., 552 1 .00 29.58 C

ATOM 5663 CD1 LEU D 136 6.482 --32. 855 -33..225 1 .00 31.27 C 98T

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^ LlLO / LOOZdT / lDd 0 S0 / 600Z OAV ATOM 5700 GG MET D 141 3. 680 -39. 315-50. 370 1. 00 31. 32 C

ATOM 5701 SD MET D 141 4. 111-39. 924-52. 006 1. 00 38. 13 S

ATOM 5702 CE MET D 141 2. 494 -40. 024 -52. 741 1. 00 32. 76 C

ATOM 5703 C MET D 141 3. 840 -41. 032-46. 907 1. 00 32. 28 C

ATOM 5704 0 MET D 141 4. 953 -41. 550 -46. 824 1. 00 32. 72 0

ATOM 5705 N LEU D 142 2. 816-41. 427 -46. 157 1. 00 33. 84 N

ATOM 5706 CA LEU D 142 2. 926 -42. 628 -45. 342 1. 00 32. 54 C

ATOM 5707 CB LEU D 142 2. 295 -42. 414 -43. 971 1. 00 30. 71 C

ATOM 5708 CG LEU D 142 2. 704-43. 503 -42. 978 1. 00 27. 98 C

ATOM 5709 CD1 LEU D 142 3. 961 -43. 072 -42. 299 1. 00 28. 61 C

 0 0

 ATOM 5710 CD2 LEU D 142 1. 631-43. 739 -41. 958 1. 00 27. 58 C

ATOM 5711 C LEU D 142 2. 210 -43. 761 -46. 064 1. 00 33. 03 C

ATOM 5712 0 LEU D 142 0. 994-43. 933 -45. 921 1. 00 35. 03 0

ATOM 5713 N ALA D 143 2. 966 -44. 525-46. 848 1. 00 32. 20 N

ATOM 5714 CA ALA D 143 2. 383 -45. 521-47. 740 1. 00 32. 37 C

ATOM 5715 CB ALA D 143 3. 244 -45. 665 -48. 998 1. 00 31. 63 C

ATOM 5716 C ALA D 143 2. 236 -46. 869 -47. 036 1,, 00 32. 72 C

ATOM 5717 0 ALA D 143 -47. 242 -46. 633 1. 00 33. 02 0

ATOM 5718 N THR D 144 3. 341-47. 594 -46. 884 1., 00 34. 05 N

ATOM 5719 CA THR D 144 3. 347 -48. 832 -46. 099 1., 00 35. 24 C

ATOM 5720 CB THR D 144 4. 386 -49. 841-46. 639 1., 00 35. 58 C

ATOM 5721 0G1 THR D 144 5. 699 -49. 279 -46. 539 1., 00 36. 83 0

ATOM 5722 CG2 THR D 144 4. 103-50. 178 -48. 090 1., 00 36. 22 C

ATOM 5723 C THR D 144 3. 678-48. 551 -44. 632 1.. 00 35. 41 C

ATOM 5724 0 THR D 144 3. 212 -49. 255 -43. 744 1.. 00 35. 66 0

ATOM 5725 N GLY D 145 4. 486 -47. 520-44. 390 1., 00 34. 99 N

ATOM 5726 CA 6LY D 145 4. 871-47. 166 -43. 035 1.. 00 33. 64 C

ATOM 5727 C GLY D 145 6. 333-47. 438 -42. 721 1.. 00 33. 25 C

ATOM 5728 0 GLY D 145 6. 826-47. 070 -41. 655 1,. 00 31. 97 0

ATOM 5729 N GLY D 146 7. 032 -48. 080 -43. 654 1.. 00 33. 06 N

ATOM 5730 CA GLY D 146 8. 390 -48. 521 -43. 386 1,. 00 30. 84 C

ATOM 5731 C GLY D 146 9. 336 -47. 413 -42. 961 1,. 00 28. 86 G

ATOM 5732 0 GLY D 146 9. 991 -47. 509-41. 925 1,. 00 30. 13 0

ATOM 5733 N SER D 147 9. 406-46. 353 -43. 754 1,. 00 27. 28 N

ATOM 5734 CA SER D 147 10. 309-45. 247-43. 469 1.. 00 26. 18 C

ATOM 5735 CB SER D 147 10. 153 1 44, 152 -44. 525 1. 00 26., 84 C ATOM 5736 OG SER D 147 10.735 -44.536 -45.755 1.00 27.44 0

ATOM 573 C C SER D 147 10.099-44.642 -42.087 1.00 25.02 C

ATOM 5738 0 SER D 147 11.062 -44.412 -41.356 1.00 26.24 0

ATOM 5739 N VAL D 148 8.847 -44.377 -41.731 1. 00 22.56 N

ATOM 5740 CA VAL D 148 8.534 -43.721 -40.459 1.00 23.30 C

ATOM 5741 CB VAL D 148 7.064 -43.233 -40.431 1. 00 23.73 C

ATOM 5742 CG1 VAL D 148 6.711 -42.717 -39.038 1. 00 26.91 C

ATOM 5743 CG2 VAL D 148 6.872 -42.113 -41.443 1.00 24.47 C

ATOM 5744 C VAL D 148 8.770 -44.637 -39.260 1. 00 22.46 G

ATOM 5745 0 VAL D 148 9.412 -44.258 -38.274 1. 00 20.55 0

ATOM 5746 N ILE D 149 8.252 -45.853 -39.355 1. 00 25.88 N

ATOM 5747 CA ILE D 149 8.436 -46.842-38.304 1. 00. 27.33 C

ATOM 5748 CB ILE D 149 '7.756 -48.175 -38.686 1. 00 27.85 ― C

ATOM 5749 CG2 ILE D 149 8.185 -49.259 -37.726 1. 00 22.43 C

ATOM 5750 CG1 ILE D 149 6.229-47.983-38.712 1. 00 26.19 C

ATOM 5751 CD1 ILE D 149 5.451 -49.122-39.369 1.00 24.85 C

ATOM 5752 C ILE D 149 9.922 -47.074 -38.045 1., 00 27.46 C

ATOM 5753 0 ILE D 149 10.360 -47.145-36.896 1., 00 29.86 0

ATOM 5754 N ALA D 150 10.705 -47.162 -39.110 1. .00 27.10 N

ATOM 5755 CA ALA D 150 12.146 -47.306 -38.945 1. .00 27.95 C

ATOM 5756 CB ALA D 150 12.815-47 564-40.293 1. .00 26.89 C

ATOM 5757 C ALA D 150 12.724 -46.053 -38.306 1. .00 28.07 C

ATOM 5758 0 ALA D 150 1'3.569-46.139 -37.419 1. .00 29.73 0

ATOM 5759 N THR D 151 12.264 -44.884 -38.745 1, .00 27.22 N

ATOM 5760 CA THR D 151 12.774 -43.637 -38.187 1, .00 25.63 C

ATOM 5761 CB THR D 151 12.216 -42.405 -38.934 1, .00 25.12 C

ATOM 5762 061 THR D 151 12.617 -42.462-40.307 1 .00 27.33 .0

ATOM 5763 CG2 THR D 151 12.749 -38.317 1 .00 19.57 C

ATOM 5764 C THR D 151 12.439 -43.513 -36.701 1 .00 25.16 C

ATOM 5765 0 THR D 151 13.248 -43.021 -35.920 1 .00 25.33 0

ATOM 5766 N ILE D 152 11.252 -43.961 -36.303 1 .00 25.40 N

ATOM 5767 CA ILE D 152 10.906 -43.936 -34.883 1 .00 27.04 C

ATOM 5768 CB ILE D 152 9.452-44.349 -34.647 1 .00 28.05 C

ATOM 5769 C62 ILE D 152 9.191 -44.462 -33.148 1 .00 24.50 C

ATOM 5770 C61 ILE D 152 8.516 -43.322 -35.297 1 .00 28.02 C

ATOM 5771 CD1 ILE D 152 7.123 -43.839 -35.570 1 .00 30.11 C ATOM 5772 C ILE D 152 11.809 -44.859 -34.076 1.00 28.04 C

ATOM 5773 0 ILE D 152 12.214 -44.521-32.958 1.00 28.69 0

ATOM 5774 N ASP D 153 12.133 -46.017 -34.651 1. 00 27.26 N

ATOM 5775 CA ASP D 153 13.091 -46.926 -34.036 1. 00 26.85 C

ATOM 5776 CB ASP D 153 13.339-48.148 -34.931 1.00 27.17 C

ATOM 5777 CG ASP D 153 12.132 -49.070-35.023 1.00 26.88 C

ATOM 5778 0D1 ASP D 153 12.068 -49.862-35.980 1.00 28.72 0

ATOM 5779 0D2 ASP D 153-49.008 -34.143 1. 00 30.59 0

ATOM 5780 C ASP D 153 14.402 -46.189-33.817 1.00 26.49 C

ATOM 5781 0 ASP D 153 14.971 -46.221 -32.726 1. 00 27.86 0

ATOM 5782 N LEU D 154 14.870 -45.516-34.859 1. 00 26.55 N

ATOM 5783 GA LEU D 154 16.086 -44.714-34.776 1. 00 27.20 C

ATOM 5784 CB LEU D 154 16.321 -43.979 -36.099 1.00 26.52 C

ATOM 5785 CG LEU D 154 17.744 -44.002-36.663 1. 00 29.38 C

ATOM 5786 CD1 LEU D 154 17.969 -42.790 -37.580 1. 00 23.28 C

ATOM 5787 CD2 LEU D 154 18.735 -43.998-35.526 1. 00 26.23 C

ATOM 5788 C LEU D 154 15.990 -43.694-33.637 1. 00 27.08 C

ATOM 5789 0 LEU D 154 16.875 -43.636 -32.773 1. .00 27.88 0

ATOM 5790 N LEU D 155 14.915-42.899 -33.631 1. .00 24.94 N

ATOM 5791 CA LEU D 155 14.761 -41.817 -32.651 1. 00 24.55 C

ATOM 5792 CB LEU D 155 13.536 -40.946 -32.982 1., 00 23.09 C

ATOM 5793 CG LEU D 155 13.508 -40.084-34.255 1., 00 21.66 C

ATOM 5794 CD1 LEU D 155 12.334 -39.124 -34.157 1., 00 22.14 C

ATOM 5795 CD2 LEU D 155 14.804-39.297 -34.422 1., 00 18.64 C

ATOM 5796 C LEU D 155 14.625 -42.338 -31.219 1., 00 25.36 C

ATOM 5797 0 LEU D 155 15.205 -41.777-30.293 1., 00 22.92 0

ATOM 5798 N LYS D 156 13.854 -43.411-31.045 1. .00 28.04 N

ATOM 5799 CA LYS D 156 13.644-43.993 -29.721 1. .00 29.73 C

ATOM 5800 CB LYS D 156 12.595-45.116 -29.782 1. .00 29.70 C

ATOM 5801 CG LYS D 156 11.157 -44.605-29.605 1, .00 30.44 C

ATOM 5802 CD LYS D 156 10.115 -45.640-30.006 1, .00 31.42 C

ATOM 5803 CE LYS D 156 8.723 -45.233 -29.533 1, .00 32.65 C

ATOM 5804 NZ LYS D 156 7.671 -46.197 -29.993 1, .00 34.21 N

ATOM 5805 C LYS D 156 14.939 -44.510 -29.113 1, .00 29.82 C

ATOM 5806 0 LYS D 156 15.256 -44.184-27.967 1 .00 27.80 0

ATOM 5807 N LYS D 157 15.701 -45.288 -29.883 1 .00 32.16 N ATOM 5808 CA LYS D 157 17.029-45.721 -29.438 1.00 32.40 C

ATOM 5809 CB LYS D 157 17.755 -46. 499 -30.533 1. 00 35.10 C

ATOM 5810 C6 LYS D 157 19.249 -46. 643 -30.262 1.00 40.62 C

ATOM 5811 CD LYS D 157 19.883 -47. 759 -31. 088 1. 00 46.06 C

ATOM 5812 CE LYS D 157 20.444 -48. 866 -30.191 1. 00 50.34 C

ATOM 5813 NZ LYS D 157 19.377 -49. 557 -29.396 1. 00 49.84 N

ATOM 5814 C LYS D 157 17.907 —44. 553-29.011 1. 00 31.80 C

ATOM 5815 0 LYS D 157 18.632 -44. 648 -28. 021 1. 00 34.15 0

ATOM 5816 N ALA D 158 17.843 -43. 452-29. 755 1. 00 30.89 N

ATOM 5817 CA ALA D 158 18.603 -42. 250-29. 412 1. 00 29.31 C

ATOM 5818 CB ALA D 158 18.645 -41. 296 -30. 609 1. 00 29.53 C

ATOM 5819 C ALA D 158 18.027 -41. 526 -28. 190 1. 00 29.14 C

ATOM 5820 0 ALA D 158 18.634-40. 600 -27. 667 1. 00 27.79. 0

ATOM 5821 N GLY D 159 16.853 -41. 939-27. 737 1. 00 29.38 N

ATOM 5822 CA 6LY D 159 16.359 -41. 413 -26. 477 1. 00 30.79 C

ATOM 5823 C GLY D 159 15.178 -40.461 -26. 555 1. 00 31.56 C

ATOM 5824 0 GLY D 159 14.850-39.809-25. 566 1. 00 32.78 0

ATOM 5825 N SER D 160 14.526 -40.378 -27. 710. 1. 00 30.92 N

ATOM 5826 CA SER D 160 13.310 -39.580 -27. 819 1. 00 .31.34 C

ATOM 5827 CB SER D 160 12.855 -39.487 -29. 277 1. 00 30.03 C

ATOM 5828 OG SER D 160 13.758-38.698-30. 036 1. .00 29.47 0

ATOM 5829 C SER D 160 12.214 -40.217 -26. 983 1., 00 32.08 C

ATOM 5830 0 SER D 160 12.055 -41. 439 -26'.989 1., 00 35.22 0

ATOM 5831 N SER D 161 11.454 -39. 394 -26. 269 1., 00 31.26 N

ATOM 5832 CA SER D 161 10.411-39. 907 -25. 390 1. .00 29.72 C

ATOM 5833 CB SER D 161 10.673 -39. 456-23. 963 1. .00 29.88 C

ATOM 5834 OG SER D 161 10.968 -38. 077 -23. 943 1. .00 32.07 0

ATOM 5835 C SER D 161 9.022 -39. 463 -25. 813 1, .00 29.82 C

ATOM 5836 0 SER D 161 8.026-39. 824 -25. 185 1, .00 30.88 0

ATOM 5837 N SER D 162 8.952 -38. 676 -26. 877 1, .00 29.13 N

ATOM 5838 CA SER D 162 7.667 -38. 189 -27. 358 1, .00 27.28 C

ATOM 5839 CB SER D 162 7.219 -36. 988 -26. 521 1, .00 27.54 C

ATOM 5840 OG SER D 162 5.891 -36., 631-26., 840 1 • 00 29.72 0

ATOM 5841 C SER D 162 7.766 -37. 797 -28. 827 1 .00 25.47 C

ATOM 5842 0 SER D 162 8.544 -36., 921 -29., 202 1 .00 24.42 0

ATOM 5843 N ILE D 163 6.969 One 38., 451 One 29., 658 1 .00 23.67 N ATOM 5844 CA ILE D 163 7.170 -38.380 -31.093 1.00 22.49 C

