HEADER RHINOVIRUS COAT PROTEIN 11-JUL-94 2RHN OBSLTE 21-JAN-98 2RHN 1AYN TITLE THE STRUCTURE OF HUMAN RHINOVIRUS 16 COMPND MOL_ID: 1; COMPND 2 MOLECULE:; COMPND 3 CHAIN: 1; COMPND 4 ENGINEERED: YES; COMPND 5 MOL_ID: 2; COMPND 6 MOLECULE:; COMPND 7 CHAIN: 2; COMPND 8 ENGINEERED: YES; COMPND 9 MOL_ID: 3; COMPND 10 MOLECULE:; COMPND 11 CHAIN: 3; COMPND 12 ENGINEERED: YES; COMPND 13 MOL_ID: 4; COMPND 14 MOLECULE:; COMPND 15 CHAIN: 4; COMPND 16 ENGINEERED: YES SOURCE MOL_ID: 1; SOURCE 2 MOL_ID: 2; SOURCE 3 MOL_ID: 3; SOURCE 4 MOL_ID: 4 KEYWDS RHINOVIRUS COAT PROTEIN EXPDTA X-RAY DIFFRACTION AUTHOR M.A.OLIVEIRA,R.ZHAO,M.G.ROSSMANN REVDAT 1 31-MAR-95 2RHN 0 JRNL AUTH M.A.OLIVEIRA,R.ZHAO,W.-M.LEE,M.J.KREMER,I.MINOR, JRNL AUTH 2 R.R.RUECKERT,G.D.DIANA,D.C.PEVEAR,F.J.DUTKO, JRNL AUTH 3 M.A.MCKINLAY,M.G.ROSSMANN JRNL TITL THE STRUCTURE OF HUMAN RHINOVIRUS 16 JRNL REF STRUCTURE (LONDON) V. 1 51 1993 JRNL REFN ASTM STRUE6 UK ISSN 0969-2126 REMARK 1 REMARK 1 REFERENCE 1 REMARK 1 AUTH K.H.KIM,P.WILLINGMANN,Z.X.GONG,M.J.KREMER, REMARK 1 AUTH 2 M.S.CHAPMAN,I.MINOR,M.A.OLIVEIRA,M.G.ROSSMANN, REMARK 1 AUTH 3 K.ANDRIES,G.D.DIANA,F.J.DUTKO,M.A.MCKINLAY, REMARK 1 AUTH 4 D.C.PEVEAR REMARK 1 TITL A COMPARISON OF THE ANTI-RHINOVIRAL DRUG BINDING REMARK 1 TITL 2 POCKET IN HRV14 AND HRV1A REMARK 1 REF J.MOL.BIOL. V. 230 206 1993 REMARK 1 REFN ASTM JMOBAK UK ISSN 0022-2836 REMARK 1 REFERENCE 2 REMARK 1 AUTH N.H.OLSON,P.R.KOLATKAR,M.A.OLIVEIRA,R.H.CHENG, REMARK 1 AUTH 2 J.M.GREVE,A.MCCLELLAND,T.S.BAKER,M.G.ROSSMANN REMARK 1 TITL STRUCTURE OF A HUMAN RHINOVIRUS COMPLEXED WITH ITS REMARK 1 TITL 2 RECEPTOR MOLECULE REMARK 1 REF PROC.NATL.ACAD.SCI.USA V. 90 507 1993 REMARK 1 REFN ASTM PNASA6 US ISSN 0027-8424 REMARK 1 REFERENCE 3 REMARK 1 AUTH S.KIM,T.J.SMITH,M.S.CHAPMAN,M.G.ROSSMANN, REMARK 1 AUTH 2 D.C.PEVEAR,F.J.DUTKO,P.J.FELOCK,G.D.DIANA, REMARK 1 AUTH 3 M.A.MCKINLAY REMARK 1 TITL CRYSTAL STRUCTURE OF HUMAN RHINOVIRUS SEROTYPE 1A REMARK 1 TITL 2 (HRV1A) REMARK 1 REF J.MOL.BIOL. V. 210 91 1989 REMARK 1 REFN ASTM JMOBAK UK ISSN 0022-2836 REMARK 1 REFERENCE 4 REMARK 1 AUTH M.G.ROSSMANN REMARK 1 TITL THE CANYON HYPOTHESIS. HIDING THE HOST CELL REMARK 1 TITL 2 RECEPTOR ATTACHMENT SITE ON A VIRAL SURFACE FROM REMARK 1 TITL 3 IMMUNE SURVEILLANCE REMARK 1 REF J.BIOL.CHEM. V. 264 14587 1989 REMARK 1 REFN ASTM JBCHA3 US ISSN 0021-9258 REMARK 1 REFERENCE 5 REMARK 1 AUTH J.BADGER,I.MINOR,M.J.KREMER,M.A.OLIVEIRA,T.J.SMITH, REMARK 1 AUTH 2 J.P.GRIFFITH,D.M.A.GUERIN,S.KRISHNASWAMY,M.LUO, REMARK 1 AUTH 3 M.G.ROSSMANN,M.A.MCKINLAY,G.D.DIANA,F.J.DUTKO, REMARK 1 AUTH 4 M.FANCHER,R.R.RUECKERT,B.A.HEINZ REMARK 1 TITL STRUCTURAL ANALYSIS OF A SERIES OF ANTIVIRAL REMARK 1 TITL 2 AGENTS COMPLEXED WITH HUMAN RHINOVIRUS 14 REMARK 1 REF PROC.NATL.ACAD.SCI.USA V. 85 3304 1988 REMARK 1 REFN ASTM PNASA6 US ISSN 0027-8424 REMARK 1 REFERENCE 6 REMARK 1 AUTH M.G.ROSSMANN,A.C.PALMENBERG REMARK 1 TITL CONSERVATION OF THE PUTATIVE RECEPTOR ATTACHMENT REMARK 1 TITL 2 SITE IN PICORNAVIRUSES REMARK 1 REF VIROLOGY V. 164 373 1988 REMARK 1 REFN ASTM VIRLAX US ISSN 0042-6822 REMARK 1 REFERENCE 7 REMARK 1 AUTH M.G.ROSSMANN,E.ARNOLD,J.P.GRIFFITH,G.KAMER,M.LUO, REMARK 1 AUTH 2 T.J.SMITH,G.VRIEND,R.R.RUECKERT,B.SHERRY, REMARK 1 AUTH 3 M.A.MCKINLAY,G.DIANA,M.OTTO REMARK 1 TITL COMMON COLD VIRUSES REMARK 1 REF TRENDS BIOCHEM.SCI.