cmd.read_pdbstr("""\ HEADER HORMONE 07-FEB-19 6NWV \ TITLE INSULIN LISPRO ANALOG \ COMPND MOL_ID: 1; \ COMPND 2 MOLECULE: INSULIN A CHAIN; \ COMPND 3 CHAIN: A, C, E, G, I, K; \ COMPND 4 ENGINEERED: YES; \ COMPND 5 MOL_ID: 2; \ COMPND 6 MOLECULE: INSULIN LISPRO B CHAIN; \ COMPND 7 CHAIN: B, D, F, H, J, L; \ COMPND 8 ENGINEERED: YES; \ COMPND 9 MUTATION: YES \ SOURCE MOL_ID: 1; \ SOURCE 2 ORGANISM_SCIENTIFIC: HOMO SAPIENS; \ SOURCE 3 ORGANISM_COMMON: HUMAN; \ SOURCE 4 ORGANISM_TAXID: 9606; \ SOURCE 5 GENE: INS; \ SOURCE 6 EXPRESSION_SYSTEM: ESCHERICHIA COLI; \ SOURCE 7 EXPRESSION_SYSTEM_TAXID: 562; \ SOURCE 8 MOL_ID: 2; \ SOURCE 9 ORGANISM_SCIENTIFIC: HOMO SAPIENS; \ SOURCE 10 ORGANISM_COMMON: HUMAN; \ SOURCE 11 ORGANISM_TAXID: 9606; \ SOURCE 12 GENE: INS; \ SOURCE 13 EXPRESSION_SYSTEM: ESCHERICHIA COLI; \ SOURCE 14 EXPRESSION_SYSTEM_TAXID: 562 \ KEYWDS INSULIN ANALOG, DIABETES, HEXAMERIC., HORMONE \ EXPDTA X-RAY DIFFRACTION \ AUTHOR A.CRUZ-RANGEL,A.ROMERO,J.P.REYES-GRAJEDA \ REVDAT 3 13-NOV-24 6NWV 1 REMARK \ REVDAT 2 11-OCT-23 6NWV 1 LINK \ REVDAT 1 12-FEB-20 6NWV 0 \ JRNL AUTH A.CRUZ-RANGEL,A.ROMERO,J.P.REYES-GRAJEDA \ JRNL TITL CRYSTAL STRUCTURE OF LISPRO HEXAMERIC INSULIN ANALOG \ JRNL REF TO BE PUBLISHED \ JRNL REFN \ REMARK 2 \ REMARK 2 RESOLUTION. 1.60 ANGSTROMS. \ REMARK 3 \ REMARK 3 REFINEMENT. \ REMARK 3 PROGRAM : REFMAC 5.8.0238 \ REMARK 3 AUTHORS : MURSHUDOV,SKUBAK,LEBEDEV,PANNU,STEINER, \ REMARK 3 : NICHOLLS,WINN,LONG,VAGIN \ REMARK 3 \ REMARK 3 REFINEMENT TARGET : NULL \ REMARK 3 \ REMARK 3 DATA USED IN REFINEMENT. \ REMARK 3 RESOLUTION RANGE HIGH (ANGSTROMS) : 1.60 \ REMARK 3 RESOLUTION RANGE LOW (ANGSTROMS) : 42.96 \ REMARK 3 DATA CUTOFF (SIGMA(F)) : NULL \ REMARK 3 COMPLETENESS FOR RANGE (%) : 99.2 \ REMARK 3 NUMBER OF REFLECTIONS : 36083 \ REMARK 3 \ REMARK 3 FIT TO DATA USED IN REFINEMENT. \ REMARK 3 CROSS-VALIDATION METHOD : THROUGHOUT \ REMARK 3 FREE R VALUE TEST SET SELECTION : RANDOM \ REMARK 3 R VALUE (WORKING + TEST SET) : 0.213 \ REMARK 3 R VALUE (WORKING SET) : 0.208 \ REMARK 3 FREE R VALUE : 0.257 \ REMARK 3 FREE R VALUE TEST SET SIZE (%) : 10.100 \ REMARK 3 FREE R VALUE TEST SET COUNT : 4070 \ REMARK 3 \ REMARK 3 FIT IN THE HIGHEST RESOLUTION BIN. \ REMARK 3 TOTAL NUMBER OF BINS USED : 20 \ REMARK 3 BIN RESOLUTION RANGE HIGH (A) : 1.60 \ REMARK 3 BIN RESOLUTION RANGE LOW (A) : 1.64 \ REMARK 3 REFLECTION IN BIN (WORKING SET) : 2451 \ REMARK 3 BIN COMPLETENESS (WORKING+TEST) (%) : 91.00 \ REMARK 3 BIN R VALUE (WORKING SET) : 0.4620 \ REMARK 3 BIN FREE R VALUE SET COUNT : 270 \ REMARK 3 BIN FREE R VALUE : 0.4490 \ REMARK 3 \ REMARK 3 NUMBER OF NON-HYDROGEN ATOMS USED IN REFINEMENT. \ REMARK 3 PROTEIN ATOMS : 2299 \ REMARK 3 NUCLEIC ACID ATOMS : 0 \ REMARK 3 HETEROGEN ATOMS : 72 \ REMARK 3 SOLVENT ATOMS : 120 \ REMARK 3 \ REMARK 3 B VALUES. \ REMARK 3 FROM WILSON PLOT (A**2) : NULL \ REMARK 3 MEAN B VALUE (OVERALL, A**2) : 33.55 \ REMARK 3 OVERALL ANISOTROPIC B VALUE. \ REMARK 3 B11 (A**2) : 0.00000 \ REMARK 3 B22 (A**2) : 0.05000 \ REMARK 3 B33 (A**2) : -0.02000 \ REMARK 3 B12 (A**2) : 0.00000 \ REMARK 3 B13 (A**2) : -0.03000 \ REMARK 3 B23 (A**2) : 0.00000 \ REMARK 3 \ REMARK 3 ESTIMATED OVERALL COORDINATE ERROR. \ REMARK 3 ESU BASED ON R VALUE (A): 0.108 \ REMARK 3 ESU BASED ON FREE R VALUE (A): 0.113 \ REMARK 3 ESU BASED ON MAXIMUM LIKELIHOOD (A): 0.105 \ REMARK 3 ESU FOR B VALUES BASED ON MAXIMUM LIKELIHOOD (A**2): 3.387 \ REMARK 3 \ REMARK 3 CORRELATION COEFFICIENTS. \ REMARK 3 CORRELATION COEFFICIENT FO-FC : 0.967 \ REMARK 3 CORRELATION COEFFICIENT FO-FC FREE : 0.950 \ REMARK 3 \ REMARK 3 RMS DEVIATIONS FROM IDEAL VALUES COUNT RMS WEIGHT \ REMARK 3 BOND LENGTHS REFINED ATOMS (A): 2469 ; 0.008 ; 0.012 \ REMARK 3 BOND LENGTHS OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 BOND ANGLES REFINED ATOMS (DEGREES): 3340 ; 1.409 ; 1.634 \ REMARK 3 BOND ANGLES OTHERS (DEGREES): NULL ; NULL ; NULL \ REMARK 3 TORSION ANGLES, PERIOD 1 (DEGREES): 296 ; 5.970 ; 5.000 \ REMARK 3 TORSION ANGLES, PERIOD 2 (DEGREES): 116 ;33.453 ;23.621 \ REMARK 3 TORSION ANGLES, PERIOD 3 (DEGREES): 377 ;13.371 ;15.000 \ REMARK 3 TORSION ANGLES, PERIOD 4 (DEGREES): 6 ; 7.426 ;15.000 \ REMARK 3 CHIRAL-CENTER RESTRAINTS (A**3): 299 ; 0.106 ; 0.200 \ REMARK 3 GENERAL PLANES REFINED ATOMS (A): 1906 ; 0.008 ; 0.020 \ REMARK 3 GENERAL PLANES OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 NON-BONDED CONTACTS REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 NON-BONDED CONTACTS OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 NON-BONDED TORSION REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 NON-BONDED TORSION OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 H-BOND (X...Y) REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 H-BOND (X...Y) OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 POTENTIAL METAL-ION REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 POTENTIAL METAL-ION OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 SYMMETRY VDW REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 SYMMETRY VDW OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 SYMMETRY H-BOND REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 SYMMETRY H-BOND OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 SYMMETRY METAL-ION REFINED ATOMS (A): NULL ; NULL ; NULL \ REMARK 3 SYMMETRY METAL-ION OTHERS (A): NULL ; NULL ; NULL \ REMARK 3 \ REMARK 3 ISOTROPIC THERMAL FACTOR RESTRAINTS. COUNT RMS WEIGHT \ REMARK 3 MAIN-CHAIN BOND REFINED ATOMS (A**2): 1189 ; 2.831 ; 3.277 \ REMARK 3 MAIN-CHAIN BOND OTHER ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 MAIN-CHAIN ANGLE REFINED ATOMS (A**2): 1471 ; 3.971 ; 4.863 \ REMARK 3 MAIN-CHAIN ANGLE OTHER ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 SIDE-CHAIN BOND REFINED ATOMS (A**2): 1280 ; 3.657 ; 3.563 \ REMARK 3 SIDE-CHAIN BOND OTHER ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 SIDE-CHAIN ANGLE REFINED ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 SIDE-CHAIN ANGLE OTHER ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 LONG RANGE B REFINED ATOMS (A**2): 3797 ; 7.100 ;45.066 \ REMARK 3 LONG RANGE B OTHER ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 \ REMARK 3 ANISOTROPIC THERMAL FACTOR RESTRAINTS. COUNT RMS WEIGHT \ REMARK 3 RIGID-BOND RESTRAINTS (A**2): NULL ; NULL ; NULL \ REMARK 3 SPHERICITY; FREE ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 SPHERICITY; BONDED ATOMS (A**2): NULL ; NULL ; NULL \ REMARK 3 \ REMARK 3 NCS RESTRAINTS STATISTICS \ REMARK 3 NUMBER OF DIFFERENT NCS GROUPS : NULL \ REMARK 3 \ REMARK 3 TLS DETAILS \ REMARK 3 NUMBER OF TLS GROUPS : NULL \ REMARK 3 \ REMARK 3 BULK SOLVENT MODELLING. \ REMARK 3 METHOD USED : NULL \ REMARK 3 PARAMETERS FOR MASK CALCULATION \ REMARK 3 VDW PROBE RADIUS : 1.20 \ REMARK 3 ION PROBE RADIUS : 0.80 \ REMARK 3 SHRINKAGE RADIUS : 0.80 \ REMARK 3 \ REMARK 3 OTHER REFINEMENT REMARKS: NULL \ REMARK 4 \ REMARK 4 6NWV COMPLIES WITH FORMAT V. 3.30, 13-JUL-11 \ REMARK 100 \ REMARK 100 THIS ENTRY HAS BEEN PROCESSED BY RCSB ON 08-FEB-19. \ REMARK 100 THE DEPOSITION ID IS D_1000239577. \ REMARK 200 \ REMARK 200 EXPERIMENTAL DETAILS \ REMARK 200 EXPERIMENT TYPE : X-RAY DIFFRACTION \ REMARK 200 DATE OF DATA COLLECTION : 06-JUL-16 \ REMARK 200 TEMPERATURE (KELVIN) : 100 \ REMARK 200 PH : 7.5 \ REMARK 200 NUMBER OF CRYSTALS USED : 1 \ REMARK 200 \ REMARK 200 SYNCHROTRON (Y/N) : Y \ REMARK 200 RADIATION SOURCE : ALBA \ REMARK 200 BEAMLINE : XALOC \ REMARK 200 X-RAY GENERATOR MODEL : NULL \ REMARK 200 MONOCHROMATIC OR LAUE (M/L) : M \ REMARK 200 WAVELENGTH OR RANGE (A) : 0.95 \ REMARK 200 MONOCHROMATOR : NULL \ REMARK 200 OPTICS : NULL \ REMARK 200 \ REMARK 200 DETECTOR TYPE : PIXEL \ REMARK 200 DETECTOR MANUFACTURER : DECTRIS PILATUS 6M \ REMARK 200 INTENSITY-INTEGRATION SOFTWARE : XDS \ REMARK 200 DATA SCALING SOFTWARE : SCALA \ REMARK 200 \ REMARK 200 NUMBER OF UNIQUE REFLECTIONS : 40488 \ REMARK 200 RESOLUTION RANGE HIGH (A) : 1.601 \ REMARK 200 RESOLUTION RANGE LOW (A) : 42.960 \ REMARK 200 REJECTION CRITERIA (SIGMA(I)) : NULL \ REMARK 200 \ REMARK 200 OVERALL. \ REMARK 200 COMPLETENESS FOR RANGE (%) : 99.7 \ REMARK 200 DATA REDUNDANCY : 6.800 \ REMARK 200 R MERGE (I) : 0.10100 \ REMARK 200 R SYM (I) : NULL \ REMARK 200 FOR THE DATA SET : 10.4000 \ REMARK 200 \ REMARK 200 IN THE HIGHEST RESOLUTION SHELL. \ REMARK 200 HIGHEST RESOLUTION SHELL, RANGE HIGH (A) : 1.60 \ REMARK 200 HIGHEST RESOLUTION SHELL, RANGE LOW (A) : 1.69 \ REMARK 200 COMPLETENESS FOR SHELL (%) : NULL \ REMARK 200 DATA REDUNDANCY IN SHELL : NULL \ REMARK 200 R MERGE FOR SHELL (I) : 1.85600 \ REMARK 200 R SYM FOR SHELL (I) : NULL \ REMARK 200 FOR SHELL : NULL \ REMARK 200 \ REMARK 200 DIFFRACTION PROTOCOL: SINGLE WAVELENGTH \ REMARK 200 METHOD USED TO DETERMINE THE STRUCTURE: MOLECULAR REPLACEMENT \ REMARK 200 SOFTWARE USED: MOLREP \ REMARK 200 STARTING MODEL: 1EV6 \ REMARK 200 \ REMARK 200 REMARK: NULL \ REMARK 280 \ REMARK 280 CRYSTAL \ REMARK 280 SOLVENT CONTENT, VS (%): 43.12 \ REMARK 280 MATTHEWS COEFFICIENT, VM (ANGSTROMS**3/DA): 2.16 \ REMARK 280 \ REMARK 280 CRYSTALLIZATION CONDITIONS: 0.1 M HEPES SODIUM PH 7.5; 0.4 M \ REMARK 280 POTASSIUM SODIUM TARTRATE TETRAHYDRATE., VAPOR DIFFUSION, \ REMARK 280 SITTING DROP, TEMPERATURE 298K \ REMARK 290 \ REMARK 290 CRYSTALLOGRAPHIC SYMMETRY \ REMARK 290 SYMMETRY OPERATORS FOR SPACE GROUP: P 1 21 1 \ REMARK 290 \ REMARK 290 SYMOP SYMMETRY \ REMARK 290 NNNMMM OPERATOR \ REMARK 290 1555 X,Y,Z \ REMARK 290 2555 -X,Y+1/2,-Z \ REMARK 290 \ REMARK 290 WHERE NNN -> OPERATOR NUMBER \ REMARK 290 MMM -> TRANSLATION VECTOR \ REMARK 290 \ REMARK 290 CRYSTALLOGRAPHIC SYMMETRY TRANSFORMATIONS \ REMARK 290 THE FOLLOWING TRANSFORMATIONS OPERATE ON THE ATOM/HETATM \ REMARK 290 RECORDS IN THIS ENTRY TO PRODUCE CRYSTALLOGRAPHICALLY \ REMARK 290 RELATED MOLECULES. \ REMARK 290 SMTRY1 1 1.000000 0.000000 0.000000 0.00000 \ REMARK 290 SMTRY2 1 0.000000 1.000000 0.000000 0.00000 \ REMARK 290 SMTRY3 1 0.000000 0.000000 1.000000 0.00000 \ REMARK 290 SMTRY1 2 -1.000000 0.000000 0.000000 0.00000 \ REMARK 290 SMTRY2 2 0.000000 1.000000 0.000000 30.89450 \ REMARK 290 SMTRY3 2 0.000000 0.000000 -1.000000 0.00000 \ REMARK 290 \ REMARK 290 REMARK: NULL \ REMARK 300 \ REMARK 300 BIOMOLECULE: 1 \ REMARK 300 SEE