ATOM 5845 CB ILE D 163 7.838 -39.654 -31.644 1. 00 23.28 C

ATOM 5846 CG2 ILE D 163 7.942-39.557 -33.164 1.00 20.61 C

ATOM 5847 CG1 ILE D 163 9.205 -39.856 -30.990 1.00 24.00 C

ATOM 5848 CD1 ILE 0 163 9.725 -41.277 -31.109 1. 00 28.20 C

ATOM 5849 G ILE D 163 5.846 -38.259 -31.788 1. 00 21.61 C

ATOM 5850 0 ILE D 163 4.950 -39.049 -31.544 1.00 23.04 0

ATOM 5851 N LYS D 164 5.732 -37.285 -32.678 1. 00 20.26 N

ATOM 5852 CA LYS D 164 4.573 -37.194 -33.542 1. 00 21.27 C

ATOM 5853 CB LYS D 164 3.830 -35.893 -33.259 1.00 21.57 C

ATOM 5854 CG LYS D 164 3.685-35.599 -31.786 1.00 22.05 C

ATOM 5855 CD LYS D 164 2.431 -34.806-31.525 1. 00 25.59 C

ATOM 5856 CE LYS D 164 2.255 -34.512 -30.047 1.00 27.58 C

ATOM 5857 NZ LYS D 164 1.029 -33.692 -29.844 1. 00 30.88 N

ATOM 5858 C LYS D 164 5.039-37.240-34.994 1. 00 20.11 C

ATOM 5859 0 LYS D 164 6.150 -36.813 -35.300 1. 00 19.81 0

ATOM 5860 N VAL D 165 4.191 -37.766-35.873 1. 00 19.26 N

ATOM 5861 CA VAL D 165 4.491 -37.839 -37.298 1.00 20.25 C

ATOM 5862 CB VAL D 165 4.414 -39.284 --37.815 1.00 18.59 C

ATOM 5863 CG1 VAL D 165 4.632-39.299 -39.314 1. .00 17.87 C

ATOM 5864 CG2 VAL D 165 5.452-40.141 -37.128 1., 00 17.87 C

ATOM 5865 C VAL D 165 3.546 -36.995 -38.148 1., 00 21.77 C

ATOM 5866 0 VAL D 165 2.332 -37.181 -38.107 1., 00 22.38 0

ATOM 5867 N LEU D 166 4.113 -36.081 -38.933 1. .00 21.57 N

ATOM 5868 CA LEU D 166 3.327 -35.224 -39.816 1., 00 22.25 C

ATOM 5869 CB LEU D 166 3.798 -33.769 -39.682 1, .00 20.22 C

ATOM 5870 CG LEU D 166 3.372 -32.936 -38.463 1, .00 20.93 C

ATOM 5871 CD1 LEU D 166 3.328 -33.776 -37.197 1, .00 18.89 C

ATOM 5872 CD2 LEU D 166 4.352 -31.764-38.310 1, .00 18.12 C

ATOM 5873 C LEU D 166 3.452-35.675 -41.274 1, .00 21.83 G

ATOM 5874 0 LEU D 166 4.546 -35.693-41.837 1, .00 22.01 0

ATOM 5875 N VAL D 167 2.332 -36.025 -41.894 1 .00 22.32 N

ATOM 5876 CA VAL D 167 2.372 -36.496 -43.270 1 .00 22.80 C

ATOM 5877 CB VAL D 167 2.094-38.022 -43.341 1 .00 23.72 C

ATOM 5878 CG1 VAL D 167 0.612 -38.281 -43.345 1 ∎ 00 23.15 C

ATOM 5879 CG2 VAL D 167 2.724 -38.612 -44.573 1 ∎ 00 28.43 C ATOM 5880 C VAL D 167 1.333 -35.760 -44.106 1.00 21.78 C

ATOM 5881 0 VAL D 167 0.317-35.309 -43.583 1.00 23.86 0

ATOM 5882 N LEU D 168 1.584-35.646 -45.405 1. 00 21. 15 N

ATOM 5883 CA LEU D 168 0.642 -35.007 -46.316 1. 00 20.76 C

ATOM 5884 CB LEU D 168 -34.584 -47.605 1. 00 19.41 C

ATOM 5885 CG LEU D 168 -33.103-47.796 1. 00 19.14 C

ATOM 5886 CD1 LEU D 168 2.073 -32.491-46. 483 1.00 18.63 C

ATOM 5887 CD2 LEU D 168 2.812 -32.955-48. 809 1.00 16.60 C

ATOM 5888 C LEU D 168 -0.510 -35.949 -46. 647 1. 00 22.43 C

ATOM 5889 0 LEU D 168-35.565 -46. 579 1. 00 25.94 0

ATOM 5890 N VAL D. 169 -0.190 -37.184 -47. 002 1. 00 22.72 N

ATOM 5891 CA VAL D 169 -1.225 -38.184 -47. 247 1. 00 25. 63 C

ATOM 5892 CB VAL D 169 -1.489 -38.369-48. 763 1. 00 26. 41 C

ATOM 5893 CGI VAL D 169 -1.933 -37.054-49. 374 1. 00 26. 89 C

ATOM 5894 CG2 VAL D 169 —0.238 -38.869 One 49. 460 1. 00 26. 28 C

ATOM 5895 C VAL D 169 -0.826 -39.525 -46. 642 1. 00 25. 48 C

ATOM 5896 0 VAL D 169 0.357 -39.849 -46. 561 1. 00 25. 76 0

ATOM 5897 N ALA D 170-1.818 -40.294 -46. 210 1. 00 27. 44 N

ATOM 5898 CA ALA D 170 -1.570 -41565 -45.535 1., 00 28.36 C

ATOM 5899 CB ALA D 170 -1.739 -41 396 -44. 026 1., 00 26. 28 C

ATOM 5900 C ALA D 170 -2.518 -42.641 -46. 052 1., 00 29. 54 C

ATOM 5901 0 ALA D 170 -3.713-42.398 -46. 220 1., 00 30. 32 0

ATOM 5902 N ALA D 171 -1.981 -43.827 -46.313 1., 00 30. 59 N

ATOM 5903 CA ALA D 171 -2.815-44.986 -46. 626 1. .00 32. 93 C

ATOM 5904 CB ALA D 171 -2.068 -45.949 -47. 553 1. .00 33. 42 C

ATOM 5905 C ALA D 171-3.170 -45.688 -45. 324 1. .00 33. 48 C

ATOM 5906 0 ALA D 171-2.349 -45.773-44. 408 1. .00 33. 80 0

ATOM 5907 N PRO D 172 -4.400-46.202 -45. 223 1, .00 34. 29 N

ATOM 5908 CD PRO D 172 -5.501 -46.145 -46. 199 1, .00 34. 54 C

ATO 5909 CA PRO D 172 -4.788 -46.854 -43. 970 1, .00 35. 84 G

ATOM 5910 CB PRO D 172-6.274 -47.181 1 44. 169 1, .00 35. 61 C

ATOM 5911 CG PRO D 172-6.507-47.097 -45. 635 1. .00 34. 63 C

ATOM 5912 C PRO D 172 -3.936 -48.080 -43. 655 1, .00 37. 66 C

ATOM 5913 0 PRO D 172 -3.734 -48.422 -42. 487 1, .00 39. 42 0

ATOM 5914 N 6LU D 173 -3.419 -48.727 -44. 695 1 .00 38. 60 N

ATOM 5915 CA GLU D 173-2.458 -49.807 -44. 505 1 • 00 39. 90 C ATOM 5916 GB GLU D 173 -1.963 -50.331-45.859 1.0042.98 C

ATOM 5917 CG GLU D 173 -2.963 -51.209 -46.603 1.00 46.59 C

ATOM 5918 CD GLU D 173 -3.967-50.410 -47.418 1. 00 49.53 C

ATOM 5919 0E1 GLU D 173 -3.815-49.172 -47.514 1.00 48.97 0

ATOM 5920 0E2 GLU D 173 -4.911 -51.026 -47.963 1.00 51.33 0

ATOM 5921 C GLU D 173-1.269 -49.320 -43.684 1. 00 38.42 C

ATOM 5922 0 GLU D 173 -0.910 -49.911 -42.667 1.00 37.90 0

ATOM 5923 N GLY D 174 -0.659 -48.231 -44.134 1. 00 37.04 N

ATOM 5924 CA GLY D 174 0.501 -47.712 -43.440 1. 00 33.99 C

ATOM 5925 C GLY D 174 0.152 -47.197 -42.059 1. 00 31.01 C

ATOM 5926 0 GLY D 174 0.979o t -47.250 1. 00 31.45 0

ATO 5927: N ILE D 175 -1.067 -46.702 -41.890 1. 00 28.50 N

ATOM 5928 CA ILE D 175 -1.514 -46.266 -40.577 1. 00 31.04 C

ATOM 5929 CB ILE D 175-2.889 -45.560 -40.640 1. 00 29.98 C

ATOM 5930 GG2 ILE D 175 -3.372 -45.251 -39.233 1. 00 27.35 G

ATOM 5931 CG1 ILE D 175 -2.779 -44.272 -41.471 1. 00 29.39 C

ATOM 5932 CD1 ILE D 175 -4.063 -43.471 -41.580 1. 00 26.10 C

ATOM 5933 C ILE D 175 -1.616-47.461-39.636 1., 00 32.92 C

ATOM 5934 0 ILE D 175-1.252 -47.370 -38.467 1.00 34.78 0

ATOM 5935 N ALA D 176 -2.095-48.589 -40.150 1., 00 33.89 N

ATOM 5936 CA ALA D 176 -2.257 -49.778 -39.315 1., 00 35.01 C

ATOM 5937 GB ALA D 176 -2.925 -50.911 -40.110 1. .00 35.78 G

ATOM 5938 C ALA D 176 -0.909-50.235-38.792 1., 00 33.34 C

ATOM 5939 0 ALA D 176 -0.756 -50.509 -37.601 1. .00 35.11 0

ATOM 5940 N ALA D 177 0.067 -50.301 —39.691 1. .00 31.88 N

ATOM 5941 CA ALA D 177 1.411 -50.728 -39.339 1,, 00 31.38 C

ATOM 5942 CB ALA D 177 2.272-50.797-40.590 1. .00 27.44 C

ATOM 5943 C ALA D 177 2.044 -49.787 -38.314 1, .00 32.24 C

ATOM 5944 0 ALA D 177 2.805 -50.220 -37.441 1, .00 33.10 0

ATOM 5945 N LEU D 178 1.728 -48.497 -38.421 1. .00 33.25 N

ATOM 5946 CA LEU D 178 2.260 -47.516 -37.485 1, .00 33.25 C

ATOM 5947 CB LEU D 178 1.901 -46.092 -37.930 1, .00 33.82 C

ATOM 5948 C6 LEU D 178 2.690 -44.950 -37.276 1 .00 35.09 C

ATOM 5949 CD1 LEU D 178 2.446 -44.890 -35.785 1, .00 33.80 C

ATOM 5950 CD2 LEU D 178 4.162 -45.168 -37.534 1, .00 37.60 C

ATOM 5951 C LEU D 178 -47.787 -36.108 1 .00 32.52 C ATOM 5952 0 LEU D 178 2.391-47.857 -35.117 1.0033.07 0

ATOM 5953 N 6LU D 179 0.353 One 47.943 -36.052 1.00 32.42 N

ATOM 5954 CA GLU D 179 -0.320 -48.166 -34.780 1. 00 35. 29 C

ATOM 5955 CB GLU D 179 -1.836 -48.127 -34.968 1. 00 35. 03 C

ATOM 5956 C6 GLU D 179 -2.369 -46.766 -35.374 1. 00 34. 65 C

ATOM 5957 CD GLU D 179 -3.883 -46.726-35.429 1. 00 39. 06 C

ATOM 5958 0E1 GLU D 179-4.458 -47.241 -36.415 1. 00 40. 82 0

ATOM 5959 0E2 6LU D 179 -4.501 -46.180 -34.484 1. 00 39. 65 0

ATOM 5960 C GLU D 179 0.096-49.497 -34.163 1. 00 36. 82 C

ATOM 5961 0 GLU D 179 0,011 -49.677-32.952 1. 00 38. 90 0

ATOM 5962 N LYS D 180 0.556 -50.423 -34.997 1., 00 37. 09 N

ATOM 5963 CA LYS 0 180 0.991, 51.725 -34.514 1. 00 38. 09 C

ATOM 5964 CB LYS 0 180 0.936-52.752 -35.650 1. 00 40. 39 C

ATOM 5965 CG LYS D 180 1.433 -54.147 One 35.276 1., 00 41. 87 C

ATOM 5966 CD LYS D 180 0.926 -55.205-36.257 1., 00 42. 83 C

ATOM 5967 CE LYS D 180 1.832 -56.438 -36.285 1. 00 44. 95 C

ATOM 5968 NZ LYS D 180 2.264 -56.862 —34.922 1., 00 43. 21 N

ATOM 5969 C LYS D 180 2.401 -51.665 -33.941 1., 00 38. 83 C

ATOM 5970 0 LYS D 180 2.659-52.193 -32.861 1., 00 41. 44 0

ATOM 5971 N ALA D 181 3.313 -51.017 -34.659 1., 00 36.30 N

ATOM 5972 CA ALA D 181 4.710 -50.978-34.242 1., 00 34. 31 C

ATOM 5973 CB ALA D 181 5.598 -50.675-35.444 1. .00 35. 13 C

ATOM 5974 C ALA D 181 4.975 -49.965 -33.129 1., 00 34. 46 C

ATOM 5975 0 ALA D 181 5.891 -50.143 -32.324 1. .00 31. 76 0

ATOM 5976 N HIS D 182 4.173 -48.901 -33.093 1. .00 34. 67 N

ATOM 5977 CA HIS D 182 4.395 -47.798 -32.164 1, .00 33. 82 C

ATOM 5978 CB HIS D 182 5.305 -46.756 -32.811 1., 00 30.00 C

ATOM 5979 CG HIS D 182 6.633 -47.297 -33.241 1. .00 27. 5F C

ATOM 5980 CD2 HIS D 182 7.118 -47.599 -34.468 1, .00 25. 84 G

ATO 5981 ND1 HIS D 182 7.648 -47.572 -32.349 1. .00 26. 06 N

ATOM 5982 CE1 HIS D 182 8.703 -48.016 -33.010 1. .00 23. 20 C

ATOM 5983 NE2 HIS D 182 8.407 -48.040 -34.296 1, .00 25. 78 N

ATOM 5984 C HIS D 182 3.078 -47.141 -31 747 1. • 00 36. 79 C

ATOM 5985 0 HIS D 182 2.760 -46.015 -32.152 1. .00 39. 37 0

ATOM 5986 N PRO D 183 2.298 -47.836 -30.915 1, .00 36. 48 N

ATOM 5987 CD PRO D 183 2.637 -49.116 -30.266 1 • 00 36. 87 C S6T

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SSLlLO / LOOZdT / Ud 0CZ.S0 / 600i ΟΛ \ ATOM 6060 CD1 I LE D 192 -7. 334 -41. 188-41. 421 1. 00 21. 20 C

ATOM 6061 C I LE D 192-7. 006 -40. 942 -46. 431 1. 00 26. 71 G

ATOM 6062 0 I LE D 192 -8. 197 -40. 754 -46. 639 1. 00 27. 26 0

ATOM 6063 N ASP D 193 -6. 203-41. 500 -47. 327 1. 00 26. 79 N

ATOM 6064 CA ASP D 193 -6. 692 -41. 834 -48. 653 1. 00 30. 29 C

ATOM 6065 CB ASP D 193 -5. 576 -41. 630 -49. 681 1. 00 32. 13 C

ATOM 6066 C6 ASP D 193 -5. 348 -40. 149 -50. 020 1. 00 35. 13 C

ATOM 6067 0D1 ASP D 193 -6. 000 -39. 280-49. 395 1. 00 33. 33 0

ATOM 6068 0D2 ASP D 193 -4. 518-39. 858 -50. 916 1. 00 33. 00 0

ATOM 6069 C ASP D 193 -7. 232 -43. 267 -48. 708 1. 00 32. 73 C

ATOM 6070 0 ASP D 193-7. 352 -43 931 -47. 679 1. 00 30. 73 0

ATOM 6071 N GLN D 194 -7. 574 -43. 735 -49. 902 1. 00 34. 41 N

ATOM 6072 CA GLN D 194 -8. 290 -45. 000 -50. 045 1. 00 38. 52 C

ATOM 6073 CB GLN D 194 -8. 845 -45. 119 -51. 461 1. 00 40. 20 C

ATOM 6074 C6 GLN D 194 -9. 735 -43. 957-51. 865 1. 00 45. 58 C

ATOM 6075 CD GLN D 194 -9. 904 -43. 849 -53. 369 1. 00 47. 22 C

ATOM 6076 0E1 GLN D 194 -9. 054 -44. 309 -54. 136 1. 00 49. 50 0

ATOM 6077 NE2 GLN D 194 -11. 002 -43. 240 -53. 799 1. 00 46. 45 N

ATOM 6078 C GLN D 194-7. 415 -46. 221 -49. 734 1. 00. 40. 52 C

ATOM 6079 0 GLN D 194 -7. 827-47. 128 -49. 008 1. 00 39. 32 0

ATOM 6080 N GLY D 195 -6. 209 -46. 247 -50. 288 1., 00 40. 30 N

ATOM 6081 GA 6LY D 195 5. 319 -47. 354-50. 005 1.. 00 41. 44 C

ATOM 6082 C GLY D 195 -4. 210 -47. 466 -51. 027 1. 00 42. 11 C

ATOM 6083 0 GLY D 195 -4. 022 -46. 564 -51. 840 1. 00 42. 99 0

ATOM 6084 N LEU D 196-3. 473-48. 570-50. 988 1.. 00 42. 19 N

ATOM 6085 CA LEU D 196 -2. 348 -48. 764 -51. 893 1.. 00 43. 45 C

ATOM 6086 CB LEU D 196 -1. 230 -49. 519 -51. 180 1., 00 40. 55 C

ATOM 6087 CG LEU D 196 -0. 695 -48. 870 -49. 905 1.. 00 40. 14 C

ATOM 6088 GD1 LEU D 196 0. 221 -49. 848 -49. 189 1.. 00 37. 22 G

ATOM 6089 GD2 LEU D 196 0. 047 -47. 580 -50. 249 1., 00 36. 16 C

ATOM 6090 C LEU D 196 -2. 769 -49. 540-53. 133 1., 00 45. 90 C

ATOM 6091 0 LEU D 196 -3. 641 -50. 408 -53. 066 1.. 00 47. 12 0

ATOM 6092 N ASM D 197 -2. 156 -49. 223 -54. 268 1,. 00 47. 17 N

ATOM 6093 CA ASN D 197 -2. 250 -50. 098-55. 422 1.. 00 49. 21 C

ATOM 6094 CB ASN D 197 -2. 242 -49. 287 -56. 725 1.. 00 49. 41 C

ATOM 6095 C6 ASN D 197 -0. 886 -48. 664 -57. 035 1.. 00 49. 79 C ATOM 6096 0D1 ASN D 197 0.090 -48.842 -56.301 1.0048.80 0

ATOM 6097 ND2 ASN D 197 -0.826 -47.925-58.137 1. 00 50.45 N

ATOM 6098 C ASN D 197-1.069-51. 065-55.379 1. 00 50.34 C

ATOM 6099 0 ASN D 197 -0.274-51. 039 -54.440 1. 00 49.35 0

ATOM 6100 N GLU D 198 -0.959 -51.907 -56.401 1.00 52.70 N

ATOM 6101 CA GLU D 198 -0.006-53.014 -56.409 1. 00 53.46 C

ATOM 6102 CB GLU D 198 -0.147 -53.814 -57. 708 1. 00 55.37 C

ATOM 6103 GG GLU D 198 -1.585 -54.163 -58. 076 1. 00 57.35 C

ATOM 6104 CD GLU D 198 -2.386-52.943 -58. 505 1. 00 59.70 C

ATOM 6105 0E1 GLU D 198 -1.787 -52. 005 -59. 081 1. 00 59. 96 0

ATOM 6106 0E2 GLU D 198 -3.614-52. 920 -58. 263 1, 00 61. 89 0

ATOM 6107 G GLU D 198 1.441 -52. 563 -56. 244 1. 00 52. 86 C

ATOM 6108 0 GLU D 198 2.278 -53. 317 -55. 743 1. 00 53. 79. 0

ATOM 6109 N HIS D 199 1.742 -51. 338-56. 657 1. 00 51. 82 N

ATOM 6110 GA HIS D 199 3.113 -50. 849 -56. 578 1. 00 51. 25 C

ATOM 6111 CB HIS D 199 3.458 -50. 074 -57. 848 1. 00 54. 01 C

ATOM 6112 CG HIS D 199 3.473 -50. 928 -59. 077 1. 00 56. 08 C

ATOM 6113 CD2 HIS D 199 4.500 -51. 426 -59. 805 1. 00 55. 77 G

ATOM 6114 ND1 HIS D 199 2.319 -51.404 -59.663 1.00 55.74 N

ATOM 6115 CE1 HIS D 199 2.636 -52. 162-60 698 1. 00 56. 27 C

ATOM 6116 NE2 HIS D 199 3.952 -52. 192 -60. 805 1., 00 57. 08 N

ATOM 6117 C HIS D 199 3.384 -49. 995 -55. 342 1. .00 50. 47 C

ATOM 6118 0 HIS D 199 4.372 -49. 257 -55'.284 1. 00 49. 52 0

ATOM 6119 N GLY D 200 2.507 -50. 105 -54. 350 1., 00 48. 65 N

ATOM 6120 CA GLY D 200 2.761 -49. 458 -53. 079 1. .00 47. 10 C

ATOM 6121 C GLY D 200 2.534 -47. 962 -53. 138 1., 00 45. 90 C

ATOM 6122 0 GLY D 200 2.963 -47. 228 -52. 248 1. .00 46. 66 .0

ATOM 6123 N TYR D 201 1.861 -47. 506 -54. 190 1., 00 45. 13 N

ATOM 6124 CA TYR D 201 1.498 -46. 097 -54. 307 1. .00 42. 65 C

ATOM '6125 CB TYR D 201 1.388 -45. 699 -55. 780 1. .00 44. 38 C

ATOM 6126 CG TYR 0 201 2.705 -45. 287 -56. 401 1., 00 47. 21 C

ATOM 6127 CD1 TYR D 201 3.069 -43. 946 -56. 482 1. .00 48. 00 G

ATOM 6128 GE1 TYR D 201 4.272 -43. 567 -57. 046 1, .00 49. 32 C

ATOM 6129 CD2 TYR D 201 3.584 -46. 236, 56. 902 1. .00 47. 07 C

ATOM 6130 CE2 TY D 201 4.786 -45. 868-57. 464 1, .00 49. 15 C

ATOM 6131 CZ TYR D 201 5.128 -44.533 -57. 536 1. .00 49. 19 C ATOM 6132 OH TYR D 201 6.332-44.171-58.093 1.0048.54 0

ATOM 6133 C TY D 201 0.184 45 798 -53. 595 1. 00 39.80 C

ATOM 6134 0 TYR D 201 -0.821 -46.477 -53. 816 1. 00 39.69 0

ATOM 6135 N ILE D 202 0.198 -44.781 -52. 737 1. 00 37.25 N

ATOM 6136 CA ILE D 202-1.025 -44.320-52. 093 1. 00 33.72 C

ATOM 6137 CB ILE D 202 -0.756 -43.136 -51. 140 1. 00 34.90 C

ATOM 6138 GG2 ILE D 202 -2.065 -42.653-50. 516 1.00 32.37 C

ATOM 6139 C61 ILE D 202 0.221 -43.559 -50. 046 1. 00 35.21 C

ATOM 6140 CD1 ILE D 202 0.658 -42.416 -49. 140 1. 00 35.43 C

ATOM 6141 C ILE D 202 -1.997 -43.867 -53. 172 1. 00 31.97 C

ATOM 6142 0 ILE D 202 -1.628-43.145 -54. 094 1. 00 29.55 0

ATOM 6143 ILE D 203 -3.240 -44.310-53. 057 1. 00 30.75 N

ATOM 6144 CA ILE D 203 -4.271-43.975 -54. 026 1. 00 30.90 C

ATOM 6145 CB ILE D 203 -4.901-45.262 -54.624 1. 00 32.14 C

ATOM 6146 G62 ILE D 203 -6.106 -44.911-55. 480 1. 00 34.07 C

ATOM 6147 CG1 ILE D 203 -3.858-46.030 -55. 437 1. 00 33.27 C

ATOM 6148 CD1 ILE D 203 -3.302 -45.250 -56. 611 1. 00 33.63 C

ATOM 6149 C ILE D 203-5 340 -43.201 -53. 271 1. 00 29.93 C

ATOM 6150 0 ILE D 203 -5.784-43.636 -52. 216 1. 00 31.78 0

ATOM 6151 N PRO D 204 -5.751 -42.034 -53. 787 1. 00 29.52 N

ATOM 6152 CD PRO D 204 -6.892 -41 295 -53. 218 1., 00 30.13 C

ATOM 6153 CA PRO D 204 -5.205 -41.365 -54. 972 1., 00 29.97 C

ATOM 6154 CB PRO D 204 -6.209-40.250 -55.250 1.00 27.60 C

ATOM 6155 C6 PRO D 204 -6.844 -39.982 -53. 939 1., 00 28.05 C

ATOM 6156 C PRO D 204 -3.777 -40.834 -54. 802 1. .00 31.07 C

ATOM 6157 0 PRO D 204 -3.041 -40.703 -55. 781 1., 00 30.17 0

ATOM 6158 N GLY D 205 ^ -3.393 -40.527 -53. 566 1., 00 31.79.