(PERS. V. 12 313 1987 REMARK 1 REF 2 ED.) REMARK 1 REFN ASTM TBSCDB NE ISSN 0376-5067 REMARK 1 REFERENCE 8 REMARK 1 AUTH T.J.SMITH,M.J.KREMER,M.LUO,G.VRIEND,E.ARNOLD, REMARK 1 AUTH 2 G.KAMER,M.G.ROSSMANN,M.A.MCKINLAY,G.D.DIANA, REMARK 1 AUTH 3 M.J.OTTO REMARK 1 TITL THE SITE OF ATTACHMENT IN HUMAN RHINOVIRUS 14 FOR REMARK 1 TITL 2 ANTIVIRAL AGENTS THAT INHIBIT UNCOATING REMARK 1 REF SCIENCE V. 233 1286 1986 REMARK 1 REFN ASTM SCIEAS US ISSN 0036-8075 REMARK 1 REFERENCE 9 REMARK 1 AUTH M.G.ROSSMANN,E.ARNOLD,J.W.ERICKSON, REMARK 1 AUTH 2 E.A.FRANKENBERGER,J.P.GRIFFITH,H.-J.HECHT, REMARK 1 AUTH 3 J.E.JOHNSON,G.KAMER,M.LUO,A.G.MOSSER,R.R.RUECKERT, REMARK 1 AUTH 4 B.SHERRY,G.VRIEND REMARK 1 TITL STRUCTURE OF A HUMAN COMMON COLD VIRUS AND REMARK 1 TITL 2 FUNCTIONAL RELATIONSHIP TO OTHER PICORNAVIRUSES REMARK 1 REF NATURE V. 317 145 1985 REMARK 1 REFN ASTM NATUAS UK ISSN 0028-0836 REMARK 2 REMARK 2 RESOLUTION. 3.5 ANGSTROMS. REMARK 3 REMARK 3 REFINEMENT. REMARK 3 PROGRAM : NULL REMARK 3 AUTHORS : NULL REMARK 3 REMARK 3 DATA USED IN REFINEMENT. REMARK 3 RESOLUTION RANGE HIGH (ANGSTROMS) : 3.5 REMARK 3 RESOLUTION RANGE LOW (ANGSTROMS) : NULL REMARK 3 DATA CUTOFF (SIGMA(F)) : NULL REMARK 3 DATA CUTOFF HIGH (ABS(F)) : NULL REMARK 3 DATA CUTOFF LOW (ABS(F)) : NULL REMARK 3 COMPLETENESS (WORKING+TEST) (%) : NULL REMARK 3 NUMBER OF REFLECTIONS : NULL REMARK 3 REMARK 3 FIT TO DATA USED IN REFINEMENT. REMARK 3 CROSS-VALIDATION METHOD : NULL REMARK 3 FREE R VALUE TEST SET SELECTION : NULL REMARK 3 R VALUE (WORKING SET) : NULL REMARK 3 FREE R VALUE : NULL REMARK 3 FREE R VALUE TEST SET SIZE (%) : NULL REMARK 3 FREE R VALUE TEST SET COUNT : NULL REMARK 3 ESTIMATED ERROR OF FREE R VALUE : NULL REMARK 3 REMARK 3 FIT IN THE HIGHEST RESOLUTION BIN. REMARK 3 TOTAL NUMBER OF BINS USED : NULL REMARK 3 BIN RESOLUTION RANGE HIGH (A) : NULL REMARK 3 BIN RESOLUTION RANGE LOW (A) : NULL REMARK 3 BIN COMPLETENESS (WORKING+TEST) (%) : NULL REMARK 3 REFLECTIONS IN BIN (WORKING SET) : NULL REMARK 3 BIN R VALUE (WORKING SET) : NULL REMARK 3 BIN FREE R VALUE : NULL REMARK 3 BIN FREE R VALUE TEST SET SIZE (%) : NULL REMARK 3 BIN FREE R VALUE TEST SET COUNT : NULL REMARK 3 ESTIMATED ERROR OF BIN FREE R VALUE : NULL REMARK 3 REMARK 3 NUMBER OF NON-HYDROGEN ATOMS USED IN REFINEMENT. REMARK 3 PROTEIN ATOMS : 6178 REMARK 3 NUCLEIC ACID ATOMS : 0 REMARK 3 HETEROGEN ATOMS : 10 REMARK 3 SOLVENT ATOMS : 0 REMARK 3 REMARK 3 B VALUES. REMARK 3 FROM WILSON PLOT (A**2) : NULL REMARK 3 MEAN B VALUE (OVERALL, A**2) : NULL REMARK 3 OVERALL ANISOTROPIC B VALUE. REMARK 3 B11 (A**2) : NULL REMARK 3 B22 (A**2) : NULL REMARK 3 B33 (A**2) : NULL REMARK 3 B12 (A**2) : NULL REMARK 3 B13 (A**2) : NULL REMARK 3 B23 (A**2) : NULL REMARK 3 REMARK 3 ESTIMATED COORDINATE ERROR. REMARK 3 ESD FROM LUZZATI PLOT (A) : NULL REMARK 3 ESD FROM SIGMAA (A) : NULL REMARK 3 LOW RESOLUTION CUTOFF (A) : NULL REMARK 3 REMARK 3 CROSS-VALIDATED ESTIMATED COORDINATE ERROR. REMARK 3 ESD FROM C-V LUZZATI PLOT (A) : NULL REMARK 3 ESD FROM C-V SIGMAA (A) : NULL REMARK 3 REMARK 3 RMS DEVIATIONS FROM IDEAL VALUES. REMARK 3 BOND LENGTHS (A) : NULL REMARK 3 BOND ANGLES (DEGREES) : NULL REMARK 3 DIHEDRAL ANGLES (DEGREES) : NULL REMARK 3 IMPROPER ANGLES (DEGREES) : NULL REMARK 3 REMARK 3 ISOTROPIC THERMAL MODEL : NULL REMARK 3 REMARK 3 ISOTROPIC THERMAL FACTOR RESTRAINTS. RMS SIGMA REMARK 3 MAIN-CHAIN BOND (A**2) : NULL ; NULL REMARK 3 MAIN-CHAIN ANGLE (A**2) : NULL ; NULL REMARK 3 SIDE-CHAIN BOND (A**2) : NULL ; NULL REMARK 3 SIDE-CHAIN ANGLE (A**2) : NULL ; NULL REMARK 3 REMARK 3 NCS MODEL : NULL REMARK 3 REMARK 3 NCS RESTRAINTS. RMS SIGMA/WEIGHT REMARK 3 GROUP 1 POSITIONAL (A) : NULL ; NULL REMARK 3 GROUP 1 B-FACTOR (A**2) : NULL ; NULL REMARK 3 REMARK 3 PARAMETER FILE 1 : NULL REMARK 3 TOPOLOGY FILE 1 : NULL REMARK 3 REMARK 3 OTHER REFINEMENT REMARKS: NULL REMARK 4 REMARK 4 2RHN COMPLIES WITH FORMAT V. 3.0, 1-DEC-2006 REMARK 5 REMARK 5 2RHN THE COORDINATES ARE IN THE P,Q,R FRAME IN ANGSTROM REMARK 5 UNITS 2RHN AND CORRESPOND TO ICOSAHEDRAL SYMMETRY AXES. THE REMARK 5 ORIGIN IS 2RHN CHOSEN AT THE CENTER OF THE VIRUS WITH P, Q REMARK 5 AND R ALONG 2RHN MUTUALLY PERPENDICULAR TWO-FOLD AXES OF REMARK 5 THE ICOSAHEDRON. 2RHN REMARK 6 REMARK 6 2RHN THE VIRUS PARTICLE HAS A PROTEIN SHELL WITH REMARK 6 ICOSAHEDRAL 2RHN SYMMETRY AROUND A CRYSTALLOGRAPHICALLY REMARK 6 DISORDERED CORE OF 2RHN RNA. EACH ICOSAHEDRAL UNIT CONTAINS REMARK 6 FOUR PROTEIN SUBUNITS 2RHN IDENTIFIED AS VP1, VP2, VP3, VP4 REMARK 6 BY THE DEPOSITORS. THE 2RHN FOUR SUBUNITS HAVE BEEN REMARK 6 ASSIGNED CHAIN IDENTIFIERS *1*, 2RHN *2*, *3*, *4* IN THIS REMARK 6 ENTRY. TO GENERATE A VIRAL SHELL 2RHN FROM THE COORDINATES REMARK 6 GIVEN BELOW REQUIRES GENERATING THE 2RHN OTHER ICOSAHEDRAL REMARK 6 UNITS. THIS IS ACCOMPLISHED BY APPLYING 2RHN THE 532 POINT REMARK 6 GROUP SYMMETRY ELEMENTS IN THE SPECIFIC ORDER 2RHN 5X2X2X3 REMARK 6 ABOUT SPECIFIC AXES WHOSE TRANSFORMATIONS ARE 2RHN GIVEN REMARK 6 BELOW. THE FOLLOWING FOUR STEPS ARE TO BE APPLIED TO 2RHN REMARK 6 EACH POLYPEPTIDE CHAIN. EACH OF THE TOTAL 60 SYMMETRY 2RHN REMARK 6 OPERATIONS IS DERIVED BY CONSECUTIVE APPLICATION OF THE REMARK 6 2RHN ROTATIONAL SYMMETRY OPERATORS. 2RHN 2RHN LET P1 = REMARK 6 COORDINATES OF ANY ATOM AS LISTED IN ENTRY 2RHN 2RHN 1. REMARK 6 2RHN TRNSF1 1 .500000 -.809017 .309017 2RHN TRNSF2 1 REMARK 6 .809017 .309017 -.500000 2RHN TRNSF3 1 .309017 .500000 REMARK 6 .809017 2RHN 2RHN APPLY THE FIVE-FOLD GIVEN BY TRNSF 1 2RHN REMARK 6 2RHN P2 = TRNSF 1 * P1 2RHN P3 = TRNSF 1 * P2 2RHN P4 = REMARK 6 TRNSF 1 * P3 2RHN P5 = TRNSF 1 * P4 2RHN 2RHN P1 THROUGH P5 REMARK 6 CONSTITUTE AN ENTIRE PENTAMER, 2RHN CONSISTING OF FIVE REMARK 6 PROTOMERIC UNITS. ONE COMPLETE 2RHN PENTAMER SET OF REMARK 6 COORDINATES WILL CONTAIN FIVE CHAINS 2RHN EACH OF VP1, VP2, REMARK 6 VP3, AND VP4. 2RHN 2RHN 2. 2RHN 2RHN TRNSF1 2 .309017 - REMARK 6 .500000 .809017 2RHN TRNSF2 2 -.500000 -.809017 -.309017 REMARK 6 2RHN TRNSF3 2 .809017 -.309017 -.500000 2RHN 2RHN APPLY THE REMARK 6 TWO-FOLD GIVEN BY TRNSF 2 TO P1 THROUGH P5 2RHN TO GENERATE REMARK 6 P6 THROUGH P10 FOR A SECOND ENTIRE 2RHN PENTAMER. 2RHN 2RHN REMARK 6 P6 = TRNSF 2 * P1 2RHN P7 = TRNSF 2 * P2 2RHN P8 = TRNSF 2 REMARK 6 * P3 2RHN P9 = TRNSF 2 * P4 2RHN P10 = TRNSF 2 * P5 2RHN REMARK 6 2RHN 3. 