REMARK 350 FOR THE AUTHOR PROVIDED AND/OR PROGRAM \ REMARK 300 GENERATED ASSEMBLY INFORMATION FOR THE STRUCTURE IN \ REMARK 300 THIS ENTRY. THE REMARK MAY ALSO PROVIDE INFORMATION ON \ REMARK 300 BURIED SURFACE AREA. \ REMARK 350 \ REMARK 350 COORDINATES FOR A COMPLETE MULTIMER REPRESENTING THE KNOWN \ REMARK 350 BIOLOGICALLY SIGNIFICANT OLIGOMERIZATION STATE OF THE \ REMARK 350 MOLECULE CAN BE GENERATED BY APPLYING BIOMT TRANSFORMATIONS \ REMARK 350 GIVEN BELOW. BOTH NON-CRYSTALLOGRAPHIC AND \ REMARK 350 CRYSTALLOGRAPHIC OPERATIONS ARE GIVEN. \ REMARK 350 \ REMARK 350 BIOMOLECULE: 1 \ REMARK 350 AUTHOR DETERMINED BIOLOGICAL UNIT: DODECAMERIC \ REMARK 350 SOFTWARE DETERMINED QUATERNARY STRUCTURE: DODECAMERIC \ REMARK 350 SOFTWARE USED: PISA \ REMARK 350 TOTAL BURIED SURFACE AREA: 20020 ANGSTROM**2 \ REMARK 350 SURFACE AREA OF THE COMPLEX: 13850 ANGSTROM**2 \ REMARK 350 CHANGE IN SOLVENT FREE ENERGY: -213.0 KCAL/MOL \ REMARK 350 APPLY THE FOLLOWING TO CHAINS: A, B, C, D, E, F, G, H, I, J, \ REMARK 350 AND CHAINS: K, L \ REMARK 350 BIOMT1 1 1.000000 0.000000 0.000000 0.00000 \ REMARK 350 BIOMT2 1 0.000000 1.000000 0.000000 0.00000 \ REMARK 350 BIOMT3 1 0.000000 0.000000 1.000000 0.00000 \ REMARK 465 \ REMARK 465 MISSING RESIDUES \ REMARK 465 THE FOLLOWING RESIDUES WERE NOT LOCATED IN THE \ REMARK 465 EXPERIMENT. (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN \ REMARK 465 IDENTIFIER; SSSEQ=SEQUENCE NUMBER; I=INSERTION CODE.) \ REMARK 465 \ REMARK 465 M RES C SSSEQI \ REMARK 465 PRO B 29 \ REMARK 465 THR B 30 \ REMARK 465 PHE J 1 \ REMARK 465 VAL J 2 \ REMARK 465 PRO J 29 \ REMARK 465 THR J 30 \ REMARK 470 \ REMARK 470 MISSING ATOM \ REMARK 470 THE FOLLOWING RESIDUES HAVE MISSING ATOMS (M=MODEL NUMBER; \ REMARK 470 RES=RESIDUE NAME; C=CHAIN IDENTIFIER; SSEQ=SEQUENCE NUMBER; \ REMARK 470 I=INSERTION CODE): \ REMARK 470 M RES CSSEQI ATOMS \ REMARK 470 GLU A 4 OE1 OE2 \ REMARK 470 PHE B 1 N CA CB CG CD1 CD2 CE1 \ REMARK 470 PHE B 1 CE2 CZ \ REMARK 470 GLU C 4 CG CD \ REMARK 470 TYR C 14 CD1 CD2 CE1 CE2 CZ OH \ REMARK 470 PRO D 29 CA C O CB CG CD \ REMARK 470 THR D 30 CB OG1 CG2 \ REMARK 470 TYR E 14 CE1 CZ OH \ REMARK 470 PHE F 1 CG CD1 CD2 CE1 CZ \ REMARK 470 GLU F 21 CG CD OE1 OE2 \ REMARK 470 THR F 30 CA C O CB OG1 CG2 \ REMARK 470 GLU G 4 OE2 \ REMARK 470 GLU H 21 OE1 OE2 \ REMARK 470 PRO H 29 CB CG CD \ REMARK 470 THR H 30 CA C O CB OG1 CG2 \ REMARK 470 ASN J 3 N \ REMARK 470 GLU J 21 CD OE1 OE2 \ REMARK 470 LYS J 28 CG CD \ REMARK 470 GLU K 4 CG CD OE1 OE2 \ REMARK 470 GLN K 5 CG CD OE1 NE2 \ REMARK 470 TYR K 14 CD1 CE1 OH \ REMARK 470 ASN K 21 OD1 ND2 \ REMARK 470 GLU L 21 OE1 \ REMARK 470 PRO L 29 CG \ REMARK 470 THR L 30 CA C O \ REMARK 500 \ REMARK 500 GEOMETRY AND STEREOCHEMISTRY \ REMARK 500 SUBTOPIC: CLOSE CONTACTS IN SAME ASYMMETRIC UNIT \ REMARK 500 \ REMARK 500 THE FOLLOWING ATOMS ARE IN CLOSE CONTACT. \ REMARK 500 \ REMARK 500 ATM1 RES C SSEQI ATM2 RES C SSEQI DISTANCE \ REMARK 500 NZ LYS H 28 O HOH H 101 0.77 \ REMARK 500 NZ LYS D 28 O HOH D 201 1.70 \ REMARK 500 O3 GOL F 102 O HOH F 201 1.75 \ REMARK 500 CG1 VAL G 3 OE1 GLN H 4 1.84 \ REMARK 500 O LEU J 6 OG SER J 9 2.06 \ REMARK 500 CG1 VAL G 3 CD GLN H 4 2.09 \ REMARK 500 \ REMARK 500 REMARK: NULL \ REMARK 500 \ REMARK 500 GEOMETRY AND STEREOCHEMISTRY \ REMARK 500 SUBTOPIC: COVALENT BOND ANGLES \ REMARK 500 \ REMARK 500 THE STEREOCHEMICAL PARAMETERS OF THE FOLLOWING RESIDUES \ REMARK 500 HAVE VALUES WHICH DEVIATE FROM EXPECTED VALUES BY MORE \ REMARK 500 THAN 6*RMSD (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN \ REMARK 500 IDENTIFIER; SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). \ REMARK 500 \ REMARK 500 STANDARD TABLE: \ REMARK 500 FORMAT: (10X,I3,1X,A3,1X,A1,I4,A1,3(1X,A4,2X),12X,F5.1) \ REMARK 500 \ REMARK 500 EXPECTED VALUES PROTEIN: ENGH AND HUBER, 1999 \ REMARK 500 EXPECTED VALUES NUCLEIC ACID: CLOWNEY ET AL 1996 \ REMARK 500 \ REMARK 500 M RES CSSEQI ATM1 ATM2 ATM3 \ REMARK 500 LYS D 28 O - C - N ANGL. DEV. = -11.8 DEGREES \ REMARK 500 \ REMARK 500 REMARK: NULL \ REMARK 500 \ REMARK 500 GEOMETRY AND STEREOCHEMISTRY \ REMARK 500 SUBTOPIC: TORSION ANGLES \ REMARK 500 \ REMARK 500 TORSION ANGLES OUTSIDE THE EXPECTED RAMACHANDRAN REGIONS: \ REMARK 500 (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN IDENTIFIER; \ REMARK 500 SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). \ REMARK 500 \ REMARK 500 STANDARD TABLE: \ REMARK 500 FORMAT:(10X,I3,1X,A3,1X,A1,I4,A1,4X,F7.2,3X,F7.2) \ REMARK 500 \ REMARK 500 EXPECTED VALUES: GJ KLEYWEGT AND TA JONES (1996). PHI/PSI- \ REMARK 500 CHOLOGY: RAMACHANDRAN REVISITED. STRUCTURE 4, 1395 - 1400 \ REMARK 500 \ REMARK 500 M RES CSSEQI PSI PHI \ REMARK 500 PHE H 24 146.85 -171.18 \ REMARK 500 LYS H 28 133.67 85.13 \ REMARK 500 PRO H 29 -115.93 -70.71 \ REMARK 500 \ REMARK 500 REMARK: NULL \ REMARK 500 \ REMARK 500 GEOMETRY AND STEREOCHEMISTRY \ REMARK 500 SUBTOPIC: MAIN CHAIN PLANARITY \ REMARK 500 \ REMARK 500 THE FOLLOWING RESIDUES HAVE A PSEUDO PLANARITY \ REMARK 500 TORSION ANGLE, C(I) - CA(I) - N(I+1) - O(I), GREATER \ REMARK 500 10.0 DEGREES. (M=MODEL NUMBER; RES=RESIDUE NAME; \ REMARK 500 C=CHAIN IDENTIFIER; SSEQ=SEQUENCE NUMBER; \ REMARK 500 I=INSERTION CODE). \ REMARK 500 \ REMARK 500 M RES CSSEQI ANGLE \ REMARK 500 LYS D 28 -12.67 \ REMARK 500 PHE H 25 10.22 \ REMARK 500 PHE H 25 10.78 \ REMARK 500 \ REMARK 500 REMARK: NULL \ REMARK 620 \ REMARK 620 METAL COORDINATION \ REMARK 620 (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN IDENTIFIER; \ REMARK 620 SSEQ=SEQUENCE NUMBER; I=INSERTION CODE): \ REMARK 620 \ REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL \ REMARK 620 ZN B 101 ZN \ REMARK 620 N RES CSSEQI ATOM \ REMARK 620 1 HIS B 10 NE2 \ REMARK 620 2 HIS D 10 NE2 116.6 \ REMARK 620 3 HIS L 10 NE2 111.3 112.0 \ REMARK 620 N 1 2 \ REMARK 620 \ REMARK 620 COORDINATION ANGLES FOR: M RES CSSEQI METAL \ REMARK 620 ZN F 101 ZN \ REMARK 620 N RES CSSEQI ATOM \ REMARK 620 1 HIS F 10 NE2 \ REMARK 620 2 HIS H 10 NE2 112.3 \ REMARK 620 3 HIS J 10 NE2 119.9 114.6 \ REMARK 620 N 1 2 \ REMARK 800 \ REMARK 800 SITE \ REMARK 800 SITE_IDENTIFIER: AC1 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS A 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC2 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue ZN B 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC3 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS C 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC4 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue GOL D 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC5 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS E 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC6 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue ZN F 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC7 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue GOL F 102 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC8 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS G 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AC9 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS G 102 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AD1 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS I 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AD2 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CL J 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AD3 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CRS K 101 \ REMARK 800 \ REMARK 800 SITE_IDENTIFIER: AD4 \ REMARK 800 EVIDENCE_CODE: SOFTWARE \ REMARK 800 SITE_DESCRIPTION: binding site for residue CL L 101 \ DBREF 6NWV A 1 21 UNP P01308 INS_HUMAN 90 110 \ DBREF 6NWV B 1 30 UNP P01308 INS_HUMAN 25 54 \ DBREF 6NWV C 1 21 UNP P01308 INS_HUMAN 90 110 \ DBREF 6NWV D 1 30 UNP P01308 INS_HUMAN 25 54 \ DBREF 6NWV E 1 21 UNP P01308 INS_HUMAN 90 110 \ DBREF 6NWV F 1 30 UNP P01308 INS_HUMAN 25 54 \ DBREF 6NWV G 1 21 UNP P01308 INS_HUMAN 90 110 \ DBREF 6NWV H 1 30 UNP P01308 INS_HUMAN 25 54 \ DBREF 6NWV I 1 21 UNP P01308 INS_HUMAN 90 110 \ DBREF 6NWV J 1 30 UNP P01308 INS_HUMAN 25 54 \ DBREF 6NWV K 1 21 UNP P01308 INS_HUMAN 90 110 \ DBREF 6NWV L 1 30 UNP P01308 INS_HUMAN 25 54 \ SEQADV 6NWV LYS B 28 UNP P01308 PRO 52 ENGINEERED MUTATION \ SEQADV 6NWV PRO B 29 UNP P01308 LYS 53 ENGINEERED MUTATION \ SEQADV 6NWV LYS D 28 UNP P01308 PRO 52 ENGINEERED MUTATION \ SEQADV 6NWV PRO D 29 UNP P01308 LYS 53 ENGINEERED MUTATION \ SEQADV 6NWV LYS F 28 UNP P01308 PRO 52 ENGINEERED MUTATION \ SEQADV 6NWV PRO F 29 UNP P01308 LYS 53 ENGINEERED MUTATION \ SEQADV 6NWV LYS H 28 UNP P01308 PRO 52 ENGINEERED MUTATION \ SEQADV 6NWV PRO H 29 UNP P01308 LYS 53 ENGINEERED MUTATION \ SEQADV 6NWV LYS J 28 UNP P01308 PRO 52 ENGINEERED MUTATION \ SEQADV 6NWV PRO J 29 UNP P01308 LYS 53 ENGINEERED MUTATION \ SEQADV 6NWV LYS L 28 UNP P01308 PRO 52 ENGINEERED MUTATION \ SEQADV 6NWV PRO L 29 UNP P01308 LYS 53 ENGINEERED MUTATION \ SEQRES 1 A 21 GLY ILE VAL GLU GLN CYS CYS THR SER ILE CYS SER LEU \ SEQRES 2 A 21 TYR GLN LEU GLU ASN TYR CYS ASN \ SEQRES 1 B 30 PHE VAL ASN GLN HIS LEU CYS GLY SER HIS LEU VAL GLU \ SEQRES 2 B 30 ALA LEU TYR LEU VAL CYS GLY GLU ARG GLY PHE PHE TYR \ SEQRES 3 B 30 THR LYS PRO THR \ SEQRES 1 C 21 GLY ILE VAL GLU GLN CYS CYS THR SER ILE CYS SER LEU \ SEQRES 2 C 21 TYR GLN LEU GLU ASN TYR CYS ASN \ SEQRES 1 D 30 PHE VAL ASN GLN HIS LEU CYS GLY SER HIS LEU VAL GLU \ SEQRES 2 D 30 ALA LEU TYR LEU VAL CYS GLY GLU ARG GLY PHE PHE TYR \ SEQRES 3 D 30 THR LYS PRO THR \ SEQRES 1 E 21 GLY ILE VAL GLU GLN CYS CYS THR SER ILE CYS SER LEU \ SEQRES 2 E 21 TYR GLN LEU GLU ASN TYR CYS ASN \ SEQRES 1 F 30 PHE VAL ASN GLN HIS LEU CYS GLY SER HIS LEU VAL GLU \ SEQRES 2 F 30 ALA LEU TYR LEU VAL CYS GLY GLU ARG GLY PHE PHE TYR \ SEQRES 3 F 30 THR LYS PRO THR \ SEQRES 1 G 21 GLY ILE VAL GLU GLN CYS CYS THR SER ILE CYS SER LEU \ SEQRES 2 G 21 TYR GLN LEU GLU ASN TYR CYS ASN \ SEQRES 1 H 30 PHE VAL ASN GLN HIS LEU CYS GLY SER HIS LEU VAL GLU \ SEQRES 2 H 30 ALA LEU TYR LEU VAL CYS GLY GLU ARG GLY PHE PHE TYR \ SEQRES 3 H 30 THR LYS PRO THR \ SEQRES 1 I 21 GLY ILE VAL GLU GLN CYS CYS THR SER ILE CYS SER LEU \ SEQRES 2 I 21 TYR GLN LEU GLU ASN TYR CYS ASN \ SEQRES 1 J 30 PHE VAL ASN GLN HIS LEU CYS GLY SER HIS LEU VAL GLU \ SEQRES 2 J 30 ALA LEU