ATOM 6159 CA GLY D 205 -2.014 -40.153 -53. 295 1. .00 31.40 C

ATOM 6160 C GLY D 205 -1.527 -38.931-54. 060 1. .00 31.87 C

ATOM 6161 0 GLY D 205 -2.318 -38.173 -54. 626 1. .00 34.26 0

ATOM 6162 N LEU D 206-0.214-38.740-54. 072 1. .00 30.85 N

ATOM 6163 CA LEU D 206 0.399 -37.596 -54. 735 1. .00 30.54 C

ATOM 6164 GB LEU D 206 -36.745 -53. 704 1. .00 28.60 C

ATOM 6165 C6 LEU D 206 0.241-36.117 -52. 649 1. .00 29.89 C

ATOM 6166 CD1 LEU D 206 1.062 -35.417-51. 582 1. .00 29.07 C

ATOM 6167 CD2 LEU D 206 -0.701 -35.140 One 53. 336 1, .00 29.21 C ATOM 6168 C LEU 0 206 1. 356-38. 023 -55. 849 1. 00 30. 05 C

ATOM 6169 0 LEU D 206 1. 896 -37. 187 -56. 567 1. 00 29. 47 0

ATOM 6170 N GLY D 207 1. 568 -39. 326-55. 985 1. 00 30. 66 N

ATOM 6171 CA 6LY D 207 2. 541 -39. 810 -56. 944 1. 00 32. 25 G

ATOM 6172 C GLY D 207 3. 949 -39. 722-56 390 1. 00 32. 67 C

ATOM 6173 0 GLY D 207 4. 181 -39. 989 -55. 209 1. 00 32. 84 0

ATOM 6174 N ASP D 208 4. 897 -39. 341 -57. 236 1. 00 32. 50 N

ATOM 6175 CA ASP D 208 6. 277 -39. 244 -56. 792 1. 00 33. 69 G

ATOM 6176 CB ASP D 208 7. 224 -39. 476 -57. 964 1. 00 36. 87 C

ATOM 6177 C6 ASP D 208 7. 488 -40. 940 -58. 199 1. 00 40. 85 C

ATOM 6178 0D1 ASP D 208 6. 510 -41. 691 -58. 391 1. 00 43. 06 0

ATOM 6179 0D2 ASP D 208 8. 670 -41. 342 -58. 182 1. 00 43. 42 0

ATOM 6180 C ASP D 208 6. 581 -37. 910 -56. 136 1. 00 32. 31. C

ATOM 6181 0 ASP D 208 7. 108-36. 999 -56. 773 1 00 32. 11 0

ATOM 6182 N ALA D 209 6. 263 -37. 813 -54. 852 1 00 31. 01 N

ATOM 6183 CA ALA D 209 6. 422 -36. 567 -54. 122 1. 00 31. 18 C

ATOM 6184 CB ALA D 209 5. 877 -36. 721-52. 703 1 00 32. 47 c

ATOM 6185 C ALA D 209 7. 881 -36. 120 -54. 083 1 00 300 0. 24 c

 O C

ATOM 6186 0 ALA D 209 8. 175-34. 930 -54. 181 1 00 30. 330 0 0

ATOM 6187 N GLY D 210 8. 794-37. 072 -53. 942 1 00 N

ATOM 6188 CA GLY D 210 10. 205 -36. 734 -54. 009 1 do 27. 97 C

ATOM 6189 G GLY D 210 10. 600-35. 998 -55. 287 1 00 28. 23 G

ATOM 6190 0 GLY D 210 11. 184 -34. 919 -55 '. 228 1 00 30. 07 0

ATOM 6191 N ASP D 211 10. 290 -36. 574 -56. 443 1 00 28. 01 N

ATOM 6192 CA ASP D 211 10. 688 -35. 982 -57. 717 1 00 26. 59 C

ATOM 6193 CB ASP D 211 10. 263-36. 874 -58. 887 1 00 25. 48 C

ATOM 6194 CG ASP D 211 11. 083 -38. 143 -58. 989 1 00 25. 99 C

ATOM 6195 0D1 ASP D 211 12. 239 -38. 145 -58. 542 1 00 26. 32 0

ATOM 6196 0D2 ASP D 211 10. 569 -39. 144-59. 527 1 00 30. 05 0

ATOM 6197 C ASP D 211 10. 045 -34. 610 -57. 891 1 00 28. 58 C

ATOM 6198 0 ASP D 211 10. 663 -33. 689-58. 433 1 00 25. 82 0

ATOM 6199 N LYS D 212 8. 799 -34. 481 -57 433 1 00 26. 95 N

ATOM 6200 CA LYS D 212 8. 058-33. 243 -57 609 1 00 27. 47 G

ATOM 6201 CB LYS D 212 6. 562 -33. 477 -57 369 1 00 29. 83 C

ATOM 6202 C6 LYS D 212 5. 824 -34. 003 -58 589 1 00 34. 42 C

ATOM 6203 CD LYS D 212 4. 367 -34. 319 -58 269 1 00 39. 40 C ATOM 6204 CE LYS D 212 3.561-34.542 -59.546 1.0041.30 C

ATOM 6205 NZ LYS D 212 2.267 -35.226 -59. 281 1. 00 43.44 N

ATOM 6206 C LYS D 212 8.550 -32.113 -56. 712 1. 00 25.70 G

ATOM 6207 0 LYS D 212 8.380 -30.949 -57. 043 1.00 27.88 0

ATOM 6208 N ILE D 213 9.149 -32.454 -55. 577 1. 00 25.52 N

ATOM 6209 CA ILE D 213 9.757 -31.459 -54. 702 1.00 25.06 C

ATOM 6210 CB ILE D 213 9.842-31.963-53. 254 1. 00 24.35 C

ATOM 6211 CG2 ILE D 213 10.672 -31.008-52. 412 1. 00 21.56 C

ATOM 6212 CG1 ILE D 213 8.445 -32.109 -52. 663 1. 00 25.97 C

ATOM 6213 CD1 ILE D 213 8.445-32.765 -51. 287 1. 00 26.73 C

ATOM 6214 C ILE D 213 11.171 -31.088 -55. 160 1. 00 26.79 C

ATOM 6215 .0 ILE D 213 11.610 -29.951 -54. 984 1. 00 26.03 0

ATOM 6216 N PHE D 214 11.887-32.047 -55. 744 1. 00 26.28 .N

ATOM 6217 CA PHE D 214 13.275-31.805 -56. 141 1. 00 27.96 C

ATOM 6218 CB PHE D 214 14.149-32.992 -55. 724 1. 00 23.59 G

ATOM 6219 CG PHE D 214 14.421 -33.032 —54. 253 1. 00 24.81 C

ATOM 6220 CD1 PHE D 214 15.650-32.644-53. 749 1. 00 23.86 C

ATOM 6221 CD2 PHE D 214 13.433-33.425 -53. 363 1., 00 25.24 C

ATOM 6222 CE1 PHE D 214 15.887 -32.645 -52. 385 1., 00 .23.52 C

ATOM 6223 CE2 PHE D 214 13.668 -33.427 -51. 999 1. 00 23.18 C

ATOM 6224 CZ PHE D 214 14.901-33.035 -51. 512 1., 00 23.72 C

ATOM 6225 C PHE D 214 13.437 -31.513 -57. 630 1., 00 27.73 C

ATOM 6226 0 PHE D 214 14.511 -31.113 -58.090 1., 00 28.62 0

ATOM 6227 N GLY D 215 12.359 -31.700-58. 377 1., 00 29.67 N

ATOM 6228 CA GLY D 215 12.387 -31.406 -59. 795 1. .00 31.98 C

ATOM 6229 G GLY D 215 13.189-32.444 -60. 549 1. .00 33.46 G

ATOM 6230 0 GLY D 215 13.664-32.190 -61. 649 1. .00 34.10 0

ATOM 6231 N THR D 216 13.341-33.620 -59. 954 1. .00 34.91 N

ATOM 6232 CA THR D 216 14.194 -34.645 -60. 524 1. .00 37.28 C

ATOM 6233 CB THR D 216 14.918 -35.443 -59. 410 1, .00 34.95 C

ATOM 6234 0G1 THR D 216 13.961-35.939 -58. 460 1. ■ 00. 31.90 0

ATOM 6235 CG2 THR D 216 15.932-34.555 -58. 701 1, .00 30.72 C

ATOM 6236 C THR 0 216 13.412 -35.604 -61. 413 1, .00 41.14 C

ATOM 6237 0 THR D 216 12.875 -36.599 -60. 940 1, .00 41.53 0

ATOM 6238 N LYS D 217 13.359-35.299 -62. 707 1, .00 46.25 N

ATOM 6239 CA LYS D 217 12.661 -36.151 One 63, 672 1, .00 50.37 C zoz

 0 S6 Ζ 00 "L 989 9 9 ZIZ '63-'08' ΐε- LOOLX dIO 90 9Z.29 IN01V

0 ½ '92 00, 1 029L P '63-990 'ιε- LOO IX dlD 90 tLZ9 WOIV

0 LL 'LI 00 • I S98 "8 828 '62-90

N 88 • LI 00 ■ i 9 ■ 6 186 '63 -8S9 ■ ζε-LOOLX dlD N ZLZ9 IN01V

0 ■ 62 00 'I OOL ■ OL SOS' οε- 09ε '-LOOLX d! 9 80 ILZ9 WOIV

N οε n 00 ■ L IS6 • 01 6LS ■ οε- S66 'οε— LOOLX d! 9 6N 0LZ9 WOIV

0 so 00 l LSZ 31 UL 'οε-' οε- tooix dlD * L0 6929 WOIV

0 Ofr ■ LI? 00 "L 938 ■ ει 996 ■ 83- LOL 'οε- LOOLX dl9 * Z0 8939 WOIV

0 Sfr 00 "L OL ει 882 οε- 0L0 'ΐε- 100 IX d! 9 * Z L9Z9 WOIV

0 l £ ■ St 00 "L OLl εζβ ■ οε-LSS '62-too IX dlD * εο 9929 WOIV

0 zzSir 00 'L 319-692 -ιε- L19 οε- 100 LX d 丄 9 * εο 9929 WOIV

0 99 00 "L 90S on Ζ £-οε- WOLX d 丄 9 * w fr929 WOIV

0 V6 'L 00' L Z.69 TL 893 τε- ζη οε- 瞧 X d 丄 9 S9Z9 WOIV

0 £ 9 00 Ί 8SS εε-100 IX did * so WOIV

0 99 Ί9 00 -L, SL 998 ζε- • 12- 100 LX dl9 * 90 1929 WOIV

0 'OL 00 "L S83 • £ l IZ6 ■ ^ ε--LOOLX d 丄 9 V20 0929 WOIV

0 L5 • 89 00 ■ I 391 ■ zv 369 τζ-219 'f8- 100LX d 丄 9 VIO 6S39 WOIV d • 89 00 -L 98S ■ ει on • εε- ε- 100 IX dl9 Vd 8S39 WOIV

0 I 'L 00 -L 699 810 εε-9 ΖΖ 9ε- concealed X d 9 νεο £ 929 WOIV

0 90 ■ 6L 00 ■ I εζζ ■ si 699 ■ οε- εοο '9ε- 隱 X d! 9 930 9329 WOIV

0 L6 ■ L 00 "l 009 .91 · ££ Z Ζ £-Ζ09 '9ε- Hidden X d 丄 9 aw 59Z9 WOIV d 90 • 6Z. Sd 1N01V

0 n • 08 00 l 99 ■ 91 LQ9 ζ-66 • εε-1.00 IX d 丄 9 aeo ε939 WOIV

0 ιε '28 00 'L € VL' Li .l £ Z 18 τε- 隱 X d 丄 9 9εο 2929 WOIV

0. Ο '18 00 'L ιο ■ 91 8 6 ε- 966 • ε-. Hidden X' dlD 920 LS39 WOIV

0 99 "28 00 'L V6Z '81 5LZ ε- 108' ε- 赚 X dI9 910 0929 WOIV d 61 8 00 Ί 681 ■ a 090 ■ ^ ε- 86 B ■ εε- 隱 X d! 9 9d 61729 WOIV

Liz α S people "! 8f39 y 丄

0 6ε "99 00 Ί ε 6 ■ S9-880 ■ ζ.ε- 88f • 0L Liz α S person 1X0 LVZ9 WOIV

0 L9 '29 00 '! · '29-.9tr ■ SS- 90 • 0L LIZ 0 S 1 1 WOIV

0 '23 00 "I βεε ■ S9- BSZ" 9ε-εN L u u LIZ 0 S Ί 0 2fZ9 WOIV

N 10 '9S 00 "I 6' 9- ISP · 8ε- 368 • 01 LIZ 0 S people, ZN m9 WOIV

0 L9 '99 00 "L '9-100 -8ε- εβο • 31 Liz a SAl 30 WOIV

0 81 ■ SS 00 • L 8S B ■ 39- ■ βε- 090 '21 Liz a SAl ao 21739 WOIV

0 OL S 00 Ί wo • S9- 181 8ε-60 t ^ τι LIZ Q SAl DO WOIV

0 LL 'LB 00 l 6 9' C9- S99 ζ.ε- S92 LIZ 0 Ski ao 0PZ9 WOIV

^ LlL0 / L00Zdr / 13d 0 "0 / 600Z OAV ATOM 6276 N1 GTP X1001 -29, 659 -29.428 7.303 1.00 25.76 N

ATOM 6277 C2 GTP X 麵 -28. 709 -29.702 8.294 1. 00 25.79 C

ATOM 6278 N2 GTP X1001 -27. 422 -29.618 7.918 1.00 21.11 N

ATOM 6279 N3 GTP X1001 -29. 025 -30.029 9.548 1. 00 26.76 N

ATOM 6280 C4 GTP X1001 -30. 383 -30.075 9.767 1. 00 29.27 C

ATOM 6281 PG GTP XI 002 -15. 549 -29.005 -22.765 1.00 81.38 P

ATOM 6282 01 G GTP X1002 -14.737 -29.517 -23.929 1.00 80.44 0

ATOM 6283 02G GTP X1002 -16.659-29.936 -22.352 1.00 80.13 0

ATOM 6284 03G GTP X1002 -16.131 -27.633 -23.111 1.00 80.30 0

ATOM 6285 Q3B GTP X1002 -14.554-28.872 -21.522 1. 00 76.67 0

ATOM 6286 PB GTP X1002 -14.3.54 -29.919 -20.307 1.00 71.97 P

ATOM .6287 01B GTP X1002 -14.808-31.272 20.737 1.00 70.24 0

ATOM 6288 02B GTP X1002 -13.077-29.828-19.622 1. 00 70.65 0

ATOM 6289 03A GTP X1002 -15. 466-29.417 -19.289 1. 00 66.00 0

ATOM 6290 PA GTP X1002 -16. 867-30.000 -18.697 1. 00 59.93 P

ATOM 6291 01 A GTP X1002 -17. 662-28.832 -18.189 1.00 62.54 0

ATOM 6292 02A GTP X1002 -17. 492-30.987 -19.578 1. 00 61.10 0

ATOM 6293 05 * GTP X1002 -16. 285-30.770-17.439 1, 00 56.16 0

ATOM 6294 C5 * GTP X1002 -15. 625 -32.029 -17.542 1., 00. 45.91 C

ATOM 6295 C4 * GTP X1002 -16. 091-32.947 -16.435 1., 00 41.61 C

ATOM 6296 04 * 6TP X1002 -17. 092-32.306 -15.581 1.00 38.65 0

ATOM 6297 C3 * GTP X1002-16. 735-34.255 -16.942 1., 00 39.40 C

ATOM 6298 03 * GTP X1002 -16. 068 -35.380 -16.363 1., 00 40.26 0

ATOM 6299 C2 * GTP X1002 -18. 186-34.114 -16.542 1. .00 37.97 C

ATOM 6300 02 * GTP X1002 -18. 740 -35.385 -16.171 1. .00 38.46 0

ATOM 6301 Ci * GTP X1002 -18. 166-33.224 -15.353 1. .00 37.02 C

ATOM 6302 N9 GTP X 002 -19. 385 -32.427-15.129 1. .00 33.01 .N

ATOM 6303 C8 GTP X1002 -19. 885 -31.415-15.930 1. .00 30.16 C

ATOM 6304 N7 GTP X1002-20. 987 -30.890 -15.471 1, .00 29.53 N

ATOM 6305 C5 GTP X1002 -21. 239 -31.589 -14.298 1, .00 29.66 G

ATOM 6306 C6 GTP X1002 -22. 304 -31.476 -13.341 1. .00 27.59 C

ATOM 6307 06 GTP X1002 -23. 264 -30.717 -13.335 1, .00 28.77 0

ATOM 6308 N1 GTP X1002 -22. 174 -32.394 -12.276 1, .00 29.09 N

ATOM 6309 C2 GTP X1002 -21. 129 -33.315 -12.160 1, .00 29.94 C

ATOM 6310 N2 GTP XI 002 -21. 167 -34.109 -11.086 1 .00 27.81 N

ATOM 6311 N3 GTP XI 002 -20. 140 -33.426 -13.044 1, .00 29.75 N ATOM 6312 C4 GTP X1002-20.253 -32.538 -14.084 1.00 30.83 C