2RHN 2RHN TRNSF1 3 -.500000 -.809017 .309017 2RHN REMARK 6 TRNSF2 3 -.809017 .309017 -.500000 2RHN TRNSF3 3 .309017 - REMARK 6 .500000 -.809017 2RHN 2RHN APPLY THE TWO-FOLD GIVEN BY REMARK 6 TRNSF 3 TO EACH OF THE 2RHN FIRST TEN PROTOMERS (WILL YIELD REMARK 6 TOTAL OF TWENTY 2RHN UNITS, FOUR COMPLETE PENTAMERS). FOR REMARK 6 EXAMPLE, 2RHN 2RHN P11 = TRNSF 3 * P1 2RHN P14 = TRNSF 3 * REMARK 6 P4 2RHN P16 = TRNSF 3 * P6 2RHN P20 = TRNSF 3 * P10 2RHN REMARK 6 2RHN 4. 2RHN 2RHN TRNSF1 4 .000000 .000000 1.000000 2RHN REMARK 6 TRNSF2 4 1.000000 .000000 .000000 2RHN TRNSF3 4 .000000 REMARK 6 1.000000 .000000 2RHN 2RHN FIRST, APPLY THE THREE-FOLD REMARK 6 GIVEN BY TRNSF 4 TO EACH 2RHN OF THE TWENTY PROTOMERS P1 REMARK 6 THROUGH P20 TO GENERATE 2RHN PROTOMERS P21 THROUGH P40. FOR REMARK 6 EXAMPLE, 2RHN 2RHN P21 = TRNSF 4 * P2 2RHN P22 = TRNSF 4 * REMARK 6 P2 2RHN P31 = TRNSF 4 * P11 2RHN P40 = TRNSF 4 * P20 2RHN REMARK 6 2RHN FINALLY, PROTOMERS P41 THROUGH P60 MAY BE GENERATED REMARK 6 2RHN BY APPLYING TRNSF 4 TO PROTOMERS P21 THROUGH P40. 2RHN REMARK 6 FOR EXAMPLE, 2RHN 2RHN P41 = TRNSF 4 * P21 2RHN P42 = TRNSF REMARK 6 4 * P22 2RHN P51 = TRNSF 4 * P31 2RHN P60 = TRNSF 4 * P40 REMARK 6 2RHN 2RHN 2RHN THIS YIELDS A TOTAL OF 60 PROTOMERS IN AN REMARK 6 ICOSAHEDRAL 2RHN VIRION. 2RHN REMARK 7 REMARK 7 2RHN TO OBTAIN THE FRACTIONAL CRYSTALLOGRAPHIC COORDINATES REMARK 7 2RHN XCRYST FROM THE CARTESIAN MOLECULAR COORDINATES XCART REMARK 7 2RHN GENERATED ABOVE ONE USES 2RHN 2RHN XCRYST = CARTCRYST REMARK 7 * XCART + X0 2RHN 2RHN WHERE THE MATRIX *CARTCRYST* REMARK 7 TRANSFORMS CARTESIAN 2RHN COORDINATES AND X0 IS THE CENTER REMARK 7 POSITION OF EACH PARTICLE. 2RHN MATRIX *CARTCRYST* IS THE REMARK 7 PRODUCT OF MATRIX *DEORTHOG* 2RHN AND MATRIX *ROTATE*. * REMARK 7 ROTATE* ROTATES THE MOLECULAR 2RHN COORDINATES INTO AN REMARK 7 ORTHOGONAL COORDINATE SYSTEM DEFINED 2RHN WITH RESPECT TO REMARK 7 THE UNIT CELL AXIS. *DEORTHOG* BOTH 2RHN CONVERTS THE REMARK 7 COORDINATES TO THE NON-ORTHOGONAL UNIT CELL 2RHN AXES AND REMARK 7 CONVERTS TO FRACTIONAL UNITS. 2RHN 2RHN 1.000000 .000000 REMARK 7 .000000 2RHN *ROTATE* = .000000 .065400 -.997860 2RHN REMARK 7 .000000 .997860 .065400 2RHN 2RHN 0.002758697 0.0 0.0 2RHN REMARK 7 *DEORTHOG* = 0.0 0.002880931 0.0 2RHN 0.0 0.0 0.002987304 REMARK 7 2RHN 2RHN THE TWO PARTICLES IN THE UNIT CELL (SPACE GROUP P REMARK 7 2 21 21) 2RHN CAN BE GENERATED BY USING 2RHN X0 = (0.250, REMARK 7 0, 0) AND X0 = (-0.250, 1/2, 1/2). 2RHN REMARK 36 REMARK 36 2RHN TOPIC: STEREOCHEMISTRY 2RHN 2RHN SUBTOPIC: BOND REMARK 36 LENGTHS (36.1) 2RHN 2RHN STANDARD TEXT: 2RHN 2RHN THE REMARK 36 STEREOCHEMICAL PARAMETERS OF THE FOLLOWING RESIDUES 2RHN REMARK 36 HAVE VALUES WHICH DEVIATE FROM EXPECTED VALUES BY MORE 2RHN REMARK 36 THAN 4*RMSD (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN 2RHN REMARK 36 IDENTIFIER; SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). 2RHN REMARK 36 2RHN STANDARD TABLE: 2RHN FORMAT: (10X,I3,1X,A3,1X,A1,I4, REMARK 36 A1,A4,3X,A4,16X,F5.1) 2RHN 2RHN EXPECTED VALUES: ENGH AND REMARK 36 HUBER, 1991 2RHN 2RHN M RES CSSEQI ATM1 ATM2 DEVIATION_IN_ REMARK 36 ANGSTROMS 2RHN 2RHN 0 TRP 2 78 NE1 - CE2 0.068 2RHN 0 PRO 2 REMARK 36 83 CA - C 0.077 2RHN 0 ASP 2 84 N - CA 0.073 2RHN 2RHN REMARK 36 TOPIC: STEREOCHEMISTRY 2RHN 2RHN SUBTOPIC: COVALENT BOND REMARK 36 ANGLES (36.2) 2RHN 2RHN STANDARD TEXT: 2RHN 2RHN THE REMARK 36 STEREOCHEMICAL PARAMETERS OF THE FOLLOWING RESIDUES 2RHN REMARK 36 HAVE VALUES WHICH DEVIATE FROM EXPECTED VALUES BY MORE 2RHN REMARK 36 THAN 4*RMSD (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN 2RHN REMARK 36 IDENTIFIER; SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). 