TYR LEU VAL CYS GLY GLU ARG GLY PHE PHE TYR \ SEQRES 3 J 30 THR LYS PRO THR \ SEQRES 1 K 21 GLY ILE VAL GLU GLN CYS CYS THR SER ILE CYS SER LEU \ SEQRES 2 K 21 TYR GLN LEU GLU ASN TYR CYS ASN \ SEQRES 1 L 30 PHE VAL ASN GLN HIS LEU CYS GLY SER HIS LEU VAL GLU \ SEQRES 2 L 30 ALA LEU TYR LEU VAL CYS GLY GLU ARG GLY PHE PHE TYR \ SEQRES 3 L 30 THR LYS PRO THR \ HET CRS A 101 8 \ HET ZN B 101 1 \ HET CRS C 101 8 \ HET GOL D 101 6 \ HET CRS E 101 8 \ HET ZN F 101 1 \ HET GOL F 102 6 \ HET CRS G 101 8 \ HET CRS G 102 8 \ HET CRS I 101 8 \ HET CL J 101 1 \ HET CRS K 101 8 \ HET CL L 101 1 \ HETNAM CRS M-CRESOL \ HETNAM ZN ZINC ION \ HETNAM GOL GLYCEROL \ HETNAM CL CHLORIDE ION \ HETSYN GOL GLYCERIN; PROPANE-1,2,3-TRIOL \ FORMUL 13 CRS 7(C7 H8 O) \ FORMUL 14 ZN 2(ZN 2+) \ FORMUL 16 GOL 2(C3 H8 O3) \ FORMUL 23 CL 2(CL 1-) \ FORMUL 26 HOH *120(H2 O) \ HELIX 1 AA1 GLY A 1 CYS A 7 1 7 \ HELIX 2 AA2 SER A 12 GLU A 17 1 6 \ HELIX 3 AA3 ASN A 18 CYS A 20 5 3 \ HELIX 4 AA4 VAL B 2 CYS B 19 1 18 \ HELIX 5 AA5 GLY B 20 GLY B 23 5 4 \ HELIX 6 AA6 ILE C 2 CYS C 7 1 6 \ HELIX 7 AA7 SER C 12 GLU C 17 1 6 \ HELIX 8 AA8 ASN C 18 CYS C 20 5 3 \ HELIX 9 AA9 VAL D 2 GLY D 20 1 19 \ HELIX 10 AB1 GLU D 21 GLY D 23 5 3 \ HELIX 11 AB2 ILE E 2 CYS E 7 1 6 \ HELIX 12 AB3 SER E 12 GLU E 17 1 6 \ HELIX 13 AB4 ASN E 18 CYS E 20 5 3 \ HELIX 14 AB5 VAL F 2 GLY F 20 1 19 \ HELIX 15 AB6 GLU F 21 GLY F 23 5 3 \ HELIX 16 AB7 ILE G 2 CYS G 7 1 6 \ HELIX 17 AB8 SER G 12 GLU G 17 1 6 \ HELIX 18 AB9 ASN G 18 CYS G 20 5 3 \ HELIX 19 AC1 VAL H 2 GLY H 20 1 19 \ HELIX 20 AC2 GLU H 21 GLY H 23 5 3 \ HELIX 21 AC3 ILE I 2 CYS I 7 1 6 \ HELIX 22 AC4 SER I 12 ASN I 18 1 7 \ HELIX 23 AC5 GLN J 4 GLY J 20 1 17 \ HELIX 24 AC6 GLU J 21 GLY J 23 5 3 \ HELIX 25 AC7 ILE K 2 CYS K 7 1 6 \ HELIX 26 AC8 SER K 12 ASN K 18 1 7 \ HELIX 27 AC9 VAL L 2 GLY L 20 1 19 \ SHEET 1 AA1 2 PHE B 24 TYR B 26 0 \ SHEET 2 AA1 2 PHE H 24 TYR H 26 -1 O TYR H 26 N PHE B 24 \ SHEET 1 AA2 2 PHE D 24 TYR D 26 0 \ SHEET 2 AA2 2 PHE F 24 TYR F 26 -1 O TYR F 26 N PHE D 24 \ SHEET 1 AA3 2 PHE J 24 TYR J 26 0 \ SHEET 2 AA3 2 PHE L 24 TYR L 26 -1 O PHE L 24 N TYR J 26 \ SSBOND 1 CYS A 6 CYS A 11 1555 1555 1.84 \ SSBOND 2 CYS A 7 CYS B 7 1555 1555 2.04 \ SSBOND 3 CYS A 20 CYS B 19 1555 1555 2.06 \ SSBOND 4 CYS C 6 CYS C 11 1555 1555 1.99 \ SSBOND 5 CYS C 7 CYS D 7 1555 1555 1.91 \ SSBOND 6 CYS C 20 CYS D 19 1555 1555 2.08 \ SSBOND 7 CYS E 6 CYS E 11 1555 1555 1.95 \ SSBOND 8 CYS E 7 CYS F 7 1555 1555 1.97 \ SSBOND 9 CYS E 20 CYS F 19 1555 1555 1.95 \ SSBOND 10 CYS G 6 CYS G 11 1555 1555 1.92 \ SSBOND 11 CYS G 7 CYS H 7 1555 1555 1.99 \ SSBOND 12 CYS G 20 CYS H 19 1555 1555 1.96 \ SSBOND 13 CYS I 6 CYS I 11 1555 1555 1.95 \ SSBOND 14 CYS I 7 CYS J 7 1555 1555 2.13 \ SSBOND 15 CYS I 20 CYS J 19 1555 1555 2.04 \ SSBOND 16 CYS K 6 CYS K 11 1555 1555 1.87 \ SSBOND 17 CYS K 7 CYS L 7 1555 1555 1.94 \ SSBOND 18 CYS K 20 CYS L 19 1555 1555 1.87 \ LINK NE2 HIS B 10 ZN ZN B 101 1555 1555 1.93 \ LINK ZN ZN B 101 NE2 HIS D 10 1555 1555 2.06 \ LINK ZN ZN B 101 NE2 HIS L 10 1555 1555 1.93 \ LINK NE2 HIS F 10 ZN ZN F 101 1555 1555 2.15 \ LINK ZN ZN F 101 NE2 HIS H 10 1555 1555 1.92 \ LINK ZN ZN F 101 NE2 HIS J 10 1555 1555 2.02 \ SITE 1 AC1 6 CYS A 6 SER A 9 ILE A 10 CYS A 11 \ SITE 2 AC1 6 LEU B 11 LEU F 17 \ SITE 1 AC2 4 HIS B 10 HIS D 10 HIS L 10 CL L 101 \ SITE 1 AC3 6 CYS C 6 ILE C 10 CYS C 11 LEU D 11 \ SITE 2 AC3 6 LEU J 17 LEU L 6 \ SITE 1 AC4 6 CYS C 7 ASN D 3 CYS D 7 HOH D 205 \ SITE 2 AC4 6 ASN L 3 HOH L 210 \ SITE 1 AC5 6 LEU B 17 CYS E 6 ILE E 10 CYS E 11 \ SITE 2 AC5 6 HIS F 10 LEU F 11 \ SITE 1 AC6 4 HIS F 10 HIS H 10 HIS J 10 CL J 101 \ SITE 1 AC7 8 ILE A 10 CYS A 11 SER A 12 HIS D 5 \ SITE 2 AC7 8 TYR F 16 LEU F 17 GLY F 20 HOH F 201 \ SITE 1 AC8 9 CYS G 6 SER G 9 ILE G 10 CYS G 11 \ SITE 2 AC8 9 LEU G 16 LEU H 11 ALA H 14 LEU J 6 \ SITE 3 AC8 9 LEU L 17 \ SITE 1 AC9 5 LEU G 13 TYR G 14 LEU K 13 TYR K 14 \ SITE 2 AC9 5 GLU K 17 \ SITE 1 AD1 7 LEU D 17 CYS I 6 SER I 9 ILE I 10 \ SITE 2 AD1 7 CYS I 11 LEU I 16 LEU J 11 \ SITE 1 AD2 4 HIS F 10 ZN F 101 HIS H 10 HIS J 10 \ SITE 1 AD3 7 HIS B 5 LEU H 17 CYS K 6 SER K 9 \ SITE 2 AD3 7 ILE K 10 CYS K 11 LEU L 11 \ SITE 1 AD4 4 HIS B 10 ZN B 101 HIS D 10 HIS L 10 \ CRYST1 46.161 61.789 58.618 90.00 111.46 90.00 P 1 21 1 12 \ ORIGX1 1.000000 0.000000 0.000000 0.00000 \ ORIGX2 0.000000 1.000000 0.000000 0.00000 \ ORIGX3 0.000000 0.000000 1.000000 0.00000 \ SCALE1 0.021663 0.000000 0.008516 0.00000 \ SCALE2 0.000000 0.016184 0.000000 0.00000 \ SCALE3 0.000000 0.000000 0.018331 0.00000 \ TER 162 ASN A 21 \ TER 381 LYS B 28 \ TER 545 ASN C 21 \ TER 785 THR D 30 \ TER 946 ASN E 21 \ TER 1180 THR F 30 \ TER 1352 ASN G 21 \ TER 1597 THR H 30 \ TER 1761 ASN I 21 \ ATOM 1762 CA ASN J 3 9.215 -25.993 18.993 1.00 28.29 C \ ATOM 1763 C ASN J 3 9.512 -26.197 17.510 1.00 30.34 C \ ATOM 1764 O ASN J 3 10.416 -25.513 17.062 1.00 27.68 O \ ATOM 1765 CB ASN J 3 10.159 -26.708 19.952 1.00 27.50 C \ ATOM 1766 CG ASN J 3 9.979 -28.198 20.083 1.00 28.98 C \ ATOM 1767 OD1 ASN J 3 8.943 -28.740 19.769 1.00 30.96 O \ ATOM 1768 ND2 ASN J 3 11.001 -28.859 20.582 1.00 36.83 N \ ATOM 1769 N GLN J 4 8.770 -27.047 16.807 1.00 30.29 N \ ATOM 1770 CA GLN J 4 9.093 -27.308 15.386 1.00 30.95 C \ ATOM 1771 C GLN J 4 8.908 -26.038 14.560 1.00 28.72 C \ ATOM 1772 O GLN J 4 9.685 -25.805 13.676 1.00 24.97 O \ ATOM 1773 CB GLN J 4 8.274 -28.482 14.861 1.00 36.44 C \ ATOM 1774 CG GLN J 4 7.967 -29.519 15.933 1.00 47.84 C \ ATOM 1775 CD GLN J 4 9.218 -30.243 16.334 1.00 45.61 C \ ATOM 1776 OE1 GLN J 4 10.300 -29.821 15.993 1.00 54.08 O \ ATOM 1777 NE2 GLN J 4 9.084 -31.330 17.058 1.00 42.39 N \ ATOM 1778 N HIS J 5 7.920 -25.238 14.893 1.00 25.17 N \ ATOM 1779 CA HIS J 5 7.661 -24.013 14.107 1.00 28.02 C \ ATOM 1780 C HIS J 5 8.801 -22.994 14.228 1.00 26.91 C \ ATOM 1781 O HIS J 5 9.143 -22.372 13.241 1.00 24.93 O \ ATOM 1782 CB HIS J 5 6.367 -23.382 14.613 1.00 28.56 C \ ATOM 1783 CG HIS J 5 6.031 -22.133 13.893 1.00 30.18 C \ ATOM 1784 ND1 HIS J 5 5.759 -22.121 12.571 1.00 32.46 N \ ATOM 1785 CD2 HIS J 5 5.931 -20.864 14.309 1.00 34.00 C \ ATOM 1786 CE1 HIS J 5 5.481 -20.907 12.191 1.00 32.56 C \ ATOM 1787 NE2 HIS J 5 5.596 -20.126 13.230 1.00 32.50 N \ ATOM 1788 N LEU J 6 9.296 -22.781 15.434 1.00 25.98 N \ ATOM 1789 CA LEU J 6 10.356 -21.770 15.649 1.00 27.03 C \ ATOM 1790 C LEU J 6 11.673 -22.347 15.137 1.00 25.95 C \ ATOM 1791 O LEU J 6 12.425 -21.599 14.575 1.00 25.60 O \ ATOM 1792 CB LEU J 6 10.391 -21.366 17.123 1.00 26.98 C \ ATOM 1793 CG LEU J 6 9.119 -20.675 17.603 1.00 31.19 C \ ATOM 1794 CD1 LEU J 6 9.245 -20.201 19.027 1.00 26.19 C \ ATOM 1795 CD2 LEU J 6 8.750 -19.521 16.701 1.00 29.10 C \ ATOM 1796 N CYS J 7 11.875 -23.643 15.325 1.00 24.80 N \ ATOM 1797 CA CYS J 7 13.067 -24.334 14.792 1.00 25.26 C \ ATOM 1798 C CYS J 7 13.095 -24.104 13.277 1.00 26.50 C \ ATOM 1799 O CYS J 7 14.141 -23.790 12.768 1.00 25.46 O \ ATOM 1800 CB CYS J 7 13.006 -25.821 15.090 1.00 26.31 C \ ATOM 1801 SG CYS J 7 14.368 -26.738 14.336 1.00 29.52 S \ ATOM 1802 N GLY J 8 11.941 -24.232 12.632 1.00 23.14 N \ ATOM 1803 CA GLY J 8 11.795 -24.003 11.186 1.00 25.43 C \ ATOM 1804 C GLY J 8 12.200 -22.593 10.782 1.00 24.95 C \ ATOM 1805 O GLY J 8 12.805 -22.443 9.763 1.00 23.17 O \ ATOM 1806 N SER J 9 11.853 -21.599 11.584 1.00 22.15 N \ ATOM 1807 CA ASER J 9 12.232 -20.196 11.309 0.50 23.69 C \ ATOM 1808 CA BSER J 9 12.332 -20.196 11.309 0.50 23.69 C \ ATOM 1809 C SER J 9 13.761 -20.096 11.207 1.00 22.21 C \ ATOM 1810 O SER J 9 14.262 -19.416 10.356 1.00 21.85 O \ ATOM 1811 CB ASER J 9 11.720 -19.358 12.427 0.50 25.73 C \ ATOM 1812 CB BSER J 9 11.820 -19.358 12.427 0.50 25.73 C \ ATOM 1813 OG ASER J 9 12.128 -18.043 12.245 0.50 36.00 O \ ATOM 1814 OG BSER J 9 12.396 -19.775 13.620 0.50 36.00 O \ ATOM 1815 N HIS J 10 14.452 -20.793 12.115 1.00 21.34 N \ ATOM 1816 CA HIS J 10 15.939 -20.803 12.151 1.00 22.06 C \ ATOM 1817 C HIS J 10 16.473 -21.589 10.949 1.00 23.50 C \ ATOM 1818 O HIS J 10 17.491 -21.160 10.370 1.00 21.69 O \ ATOM 1819 CB HIS J 10 16.439 -21.374 13.485 1.00 20.81 C \ ATOM 1820 CG HIS J 10 16.215 -20.467 14.648 1.00 23.28 C \ ATOM 1821 ND1 HIS J 10 16.795 -19.216 14.732 1.00 23.12 N \ ATOM 1822 CD2 HIS J 10 15.480 -20.621 15.771 1.00 22.12 C \ ATOM 1823 CE1 HIS J 10 16.427 -18.638 15.857 1.00 22.79 C \ ATOM 1824 NE2 HIS J 10 15.620 -19.480 16.513 1.00 22.92 N \ ATOM 1825 N LEU J 11 15.808 -22.693 10.594 1.00 23.49 N \ ATOM 1826 CA LEU J 11 16.246 -23.515 9.442 1.00 24.89 C \ ATOM 1827 C LEU J 11 16.202 -22.679 8.160 1.00 24.10 C \ ATOM 1828 O LEU J 11 17.110 -22.785 7.397 1.00 22.47 O \ ATOM 1829 CB LEU J 11 15.356 -24.753 9.297 1.00 25.63 C \ ATOM 1830 CG LEU J 11 15.617 -25.875 10.295 1.00 29.97 C \ ATOM 1831 CD1 LEU J 11 14.636 -27.004 10.094 1.00 27.36 C \ ATOM 1832 CD2 LEU J 11 17.032 -26.385 10.185 1.00 30.20 C \ ATOM 1833 N VAL J 12 15.156 -21.900 7.960 1.00 23.69 N \ ATOM 1834 CA VAL J 12 15.034 -21.091 6.720 1.00 25.71 C \ ATOM 1835 C VAL J 12 16.186 -20.081 6.646 1.00 27.04 C \ ATOM 1836 O VAL J 12 16.711 -19.902 5.568 1.00 25.21 O \ ATOM 1837 CB VAL J 12 13.640 -20.447 6.651 1.00 29.73 C \ ATOM 1838 CG1 VAL J 12 13.596 -19.203 5.797 1.00 34.42 C \ ATOM 1839 CG2 VAL J 12 12.597 -21.446 6.211 1.00 30.60 C \ ATOM 1840 N GLU J 13 16.568 -19.496 7.783 1.00 24.10 N \ ATOM 1841 CA GLU J 13 17.683 -18.518 7.842 1.00 25.83 C \ ATOM 1842 C GLU J 13 18.971 -19.267 7.520 1.00 24.20 C \ ATOM 1843 O GLU J 13 19.769 -18.754 6.791 1.00 20.70 O \ ATOM 1844 CB GLU J 13 17.829 -17.916 9.237 1.00 28.05 C \ ATOM 1845 CG GLU J 13 16.720 -16.964 9.591 1.00 32.18 C \ ATOM 1846 CD GLU J 13 16.921 -16.236 10.903 1.00 42.05 C \ ATOM 1847 OE1 GLU J 13 16.733 -16.840 11.923 1.00 47.89 O \ ATOM 1848 OE2 GLU J 13 17.248 -15.077 10.880 1.00 51.16 O \ ATOM 1849 N ALA J 14 19.122 -20.468 8.061 1.00 21.00 N \ ATOM 1850 CA ALA J 14 20.342 -21.244 7.780 1.00 20.86 C \ ATOM 1851 C ALA J 14 20.391 -21.628 6.299 1.00 21.08 C \ ATOM 1852 O ALA J 14 21.420 -21.465 5.725 1.00 19.44 O \ ATOM 1853 CB ALA J 14 20.414 -22.447 8.673 1.00 21.78 C \ ATOM 1854 N LEU J 15 19.279 -22.086 5.735 1.00 20.80 N \ ATOM 1855 CA LEU J 15 19.249 -22.524 4.315 1.00 22.34 C \ ATOM 1856 C LEU J 15 19.600 -21.341 3.415 1.00 24.58 C \ ATOM 1857 O LEU J 15 20.273 -21.529 2.428 1.00 23.14 O \ ATOM 1858 