ATOM 6313 PG GTP X1003 17.472 -18.959 -23.992 1. 00 69.80 P

ATOM 6314 01 G GTP X1003 18.304 -17.943 -23.233 1. 00 68.82 0

ATOM 6315 02G GTP X1003 17.617-20.375 -23.470 1. 00 68.91 0

ATOM 6316 036 GTP X1003 16.034 -18.533 -24.172 1.00 70.27 0

ATOM 6317 03B GTP X1003 18.129 -19.001 -25.444 1. 00 66.16 0

ATOM 6318 PB GTP X1003 17.765 -18.077 -26.707 1. 00 62.60 P

ATOM 6319 01 B GTP X1003 18.706 -18.370-27.809 1.00 62.97 0

ATOM 6320 02B GTP XI 003 17.694 -16.654-26.335 1. 00 62.12 0

ATOM 6321 03A GTP X1003 16.325 -18.596 -27.146 1. 00 58.58 0

ATOM 6322 PA GTP X1003 15.715 -19.443-28.390 1. 00 52.83 P

ATOM 6323 01 A GTP X1003 14.500 -20.145 -27.886 1. 00 54.29 0

ATOM 6324 02A GTP X1003 16.778 -20.284-28.994 1.00 53.60 .0

ATOM 6325 05 * GTP X1003 15.306 -18.270 -29.375 1. 00 48.83 0

ATOM 6326 C5 * 6TP X1003 16.244-17.615 -30.229 1, .00 42.84 C

ATOM 6327 C4 * GTP X1003 15.662 -16.294 -30, 687 1. 00 39.69 C

ATOM 6328 04 * GTP X1003 14.424 -16.498 -31.453 1., 00 37.59 0

ATOM 6329 C3 * GTP XI 003 15.282-15.354 -29.538 1., 00 39.75 C

ATOM 6330 03 * GTP X1003 15.623 -14.003 -29.865 1. .00 41.84 0

ATOM 6331 C2 * GTP XI 003 13.811-15.612-29.388 1. .00 38.66 C

ATOM 6332 02 * GTP XI 003 13.166 -14.496 -28.772 1. .00 41.02 0

ATOM 6333 C1 * GTP X1003 13.336 -15.815 -30.804 1, .00 37.23 C

ATOM 6334 ΝΘ GTP X1003 2.127 -16.670 -30.986 1., 00 33.80 N

ATOM 6335 C8 GTP XI 003 11.743 -17.740 -30.200 1. .00 30.29 C

ATOM 6336 N7 GTP X1003 10.634 -18.304 -30.584 1. .00 31.85 N

ATOM 6337 C5 GTP X1003 10.241 -17.574 -31.695 1, .00 30.11 C

ATOM 6338 G6 GTP XI 003 9.094 One 17.705 -32.555 1. .00 29.10 C

ATOM 6339 06 GTP X1003 8.167 -18.515-32.505 1, .00 26.04 0

ATOM 6340 N1 GTP X1003 9.080 -16.740 -33.590 1 • 00 28.55 N

ATOM 6341 C2 GTP X1003 10.064 -15.767 -33.759 1 .00 30.00 C

ATOM 6342 N2 GTP X1003 9.890 -14.935 -34.800 1 • 0033.21 N

ATOM 6343 N3 GTP XI 003 11.123-15.637 -32.964 1 .0029.40 N

ATOM 6344 C4 GTP X1003 One 16.565 -31.955 1 .00 31.93 C

ATOM 6345 PG GTP X1004-7.083 -16.406 -60.660 1 ∎ 0080.95 P

ATOM 6346 01 G GTP XI 004 -8.583-16.269 -60.717 1 .00 80.40 0

ATOM 6347 02G 6TP X1004 One 6.495 -16.013 One 59.331 1 .00 80.31 0 ATOM 6348 03G GTP X1004 One 6.450 -15.566 -61.771 1.0080.50 0

ATOM 6349 03B GTP X1004 -6. 742 -17.949 -60.890 1. 00 75.94 0

ATOM 6350 PB GTP X1004-7. 576 -19.225 -60.357 1. 00 71.98 Ρ

ATOM 6351 01 B GTP X1004-8. 981 -19.140 -60.846 1. 00 72.26 0

ATOM 6352 02B GTP X1004 -6. 896 -20.500 -60.490 1. 00 71.83 0

ATOM 6353 03A GTP X10Q4-7. 662 -18.901 -58.802 1.00 68.24 0

ATOM 6354 PA GTP X1004 -6. 638 -18.907 -57. 545 1. 00 62.07 Ρ

ATOM 6355 01 A GTP X1004 -7. 194 -19.850 -56. 532 1. 00 65.19 0

ATOM 6356 02A GTP X1004 -6. 385-17.515 -57. 102 1. 00 62.22 0

ATOM 6357 05 * GTP X1004 -5. 341 -19.524-58. 220 1. 00 57.26 0

ATOM 6358. C5 * GTP X1004 -4. 259-18.718 -58. 700 1. 00 49.41 C

ATOM 6359 • C4 * GTP X1004 -2. 939-19.284 -58. 218 1. 00 45.21 C

ATOM 6360 04 * GTP X1004 -2. 880-19.297 -56. 763 1. 00 41.74. 0

ATOM 6361 C3 * GTP X1004 -2. 661 -20.734 -58. 670 1.00 45.55 C

ATOM 6362 03 * GTP X1004-1 428-20.792 -59. 393 1. 00 46.71 0

ATOM 6363 C2 * GTP X1004-2. 668 -21.527 -57. 377 1. 00 43.22 C

ATOM 6364 02 * GTP X1004-1. 654 -22.538 -57. 413 1. 00 46.97 0

ATOM 6365 C1 * GTP X1004 -2. 338 -20.540 -56. 315 1.00 39.58 C

ATOM 6366 N9 GTP X1004 -2. 925 -20.777 -54. 989 1., 00 33.03 Ν

ATOM 6367 C8 GTP X1004 -4.273-20.761 -54. 664 1.00 30.52 C

ATOM 6368 N7 GTP X1004 -4.510 -21.000 -53. 402 1., 00 28.84 Ν

ATOM 6369 C5 GTP X1004 3-249 -21.188 -52. 848 1., 00 27.96 G

ATOM 6370 C6 GTP X1004 -2.844 -21.482 -51'.505 1. 00 25.82 C

ATOM 6371 06 GTP X1004 -3.537 -21.642-50. 499 1. .00 25.62 0

ATOM 6372 N1 GTP X1004 -1. 437 -21.594 -51, 377 1. .00 27.09 Ν

ATOM 6373 C2 GTP X1004-0. 540 -21.439 -52. 428 1, .00 25.07 C

ATOM 6374 N2 GTP X1004 0. 755 -21.585-52. 114 1., 00 26.71 Ν

ATOM 6375 N3 GTP X1004-0. 907 -21.165 -53. 677 1. .00 25.98 Ν

ATOM 6376 C4 GTP X1004-2. 266 -21.053-53. 824 1, .00 29.50 C

TER 637 GTP X1004

 ATOM 6378 0 HOH 2001 -22. 415 -5.089 3. 466 1, ∎ 0023.41 0

ATOM 6379 0 HOH 2002 -9. 099 1.125 -30. 689 1, ■ 0026.09 0

ATOM 6380 0 HOH 2003 12. 025 -12.481-36. 367 1, .0037.58 0

ATOM 6381 0 HOH 2004 17. 384 -34.811 -55, 776 1 .00 19.28 0

ATOM 6382 0 HOH 2005 6. 286 -45.644-46. 511 1, .0025.81 0

ATOM 6383 0 HOH 2006 22., 365 -38.733 -46., 655 1 .00 22.18 0 ATOM 6384 0 HOH 2007-26.906-9.680 11.952 1.00 21.97

ATOM 6385 0 'HOH 2008 -8.722 0.561 -49.669 1.00 22.89

ATOM 6386 0 HOH 2009 -13.991 -10.603 6.608 1. 00 28.34

ATOM 6387 0 HOH 2010 2.101 -15.234 -23.319 1. 00 22.58

ATOM 6388 0 HOH 2011 8.398 -39.927 -53.111 1.00 42.41

ATOM 6389 0 HOH 2012 -29.897 -24.273 14.909 1. 00 25.43

ATOM 6390 0 HOH 2013-22, 978 -13.130 16.233 1. 00 22.07

ATOM 6391 0 HOH 2014 -22.601 -5.987 0.424 1. 00 26.28

ATOM 6392 0 HOH 2015 16.861 -41.460 -50.147 1. 00 37.45

ATOM 6393 0 HOH 2016 -11.394 -2.342-20.808 1. 00 34.14

ATOM 6394 0 HOH 2017 7.044 -44.335 -43.628 1.00 28.16

ATOM 6395 0 HOH 2018. 11.877 -20.818 -27.904 1. 00 31.88

ATOM 6396 0 HOH 2019 -4.260 -25.335-27.798 1. 00 30.90

ATOM 6397 0 HOH 2020-16.493 -18.193-16.306 1, 00 28.11

ATOM 6398 0 HOH 2021 0.428 4.402-35.358 1., 00 35.82

ATOM 6399 0 Stroke 2022 11.007 -39.157 -47.761 1.00 25.77

ATOM 6400 0 HOH 2023 -6.029-20, 636 -49.548 1. .00 30.75

ATOM 6401 0 HOH 2024 -33.177 -47.407-20.804 1. 00 44.76

ATOM 6402 0 HOH 2025 -40.507 -49.881-14.657 1., 00 42.41

ATOM 6403 0 HOH 2026 -38.801 -23.771 -9.222 1. 00 43.21

ATOM 6404 0 HOH 2027 -17.948 -12.651 16.689 1., 00 33.70

ATOM 6405 0 HOH 2028 17.207-36.487 -33.577 1. .00 22.78

ATOM 6406 0 HOH 2029-5.981 -27.062 One 31'.729 1.00 37.77

ATOM 6407 0 HOH 2030 20.761 -36.164 -38.593 1., 00 20.09

ATOM 6408 0 HOH 2031 -3.853 0.723 -37.104 1., 00 33.47

ATOM 6409 0 HOH 2032 -35.838 -55.755 -8.829 1. .00 46.41

ATOM 6410 0 HOH 2033 -21.563-5.243-25.136 1. .00 28.53

ATOM 6411 0 HOH 2034 -19.971-15.013-39.669 1, .00 34.47

ATOM 6412 0 HOH 2035 -30.478 -4.311 17.647 1, .00 30.10

ATOM 6413 0 HOH 2036 -30.725 -33.109 -21 837 1, .00 31.45

ATOM 64H 0 HOH 2037 0.388 1.053 -17.009 1, .00 40.12

ATOM 6415 0 HOH 2038-7.320 One 2.049 -52.624 1, .00 40.27

ATOM 6416 0 HOH 2039 9.499 -18.341 -37.428 1 .00 24.05

ATOM 6417 0 HOH 2040 -23.376 3.195 -40.803 1. .00 46.39

ATOM 6418 0 HOH 2041 -0.861 -17.962 -10.625 1, .00 36.43

ATOM 6419 0 HOH 2042 -50.633 -40.325 -19.009 1. .00 43.48 ATOM 6420 0 HOH 2043-50.850 -40.207 -10.760 1.00 54.95 0

ATOM 6421 0 HOH 2044 -39.879 -18.532 -3.462 1.00 40.50 0

ATOM 6422 0 HOH 2045 10.547 -21.460 -31. 041 1.00 34.33 0

ATOM 6423 0 HOH 2046 -10.721 -0.352 -33. 111 1. 00 44.94 0

ATOM 6424 0 HOH 2047 -9.262 -16.837 -9. 725 1. 00 24.71 0

ATOM 6425 0 HOH 2048 -19.763 -4.209 12. 169 1. 00 40.95 0

ATOM 6426 0 HOH 2049 -34.401 -30.322 5. 952 1. 00 27.14 0

ATOM 6427 0 HOH 2050-33.353 1.964 One 4.903 1.00 29.78 0

ATOM 6428 0 HOH 2051 -36.770 -22.613-11. 076 1. 00 38.68 0

ATOM 6429 0 HOH 2052 -18.664 -10.166 -47. 135 1. 00 33.57 0

ATOM 6430 0 HOH 2053 4.150 -20.378-49. 077 1. 00 27.87 Q

ATOM 6431 0 HOH 2054 -27.841 -30 789 -6. 750 1. 00 35.33 0

ATOM 6432 0 HOH 2055 -37.023 -19.514 23. 061 1.00 34.50. 0

ATOM 6433 0 HOH 2056 -13.132 -10.530 -51. 955 1.00 33.46 0

ATOM 6434 0 HOH 2057 -11.087 -3.636 -18. 280 1. 00 22.19 0

ATOM 6435 0 HOH 2058 -11.615 -28.253 -17. 753 1. 00 31.90 0

ATOM 6436 0 HOH 2059 1.924 3.921 -20. 172 1.00 40.22 0

ATOM 6437 0 HOH 2060 -15.764 -28.456-8. 579 1.00 26.26 0

ATOM 6438 0 HOH 2061 -26.302 -8.737 -14. 922 1., 00 32.29 0

ATOM 6439 0 HOH 2062 10.763 -33.666 -22.121 1., 00 40.69 0

ATOM 6440 0 HOH 2063 -13.155 -34.989 -17. 191 1. 00 44.86 0

ATOM 6441 0 HOH 2064 -7.384 -44.359 -38. 675 1. .00 34.27 0

ATOM 6442 0 HOH 2065 -32.151 -13.974 14.613 1. 00 32.33 0

ATOM 6443 Q HOH 2066 -42.645 -23.113 -2. 329 1., 00 33.76 0

ATOM 6444 0 HOH 2067 -9.583 -13.717 -7. 742 1. .00 21.74 0

ATOM 6445 0 HOH 2068 13.726-29.369 -62. 943 1. .00 43.34 0

ATOM 6446 0 HOH 2069

-20.218 -39. 771 1. .00 37.90 0

ATOM 6447 0 HOH 2070 11.237 -41.595-58. 557 1. .00 41.92 0

ATOM 6448 0 HOH 2071 -0.683-52.985 -42. 114 1, .00 38.06 0

ATO 6450 0 HOH 2072-9.548 -16.357-6. 927 1, .00 26.83 0

ATOM 6451 0 HOH 2073-33.068 -57.276 0. 000 1. .00 37.44 0

ATOM 6452 0 HOH 2074 -46.368 -30.325 -15. 303 1, .00 39.44 0

ATOM 6453 0 HOH 2075 -25.973 -30.762-8. 517 1 .00 32.55 0

ATOM 6454 0 HOH 2076 -44.313 -31.397 -16. 806 1, .00 42.21 0

ATOM 6455 0 HOH 2077 -38.892 -26.976-13. 957 1 • 00 42.66 0

ATOM 6456 0 HOH 2078 -28.159 -51.862 -22. 838 1 .00 48.68 0 80S

 0 98 ε 00. 'S 828 '98-66 ηνζ ■ 0 86fr9 WOIV

0 80 SS 00 • L ^ Z 'τ 683 ■ LZ-9LL • 92-■ 0 Z6V9 隨 V

0 l £ '6S 00' I 096 • 01 OH • ιε- ΪΖΖ 9ε- ζηζ HOH 0 16W WOIV

0 8 '6ε 00 908 908 nOLZ 9οε • Ofr-z HOH 0 06t-9 WOIV

0 9 9ε 00 L 9Z.6 L OL 'ΖΪ- S99 η-0LI-3 HOH 0 68fr9 WOIV

0 SO -6S 00 'L9 9Z8 L0 £ 60 HOH 0 Z.8W WOIV

0 90 'If 00 l 9LP' V 06 • 6- 6S0 • Ofr-8013 HOH 0 98W 舰 V

0 00 'L OZ' L 0 ^ 9 ■ 8- 908 ■ 8ε-Z.0L2 HOH 0 98fr9 WOIV

0 10 f 00 Ί 989 ■ 8 B 80 ■-916 9013 HOH 0 WOIV

0 20 8ε 00 SISI -ει- 062 '6ε- S0L3 HOH 0 WOIV

0 16 '2f 00' I ε ι 6 199 '"-69ε οιζ HOH 0 38 ^ 9 WOIV

0 00 161. ■ L- HOH 0 i WOIV

0 8 ^ ε 00 Ί L6 .6 820Ll- ^ 88 'ss 2013 HOH 0 WOIV

0 6S 'Z 00 • I SZ6' 8 ZLV 6L-90f ζ.-1012 HOH 0 6LP9 WOIV

0 00 ■ i ILL ζ 09Z. ■ η- iLQ .6ε- 0013 HOH 0 m INOiV

0 68 '00 ■ i 8fr8 εζ 68 ■ 6- 168 ■ ss-6602 HOH 0 WOIV

0 00 Ί 0½ ■ 61 εεο '3L- οιε 8603 HOH 0 9L 9 WOIV

0 ιε'6ΐ 00, 1 U '81 0 9 9 8-96 61- L60Z HOH 0 WOIV

0 09 'Z.9 00' L 0.8 .9 ζιι Ό2- 6 1Sfr- 9603 HOH 0 WOIV

0 LZ Of 00 -L 20f f-Z9L '62 -686 ■ ε 3602 ■ 0 WOIV

0 oi '8 00 Ί Z.00 Ζ- Ρ80 ΖΖ-5117 ρζ- ^ 603 HOH 0 zm WOIV

0 n '9 00 -L 308 618 Ό3- 909 S60Z ■ 0 WOIV

0 6 'O ε 00 ■ i SLS 90 ■ 6S- 969 01 2603 HOH 0 om WOIV

0 00 Ί 990 "92- OSS ZS- ΖΖΖ 9ε-1603 HOH 0 69 WOIV

0 99 "9f 00 ■ i 9L9 '8- L ■ 0S- ZL5' εε- 0602 HOH 0 89 WOIV

0 6S- .9 00 dZL '93-'62-οει 8ε-6803 HOH 0 Z.9 ^ 9 WOIV

0 68-6Z 00 I 90S ΌΙ 66 • L-Q9Z 8802 HOH 0 99W WOIV

0 00 • L £ 0Z '81-'ΐε- ■ 5ε- LSOZ HOH 0 99W WOIV

0 £ 9 ε 00 'L 699 ■ 9-L2d • 9 o ■ ε-980Ζ HOH 0 WOIV

0 00 ■ i '-S99 ■ SS-Z l' ΐε-9802 HOH 0 WOIV

0 90'8S 00 ■ I L61 6 9 ■ I-L99 '0 V80Z HOH 0 Z9 9 WOIV

0 Z.6 Of 00 -L 9 '91- SIL' Π- O L '6S- ΌΒΟΖ HOH 0 L9W WOIV

0 z.9 'ττ 00 ■ L m ■ ιε- 966 ΟΖ- QZL ■ L 3803 ■ 0 09fr9 INOIV

0 00 Ί ZLZ OZ- 600 '93-osz εε- 1802 ■ 0 69fr9 WOiV

0 £ 6 ZZ 00 'I zoz9ε-ειο -9ε- 9L17 ιζ 0802 HOH 0 SQV9 WOIV

0 30 'S9 00 i09' SIτη '9ε-6L0Z HOH 0 LS 9 WOIV

^ LlLO / LOOZdT / ld 0 "0 / 600Z OAV 602

 0 frO ε 00 LL6 zz- 098 ε t-88 ■ 6 09 HOH 0 9 € 99 1N01V

0 9 00 ■ i S98-z-m ■ 0 982 ■ 6 HOH 0 WOIV

0 6, 8ε 00 'I £ LV ■ 61- Z9L ■ I 836 1 8 ^ 12 HOH 0 εε39 WO 丄 V

0 1-6 'βε 00 I ILLU- 16S Z-' SI UvYl HOH 0 3SS9 1N01V

0 96 ■ 00 Ί fr86 ■ 83- • i-S9S ■ oi 园 0 1899

0 06 ss 00 l L99 '63 -966 ■ L99 ■ 9 SW HOH 0 099 WOIV

0 LL 00 L 286 W-691 • 0-980 SL mz HOH 0 62S9 W01V

0 Z.6 00 Ί. 1708 • 13- in ■ 91-868 'zm HOH 0 8399 IN01V

0 81 ■ 9ε 00 Ί 286 ■ οε-εε 'τι- ■ 9-HOH 0 LZS9 WO 丄 V

0 00 l US ■ ι- 19Z OS-L19 ■ 9ε-HOH 0 93S9 W01V

0 ZL 00 L 06 τι- Z06 -IS- L8ε- HOH 0 9Z99 W01V

0 εε ½½ 00, 1 908 ZLL os- S90 'ε-6ε ΐϋ HOH 0 ½99 W01V

0 L £ ■ οε 00 I L9V ■ £ Z- Sl ■ p- £ 08 ■ 8-HOH 0 £ ZQ9 W01V

0 28 ■ 017 00 Ί; ιζ- • ss-8 LZIZ HOH 0 ZZ59 1/10 丄 V

0 's 00 L 01- ■ Sfr- L 2 ■ Ζ.9- 9ZIZ HOH 0 L299 iNOlV

0 96 00 Ί 61L TL-9 ■ 6V- SSL ■ is- Q £ IZ HOH 0 0399 W01V

0 S6 00 • I L6 ■ 6-οοε ■ 8 Z.6S ■ L9- mz HOH 0 61S9 W01V

0 89 00 l 9Lf ■ 8-981 ■ L9- 121 '29-εειζ HOH 0 81S9 woiv

0 OS ■ is 00 l 926 82-8Sfr ■ Sfr-■ Ofr- Z £ IZ HOH 0 91-99 W01V

0 S • 2 00, 1 Z98 .61 ·-Z.08 L-εοο Ό3- ιειζ; HOH 0 WOIV

0 ζε • 09 00 .1 LIO 'Ll- 999 n-99Ζ "8S- osiz HOH 0 S199 WOIV

0 εε 00 l ZW91-266 'One zzs '99-\ z HOH 0 3L99 INOlV

0 OL 'SS 00 L n ιζ- ZP- 869 99- 8212 HOH 0 U99 WO 丄 V

0 Z "If 00 LSI ■ 8L-. 881 ■ 8-8SS 9- LZYl HOH 0 01S9 WOIV

0 Z ■ 00 ■ i 96Z. ■ Ζ-6 6 ■ OS-90 L • 6S- 92 LZ HOH 0 '80S9 WOIV

0 fr9 ~ n 00 -L 06ε 66- 66 n-OLO 8S- HOH 0 L0 9 WOIV

0 10 ■ 6 00 'I SZL '61-U9 ■ 6 L £ P ■ SS- niz HOH 0 90S9 WOIV

0 zz * 83 00 ■ I Z9Q 'ε- 9 £ 9 9ε- 9 9 8fr- £ ZIZ HOH 0 90S9 WOIV

0 2L '9 00' I IZ '3- ■ 6ε-6ZZ 09- ZUZ HOH 0 fr099 INOlV

0 W '63 00 'I 9Z0 .9 LOS τ-OZ ^ ½- iZVZ HOH 0 2099 WOIV

0 Z.S '6S 00 1 091 .9 8817' 6ε-18 'frS- ΟΖΪΖ HOH 0 66P9 WOIV

0 20 ■ n 00, 1 98 ■ 8 969 Ί9- ΖΪΖ '29 -6112 HOH 0 WOIV

0 n 00 ■ i 991r ■ gi 9L9 'βε-609 ■ εε-8113 HOH 0 L WOIV

0 Li 'Us 00 Ί IZ £ ■ Zi 9 S' 9ε- m • ιε- LUZ HOH 0 96fr9 WOIV

0 Z9 • 017 00 'L £ Z0 ■ 91 IZ9 '83-zz- 9U3 HOH 0 S6fr9 WOiV

0 ■ L9 00 ■ i SZL ■ Li IS9 ■ εε- ■ 8ε— 9U2 HOH 0 ^ 6 ^ 9 WOIV miL0 / L00Zdr / L3d 0 S0 / 600 OAV 0X2