2RHN REMARK 36 2RHN STANDARD TABLE: 2RHN FORMAT: (10X,I3,1X,A3,1X,A1,I4, REMARK 36 A1,3(2X,A4,17X,F5.1) 2RHN 2RHN EXPECTED VALUES: ENGH AND REMARK 36 HUBER, 1991 2RHN 2RHN M RES CSSEQI ATM1 ATM2 ATM3 2RHN 2RHN REMARK 36 0 MET 1 65 CG - SD - CE ANGL. DEV. = 9.1 DEGREES 2RHN 0 MET REMARK 36 1 103 CG - SD - CE ANGL. DEV. = 9.1 DEGREES 2RHN 0 MET 1 REMARK 36 112 CG - SD - CE ANGL. DEV. = 9.1 DEGREES 2RHN 0 MET 1 124 REMARK 36 CG - SD - CE ANGL. DEV. = 9.0 DEGREES 2RHN 0 MET 1 140 CG - REMARK 36 SD - CE ANGL. DEV. = 9.0 DEGREES 2RHN 0 MET 1 143 CG - SD - REMARK 36 CE ANGL. DEV. = 9.4 DEGREES 2RHN 0 MET 1 192 CG - SD - CE REMARK 36 ANGL. DEV. = 9.2 DEGREES 2RHN 0 MET 1 214 CG - SD - CE REMARK 36 ANGL. DEV. = 9.2 DEGREES 2RHN 0 MET 2 70 CG - SD - CE ANGL. REMARK 36 DEV. = 9.2 DEGREES 2RHN 0 LEU 2 82 N - CA - C ANGL. DEV. = REMARK 36 8.8 DEGREES 2RHN 0 PRO 2 83 CA-1 - C-1 - N ANGL. DEV. = REMARK 36 19.6 DEGREES 2RHN 0 PRO 2 83 O-1 - C-1 - N ANGL. DEV. = REMARK 36 20.5 DEGREES 2RHN 0 MET 2 89 CG - SD - CE ANGL. DEV. = 9.2 REMARK 36 DEGREES 2RHN 0 MET 2 96 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 2 126 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 2 210 CG - SD - CE ANGL. DEV. = 9.2 REMARK 36 DEGREES 2RHN 0 MET 2 213 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 2 247 CG - SD - CE ANGL. DEV. = 9.3 REMARK 36 DEGREES 2RHN 0 MET 3 14 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 3 19 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 3 46 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 3 67 CG - SD - CE ANGL. DEV. = 9.2 REMARK 36 DEGREES 2RHN 0 PRO 3 93 CA-1 - C-1 - N ANGL. DEV. = 10.1 REMARK 36 DEGREES 2RHN 0 PRO 3 93 O-1 - C-1 - N ANGL. DEV. = 10.2 REMARK 36 DEGREES 2RHN 0 MET 3 118 CG - SD - CE ANGL. DEV. = 9.2 REMARK 36 DEGREES 2RHN 0 MET 3 148 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 3 209 CG - SD - CE ANGL. DEV. = 9.1 REMARK 36 DEGREES 2RHN 0 MET 3 223 CG - SD - CE ANGL. DEV. = 9.0 REMARK 36 DEGREES 2RHN 0 ASN 4 28 C - CA - CB ANGL. DEV. = 11.5 REMARK 36 DEGREES 2RHN 2RHN TOPIC: STEREOCHEMISTRY 2RHN 2RHN REMARK 36 SUBTOPIC: TORSION ANGLES (36.4) 2RHN 2RHN STANDARD TEXT: REMARK 36 2RHN 2RHN TORSION ANGLES OUTSIDE THE EXPECTED RAMACHANDRAN REMARK 36 REGIONS: 2RHN (M=MODEL NUMBER; RES=RESIDUE NAME; C=CHAIN REMARK 36 IDENTIFIER; 2RHN SSEQ=SEQUENCE NUMBER; I=INSERTION CODE). REMARK 36 2RHN 2RHN STANDARD TABLE: 2RHN FORMAT:(10X,I3,1X,A3,1X,A1, REMARK 36 I4,A1,4X,F7.2,3X,F7.2) 2RHN 2RHN M RES CSSEQI PSI PHI 2RHN REMARK 36 2RHN 0 SER 1 69 -45.48 -105.86 2RHN 0 PHE 1 70 4.23 -74.81 REMARK 36 2RHN 0 ILE 1 98 4.52 118.28 2RHN 0 ALA 1 104 -68.15 -98.76 REMARK 36 2RHN 0 GLN 1 105 10.71 -51.63 2RHN 0 TYR 1 115 -139.86 - REMARK 36 154.59 2RHN 0 ALA 1 116 136.34 136.47 2RHN 0 PHE 1 118 REMARK 36 177.44 152.41 2RHN 0 HIS 1 134 -118.62 -154.73 2RHN 0 HIS 1 REMARK 36 172 7.40 111.94 2RHN 0 SER 1 257 178.51 101.32 2RHN 0 HIS 1 REMARK 36 258 88.10 148.38 