CB LEU J 15 17.858 -23.058 3.971 1.00 22.57 C \ ATOM 1859 CG LEU J 15 17.565 -24.477 4.441 1.00 26.21 C \ ATOM 1860 CD1 LEU J 15 16.267 -24.996 3.848 1.00 26.87 C \ ATOM 1861 CD2 LEU J 15 18.715 -25.398 4.104 1.00 27.46 C \ ATOM 1862 N TYR J 16 19.103 -20.163 3.757 1.00 21.22 N \ ATOM 1863 CA TYR J 16 19.413 -18.961 2.949 1.00 22.39 C \ ATOM 1864 C TYR J 16 20.928 -18.765 2.882 1.00 22.66 C \ ATOM 1865 O TYR J 16 21.436 -18.476 1.846 1.00 24.18 O \ ATOM 1866 CB TYR J 16 18.699 -17.722 3.501 1.00 21.11 C \ ATOM 1867 CG TYR J 16 19.009 -16.459 2.741 1.00 23.99 C \ ATOM 1868 CD1 TYR J 16 18.345 -16.173 1.570 1.00 24.81 C \ ATOM 1869 CD2 TYR J 16 19.980 -15.579 3.165 1.00 22.11 C \ ATOM 1870 CE1 TYR J 16 18.629 -15.039 0.838 1.00 27.25 C \ ATOM 1871 CE2 TYR J 16 20.268 -14.432 2.452 1.00 24.36 C \ ATOM 1872 CZ TYR J 16 19.591 -14.162 1.284 1.00 25.24 C \ ATOM 1873 OH TYR J 16 19.870 -13.048 0.569 1.00 24.50 O \ ATOM 1874 N LEU J 17 21.551 -18.891 4.033 1.00 22.67 N \ ATOM 1875 CA ALEU J 17 23.046 -18.785 4.021 0.50 23.32 C \ ATOM 1876 CA BLEU J 17 23.032 -18.789 4.061 0.50 24.67 C \ ATOM 1877 C LEU J 17 23.883 -19.907 3.343 1.00 25.59 C \ ATOM 1878 O LEU J 17 24.738 -19.774 2.405 1.00 26.16 O \ ATOM 1879 CB ALEU J 17 23.556 -18.562 5.443 0.50 22.04 C \ ATOM 1880 CB BLEU J 17 23.446 -18.627 5.522 0.50 24.50 C \ ATOM 1881 CG ALEU J 17 23.257 -17.181 6.015 0.50 21.12 C \ ATOM 1882 CG BLEU J 17 24.939 -18.605 5.807 0.50 26.47 C \ ATOM 1883 CD1ALEU J 17 23.932 -16.998 7.363 0.50 22.96 C \ ATOM 1884 CD1BLEU J 17 25.537 -17.281 5.371 0.50 29.65 C \ ATOM 1885 CD2ALEU J 17 23.688 -16.090 5.056 0.50 24.06 C \ ATOM 1886 CD2BLEU J 17 25.184 -18.835 7.289 0.50 30.51 C \ ATOM 1887 N VAL J 18 23.460 -21.124 3.636 1.00 23.75 N \ ATOM 1888 CA VAL J 18 24.151 -22.327 3.107 1.00 26.98 C \ ATOM 1889 C VAL J 18 23.967 -22.482 1.600 1.00 25.71 C \ ATOM 1890 O VAL J 18 24.901 -22.852 0.956 1.00 23.83 O \ ATOM 1891 CB VAL J 18 23.662 -23.601 3.811 1.00 29.54 C \ ATOM 1892 CG1 VAL J 18 24.196 -24.841 3.127 1.00 28.86 C \ ATOM 1893 CG2 VAL J 18 24.017 -23.604 5.280 1.00 27.17 C \ ATOM 1894 N CYS J 19 22.780 -22.204 1.098 1.00 26.47 N \ ATOM 1895 CA CYS J 19 22.454 -22.483 -0.318 1.00 30.65 C \ ATOM 1896 C CYS J 19 22.988 -21.439 -1.301 1.00 34.60 C \ ATOM 1897 O CYS J 19 23.026 -21.740 -2.469 1.00 33.40 O \ ATOM 1898 CB CYS J 19 20.960 -22.703 -0.477 1.00 28.24 C \ ATOM 1899 SG CYS J 19 20.377 -24.085 0.531 1.00 28.42 S \ ATOM 1900 N GLY J 20 23.368 -20.261 -0.838 1.00 34.03 N \ ATOM 1901 CA GLY J 20 23.898 -19.261 -1.776 1.00 34.01 C \ ATOM 1902 C GLY J 20 22.962 -18.962 -2.929 1.00 32.84 C \ ATOM 1903 O GLY J 20 21.801 -18.853 -2.695 1.00 34.29 O \ ATOM 1904 N GLU J 21 23.482 -18.820 -4.147 1.00 34.44 N \ ATOM 1905 CA GLU J 21 22.644 -18.446 -5.314 1.00 39.13 C \ ATOM 1906 C GLU J 21 21.652 -19.553 -5.653 1.00 39.50 C \ ATOM 1907 O GLU J 21 20.619 -19.247 -6.218 1.00 37.91 O \ ATOM 1908 CB GLU J 21 23.517 -18.131 -6.522 1.00 41.03 C \ ATOM 1909 CG GLU J 21 24.571 -19.184 -6.754 1.00 53.66 C \ ATOM 1910 N ARG J 22 21.962 -20.787 -5.278 1.00 41.77 N \ ATOM 1911 CA ARG J 22 21.053 -21.907 -5.594 1.00 40.16 C \ ATOM 1912 C ARG J 22 19.703 -21.687 -4.934 1.00 34.78 C \ ATOM 1913 O ARG J 22 18.730 -22.003 -5.546 1.00 40.97 O \ ATOM 1914 CB ARG J 22 21.593 -23.192 -4.973 1.00 43.60 C \ ATOM 1915 CG ARG J 22 22.858 -23.721 -5.619 1.00 46.47 C \ ATOM 1916 CD ARG J 22 23.720 -24.429 -4.599 1.00 47.28 C \ ATOM 1917 NE ARG J 22 23.255 -25.779 -4.402 1.00 50.37 N \ ATOM 1918 CZ ARG J 22 23.746 -26.622 -3.508 1.00 50.17 C \ ATOM 1919 NH1 ARG J 22 24.739 -26.256 -2.724 1.00 48.94 N \ ATOM 1920 NH2 ARG J 22 23.238 -27.831 -3.412 1.00 53.72 N \ ATOM 1921 N GLY J 23 19.692 -21.153 -3.727 1.00 31.04 N \ ATOM 1922 CA GLY J 23 18.417 -21.026 -3.027 1.00 32.51 C \ ATOM 1923 C GLY J 23 17.928 -22.386 -2.563 1.00 33.85 C \ ATOM 1924 O GLY J 23 18.690 -23.314 -2.595 1.00 34.82 O \ ATOM 1925 N PHE J 24 16.668 -22.454 -2.161 1.00 33.82 N \ ATOM 1926 CA PHE J 24 16.067 -23.700 -1.648 1.00 36.23 C \ ATOM 1927 C PHE J 24 14.564 -23.667 -1.880 1.00 37.52 C \ ATOM 1928 O PHE J 24 14.041 -22.654 -2.277 1.00 38.43 O \ ATOM 1929 CB PHE J 24 16.339 -23.847 -0.152 1.00 34.09 C \ ATOM 1930 CG PHE J 24 15.891 -22.679 0.684 1.00 31.86 C \ ATOM 1931 CD1 PHE J 24 14.680 -22.708 1.336 1.00 34.32 C \ ATOM 1932 CD2 PHE J 24 16.685 -21.555 0.824 1.00 30.38 C \ ATOM 1933 CE1 PHE J 24 14.263 -21.637 2.103 1.00 30.89 C \ ATOM 1934 CE2 PHE J 24 16.262 -20.486 1.596 1.00 32.88 C \ ATOM 1935 CZ PHE J 24 15.061 -20.537 2.243 1.00 30.66 C \ ATOM 1936 N PHE J 25 13.943 -24.804 -1.633 1.00 40.04 N \ ATOM 1937 CA PHE J 25 12.485 -24.935 -1.738 1.00 43.46 C \ ATOM 1938 C PHE J 25 12.003 -25.315 -0.342 1.00 50.19 C \ ATOM 1939 O PHE J 25 12.569 -26.252 0.234 1.00 49.72 O \ ATOM 1940 CB PHE J 25 12.153 -25.997 -2.782 1.00 47.56 C \ ATOM 1941 CG PHE J 25 10.710 -26.404 -2.800 1.00 55.41 C \ ATOM 1942 CD1 PHE J 25 9.740 -25.522 -3.222 1.00 56.82 C \ ATOM 1943 CD2 PHE J 25 10.328 -27.668 -2.386 1.00 58.74 C \ ATOM 1944 CE1 PHE J 25 8.409 -25.888 -3.224 1.00 60.29 C \ ATOM 1945 CE2 PHE J 25 8.998 -28.038 -2.394 1.00 58.45 