 0 9Z 00 ι 066 ■ 8ϋ-6SL ■ ζ 98 ■ 0 S9 W01V

0 τζ ■ 00 ι 098 ■ 6 L £ L 'L- POP ■ pz- 98 L2 HOH 0 S £ 99 W01V

0 S8 00 'ι 031 • is- εεο' Ζ εει '91-mz HOH 0 H59 W01V

0 ½ · 9 00 ι £ 96 ■ _L — εο6 Ό 6εο ζ- ■ 0 3199 Hidden V

0 PS 00 Ί 338 ■ ss- ■ SL SSP ■ 6 卜 2812 HOH 0 L .99 WO 丄 V

0 96 ■ ε 00 • L 890 8L8 • 0 069 ■ s- L8L3 HOH 0 0 £ S9 W01V

0 60 '99 00 ∎ L LS9 ■ SS- L19 • ε 'Z- 0813 HOH 0 69S9 賺 V

0 L0 'Ζ ^ 00 ι 029 ■ 89- Z.fr6 • 8-6LIZ HOH 0 8999 1N0IV

0 S9 • 99 00 • L I L ■ S9- LZ .8ε-926 'τ— iZ HOH 0 L959 WOiV

0 w 09 00 Ί 9SI ■ P9- 699 ■ Sfr-no ■ 01-LLiZ HOH 0 99S9 W01V

0 69 ■ 6ε 00 Ί ■ 69- 90Ζ. ■ 6ε-910 ■ S- 911 HOH 0 S9S9 W01V

0 9 S 00 Ί 9- L19 εε S z HOH 0 W99 W01V

0 69 ■ ss 00 ■ ι 886 ■ L9- 91 ■ L £-£ 89 ■ 9 z HOH 0 S9S9 W01V

0 IL ZZ 00 Ί LZ • | 9- 96V 'ε LS .εηζ HOH 0 29S9 W01V

0 LL ■ £ 9 00 ■ L 639 ■ 09-L5 ■ 6ε- W9 ■ p ZLiZ HOH 0 19S9 W01V

0 ZS 62 00 L 911 HS- ZI ■ ιε- 016 ■ 8- iLiZ HOH 0 0999 WO 丄 V

0 61 '6 00, 1 86S 09- 8 ιε- on' Z.L- OLIZ HOH 0 6SS9 WO 丄 V

0 S8 ■ ½ 00 L 363 ■ 8fr- S68 ■ οε-■ 81- 69 HOH 0 Z.999 I / 101V

0 SZ. • Sfr 00 L VLO '-V6Z ■ 62-16Z. ■ ει-89 L3 HOH 0 9999 I / J01V

0 Zl ■ οε 00 ■ ι ILL -6ε- 0Ρ9 .9-906 -zv- z HOH 0 SSS9 匪 V

0 2 OS 00 L 688 L90 .εε-99S 'SL- 9912 HOH 0 P559 WO 丄 V

0 SS "99 00 ■ L 263-09 N ■ 81- ■ 8L- S9L2 HOH 0 89S9 INOIV

0 81 ■ ζ.ε 00 ■ 1 Z.6fr ■ 8ε- OLl ■ 02- 988 τι- mz HOH 0 3S99 WO 丄 V

0 "οε 9ε 00 ■ 1 866 • εε-■ 9Ζ- 08fr • L- HOH 0 LS99 W01V

0 38 .8 00 ■ L on ■ ζε- ειι ■ \ ζ- LOZ τι- 2912 HOH 0 '0SS9 W01V

0 frS Έ9 00 Ί Z.69 'οε— '92-9 ^ L L9L3 HOH 0 6½9 INOIV

0 fO 6ε 00 ■ ι 031. ■ ε 969 ■ L- 086 ■ 8 0912 HOH 0 8 9 W01V

0 0 -η 00 • 1 PL9 ■ 6ε-Llf ■ 8-8LS ■ ιι 69 HOH 0 WOIV

0 ZZ -η 00 Ί 098 τ-ΖΖΟ8-9L9 'τ 89 L3 HOH 0 91799 INOIV

0 9ε ζε 00 U 99f ζ-9Ζ.9L- ε½ -u L51Z HOH 0 W01V

0 26 ■ 00 "L S69" ΐε- IPO L- S18 • LI 9912 HOH 0 ε½9 W01V

0 19 'η 00 Ί Z.9C ■ 62- 591 • 0 LOO XL 551Z HOH 0 ZP99 WO 丄 V

0 Sfr 00 • ι LLZ ■ οε- εβε 'L 12L ■ OL HOH 0 6S99 INOIV

0 Zl 8fr 00 Ί 68Z 88S Ί 109 'ίΛ £ QIZ HOH 0 8899 W01V

0 00 Η LBV τζ- 698 986Sn 3 13 HOH 0 LS99 INOIV

0 '9ε 00 "L ILO SL6 986 zi 151Z HOH 0 9899 INOIV

SSLlLO / LOOZdT / lDd 0CZ.S0 / 600Z: O / A ATOM 6578 0 HOH 2187 -3. 558-1. 458 -33. 724 1. 00 30. 08 0

ATOM 6579 0 HOH 2188 -17. 147 -0. 018 -23. 876 1. 00 31. 04 0

ATOM 6580 0 HOH 2189-0. 091-1. 628-24. 732 1. 00 25. 92 0

ATOM 6581 0 HOH 2190-1. 683-45. 246 -31. 517 1. 00 31. 32 0

ATOM 6582 0 HOH 2191 -11. 048 1 39. 067 -40. 290 1. 00 52. 35 0

ATOM 6583 0 HOH 2192 -9. 866 -37. 685 -37. 616 1. 00 48. 99 0

ATOM 6584 0 HOH 2193 8. 701 -24. 555 -60. 680 1. 00 33. 22 0

ATOM 6585 0 HOH 2194 8. 070 -27. 260 -62. 937 1. 00 54. 29 0

ATOM 6586 0 HOH 2195 9. 684 -25. 813 -49. 046 1. 00 27. 89 0

ATOM 6587 0 HOH 2196 7. 338-42. 698 -49. 180 1. 00 42. 11 0

ATOM 6588 0 HOH 2197 7. 421 -39. 115 -48. 515 1 .00 32. 16 0

ATOM 6589 .0 HOH 2198 12. 363 -39. 759-52. 306 1. 00 40. 58 0

ATOM 6590 0 HOH 2199 14. 172 -18. 967 -32. 279 1. 00 29. 52 0

ATOM 6591 0 HOH 2200 17. 621 -52. 034 -48. 263 1. 00 52. 42 0

ATOM 6592 0 HOH 2201 17. 328-52. 623 -52. 396 1. 00 43. 11 0

ATOM 6593 0 HOH 2202 11. 331 -36. 335 -27. 186 1. 00 30. 15 0

ATOM 6594 0 HOH 2203 5. 286-54. 317 -34. 606 1. 00 47. 25 0

ATOM 6595 0 HOH 2204 2. 126 -54. 136 -40. 041 1. 00 49. 55 0

ATOM 6596 0 HOH 2205 2. 435 -57. 803 -41. 568 1. 00 45. 79 0

ATOM 6597 0 HOH 2206 9. 223 -56. 594 -33. 924 1. 00 47. 27 0

ATOM 6598 0 HOH 2207 5. 975 -48. 277-26. 841 1. 00 43. 56 0

ATOM 6599 0 HOH 2208 4. 624-52. 768 -29. 809 1. 00 51. 86 0

ATOM 6600 0 HOH 2209 9. 465 -49. 607 -29. 561 1. 00 35. 63 0

ATOM 6601 0 HOH 2210 6. 887 -53. 261-32. 388 1. 00 55. 07 0

ATOM 6602 0 HOH 2211 -5. 176-33. 136 -32. 141 1. 00 42. 98 0

ATOM 6603 0 HOH 2212 2. 438 -43. 205 -52. 627 1. 00 36. 21 0

ATOM 6604 0 HOH 2213 6. 404 -47. 027 -48. 689 1. 00 35. 06 0

ATOM 6605 0 HOH 2214 5. 638 -46. 135 -54. 477 1. 00 48. 74 0

ATOM 6606 0 HOH 2215 -38. 387-32. 878 12. 600 1. 00 54. 38 0

ATOM 6607 0 HOH 2216 -19. 252 -27. 968 -22. 494 1. 00 56. 89 0

ATOM 6608 0 HOH 2217 -18. 191 -35. 734 -23. 608 1. 00 48. 84 0

ATOM 6609 0 HOH 2218-20. 898-34. 170 -23. 183 1. 00 40. 08 0

ATOM 6610 0 HOH 2219 -15. 291 -37. 536 -22. 809 1. 00 50. 16 0

ATOM 6611 0 HOH 2220 -19. 035 -36. 931 -18. 427 1. 00 37. 01 0

ATOM 6612 0 HOH 2221-18. 244-35. 462 -20. 844 1., 00 47. 01 0

ATOM 6613 0 HOH 2222 -14. 136 1 28.F 04 -15. 680 1. 00 39. 54 0 ATOM 6614 0 HOH 2223 -16. 394-39. 648 -15. 686 1. 00 33. 86 0

ATOM 6616 0 HOH 2224 23. 123 -22. 139-20. 938 1. 00 57. 14 0

ATOM 6617 0 HOH 2225 23. 1 18 -24. 761 -23. 218 1. 00 44. 52 0

ATOM 6618 0 HOH 2226 21. 390 -24. 814 1 25. 405 1. 00 44, 20 0

ATOM 6619 0 HOH 2227 24. 370 -23. 266 -25. 713 1. 00 46. 09 0

ATOM 6620 0 HOH 2228 22. 368 -16. 520-27. 222 1. 00 45. 15 0

ATOM 6621 0 HOH 2229 21. 330 -19. 476 -24. 417 1. 00 48. 42 0

ATOM 6622 0 HOH 2230-9. 873 -18. 406 -56. 327 1. 00 52. 00 0

ATOM 6623 0 HOH 2231-5. 746-18. 516 -51. 895 1. 00 36. 31 0

ATOM 6624 0 HOH 2232 -8. 515 -20. 040-53. 975 1. 00 40. 69 0

ATOM 6625 0 HOH 2233 1 24. 565 -13. 482-20. 515 1. 00 .45. 34 0

ATOM 6626. 0 HOH 2234 -21. 600 -13. 820 -22. 613 1. 00 51. 64 0

ATOM 6627 0 HOH 2235-21. 537-17. 243 -24. 900 1. 00 56. 58 0

ATOM 6628 0 HOH 2236-28. 798 -10. 572 -13. 490 1. 00 46. 84 0

ATOM 6629 0 HOH 2237 -22. 094 -34. 379-33. 490 1. 00 47. 96 0

ATOM 6630 0 HOH 2238-22. 365 -31. 848-31. 641 1. 00 59. 39 0

ATOM 6631 0 HOH 2239 -18. 054 -32. 129 -33. 051 1. 00 40. 95 0

ATOM 6632 0 HOH 2240-25. 635 -50. 620 -24. 685 1., 00 47. 72 0

ATOM 6634 0 HOH 2241 -28. 376 -46. 332 -33. 183 1., 00 57. 05 0

ATOM 6635 0 HOH 2242 -28. 244-38. 605 -34. 586 1. 00 58. 83 0

ATOM 6636 0 HOH 2243 -21. 192 -31. 566-8. 560 1. 00 27. 50 0

ATOM 6637 0 HOH 2244-19. 636 -31. 967 -6. 440 1.. 00 44. 73 0

ATOM 6638 0 HOH 2245 -39. 644 -12. 642 -3. 789 1.. 00 39. 37 0

ATOM 6639 0 HOH 2246-43. 149-17. 231-3. 262 1. 00 49. 89 0

ATOM 6640 0 HOH 2247 -23. 950 -21. 133 23. 413 1. 00 37. 55 0

ATOM 6641 0 HOH 2248 -25. 239-38. 424 -34. 842 1., 00 43. 34 0

ATOM 6642 0 HOH 2249 -9. 963 -14. 355 -10. 499 1. 00 39. 52 0

ATOM 6643 0 HOH 2250 -16. 404-12. 901 -12. 806 1. 00 33. 07 0

ATOM 6644 0 HOH 2251 -23. 077 -3. 023 8. 134 1. 00 51. 73 0

ATOM 6645 0 HOH 2252 -28. 254 2. 328 10. 057 1.. 00 49. 21 0

ATOM 6646 0 HOH 2253 -21. 538 -7. 952 3. 981 1., 00 30. 40 0

ATOM 6647 0 HOH 2254 -26. 691 3. 226 —4. 899 1., 00 37. 29 0

ATOM 6648 0 HOH 2255 -17. 341-0. 652 -13. 077 1.. 00 34. 68 0

ATOM 6649 0 HOH 2256-35. 561 -2. 386 -0. 320 1.. 00 44. 66 0

ATOM 6650 0 HOH 2257 -33. 080 3. 375 1. 453 1., 00 37. 54 0

ATOM 6651 0 HOH 2258 -35. 615 -1. 044 7. 192 1., 00 44. 15 0 0 εο 8fr 00 L 889 ζε- 98fr "ίΐ 89 L-6 HOH 0 Z.699 W01V