2RHN 0 ASN 2 30 39.85 -142.84 2RHN 0 THR 2 REMARK 36 58 68.99 -55.11 2RHN 0 ILE 2 91 9.06 -84.67 2RHN 0 SER 2 REMARK 36 104 176.25 153.52 2RHN 0 ALA 2 114 -157.45 -154.55 2RHN 0 REMARK 36 THR 2 158 84.03 -174.94 2RHN 0 GLN 2 159 61.61 -110.29 2RHN REMARK 36 0 VAL 2 160 78.72 129.92 2RHN 0 GLU 2 161 -162.49 -133.63 REMARK 36 2RHN 0 PHE 2 174 88.97 -10.47 2RHN 0 THR 2 177 -114.64 - REMARK 36 85.99 2RHN 0 LEU 2 178 161.93 99.61 2RHN 0 GLN 2 188 173.15 REMARK 36 161.62 2RHN 0 ASN 2 206 179.06 138.97 2RHN 0 ASN 2 218 - REMARK 36 46.21 -80.99 2RHN 0 ILE 2 234 71.58 -131.64 2RHN 0 SER 2 REMARK 36 235 34.78 -46.04 2RHN 0 ARG 2 255 163.03 170.64 2RHN 0 ALA REMARK 36 2 256 -8.53 -118.70 2RHN 0 GLN 3 59 19.71 -89.57 2RHN 0 GLN REMARK 36 3 75 95.50 123.07 2RHN 0 ALA 3 79 80.46 14.46 2RHN 0 ILE 3 REMARK 36 82 -105.17 -82.95 2RHN 0 ASP 3 88 -7.47 89.79 2RHN 0 SER 3 REMARK 36 91 -33.55 -151.34 2RHN 0 LEU 3 94 -94.91 -107.49 2RHN 0 ALA REMARK 36 3 95 34.94 -106.11 2RHN 0 THR 3 96 -10.35 -45.65 2RHN 0 THR REMARK 36 3 107 72.63 -87.44 2RHN 0 ILE 3 138 -112.71 -153.51 2RHN 0 REMARK 36 GLN 3 160 -78.49 -80.21 2RHN 0 SER 3 161 126.52 -52.00 2RHN REMARK 36 0 THR 3 195 -114.69 -113.75 2RHN 0 SER 3 214 -137.73 - REMARK 36 139.46 2RHN 0 CYS 3 216 110.30 124.58 2RHN 0 HIS 3 230 REMARK 36 163.60 166.87 2RHN 0 ILE 4 29 65.91 155.53 2RHN 0 ARG 4 42 REMARK 36 -68.31 -135.65 2RHN REMARK 200 REMARK 200 EXPERIMENTAL DETAILS REMARK 200 EXPERIMENT TYPE : X-RAY DIFFRACTION REMARK 200 DATE OF DATA COLLECTION : NULL REMARK 200 TEMPERATURE (KELVIN) : NULL REMARK 200 PH : NULL REMARK 200 NUMBER OF CRYSTALS USED : NULL REMARK 200 REMARK 200 SYNCHROTRON (Y/N) : NULL REMARK 200 RADIATION SOURCE : NULL REMARK 200 BEAMLINE : NULL REMARK 200 X-RAY GENERATOR MODEL : NULL REMARK 200 MONOCHROMATIC OR LAUE (M/L) : NULL REMARK 200 WAVELENGTH OR RANGE (A) : NULL REMARK 200 MONOCHROMATOR : NULL REMARK 200 OPTICS : NULL REMARK 200 REMARK 200 DETECTOR TYPE : NULL REMARK 200 DETECTOR MANUFACTURER : NULL REMARK 200 INTENSITY-INTEGRATION SOFTWARE : NULL REMARK 200 DATA SCALING SOFTWARE : NULL REMARK 200 REMARK 200 NUMBER OF UNIQUE REFLECTIONS : NULL REMARK 200 RESOLUTION RANGE HIGH (A) : NULL REMARK 200 RESOLUTION RANGE LOW (A) : NULL REMARK 200 REJECTION CRITERIA (SIGMA(I)) : NULL REMARK 200 REMARK 200 OVERALL. REMARK 200 COMPLETENESS FOR RANGE (%) : NULL REMARK 200 DATA REDUNDANCY : NULL REMARK 200 R MERGE (I) : NULL REMARK 200 R SYM (I) : NULL REMARK 200 FOR THE DATA SET : NULL REMARK 200 REMARK 200 IN THE HIGHEST RESOLUTION SHELL. REMARK 200 HIGHEST RESOLUTION SHELL, RANGE HIGH (A) : NULL REMARK 200 HIGHEST RESOLUTION SHELL, RANGE LOW (A) : NULL REMARK 200 COMPLETENESS FOR SHELL (%) : NULL REMARK 200 DATA REDUNDANCY IN SHELL : NULL REMARK 200 R MERGE FOR SHELL (I) : NULL REMARK 200 R SYM FOR SHELL (I) : NULL REMARK 200 FOR SHELL : NULL REMARK 200 REMARK 200 DIFFRACTION PROTOCOL: NULL REMARK 200 METHOD USED TO DETERMINE THE STRUCTURE: NULL REMARK 200 SOFTWARE USED: NULL REMARK 200 STARTING MODEL: NULL REMARK 200 REMARK 200 REMARK: NULL REMARK 280 REMARK 280 CRYSTAL REMARK 280 SOLVENT CONTENT, VS (%): NULL REMARK 280 MATTHEWS COEFFICIENT, VM (ANGSTROMS**3/DA): NULL REMARK 280 REMARK 280 CRYSTALLIZATION CONDITIONS: NULL REMARK 290 REMARK 