C \ ATOM 1946 CZ PHE J 25 8.048 -27.146 -2.810 1.00 63.57 C \ ATOM 1947 N TYR J 26 11.067 -24.547 0.214 1.00 45.84 N \ ATOM 1948 CA TYR J 26 10.577 -24.898 1.566 1.00 52.07 C \ ATOM 1949 C TYR J 26 9.092 -25.247 1.537 1.00 48.84 C \ ATOM 1950 O TYR J 26 8.303 -24.474 1.040 1.00 53.53 O \ ATOM 1951 CB TYR J 26 10.882 -23.814 2.598 1.00 52.85 C \ ATOM 1952 CG TYR J 26 10.855 -24.353 4.003 1.00 58.30 C \ ATOM 1953 CD1 TYR J 26 11.971 -24.953 4.551 1.00 58.74 C \ ATOM 1954 CD2 TYR J 26 9.693 -24.337 4.754 1.00 60.04 C \ ATOM 1955 CE1 TYR J 26 11.958 -25.470 5.832 1.00 59.90 C \ ATOM 1956 CE2 TYR J 26 9.649 -24.879 6.024 1.00 58.50 C \ ATOM 1957 CZ TYR J 26 10.789 -25.441 6.566 1.00 63.65 C \ ATOM 1958 OH TYR J 26 10.778 -25.946 7.829 1.00 65.88 O \ ATOM 1959 N THR J 27 8.763 -26.400 2.098 1.00 54.12 N \ ATOM 1960 CA THR J 27 7.374 -26.910 2.216 1.00 61.17 C \ ATOM 1961 C THR J 27 7.185 -27.421 3.644 1.00 61.45 C \ ATOM 1962 O THR J 27 8.095 -28.075 4.137 1.00 56.18 O \ ATOM 1963 CB THR J 27 7.156 -28.090 1.278 1.00 62.69 C \ ATOM 1964 OG1 THR J 27 5.799 -28.432 1.520 1.00 69.25 O \ ATOM 1965 CG2 THR J 27 8.046 -29.260 1.626 1.00 58.46 C \ ATOM 1966 N LYS J 28 5.993 -27.260 4.423 1.00 64.39 N \ ATOM 1967 CA LYS J 28 5.607 -27.852 5.735 1.00 66.27 C \ ATOM 1968 C LYS J 28 5.148 -29.296 5.541 1.00 61.30 C \ ATOM 1969 O LYS J 28 4.549 -29.559 4.488 1.00 65.88 O \ ATOM 1970 CB LYS J 28 4.522 -27.018 6.427 1.00 67.85 C \ ATOM 1971 CE LYS J 28 6.279 -23.975 8.234 1.00 50.61 C \ ATOM 1972 NZ LYS J 28 5.156 -23.209 8.827 1.00 48.65 N \ TER 1973 LYS J 28 \ TER 2124 ASN K 21 \ TER 2362 THR L 30 \ HETATM 2425 CL CL J 101 13.732 -20.650 19.178 1.00 46.70 CL \ HETATM 2532 O HOH J 201 14.372 -17.230 13.201 1.00 30.05 O \ HETATM 2533 O HOH J 202 20.026 -19.145 -0.778 1.00 40.09 O \ HETATM 2534 O HOH J 203 25.637 -17.418 1.339 1.00 47.44 O \ HETATM 2535 O HOH J 204 19.782 -20.238 11.655 1.00 33.45 O \ HETATM 2536 O HOH J 205 12.817 -16.976 9.708 1.00 36.63 O \ HETATM 2537 O HOH J 206 20.146 -15.933 6.876 1.00 30.10 O \ HETATM 2538 O HOH J 207 19.188 -18.336 13.075 1.00 36.91 O \ HETATM 2539 O HOH J 208 4.286 -31.779 6.578 1.00 62.79 O \ CONECT 41 74 \ CONECT 47 212 \ CONECT 74 41 \ CONECT 152 302 \ CONECT 212 47 \ CONECT 232 2371 \ CONECT 302 152 \ CONECT 422 458 \ CONECT 428 604 \ CONECT 458 422 \ CONECT 535 700 \ CONECT 604 428 \ CONECT 624 2371 \ CONECT 700 535 \ CONECT 828 861 \ CONECT 834 1000 \ CONECT 861 828 \ CONECT 936 1096 \ CONECT 1000 834 \ CONECT 1020 2394 \ CONECT 1096 936 \ CONECT 1222 1255 \ CONECT 1228 1417 \ CONECT 1255 1222 \ CONECT 1342 1507 \ CONECT 1417 1228 \ CONECT 1437 2394 \ CONECT 1507 1342 \ CONECT 1640 1673 \ CONECT 1646 1801 \ CONECT 1673 1640 \ CONECT 1751 1899 \ CONECT 1801 1646 \ CONECT 1824 2394 \ CONECT 1899 1751 \ CONECT 2008 2041 \ CONECT 2014 2183 \ CONECT 2041 2008 \ CONECT 2116 2273 \ CONECT 2183 2014 \ CONECT 2203 2371 \ CONECT 2273 2116 \ CONECT 2363 2364 2368 2370 \ CONECT 2364 2363 2365 \ CONECT 2365 2364 2366 2369 \ CONECT 2366 2365 2367 \ CONECT 2367 2366 2368 \ CONECT 2368 2363 2367 \ CONECT 2369 2365 \ CONECT 2370 2363 \ CONECT 2371 232 624 2203 \ CONECT 2372 2373 2377 2379 \ CONECT 2373 2372 2374 \ CONECT 2374 2373 2375 2378 \ CONECT 2375 2374 2376 \ CONECT 2376 2375 2377 \ CONECT 2377 2372 2376 \ CONECT 2378 2374 \ CONECT 2379 2372 \ CONECT 2380 2381 2382 \ CONECT 2381 2380 \ CONECT 2382 2380 2383 2384 \ CONECT 2383 2382 \ CONECT 2384 2382 2385 \ CONECT 2385 2384 \ CONECT 2386 2387 2391 2393 \ CONECT 2387 2386 2388 \ CONECT 2388 2387 2389 2392 \ CONECT 2389 2388 2390 \ CONECT 2390 2389 2391 \ CONECT 2391 2386 2390 \ CONECT 2392 2388 \ CONECT 2393 2386 \ CONECT 2394 1020 1437 1824 \ CONECT 2395 2396 2397 \ CONECT 2396 2395 \ CONECT 2397 2395 2398 2399 \ CONECT 2398 2397 \ CONECT 2399 2397 2400 \ CONECT 2400 2399 \ CONECT 2401 2402 2406 2408 \ CONECT 2402 2401 2403 \ CONECT 2403 2402 2404 2407 \ CONECT 2404 2403 2405 \ CONECT 2405 2404 2406 \ CONECT 2406 2401 2405 \ CONECT 2407 2403 \ CONECT 2408 2401 \ CONECT 2409 2410 2414 2416 \ CONECT 2410 2409 2411 \ CONECT 2411 2410 2412 2415 \ CONECT 2412 2411 2413 \ CONECT 2413 2412 2414 \ CONECT 2414 2409 2413 \ CONECT 2415 2411 \ CONECT 2416 2409 \ CONECT 2417 2418 2422 2424 \ CONECT 2418 2417 2419 \ CONECT 2419 2418 2420 2423 \ CONECT 2420 2419 2421 \ CONECT 2421 2420 2422 \ CONECT 2422 2417 2421 \ CONECT 2423 2419 \ CONECT 2424 2417 \ CONECT 2426 2427 2431 2433 \ CONECT 2427 2426 2428 \ CONECT 2428 2427 2429 2432 \ CONECT 2429 2428 2430 \ CONECT 2430 2429 2431 \ CONECT 2431 2426 2430 \ CONECT 2432 2428 \ CONECT 2433 2426 \ MASTER 419 0 13 27 6 0 23 6 2491 12 112 30 \ END \ """, "chainJ") cmd.hide("all") cmd.color('grey70', "chainJ") cmd.show('ribbon', "chainJ") cmd.select("e6nwvJ1", "c. J & i. 3-28") cmd.center("e6nwvJ1", state=0, origin=1) cmd.zoom("e6nwvJ1", animate=-1) cmd.show_as('cartoon', "e6nwvJ1") cmd.spectrum('count', 'rainbow', "e6nwvJ1") cmd.disable("e6nwvJ1") cmd.show('spheres', 'c. C & i. 101 | c. F & i. 101 | c. G & i. 101 | c. I & i. 101 | c. J & i. 101') util.cbag('c. C & i. 101 | c. F & i. 101 | c. G & i. 101 | c. I & i. 101 | c. J & i. 101')