0 88 00 L 889 οε- εεβ 81 · Ι .Ο ΌΙ- £ 623 HOH 0 9699 W01V

0 96 00 ■ i 299 ■ ss-OIL 'ΖΙ SOfr OL- 2632 HOH 0 S699 W01V

0 11, 8ε 00 l 009 • 92- οε 6 6 9 16 HOH 0 W99 W01V

0 S6 '6f 00 L fr08 ε-L08 Ί- 28S' OL OQZZ HOH 0 S699 W01V

0 ει ■ Ifr 00 L L09 03-P80 S9L OS- 68 HOH 0 2699 W01V

0 28 • 6fr 00 ■ i 309 ■ S3- Z9P ε-80S "8-8823 HOH 0 0699 W01V

0 89 '9fr 00 l εΐ9 6-U8 9ε-ZOS "99- 8 HOH 0 6899 IN01V

0 LB HQ 00-L 808 'τ εο9εε- OIZ -6fr- 98 HOH 0 8899 W01V

0 LL S 00-L SS8L L- 669 -LV- S8s ε-9822 HOH 0 899 WO 丄 V

0 80 '0 00' I 992 '91 669 't ^-HOH. 0 9899 1N01V

0 6 £ LS 00 ■ L 698 ■ 9 S99 ■ 9S-£ si τζ- ZQZZ HOH 0 W99 W01V

0 Z.6 Us 00 'I 69 69 9 90V 396 ε- 28 HOH 0 8899 W01V

0 O .9 00 Ί 06 6- ι ιε 'ss— 291' Ζξ- 13ZZ HOH 0 3899 W01V

0 8, SS 00 L ζ ιζ • 8 βεε η-εε .ofr-08 HOH 0 1899 隱 V

0 Ofr 89 00i 090 C99 896Lfr-6LZZ HOH 0 0899 IN01V

0 9fr ■ ε 00 ■ i 688 τι 860 "ΐε- 9L0 .6S- LZZ HOH 0 6 99 WOIV

0 OV ■ LS 00 ■ i 9 L 'S3 989 ■ SL- sss -οε- LLZZ HOH 0 "99 W01V

0 98 Sfr 00 LQL OL 03ε Ζ-999 '-9LZZ HOH 0 9Z.99 W01V

0 9S £ f 00 l L50 81 LZZ '61-0L8 'Sfr- SLZZ HOH 0 SZ.99 W01V

0 E9 ■ Z.9 00 ■ L OSL Ό3- LZL τι-6L £ εε- UZZ HOH 0 3Z.99 W01V

0 9 ■ L 00 ■ I LZL 'iZ-6L9' 6L-9 8'ζ, ε-2L HOH 0 99 W01V

0 9 Sfr 00 81- C9 L ε- OZL '-ZLZZ HOH 0 8999 W01V

0 OZ-LS 00 ■ i .9SL Z.S -6l- VLZZ HOH 0 O 999 WO 丄 V

0 8L '8 00 ■ i Li ■ 8 08fr ■ f- 19L -Ll- OLZZ HOH 0 9999 W01V

0 69 00 ∎i 8LS • τ S99 ∎ζ-εοο .8 卜 69Z3 0 W99 IN01V

0 LB ■ S 00 ■ L 8fr9 "8 Z5L Ί 6S0 n- 8932 ■ 0 S999 WO 丄 V

0 8 ■ Z9 00 .1 LH .8 ½0 ■ 9-LOZ '£ Ζ- L9ZZ HOH 0 3999 W01V

0 '9 00 ■ L ZZ9-L- εεοOL- zzv ov- 99ZZ HOH 0 1999 W01V

0 96 εε 00 'L 8fr8 -9L- βεε Ί- 82 S9 HOH 0 0999 W01V

0 ZZ 00 "I 828 • Sl- ζιε 'ο- S68 '92-V9ZZ HOH 0 6999 WO 丄 V

0 £ 1 ZZ 00 'I L9S Ό 036 Z 9 9ε- S9ZZ HOH 0 8999 W01V

0 91 ■ 6ε 00 808 808 ■ 8-ISZ. One ζ ιν .οε- Z9ZZ HOH 0 iL999 IN01V

0 93 ■ LS 00 ■ i 029 'L sss "3ε-1923 HOH 0 9999 W01V

0 93 'SS 00 Ί ZLlL-038 '63-09 HOH 0 S99 WO 丄 V

0 OS Z 00 Ί 9WSL SLοονο 'Ζ-6 ZZ HOH 0 3999 W01V

^ LlL0 / L00Zd £ / 13d 0 S0 / 600Z OAV ATOM 6698 0 HOH 2295 -11. 122 15. 464-31. 635 1. 00 57. 40 0

ATOM 6699 0 HOH 2296 -6. 515 21. 981 -34. 186 1. 00 50. 47 0

ATOM 6700 0 HOH 2297-8. 396 -2. 090-33. 796 1. 00 29. 87 0

ATOM 6701 0 HOH 2298 7. 661 -51. 941-44. 676 1. 00 50. 70 0

ATOM 6703 0 HOH 2299-30. 196 -32. 349 -34. 747 1., 00 47. 78 0

ATOM 6704 0 HOH 2300 -6. 949 8. 081 9. 354 1. 00 40. 67 0

ATOM 6705 0 HOH 2301-18. 557 -10. 726 -23. 308 1. 00 40. 37 0

ATOM 6706 0 HOH 2302 -19. 524 -11. 404-20. 345 1. 00 44. 16 0

ATOM 6708 0 HOH 2303 -18. 852 -16. 212-27. 743 1. 00 40. 18 0

ATOM 6709 0 HOH 2304 -19. 252 -16. 423 -23. 924 1. 00 48. 55 0

ATOM 6710 0 HOH 2305 -21. 544 -11. 261 4. 794 1.. 00 27. 36 0

ATOM 6711. 0 HOH 2306 -20. 028 0. 232 -12. 075 1., 00 45. 17 0

ATOM 6712 0 HOH 2307 -21. 571 2. 728 -6. 134 1. 00 47. 84 ― 0

ATOM 6713 0 HOH 2308-22. 942 2. 359-10. 535 1. 00 52. 59 0

ATOM 6714 0 HOH 2309 -27. 389 3. 551 -11. 961 1., 00 59. 80 0

ATOM 6715 0 HOH 2310 -26. 992 5. 366 -14. 883 1., 00 39. 64 0

ATOM 6716 0 HOH 2311 -16. 103 -3. 965 -20. 148 1. 00 57. 89 0

ATOM 6717 0 HOH 2312 -20. 903 -6. 427 -22. 230 1., 00 42. 20 0

ATOM 6719 0 HOH 2313 -13. 734 0. 908 -9. 623 1., 00 54. 57 0

ATOM 6720 0 HOH 2314 -8. 513 -5. 999 -8. 232 1. 00 50. 35 0

ATOM 6721 0 HOH 2315 -9. 941 -7. 450 -16. 220 1. 00 38. 78 0

ATOM 6722 0 HOH 2316 -3. 578 -10. 400-9. 914 1. 00 47. 52 0

ATOM 6723 0 HOH 2317-21. 301 -50. 593 -16. 386 1., 00 53. 71 0

ATOM 6724 0 HOH 2318 -25. 499 -44. 603 One 1. 138 1. 00 55. 18 0

 END,

 [0 0 9 2]

Example 4

a) Creation of complex model

Using the crystal structure analysis results obtained in Example 3, CMP was fitted to the temporary binding site of Escherichia coli UPRTase on computer graphics to construct a complex model showing the binding mode. Using docking program Glide on Maestro (Schrodinger), IMP is docked to Escherichia coli UPRTase, and UMP conformation with known interaction mode is selected. MMGBSA (Molecular Mechanics-Generalized Born Surface Area) was calculated and a binding mode model of Eschericnia coli UPRTase and UMP was constructed. Next, replace UMP with CMP and perform 丽 GBSA calculation for amino acid residues within 8 A of CMP. And a composite model of CMP was created. This model was used for the design of subsequent mutant enzymes.

We carefully observed this complex model and designed mutations that increase the affinity for cytosine. From this observation, it is effective to first replace the 205-position glycine, which has an α carbon atom at a position 7.3A from the nitrogen atom of the amino group of cytosine, with an amino acid that increases the affinity with the amino group. It was considered. The carbon atom at the 5th position of the pyrimidine ring of cytosine) is 3.8 carbon atoms from the ε carbon atom 1 4 1-position methionine, the pyrimidine ring of cytosine 4.3 carbon atoms from the 6th carbon atom position] It was considered effective to replace the 14 3 position arayun with an atom) with an amino acid that increases the affinity for the pyrimidine ring.

 Carefully observe the positions of the above three amino acid residues, and select aspartic acid (G205D), leucine (M141.L), and 'parisi (A143V) as the amino acids after substitution. A mutant Escherichia coli UPRTase-CMP complex model with these three amino acid substitutions was constructed by performing MMGBSA calculations on amino acid residues within 8 A of CMP (Fig. 2).

 [0 0 9 3]

 In the binding mode model of CMP and mutant UPRTase, the hydrogen atom of the 4-position amino acid, the oxygen atom of the backbone carbonyl group of Gly207, and the amide hydrogen atom of the 3-position nitrogen and Ala209 backbone, the 2-position carbonyl oxygen There is a hydrogen bond between the amide hydrogen atom of Gly210.

Asp205 and cytosine, which are the key mutations in cytosine recognition, are bound by an electrostatic interaction between the hydrogen atom of the 4-position amino group and the oxygen atom of the side chain carboxylic acid of Asp. Therefore, Asp205 can interact with glutamic acid with the same negative charge.

The pyrimidine ring of CMP is bonded to the methyl group of Leul41 by CH / π interaction. In order to bond CMP with CH / π interaction, Lele41 may be Ile or Val having a methyl group. Furthermore, in the vicinity of hydrogen at the 5th and 6th positions of CMP, it is thought that it is bound to Vall43 by hydrophobic interaction. Leu and lie, which are originally amino acids with fewer voids and higher bulk than Val, may cause steric hindrance.

 [0 0 9 4]

From the structural analysis of the complex between CMP and wild-type UPRTase, Tyr201 forms a hydrogen bond with Asp208, thereby sandwiching the pyrimidine ring with MetMl to form part of the cytosine binding site. This site could be Lys or Arg, which can interact with Asp208.

 [0 0 9 5]

From the structural analysis of other types of UPRTases, Argll2, which is known to interact with the phosphate group of PRPP, is B5 (5th beta-strand) and B6 (6th beta-strand). Is in a flexible loop (EMBO J. (1 ⁹ 98) 17: 3219-3232). Limiting the flexibility of the flexible loop may increase the affinity between Ar _g 112 and the substrate. Specifically, if Prol21 on B6 is replaced with a hydrophobic amino acid such as Leu, Ile, or Val, which is bulkier than Pro, hydrophobic bonds with Leul54 and Alal50 on nearby A5 (5th α-helix) It is expected to strengthen. In addition, if Prol21 is substituted with an aromatic amino acid such as Phe, Tyr, Tr _P or His, the affinity between B6 and A5 is expected to increase due to the CH / π interaction.

 [0 0 9 6]

b) Creation of tetramer model

 Based on the structural information of the X-ray crystal structure analysis, a tetramer model including the boundary between each monomer was created with graphics using Insight97 (Fig. 3). The structure on the graphics was closely observed, and mutations that increase the I-compatibility between monomers were designed. Arg36 located in the tetramer interface (there is a constituent atom within 5 A from any atom of the adjacent UPRT ase monomer) is distant from Arg36 from the other dimer. It seems that there is an electrostatic repulsion. Therefore, if this amino acid is substituted with an amino acid having no charge and no steric hindrance, such as Cys, 'Ser, Thr, Met, Leu, Ile, Val, etc., such repulsion is eliminated. Stabilization of the tetramer structure can be expected. Similarly, it is considered that electrostatic repulsion occurs in Asp94 for the same reason, and these are replaced by Gly, Ser, Thr, Ala, Leu, Val, Ile, Tyr, Phe, Trp, etc. without charge. For example, the tetramer structure is stabilized. In addition to eliminating electrostatic repulsion in the tetramer, a similar improvement in activity can be expected by actively strengthening the interaction between tetramers. For example, when Ser46 is further substituted with a longer chain amino acid, for example, Asn, a hydrogen bond is formed between E98 and the other monomer that forms the dimer, which improves CPRTase activity. It is thought that.

In addition, it is considered that the three arms (which extend toward the other monomer) are structurally important.1 Among them, mutation of an amino acid near Trp66 may lead to improved CPRTase activity.

 [0 0 9 7]

Example 5

Acquisition and evaluation of mutant enzymes (Part 1)

From the nucleotide sequence represented by SEQ ID NO: 16 for the purpose of substituting the 1st methionine residue of Escherichia coli UPRTase consisting of the amino acid sequence represented by SEQ ID NO: 15 with another amino acid. Based on the DNA encoding UPRTase of Escherichia coli, the DNA encoding the methion residue consisting of the base sequence represented by SEQ ID NO: 17 is substituted with an arbitrary base (nnn), and A DNA consisting of the base sequence represented by SEQ ID NO: 18 complementary to the base sequence was synthesized. [0098]

 In addition, for the purpose of substituting the 201st tyrosine residue with another amino acid, as described above, a DNA comprising the base sequence represented by SEQ ID NO: 19 in which the region is substituted with an arbitrary base, and A DNA consisting of the base sequence represented by SEQ ID NO: 20 complementary to the base sequence was synthesized.

 Furthermore, on the plasmid pEUPl, the DNA consisting of the base sequence represented by SEQ ID NO: 21 corresponding to the upstream side of the UPRTase gene and the base represented by SEQ ID NO: 22 corresponding to the reverse strand on the downstream side DNA consisting of sequences was synthesized.

 [0099]

 DNA having the base sequence represented by SEQ ID NOs: 18 and 21, DNA having the base sequence represented by SEQ ID NOs: 17 and 22, DNA having the base sequence represented by SEQ ID NOs: 20 and 21 PCR using Pyrobest DNA polymerase (manufactured by TAKARA BIO INC.) Using DNA having the nucleotide sequences represented by SEQ ID NOS: 19 and 22 as primer sets and pEUPl plasmid DNA as a saddle type, respectively. Went.

 [0100]

 Amplified products of about 0.5 kb, about 0.3 kb, about 0.7 kb, and about 0.1 kb obtained by PCR were subjected to agarose gel electrophoresis, and extracted and purified using the Qiagen Gel Extraction Kit.

 The obtained amplification products of about 0.5 kb and about 0.3 kb, and amplification products of about 0.7 kb and about 0.1 kb were mixed, respectively, and these two types of mixtures were expressed as SEQ ID NOs: 9 and 10, respectively. PCR was performed using a DNA having a base sequence as a primer set. '

 [0101]

 The above-mentioned PCR yielded amplified DNA fragments of approximately 0.8 kb. The DNA fragment was subjected to agarose gel electrophoresis, extracted and purified using the Qiagen Gel Extraction Kit, and each of the DNA fragments was ^ RI. And it cut | disconnected by ^ I and refine | purified by the method similar to the above.

 The obtained DNA fragment was ligated to the expression vector pTr c99A, which was also cleaved with EcoRI and BamHI, and Escherichia coli MC1000 AcodA Acdd ApyrG :: Km strain was transformed using the ligated product.

 [0102]

Each transformant was selected using ampicillin resistance as an indicator, and each transformant was replicated on M9 minimal agar medium containing 50 mg / l cytosine and 100 μg / ml ampicillin. Since the single colony was obtained, the 141st The substituted amino acid residue was named Rl strain, and the substituted amino acid residue at position 201 was named R2 strain.

 When the nucleotide sequence of the UPRTase structural gene in the plasmids held by R1 and R2 strains was determined by conventional methods, the 141st amino acid residue was the mouth isine and the 205th amino acid residue was aspartic acid in the R1 strain. DNA encoding mutant UPRTase (M141L G205D) substituted with, and in the R2 strain, the mutant UPRTase (Υ 20 IK) with the 201st amino acid residue replaced with lysine and the 204th amino acid residue replaced with leucine DN A encoding P204L) was found.

 [0103]

 Next, the DNA encoding the mutant UPRTase (M141L, G205D, Y201K, P204L) having the single substitution mutation of the four amino acid residues found above is replaced with the amino acid to be substituted as described above. It was obtained by the PCR method using a primer DNA having a corresponding codon. The obtained DNA encoding mutant UPRTase was each bound to pTrc99A, and Escherichia coli MC1000 AcodAΔcdd ApyrG :: Km strain was transformed with the conjugate. '

 [0104]

 When transformants were cultured on M9 minimal agar medium containing 50 mg / l cytosine and 100 g / ml ampicillin, only the mutant (G2Q5D) in which the 205th amino acid residue was replaced with aspartic acid grew. did.

 Next, for the purpose of measuring the CMP generation activity of the mutant UPRTase possessed by the R1 and R2 strains, a mutant enzyme added with a histidine tag was obtained as follows.

 [0105]

 The DNA consisting of the base sequence represented by SEQ ID NO: 23 and the DNA consisting of the base sequence represented by SEQ ID NO: 22 corresponding to the base sequence of the 5 and terminal regions of the UPRTase gene represented by SEQ ID NO: 16 As a primer set, PCR was performed using Pyrobest DNA polymerase using plasmid DNA retained by R1, plasmid DNA retained by the R2 strain, and pEUPl as a template.

 [0106]

The resulting gain of about 0.8 kb: DNA fragments were each subjected to agarose gel electrophoresis, purified using Qiagen Gel Extraction Kit, and cleaved with Sphl and Hindi II. The DNA fragment obtained above, also Sphl and. Click downy expression was cut with Hindlll coater pQE ⁸² L (Qiagen Inc.) and respectively bonded, the Escherichia co li DH5 _a strain was transformed with the conjugate The transformants were selected using ampicillin resistance as an indicator.

 [0107]

The three transformants obtained were each cultured in an LB medium containing 100 μg / ml ampicillin at 30 ° C, and the resulting culture was treated with lOO ^ g / ml ampicillin. 1% inoculated Terfic medium (Pactotryptone 1, Yeast extract 2½, Glyceal 4ml in 1L of water and adjusted to pH 7.2) and cultured at 30 ° C for 8 hours . IPTG was added to a final concentration of 1 ol / l and further cultured for 6 hours, and then the culture was centrifuged to obtain bacterial cells.

 [0 1 0 8]

The bacterial cells were sonicated to prepare a crude enzyme solution, and the enzyme added with the histidine tag was purified using HiTrap Chelating HP Couluim (Pharmacia). The purified enzyme was used as a reaction solution [50 mm. 1/1 Tris hydrochloric acid ( _PH 7.5), 5 讓 ol / l monolithic phosphate, 5 囊 ol / l magnesium chloride, 5mmol / l cytosine, 1 fine ol / l guanosine 5, monotrilin acid, 1. added to ⁵ s Awakening ol / l PRPP], the reaction was carried out at 31 ° C, it was quantified by the resulting CM P high speed performance liquid inlet Mato chromatography (HPLC). Protein concentration was measured using Protein Assay Kit (Pharmacia).

 [0 1 0 9]

 -On the other hand, for UMP production activity, the crude enzyme extract prepared from an enzyme-expressing strain without the histidine tag (the host is Escherichia coli DH5) was used as the reaction solution [50 mMol / 1 Tris-HCl (pH 7. 5), 5mmol / l monolithic phosphate, 5 讓 ol / l magnesium chloride, 5mno] yi uracil, lmmol / 1 guanosine 5, monotriphosphoric acid, 1.5mmol / l. Add to PRPP3, 31 ° The reaction was conducted at C, and the produced UMP was quantified by HPLC. The results are shown in Table 2.

 [0 1 1 0]

 [Table 2]

 Table 2

* 1 Activity measurement host; DH5 a strain

 * 2 Growth test host; MC1000 A codA A cdd ApyrG:: Km strain

nt; not measured

[0 1 1 1]

 As is clear from Table 2, no CMP-producing activity was detected with the wild-type enzyme, whereas the mutant-type enzymes produced by the R1 and R2 strains (Y201K P204L and M141L G205D) showed clear productive activity. It was.

 In addition, since the UMP production activity, which is the original activity, decreased significantly with the increase in CMP production activity, it became clear that the substrate specificity conversion from uracil to cytosine occurred.

 [0 1 1 2]

 Comparing the activities of the four single mutants, only the G205D mutant had cytosine strength Π growth in M9 minimal medium, and the UMP production activity was greatly reduced. It was thought to play an important role in recognition.

 [0 1 1 3]

Example 6

Acquisition and evaluation of mutant enzymes (Part 2)

Using the plasmid obtained by ligating the DNA encoding UPRTase having the amino acid substitution mutation of M141L obtained in Example 5 to the vector _P Trc99A as a saddle, the DNA having the base sequence represented by SEQ ID NO: 16 and SEQ ID NO: 23 PCR was carried out using DNA consisting of the nucleotide sequence represented as a primer set, and a plasmid in which DNA encoding UPRTase having an M141L amino acid substitution mutation was linked to pQE82L was obtained in the same manner as in Example '5. ,

 [0 1 1 4]

 Using the resulting plasmid as a saddle type, PCR was performed using a primer DNA having a codon encoding glutamic acid at the codon corresponding to the 205th amino acid residue as in Example 5, and the 141st amino acid residue was leucine. In addition, a DNA fragment encoding a mutant UPRTase (M141L G205E) in which the 205th glycine was replaced with glutamic acid was obtained. '

 [0 1 1 5]

The DNA fragment was ligated with cleaved with Sphl and Hindlll _P QE82 L, 141 th amino acid residue is leucine, 205th glycine histidine tag added variants UPRTase substituted with glutamic acid (M141L G205E) Plasmids that were expressed in this state were obtained. Escherichia coli DH5 strain was transformed with a plasmid expressing the mutant UPRTase (M1411 G205E), and the transformant was selected using ampicillin resistance as an index. The same procedure as in Example 5 using the transformant expressing the mutant UPRTase (M141L G205E) obtained above and the transformant expressing the mutant UPRTase (M141L G205D) obtained in Example 5 As a result, a mutant UPRTase (M141L G205E) and a mutant UPRTase (M141L G205D) each having a histidine tag added thereto were purified.

 [0 1 1 6]

 The purified enzyme was added to the reaction solution [50 mmol / l Tris-HCl (pH 7.5), 10 5ol / l magnesium chloride, 10mmol / l cytosine, 1 讓 ol / l guanosine 5'-triphosphate, 3mmol / 1 PRPP], reacted at 32 ° C, and the resulting CMP was quantified by high performance liquid chromatography (HPLC). The protein concentration was measured using a protein assay kit (Pharmacia). The results are shown in Table 3.

 [0 1 1 7]

 [Table 3]

Table 3

 [0 1 1 8]

 As can be seen from Table 3, the mutated UPRTase (M141L G205E) in which the 205th amino acid was replaced with glutamic acid, as well as the mutated UPRTase (M141L G205D) in which the 205th amino acid was replaced with aspartic acid, showed a clear CMP. Production activity was observed.

 [0 1 1 9]

Example 7

Acquisition and evaluation of mutant enzymes (Part 3)

 Using the plasmid obtained by ligating the DNA encoding UPRTase having the amino acid substitution mutation of G205D obtained in Example 5 to the vector pTrc99A as a saddle, the DNA having the base sequence represented by SEQ ID NO: 16 and SEQ ID NO: 23 PCR was performed using DNA consisting of the nucleotide sequence represented as a primer set, and a plasmid in which a DNA encoding UPRTase having an amino acid substitution mutation of G205D was linked to pQE82L was obtained in the same manner as in Example 5.

 Escherichia coli DH5α strain was transformed with the plasmid expressing the mutant UPRTase (G205D), and the transformant was selected using ampicillin resistance as an index.

The same procedure as in Example 5 was performed using the transformant expressing the mutant UPRTase (G205D) obtained above and the transformant expressing the mutant UPRTase (M141L G205D) obtained in Example 5. According to the sequence, a mutant UPRTase (G205D) and a mutant UPRTase (M141L G205D) each tagged with a histidine tag were purified.