290 CRYSTALLOGRAPHIC SYMMETRY REMARK 290 SYMMETRY OPERATORS FOR SPACE GROUP: P 2 21 21 REMARK 290 REMARK 290 SYMOP SYMMETRY REMARK 290 NNNMMM OPERATOR REMARK 290 1555 X,Y,Z REMARK 290 2555 X,-Y,-Z REMARK 290 3555 -X,1/2+Y,1/2-Z REMARK 290 4555 -X,1/2-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 0.00000 REMARK 290 SMTRY3 2 0.000000 0.000000 -1.000000 0.00000 REMARK 290 SMTRY1 3 -1.000000 0.000000 0.000000 0.00000 REMARK 290 SMTRY2 3 0.000000 -0.991479 0.130315 -155.73862 REMARK 290 SMTRY3 3 0.000000 0.130225 0.991479 184.09699 REMARK 290 SMTRY1 4 -1.000000 0.000000 0.000000 0.00000 REMARK 290 SMTRY2 4 0.000000 0.991479 -0.130315 -155.73862 REMARK 290 SMTRY3 4 0.000000 -0.130225 -0.991479 184.09699 REMARK 290 REMARK 290 REMARK: NULL REMARK 300 REMARK 300 BIOMOLECULE: 1 REMARK 300 THIS ENTRY CONTAINS THE CRYSTALLOGRAPHIC ASYMMETRIC UNIT REMARK 300 WHICH CONSISTS OF 4 CHAIN(S). SEE REMARK 350 FOR REMARK 300 INFORMATION ON GENERATING THE BIOLOGICAL MOLECULE(S). REMARK 350 REMARK 350 GENERATING THE BIOMOLECULE 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 APPLY THE FOLLOWING TO CHAINS: 1, 2, 3, 4 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 ASN 1 1 REMARK 465 PRO 1 2 REMARK 465 VAL 1 3 REMARK 465 GLU 1 4 REMARK 465 VAL 1 285 REMARK 465 SER 2 1 REMARK 465 PRO 2 2 REMARK 465 SER 2 3 REMARK 465 VAL 2 4 REMARK 465 GLU 2 5 REMARK 465 ALA 2 6 REMARK 465 CYS 2 7 REMARK 465 GLY 2 8 REMARK 465 TYR 2 9 REMARK 465 SER 2 10 REMARK 465 VAL 2 260 REMARK 465 GLN 2 261 REMARK 465 GLY 4 1 REMARK 465 ALA 4 2 REMARK 465 GLN 4 3 REMARK 465 VAL 4 4 REMARK 465 SER 4 5 REMARK 465 ARG 4 6 REMARK 465 GLN 4 7 REMARK 465 ASN 4 8 REMARK 465 VAL 4 9 REMARK 465 GLY 4 10 REMARK 465 THR 4 11 REMARK 465 HIS 4 12 REMARK 465 SER 4 13 REMARK 465 THR 4 14 REMARK 465 GLN 4 15 REMARK 465 ASN 4 16 REMARK 465 MET 4 17 REMARK 465 VAL 4 18 REMARK 465 SER 4 19 REMARK 465 ASN 4 20 REMARK 465 GLY 4 21 REMARK 465 SER 4 22 REMARK 465 SER 4 23 REMARK 465 LEU 4 24 REMARK 465 ASN 4 25 REMARK 465 TYR 4 26 REMARK 465 PHE 4 27 REMARK 465 PHE 4 45 REMARK 465 SER 4 46 REMARK 465 GLN 4 47 REMARK 465 ASP 4 48 REMARK 465 PRO 4 49 REMARK 465 SER 4 50 REMARK 465 LYS 4 51 REMARK 465 PHE 4 52 REMARK 465 THR 4 53 REMARK 465 ASP 4 54 REMARK 465 PRO 4 55 REMARK 465 VAL 4 56 REMARK 465 LYS 4 57 REMARK 465 ASP 4 58 REMARK 465 VAL 4 59 REMARK 465 LEU 4 60 REMARK 465 GLU 4 61 REMARK 465 LYS 4 62 REMARK 465 GLY 4 63 REMARK 465 ILE 4 64 REMARK 465 PRO 4 65 REMARK 465 THR 4 66 REMARK 465 LEU 4 67 REMARK 465 GLN 4 68 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 REMARK 500 O PRO 3 74 OD1 ASN 3 196 1.09 REMARK 500 NH1 ARG 1 108 O ARG 1 252 1.45 REMARK 500 O ILE 2 234 N ASN 2 236 1.55 REMARK 500 CE1 PHE 1 70 CE LYS 1 109 1.60 REMARK 500 ND2 ASN 2 173 CD2 LEU 2 182 1.67 REMARK 500 CG2 THR 3 71 OE2 GLU 3 208 1.69 REMARK 500 O ASP 3 88 OG SER 3 91 1.69 REMARK 500 OD1 ASN 2 173 OG1 THR 2 177 1.74 REMARK 500 NE ARG 1 107 OE2 GLU 1 111 1.77 REMARK 500 CD ARG 1 277 CE1 HIS 3 92 1.79 REMARK 500 ND2 ASN 1 281 OG1 THR 1 284 1.86 REMARK 500 ND2 ASN 1 263 N THR 2 134 1.94 REMARK 500 O HIS 2 40 NH2 ARG 2 103 1.95 REMARK 500 OG1 THR 2 65 OG SER 2 243 1.95 REMARK 500 OH TYR 1 115 OE2 GLU 2 129 1.96 REMARK 500 O ALA 1 104 N ILE 1 106 2.00 REMARK 500 