 Reaction solution of the purified enzyme [50 thighs. 1/1 Tris HCl (pH 7.5), 10 mmol / l magnesium chloride, 4 arm ol / l cytosine, 1 thigh ol / l guanosine 5, -triphosphate, 1.5 mmol / l PRPP), 32 ° The reaction was conducted at C, and the resulting CMP was quantified by high performance liquid chromatography (HPLC). The protein concentration was measured using a protein assay kit (Pharmacia). The results are shown in Table 4.

 [0120]

 [Table 4]

Table 4

 [0121]

 As is clear from Table 4, the mutant UPRTase (G205D), which has only the substitution of the 205th amino acid with aspartic acid, also replaced the 141st amino acid with leucine and the 205th amino acid with aspartic acid. Similar to the mutant UPRTase with substitution (M141L G205D), it was found to have clear CMP-generating activity.

 [0122]

Example 8

Acquisition and evaluation of activity-enhancing mutant enzymes

 The plasmid DNA retained in the R2 strain obtained in Example 5 is of a saddle type, and DNA consisting of the base sequence represented by SEQ ID NO: 21 and DNA consisting of the base sequence represented by SEQ ID NO: 22 are used as a primer set. Recombinant Taq DNA polymerase

(Takara Bio Inc.) was used to perform error-prone PCR in the presence of 0.3 mmol / l MgCl ₂ .

 [0123]

 The obtained amplified DNA fragment of about 0.8 kb was subjected to agarose gel electrophoresis, purified using Qiagen Gel Extraction Kit, and cleaved with EcoRI and BamHI. .

The DNA fragment was ligated with an expression vector pTrc99A, which was also cleaved with EcoRI and BamHI, and Escherichia coli MC1000 AcodA Acdd ApyrG :: Km strain was transformed with the resulting conjugate.

 [0124]

Transformants were selected for ampicillin resistance as a marker, 2 of 5 Furuoroshitoshin or 7 mg / l of the resulting transformant _{7m g / l, 5, 6} - triamino 4 - hydroxypyrimidine About 15000 strains were each replicated on M9 minimal agar medium (containing cytosine 50 mg / L and 100 μg / ml ampicillin) and examined for growth.

As a result, two strains on plates containing 5-Furuoroshitoshin (FC35-1, FC35- 2 and naming), ^2, 5, ⁶ - triamino 4 - 1 strain on plates containing hydroxypyrimidine (TA35- 1 named ) Formed colonies.

 [0 1 2 5]

 When plasmid DNA was extracted from FC35-1, FC35-2 and TA35-1 strains and the nucleotide sequence of the UP RTase structural gene was determined, the mutant enzyme gene retained by FC35-1 strain was 10 The second amino acid residue is cysteine, the 198th amino acid residue is glycine, and the mutant enzyme gene retained by the FC35-2 strain has the 94th amino acid residue in tyrosine and the TA35-1 strain. The mutant enzyme gene encoded an enzyme in which the 36th amino acid residue was replaced with cysteine and the 1980th amino acid residue was replaced with glycine. -

 [0 1 2

6]

In addition, Escherichia coll DH5a was transformed with the plasmid DNA.

The three transformants obtained by conversion were cultured in an LB medium containing lOO g / ml ampicillin, and then a crude enzyme extract was prepared from the culture, and the CMP production activity was measured. The results are shown in Table 5.

 [0 1 2 7],

 [Table 5] '

Table 5

[0128]

 As is clear from Table 5, three strains obtained using resistance to the cytosine analog 5-fluorocytosine or 2,5,6-triamino 4-hydroxypyrimidine as an index

In addition to the substitution mutation (M141L G205D) of the two amino acid residues of the mutated enzyme, the UP RTase mutant enzyme produced by (FC35-1, FC35-2, TA35-1) A new substitution mutation of 1 or 2 amino acid residues was found, and the CMP activity of the mutant enzyme was increased 1.8 to 40 times compared to the mutant enzyme-expressing strain.

 [0129]

Example 9

Acquisition and evaluation of enzyme with increased activity by site-directed mutagenesis

 An UPRT a.

Next, using the molecular force field of the program CHARMM22, we created a UMP conjugate model with minimized energy. Based on this model, a CMP complex model of M1 LG ² 05D mutant enzyme was created to minimize energy. In this complex model, a gap was found near H5 / H6 in CMP. To fill this gap, the 143rd alanine residue was replaced with a bulky hydrophobic amino acid such as palin, leucine, or isoleucine. By replacing, it was expected that binding to CMP would increase.

 [0130]

 Therefore, for the purpose of substituting the 143rd alanine residue with palin by site-directed mutagenesis, the codon (GCA) encoding the alanine residue was changed to the valine residue based on the base sequence represented by SEQ ID NO: 16. D'NA having a base sequence (base sequence represented by SEQ ID NO: 24) substituted with a coding codon (GTT), and a complementary sequence complementary to the base sequence (base represented by SEQ ID NO: 25) Sequence) DNA consisting of force was synthesized.

 [0131]

 The DNA consisting of the nucleotide sequences represented by SEQ ID NOs: 25 and 21 and the DNA consisting of the nucleotide sequences represented by SEQ ID NOs: 24 and 22 were used as primer sets, respectively, and the plasmid DNA retained by the TA35 1 strain was selected. PCR was performed using Pyrobest DNA polymerase as a mold. 'About 0.5 kb and about 0.3 kb amplified DNA fragment products obtained with the above PCR were purified by fuzzy mouth gel electrophoresis.

 [0132]

Next, PCR was carried out using a mixture of the two types of amplified DNA fragments obtained above as a cage and using the DNA consisting of the nucleotide sequences represented by SEQ ID NOs: 21 and 22 as a primer set. The amplified DNA fragment of about 0.8 kb obtained by the above PCR was electrophoresed on agarose gel, purified, and cleaved with EcoRI and BamHI.

 [0133]

 The DNA fragment was ligated to the expression vector pTrc99A, which was also cleaved with EcoRI and BamHI, and the resulting ligation product was used to transform Escherichia coli DH5α strain, and transformed using ampicillin resistance as an indicator. Selected.

 By extracting plasmid DNΑ from the transformant and determining the nucleotide sequence of the UPRTase structural gene by a conventional method, DNA encoding a mutant enzyme in which the 143rd alanine residue is substituted with valine is obtained. The plasmid DNA was named pA143VTA35-1.

 [0134]

 Next, the transformant was cultured in an LB medium containing lOO / zg / ml ampicillin. A crude enzyme extract was prepared from the culture and measured for CMP production activity. The original TA35-1 The specific activity increased about 2.5 times compared to the mutant enzyme produced by the strain.

 [0135]

Example 10

Acquisition and evaluation of activity-enhancing mutant enzymes (Part 2)

The plasmid DNA retained by the A143VTA35-1 strain obtained in Example 9 is a saddle type, and the DNA comprising the base sequence represented by SEQ ID NO: 21 and the DNA comprising the base sequence represented by SEQ ID NO: 22 are used as a primer set. Te, using Recombinant Taq DNA polymerase (Takara Bio Inc.) was subjected to E Raab loan PC R in the presence of 0.3 thigh ol / lM _g Cl _2.

 [0136]

 As in Example 8, the obtained amplified DNA fragment of about 0.8 kb was electrophoresed on an agarose gel, purified using Qiagen Gel Extraction Kit, and then cleaved with EcoRI and BamHI. ·

 The DNA fragment was ligated with an expression vector pTrc99A that was also cleaved with EcoRI and BamHI, and Escherichia coli MC1000 AcodA AcddΔpyram :: m strain was transformed with the resulting conjugate.

 [0137]

'' Transformants were selected using ampicillin resistance as a finger, and the resulting transformants were selected from M9 minimal agar medium (containing cytosine 40 mg / L) containing 40 mg / l of 5-fluorocytosine or 50 mg / l of 5-methylcytosine. About 15000 strains were replicated on each of them and examined for growth. As a result, 1 strain (named FC-5) formed on the plate containing 5-fluorocytosine and 2 strains (named MC-8 and MC-21) formed on the plate containing 5-methylcytosine.

 [0138]

 When plasmid DNA was extracted from FC-5, MC-8 and MC-21 strains and the nucleotide sequence of the UPR Tase structural gene was determined, the mutant enzyme gene retained by FC-5 strain was 1 67th The mutated enzyme gene retained by MC-8 strain is the 46th amino acid residue is asparagine, and the mutated enzyme gene retained by the FC-5 strain is the 1.21st amino acid residue. Each of the isoleucines encoded a substituted enzyme.

 [0139]

 In addition, three transformants obtained by transforming Escherichia coli DH5α with the plasmid DNA were cultured in LB medium containing 100 / zg / ml ampicillin, and then the crude enzyme was removed from the culture. Extracts were prepared and the CMP production activity was measured. The results are shown in Table 6. '

 [0140]

 [Table 6]

Table 6

 [0141]

 As is clear from Table 6, UP produced by 3 strains (FC-5, MC-8, and MC-21) acquired using resistance to cytosine analogs 5-fluorocytosine or 5-methylcytosine as an index. In addition to the 4 amino acid residue substitution mutations (M141L, G205D, R36C, E198G) of the mutated enzyme, the RTase mutant enzyme has a new amino acid residue. A substitution mutation was found, and the CMP production activity of the mutant enzyme increased from 1.3 to 2.3 times that of the mutant enzyme-expressing strain. .

 [0142]

Example 11

Construction of CMP producing bacteria using corynebacterium ammoniagenes as a host

When performing salvage synthesis from bases to nucleotides, Corynebacterium ammoniagenes has a high PRPP supply capacity and abundant industrialization results. Suitable as a production reaction host. So in Corynepacteria 'Ammonia Genes

A plasmid expressing the UPRTase mutant enzyme was constructed as follows.

 [0143]

 Using the Bra and Smid pA143VTA35-l obtained in Example 9 as a saddle type, using the DNA consisting of the base sequence represented by SEQ ID NO: 26 and the DNA consisting of the base sequence represented by SEQ ID NO: 13 as a primer set, pc R Went.

 The obtained about 0.7 kb amplified DNA fragment was purified by agarose gel electrophoresis, purified using Qiagen Gel Extraction Kit, and cleaved with Sail and BamHI.

 [0144]

 In addition, a DNA fragment containing the nucleotide sequence represented by SEQ ID NO: 27, including the promoter sequence p54-6 (GenBank AJ132582) expressed in coryneform bacteria, was transformed into a plasmid vector PCS299P (Japanese Patent Application No. 11-110437: W000 / The expression vector PRI109 obtained by inserting it into the Sse8387I-BamHI site of (63388) was similarly cleaved with Sail and BamHI and ligated with the DN′A fragment described above. Escherichia coli DH5o; strain was transformed with the obtained binding product, and transformants were selected using kanamycin resistance as an index.

 [0145]

 Plasmid DNA is extracted from the resulting transformant, subjected to restriction enzyme cleavage analysis and base sequence analysis, and has a structure in which an approximately 0.7-kb DNA fragment containing the target mutant UPRTase gene is inserted. After confirming that the plasmid DNA was obtained, the plasmid DNA was named PRA143VTA35-1.

 Next, plasmid pM143VTA35-1 was introduced into Corynebacterium ammoniagenes ATCC21170 strain by electroporation [FEMS Microbiology letters, 65, 299 (1989) 3, and transformants were selected using kanamycin resistance as an indicator. The body was named Corynepactrium ammoniagenes ATCC21170 / pRA143VTA35-1.

 [0146]

Example 12

 CMP production test (1)

Example 1 Corynebacterium ammoniagenes ATCC21170 / pRA143VTA35-l strain obtained in 1 is seed medium 1 containing 20 / zg / ml kanamycin 1 [glucose 50 g, polypeptone (Nihon Pharmaceutical Co., Ltd.) 10 g, yeast extract 5 g of urea, 5 g of ammonium sulfate, 1 g of hydrogen dihydrogen phosphate, 3 g of dihydrogen hydrogen phosphate, 3 g of magnesium sulfate heptahydrate lg, iron sulfate heptahydrate 10 mg, zinc sulfate heptahydrate 10mg, Chlorochloric power Luccium dihydrate lOOmg, Manganese sulfate 'pentahydrate 20mg, L-cystine 20mg, D-calcium pantothenate 10mg, Vitamin 51 ^, Nicotinic acid 5mg and Biotin 30g in water 1L A large test tube containing 10 ml of medium adjusted to pH 7.2] was inoculated into one platinum loop, and reciprocally shaken at 30 ° C for 24 hours at 300 rpm. 7 071755

[0 1 4 7]

Next, 4 ml of the obtained culture was inoculated into a 2 L baffle Erlenmeyer flask containing 250 ml of a liquid medium having the same composition as described above, and cultured with shaking at 30 ° C. for 24 hours at 190 rpm. The total amount of the obtained culture was mixed with seed medium 2 [glucose 100 _g , Erlich Katzo extract (manufactured by Kyokuto Pharmaceutical Co., Ltd.) 10 g, polypeptone 10 g, potassium dihydrogen phosphate lg, hydrogen bisulfite phosphate lg, magnesium sulfate Heptahydrate lg, iron sulfate heptahydrate 20rag, zinc sulphate heptahydrate 10mg, calcium chloride dihydrate 100mg, manganese sulphate pentahydrate 4. lmg,] 3-alanine 15mg , L-cystine 20mg, biotin lOO ^ g, urea 2g (separately sterilized) and vitamin 5mg (separately sterilized) in 0.9L of water, adjusted to pH 7.2) 2.25L containing 25L The fermenter was inoculated and cultured at 32 ° C, with an aeration rate of 2.5 L / min, 600 rpm, and adjusted to pH 6.8 with concentrated aqueous solution while stirring.

 [0 1 4 8]

When glucose in the culture supernatant is consumed, 250 ml of the culture is aseptically collected, and the production medium [glucose 150 _g , dihydrogen phosphate 10 g, dihydrogen phosphate 10 g, magnesium sulfate · Heptahydrate 5g, Iron sulfate heptahydrate 20mg, Zinc sulfate heptahydrate 10mg, Calcium chloride dihydrate 100mg, Manganese sulfate pentahydrate 20mg, Copper sulfate 'pentahydrate 5 _mg , nicotinic acid 5 mg, β-alanin 15 mg, glutamic acid l _g , L-cystine 20 mg, piotin 100 ^ ug urea 2 g (separately sterilized) and vitamin 5 mg

(Separate sterilized medium containing 0.9L of water and adjusted to pH 6.8) 2. Inoculate 5L fermenter containing 25L, 32 ° C, aeration rate 2.5 L / min, 600rpm The culture was aerated and stirred while adjusting the pH to 6.8 with concentrated ammonia water.

 [0 1 4 9]

When the glucose in the culture medium is consumed, 40 ml of the culture is collected and placed in a 250 ml microjar (BMJ-25, manufactured by Able), and glucose 5., cytosine 300 mg, sanizol B- 50 120 mg was added, and the MP production reaction was performed while adjusting the pH to 7.6 with 4 mol / l K0H at 32 ° C, aeration rate of 20 ml / min, and 1100 rpm. As a result, 21.5 _g / L (58.7 kgol) of CMP was produced 24 hours after the start of the reaction. At this time, by-products of CDP and CTP were 1.6 ramol / l and 0 ramol / l, respectively, and the conversion rate from added cytosine to CMP was about 87%.

 [0 1 5 0]

Example 1 3

 CM P Production Test (2)

Inoculate a large test tube containing 10 ml of LB medium containing 100 μg / ml ampicillin with the Escherichia coli DH5a / pA143VTA35-1 strain obtained in Example 9 at 30 ° C for 18 hours. And reciprocating shaking culture at 300 rpm. Next, 3 ml of the obtained culture was inoculated into a 2 L puffed Erlenmeyer flask containing 300 ml of LB medium containing 100 g / ml ampicillin. Rotating and shaking culture was performed at 30 ° C for 20 hours at 190 rpm. After completion of the culture, the culture was centrifuged to obtain bacterial cells.

 [0 1 5 1]

On the other hand, Corynebacterium ammoniagenes ATCC21170 strain was cultured in a 5 L fermentor in the same manner as in Example 9 under the condition not containing kanamycin. The resulting cultures 40ml put into 250ml ml micro jars, which Escherichia coli DH5 acquired in the ^{o; / pA14 3 VTA 35 -} 1 strain of the bacterial cell ⁶ OOmg (wet weight), glucose 4. 0 g, cytosine 400mg and添Ka卩the Sanizo Ichiru 50 120 mg, 32 ° C, aeration rate 20 ml / min at 1100 rpm, was subjected to CM P production reaction while adjusting the _P H7. 6 with 4 mol / l K0H. As a result, CMP was produced 14 g / L (40) ol / l) in 24 hours from the start of the reaction.

 [0 1 5 2]

Example 1 4.

CTP production test-

(1) CTP production from orotate

 294 strains of Eschericnia coli derived from Sacc-nar omyces cerevis-iae

Choline—phosphate cytidyly 丄 transferase and Choline kinase 逾 "|

Strain 294 / pCKG55 (JP-A-5-276974, FERM BP-3717) into which the plasmid pCKG55 expressing the CTP synthase gene derived from Escherichia coli was introduced was added to L medium containing 50 mg / L of ampicillin [Pacttryptone (Difcone Earthen) 10g / L, yeast extract (Difco) 5g / L, sodium chloride 5g / L and adjusted to pH 7.2] 200: 111 in 2 inoculated into Erlenmeyer flask with baffle, The cells were cultured with shaking at 220 rpm for 24 hours at 25 ° C. This culture solution ² OIBI, glucose 5g / L (separately sterilized), peptone (manufactured by Kyokuto Pharmaceutical Co., Ltd.) 5g / L, disodium hydrogen phosphate 6g / L, potassium dihydrogen phosphate _3G / L, ammonium chloride © beam lg / L, magnesium sulfate 'heptahydrate 250 meters _g / L (separately sterilized) Oyopi vitamin B14mg / L liquid medium having the composition of (separately sterilized) _(P H unadjusted) 2. ⁵ L of Inoculate the 5L culture tank, and culture temperature 28 ° C, stirring 600rpn! Cultivation was performed while adjusting the pH to 7.0 using 14% ammonia water under the culture conditions of aeration rate of 2.5 L / min.

 [0 1 5 3]

When glucose in the supernatant of the seed culture solution is consumed, 250 ml of the culture solution is aseptically collected and glucose 5 _g / L (separately sterilized), peptone (manufactured by Kyokuto Pharmaceutical Co., Ltd.) 5 g / L, Disodium hydrogen phosphate 6g / L, potassium dihydrogen phosphate 3g / L, ammonium chloride lg / L, magnesium sulfate heptahydrate 250mg / L (separate sterilization) and vitamin Bl 4mg / L (separate sterilization)) Liquid medium consisting of composition (no pH adjustment) 2. Inoculate in a 5L culture tank containing 5L, culture temperature 28 ° C, stirring 600rpm, aeration volume 2. 14% ammonia under 5L / niiri culture conditions Culturing was carried out while adjusting the pH to 7.0 with water. During the culture from 11 to 24 hours, a feed solution composed of glucose 167 g / L and peptone 167 g / L was added at a rate of 30 ml / h with a peristaltic pump.

 [0 1 5 4]

Example 1 Corynebacterium ammoniagenes ATCC21170 strain culture solution 500ml and Escherichia coli MM294 / pCKG55 strain culture solution 185ml obtained in 1 above were placed in a 2L culture tank, and glucose 48g, magnesium sulfate 6.25 _{g of} hydrate, 40 g of dihydrogen phosphate, 14 ml of xylene and 5 g of forotic acid were added to prepare a reaction solution. This reaction solution was stirred at 30 ° C at 800 rpm and aeration rate of 0.3 L / min. CTP production reaction was carried out with 10 mol / l K0H while maintaining the pH at 7.4. Was quantified. As a result, 4.0 g / L (7.27 廳 ol / l) of CTP was produced 20 hours after the start of the reaction.

 [0 1 5 5].

 (2) CTP production from cytosine

 Example 1 Corynepacteria ammoniagenes as in 1

Culturing ATCC21170 / _P RA143VTA35- 1 strain was terminated culture when glucose above淸中was consumed. Corynebacterium ammoniagenes in 2L culture tank

ATCC21170 / pM143VTA35-1 strain culture solution 500 ml, glucose 48 g, magnesium sulfate heptahydrate 6.25 g, potassium dihydrogen phosphate 40 g, xylene 14 ml, and cytosine 5 g were added to prepare a reaction solution. This reaction solution was stirred at 30 ° C at 800 rpm and aeration rate 0.3 L / min, CTP reaction was performed with 10 mol / l K0H while maintaining pH 7.4, and the generated CTP was HPLC Quantified by As a result, 14.0 _g / L (25.4 raol / l) of CTP was produced 20 hours after the start of the reaction. [0 1 5 6]

Example 1 5 '

C D P—Choline production test

 Example 1 Corynebacterium 'Amoyuagenes' as in 1

The ATCC21170 / pRA143VTA35-l strain was cultured, and the culture was terminated when the glucose in the supernatant was consumed. Corynepacteria ammoniagenes in a 2L culture tank.

ATCC21170 / pRA143VTA35-l Strain 500ml, Escherichia coli 294 / pCKG55 Strain 185ml, Glucose 48g, Chloride Choline 8.4g, Magnesium Sulphate Heptahydrate 6.25g, Dihydrogen Phosphate 40 g of lithium, 14 ml of xylene and 5 g of cytosine were added to obtain a reaction solution. This reaction solution was stirred at 30 ° C at 800 rpm and aeration rate of 0.3 L / min, and CDP-choline production reaction was carried out by maintaining the pH at 7.4 with 10 mol / l K0H. -Choline was quantified by HPLC. As a result, 0.5 g / L (l. 02 匪 ol / l) of CDP-choline was produced 20 hours after the start of the reaction.

 [0 1 5 7]

Example 1 6 CMP-sialic acid production test

 (1) Preparation of Escherichia coli-derived CMP-sialic acid synthase expression strain.

 Is the expression vector pTrS32 (FERM BP-5408) enzymatically digested with Pstl and Hindlll to recover a 3.5 kb DNA fragment? 10 (JP-A-58-110600) was enzymatically digested with Pstl and ¾indIII to recover l. Okb fragments. The 3.5 kb fragment and l. Okb fragment were ligated to obtain 4.5 kb pTrS31.

 A 3.5 kb DNA fragment obtained by enzymatic digestion of pTrS31 with Clal and Pstl, and a 2.3 kb DNA fragment obtained by enzymatic digestion of pPACl (FERM BP-6054, WO 98/12343) with Clal and Pstl And 5.8 kb pNT22 was obtained.

 [0 1 5 8]

 Using synthetic DNA having the base sequences represented by SEQ ID NOs: 28 and 29,

A DNA fragment containing the CMP-sialic acid synthase gene neuA was amplified from the chromosomal DNA of Escherichia coli K235 (ATCC1302.7) by the following method.

 PCR was performed using Pyrobest DNA polymerase with the synthetic DNA as a primer set. 1/10 volume of the PCR reaction solution was subjected to agarose gel electrophoresis, and after confirming that the target fragment was amplified, the same amount of TE [10 mmol / l Tris-HC1, lmmol / 1 EDTA as the rest of the reaction liquid was used. (H 8.0)] Saturated phenol Z throat form (lvol / vol) was added and mixed.

[0 1 5 9]

 After centrifuging the mixture, the obtained upper layer was mixed with 2 volumes of cold ethanol and allowed to stand at −80 ° C. for 30 minutes. The solution was centrifuged to obtain a DNA precipitate, and the DNA precipitate was dissolved in 201 TE. Using 5 μl of the lysate, DNA was cleaved with restriction enzymes Hindlll and BamHI, and DNA fragments were separated by agarose gel electrophoresis, and then a 1.3 kb fragment was recovered. '

pBluescript Π SK (+) (Stratagene) was cleaved 0. 2 mu _§ with restriction enzymes Hindlll Oyo Pi BamHI, the Agarosugeru electrophoresis, the DNA fragments are separated, similarly 2. recover a DNA fragment of 9kb did.

 [0 1 6 0]

 Using the ligation kit, the fragments of 1.3 kb and 2.9 kb were subjected to ligation reaction for 16 hours at 16 ° C. Using this ligation reaction solution, Escherichia coli 522 was transformed according to a known method, and the obtained transformant was applied to an LB agar medium containing 50 g / ml ampicillin and cultured at 30 ° C. .

 Extract the plasmid from the grown transformant in an LB liquid medium containing 50 μg / ml ampicillin at 30 ° C using an automatic nucleic acid separator PI50 manufactured by Kurabo Industries. did.

[0 1 6 1] When the nucleotide sequence of the PCR amplified fragment contained in the obtained plasmid was determined by a conventional method, it was found to be the same nucleotide sequence as neuA that codes for Escherichia coli-derived CMP-sialic acid synthase described in GenBank ACCESSION No. J05023. It was.

 The plasmid was digested with Cla I and BamH I, and then the DNA fragments were separated by agarose gel electrophoresis to recover a 1.3 kb DNA fragment.

After cutting the PNT22 0. 2 μ _§ with restriction enzymes Cla I Oyopi BamH I, the DNA fragments were separated by Agarosugeru electrophoresis movement, to recover a DNA fragment of 5. 5 kb in the same.

 [0 1 6 2]

Using the ligation kit, the fragments of 1.3 kb and 5.5 kb were subjected to ligation reaction for 16 hours at 16 ° C. The Escherichia coli厕522 was transformed according to a known method using the ligation reaction solution, after coating the transformants on LB agar medium containing 50 ig / nil of ampicillin and 30 ° C De晚culture _ς

 Plasmids were extracted using PI50 from a culture obtained by subjecting the grown transformant to 晚 liquid culture at 30 ° C in LB liquid medium containing 5 mg / ml ampicillin. The plasmid structure was confirmed by restriction enzyme digestion and the plasmid was designated pTA23.

 Escherichia coli 522 was transformed again with pTA23, and the resulting transformant was named Escherichia coli ΝΜ522 / ρΤΑ23.

 [0 1 6 3]

 (2) CMP-sialic acid production test

On the other hand, Escherichia coli NM522 / pTA23 with L medium tryptotone (Difco) 10g / L containing ampicillin 50 / g / L, yeast extract (Difco) 5g / L, sodium chloride 5g / L, pH 7 2. Medium adjusted to 2] Inoculate 200 ml of 2 L puffed Erlenmeyer flask and culture at 25 ° C for 24 hours at 220 rpm with rotary shaking. This culture solution 20 ml, glucose 5 g / L (separately sterilized), peptone (Kyokuto Pharmaceutical Industries Co., Ltd.) 5 _g / L, disodium hydrogen phosphate 6 _g / L, dihydrogen phosphate force Riumu 3 g / L, chloride Ammonium lg / L, Magnesium sulfate heptahydrate 250 mg / L (disinfection) and vitamin Bl 4 mg / L

(Independent sterilization) Liquid medium (pH unadjusted) 2. Inoculate 5L culture tank containing 5L, culture temperature 28 ° C, stirring 600rpm, aeration 2. Culture condition of 5L / min, Culturing was carried out while adjusting the pH to 7.0 with 14% aqueous ammonia.

When glucose in the supernatant of the seed culture solution is consumed, 250 ml of the culture solution is aseptically collected and glucose 5 g / L (separately sterilized), peptone (manufactured by Kyokuto Pharmaceutical Co., Ltd.) 5 g / L, phosphorus disodium hydrogen 6 g / L, dihydrogen phosphate forces potassium 3 g / L, chloride Anmoniumu lg / L, sulfuric acid Maguneshiumu 'heptahydrate 250m _g / L (separately sterilized) and vitamin Bl 4 mg / L

(Separate sterilization)) Liquid medium with the composition of (No pH adjustment) 2. Inoculate in a 5L culture tank containing 5L, culture temperature 28 ° C, stirring 600rpm, aeration volume 2.5L / min culture conditions Then, the culture was performed while adjusting the pH to 7.0 using 14% ammonia water. During the culturing, a brood solution having a composition of glucose 167 g / L and peptone 167 g / L was added by a peristaltic pump at a rate of 30 ml / h from the 11th to the 24th culture.

 [0 1 6 4]

 Example 1 Corynebacterium ammoniagenes as in 1

The ATCC21170 / pM143VTA35-1 strain was cultured, and the culture was terminated when the glucose in the supernatant was consumed. Corynepacteria ammoniagenes in 2L culture tank

ATCC21170 / pRA143VTA35-l strain 500 ml and Escherichia coli 5 ² 2 / pTA ² 3 strain 185 ml, practose 48 g, magnesium sulfate heptahydrate 6.25 g, potassium dihydrogen phosphate 40 g, 14 ml of xylene, 5 g of cytosine and 14 g of cyanoleic acid were added. 30. CMP-sialic acid reaction was carried out while maintaining pH 7.4 with lOmol / 1 K0H under conditions of 800 rpm with aeration rate of 0.3 L / min under C at 800 rpm and the generated CMP-sialic acid from ΗΡίά Weighed. As a result, 4.5 g / L (7.07 ol / l) of CMP-sialic acid was produced 20 hours after the start of the reaction. Industrial applicability

 [0 1 6 5]

 According to the present invention, a protein having an activity of generating CMP from cytosine can be obtained. Using this protein, CMP can be produced inexpensively and efficiently. [Sequence Listing Free Text]

 [0 1 6 6]

SEQ ID NO: 1—Description of artificial sequence: mutant protein

SEQ ID NO: 2—Description of artificial sequence: mutant protein '

SEQ ID NO: 3—Description of artificial sequence: Mutant DNA

SEQ ID NO: 4—Description of artificial sequence: mutation D N A '

SEQ ID NO: 5—Description of artificial sequence: Mutant DNA

SEQ ID NO: 7—Description of artificial sequence: synthetic DNA

SEQ ID NO: 8—Description of artificial sequence: synthetic DNA

SEQ ID NO: 1 0—Description of artificial sequence: synthetic DNA

SEQ ID NO: 1 1—Description of artificial sequence: synthetic D NA 'SEQ ID NO: 1 3—Description of artificial sequence: synthetic D N A

SEQ ID NO: 1 4—Description of artificial sequence: synthetic DNA

SEQ ID NO: 1 7 Description of one artificial sequence: synthetic DNA

SEQ ID NO: 1 8—Description of artificial sequence: synthetic DNA

SEQ ID NO: 1 9 Description of one artificial sequence: synthetic DNA

SEQ ID NO: 20 Description of one artificial sequence: synthetic DNA SEQ ID NO: 21 Description of one artificial sequence Synthetic DNA SEQ ID NO: 2 2 Description of one artificial sequence Synthetic DNA SEQ ID NO: 2 3 Description of one artificial sequence Synthetic DNA

K Column No. 2 4 Description of one artificial sequence Synthetic DNA SEQ ID No. 2 5 Description of one artificial sequence Synthetic DNA SEQ ID No. 2 6 Description of one artificial sequence Synthetic DNA SEQ ID No. 2 8 Description of one artificial sequence Synthetic DNA SEQ ID No. 2 9 One Description of artificial sequence Synthetic DNA SEQ ID NO: 3 0 Description of one artificial array U Mutant protein SEQ ID NO: 3 4 Description of one artificial sequence Synthetic DNA SEQ ID NO: 3 5 Description of one artificial sequence Combined DNA SEQ ID NO: 3 6 Description of one artificial sequence Synthetic DNA SEQ ID NO: 3 7 Description of one artificial sequence Synthetic DNA SEQ ID NO: 3 8 Description of one artificial sequence Mutant protein

Claims

The scope of the claims

[Claim 1]

A method for producing a protein having an activity of producing cytidine 5, monomonophosphate (CMP) from cytosine, comprising the following steps:

 [I] uracil from uracil 5 '— UMP binding in UPRTa se on the combination using part or all of the 3D structure information of protein (UPRTa se) with activity to generate monophosphate (UMP) Selecting one or more amino acid deletions, substitutions and / or additions in the amino acid sequence of UP RTase, which stabilizes the complex model of UP RTase and CMP created by adapting CMP to the site;

[2] A step of producing a UPRTase mutant protein comprising the deletion, substitution and Z or addition selected in step [1,]. -Claim 2

A method for producing a protein having an activity of producing cytidine 5′-monophosphate (CMP) from cytosine, comprising the following steps:

 [II] Urachinole to Uridine 5'—CMP is applied to the UMP binding site in UPRTa se on the computer using part or all of the 3D structure information of protein (UPRTa se) that has the activity to generate monophosphate (UMP). Selecting one or more amino acid deletions, substitutions and Z or additions in the amino acid sequence of the UPRT ase that stabilize the U PRT ase and CMP complex model produced by adaptation;

[12] Amino acid deletion, substitution and / or in the amino acid sequence of UPRTase, which stabilizes a multimeric model of the complex created on a computer using a part or all of the complex model Or selecting one or more additions;

[13] A step of producing a UP Ta s mutant protein comprising the deletion, substitution and Z or addition selected in the steps [11] and [12].

 [Claim 3]

A protein obtained by the method according to claim 1 or 2.

 [Claim 4]

In the amino acid sequence set forth in SEQ ID NO: 15, one to several amino acids have been deleted, substituted and Z or added to the amino acid sequence,

Has the activity of generating CMP from cytosine, and

Proteins containing one or more of the following amino acid substitutions:

Part or all of the three-dimensional structural information of a protein (UPRTase) comprising the amino acid sequence of SEQ ID NO: 15 represented by the three-dimensional coordinate atomic coordinates described in Table 1 and having the activity of generating UMP from uracil Created on a computer using In the complex model of RTase and UMP, substitution of an amino acid having a constituent atom in the range from the oxygen atom of the oxo group at the 4-position of the pyrimidine ring 4-position of U¼P to 1 OA, wherein UMP of the complex model Substitution with amino acid that stabilizes the complex model of UPRTase and CMP created on the converter by converting an oxo group to an amino group.

 [Claim 5]

5. The protein according to claim 4, wherein the amino acid substitution is a substitution of glycine at position 205 of the amino acid sequence shown in SEQ ID NO: 15.

 [Claim 6]

5. The protein according to claim 4, wherein the amino acid substitution is substitution of glycine at position 205 of the amino acid sequence shown in SEQ ID NO: 15 with aspartic acid or glutamic acid. Claim

7.1

5. The protein according to claim 4, wherein the amino acid substitution is substitution of tyrosine at position 201 and proline at position 204 of the amino acid sequence represented by SEQ ID NO: 15.

 [Claim 8]

5. The protein according to claim 4, wherein the amino acid substitution is substitution of tyrosine at position 201 with lysine and substitution of leucine with proline at position 204 in the amino acid sequence shown in SEQ ID NO: 15.

 [Claim 9]

In the complex model of UP RT ase and UMP described above, substitution of an amino acid having a constituent atom in the range of one OA to 1 OA from the atom constituting UMP (however, the oxygen of the oxo group at the 4-position of the pyrimidine ring of UMP) (1) excluding substitution of amino acids having a constituent atom in the range from 1 atom to 1 OA), and comprising at least one substitution with an amino acid that stabilizes the complex model of UPRTase and CMP. The protein according to any one of 4 to 8. '

 [Claim 10]

Part or all of the three-dimensional structural information of a protein (UPRT ase) comprising the amino acid sequence of SEQ ID NO: 15 represented by the three-dimensional coordinate atomic coordinates described in Table 1 and having the activity of generating UMP from uracil Replacement of amino acids in which a constituent atom exists in the range of 1 OA to any one of the constituents of PRPP in a complex model of UP RTase and phospholiposyl pyrophosphate (PRPP) created on a computer using The protein according to any one of claims 4 to 8, comprising at least one substitution with an amino acid that stabilizes the complex model.

 [Claim 11]

In a multimeric model of a complex created on a computer using a part or all of the complex model of UP RTase and CMP, the adjacent UP RTase unit Amino acids with constituent atoms within 5 A from any atom in the monomer and amino acids with constituent atoms within 5 A from any constituent atom of position 66 of the adjacent UPRTase monomer A substitution of an amino acid selected from the group consisting of: and an amino acid that stabilizes the multimeric model

The protein according to any one of claims 4 to 10, which comprises one or more of.

 Claim 12.

A protein having an amino acid sequence represented by SEQ ID NO: 1, 2, or 30, which has an activity of producing cytidine 5, monomonophosphate (CMP) from cytosine.

 [Claim 13]

In the amino acid sequence represented by SEQ ID NO: 1, 2, or 30, one or more amino acid residues selected from the 36th, 94th, 102th, 141st, 143rd and 198th amino acid residues A protein having an amino acid sequence substituted with the amino acid residue of and having an activity of generating CMP from cytosine.

 [Claim 14]

 36th amino acid residue is cysteine, 94th amino acid residue is tyrosine, 10th amino acid residue is cysteine, 141st amino acid residue is leucine, 14th 3rd amino acid residue is valine, or 13. The protein according to claim 12, which has an amino acid sequence in which the 198th amino acid residue is replaced with glycine.

 [Claim 15]

In the amino acid sequence represented by SEQ ID NO: 1, 2, or 30, from the amino acid residue at position 36, position 46, position 94, position 102, position 121, position 141, position 143, position 167, and position 198 A protein having an amino acid sequence in which one or more selected amino acid residues are substituted with other amino acid residues and having an activity of generating CMP from cytosine.

 16.

The amino acid sequence of the protein according to any one of claims 12 to 15, wherein the 36th, 94th, 102nd, 141st, 143rd, 198th, 20; 1_th, 204th op 205 A protein having an amino acid sequence in which one or more amino acid residues selected from amino acid residues other than the second amino acid residue are substituted with other amino acid residues, and having an activity of generating CMP from cytosine. .

[Claim 17]

The amino acid sequence of the protein according to any one of claims 12 to 15, wherein the 36th, 46th, 94th, 102th, 121st, 141st, 143rd, 167th, 198th, 201st A protein having an amino acid sequence in which one or more amino acid residues selected from amino acid residues other than the 204th and 205th amino acids are substituted with other amino acid residues, and having an activity of generating CMP from cytosine.

[Claim 18]

DNA according to [1] or [2] below.

 [1] encodes the protein according to any one of claims 3 to 17; DN A

 [2] DNA having the base sequence represented by any of SEQ ID NOs: 3 to 5

 [Claim 19]

A recombinant DNA comprising the DNA of claim 18.

 [Claim 20]

A microorganism having the recombinant DNA according to claim 19.

 [Claim 21]

21. The microorganism according to claim 20, wherein the microorganism is a microorganism belonging to the genus Escherichia, Corynepacterum or Brevipacterium.

 [Claim 22]

The microorganism culture or treated product of the culture according to claim 20 or 21, cytosine, phosphate group donor and energy donor are present in an aqueous medium, and CMP is produced and accumulated in the medium. A method for producing CMP, characterized in that CMP is collected from the medium.

 [Claim 23]

22. The microorganism culture according to claim 20 or 21, or a treatment product of the culture, a culture of a microorganism belonging to the genus Corynebacterium or a treatment product of the culture, a cytosine, a phosphate donor and an energy donor. A method for producing CMP, characterized by being present in a medium, generating and accumulating CMP in the medium, and collecting the CMP from the medium. [Claim 24]

24. The production method according to claim 23, wherein the microorganism belonging to the genus Corynebataterium is Corynebataterium 'ammoniagenes.

 [Claim 2.5]

22. A microorganism culture according to claim 20 or 21, or a processed product of the culture, cytosine, a phosphate donor and an energy donor are present in an aqueous medium, and CMP is used to produce the medium. And manufacturing method of useful substances.