O ILE 3 102 N TYR 3 105 2.00 REMARK 500 O THR 3 107 CB THR 3 178 2.01 REMARK 500 O ILE 1 135 OE1 GLN 1 226 2.02 REMARK 500 NH1 ARG 3 225 OD1 ASP 3 228 2.02 REMARK 500 NE2 HIS 2 130 OD1 ASP 2 175 2.03 REMARK 500 CD1 PHE 1 70 CE LYS 1 109 2.05 REMARK 500 CE1 TYR 1 194 CD2 HIS 2 216 2.05 REMARK 500 OG1 THR 2 107 CE MET 2 247 2.05 REMARK 500 O LEU 2 172 N PHE 2 174 2.05 REMARK 500 ND1 HIS 1 258 OG1 THR 3 237 2.06 REMARK 500 O GLU 2 155 N GLY 2 157 2.08 REMARK 500 O MET 1 65 ND2 ASN 3 42 2.09 REMARK 500 OG1 THR 1 153 OD1 ASP 1 157 2.09 REMARK 500 O ASP 2 84 N LYS 2 87 2.09 REMARK 500 NZ LYS 3 128 OD1 ASP 3 156 2.09 REMARK 500 CD1 ILE 4 29 CZ TYR 4 31 2.09 REMARK 500 O SER 1 185 OG1 THR 3 31 2.10 REMARK 500 O HIS 2 40 NH1 ARG 2 103 2.10 REMARK 500 O LEU 2 86 N ASP 2 88 2.11 REMARK 500 O PHE 3 106 O ARG 3 222 2.13 REMARK 500 O ARG 2 12 C GLN 2 26 2.14 REMARK 500 OD1 ASP 2 84 CD LYS 2 87 2.14 REMARK 500 OE1 GLN 1 141 NH2 ARG 1 220 2.15 REMARK 500 CE1 HIS 1 258 OG1 THR 3 237 2.15 REMARK 500 CG2 VAL 1 17 OE1 GLN 1 60 2.16 REMARK 500 O ARG 2 12 N ASP 2 27 2.16 REMARK 500 O GLU 2 155 O GLY 2 157 2.16 REMARK 500 O LEU 2 178 N GLY 2 180 2.16 REMARK 500 OD2 ASP 1 195 NZ LYS 2 81 2.17 REMARK 500 NZ LYS 1 241 O SER 4 38 2.17 REMARK 500 OG SER 1 267 OD2 ASP 1 273 2.18 REMARK 500 CD2 HIS 1 258 O GLY 2 138 2.19 REMARK 500 CB LEU 2 82 O TRP 2 219 2.19 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: ENGH AND HUBER, 1991 REMARK 500 REMARK 500 M RES CSSEQI ATM1 ATM2 ATM3 REMARK 500 LEU 2 82 CA - C - N ANGL. DEV. = 18.9 DEGREES REMARK 500 LEU 2 82 O - C - N ANGL. DEV. =-19.5 DEGREES 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 M RES CSSEQI PSI PHI REMARK 500 HIS 1 258 148.38 88.10 REMARK 500 THR 2 58 -55.11 68.99 REMARK 500 GLN 2 159 -110.29 61.61 REMARK 500 VAL 2 160 129.92 78.72 REMARK 500 SER 2 235 -46.04 34.78 REMARK 500 ALA 2 256 -118.70 -8.53 REMARK 500 GLN 3 75 123.07 95.50 REMARK 500 ALA 3 95 -106.11 34.94 REMARK 500 THR 3 107 -87.44 72.63 REMARK 500 SER 3 161 -52.00 126.52 REMARK 500 CYS 3 216 124.57 110.30 REMARK 500 ILE 4 29 155.53 65.91 SEQRES 1 1 285 ASN PRO VAL GLU ARG TYR VAL ASP GLU VAL LEU ASN GLU SEQRES 2 1 285 VAL LEU VAL VAL PRO ASN ILE ASN GLN SER HIS PRO THR SEQRES 3 1 285 THR SER ASN ALA ALA PRO VAL LEU ASP ALA ALA GLU THR SEQRES 4 1 285 GLY HIS THR ASN LYS ILE GLN PRO GLU ASP THR ILE GLU SEQRES 5 1 285 THR ARG TYR VAL GLN SER SER GLN THR LEU ASP GLU MET SEQRES 6 1 285 SER VAL GLU SER PHE LEU GLY ARG SER GLY CYS ILE HIS SEQRES 7 1 285 GLU SER VAL LEU ASP ILE VAL ASP ASN TYR ASN ASP GLN SEQRES 8 1 285 SER PHE THR LYS TRP ASN ILE ASN LEU GLN GLU MET ALA SEQRES 9 1 285 GLN ILE ARG ARG LYS PHE GLU MET PHE THR TYR ALA ARG SEQRES 10 1 285 PHE ASP SER GLU ILE THR MET VAL PRO SER VAL ALA ALA SEQRES 11 1 285 LYS ASP GLY HIS ILE GLY HIS ILE VAL MET GLN TYR MET SEQRES 12 1 285 TYR VAL PRO PRO GLY ALA PRO ILE PRO THR THR ARG ASP SEQRES 13 1 285 ASP TYR ALA TRP GLN SER GLY THR ASN ALA SER VAL PHE SEQRES 14 1 285 TRP GLN HIS GLY GLN PRO PHE PRO ARG PHE SER LEU PRO SEQRES 15 1 285 PHE LEU SER ILE ALA SER ALA TYR TYR MET PHE TYR ASP SEQRES 16 1 285 GLY TYR ASP GLY ASP THR TYR LYS SER ARG TYR GLY THR SEQRES 17 1 285 VAL VAL THR ASN ASP MET GLY THR LEU CYS SER ARG ILE SEQRES 18 1 285 VAL THR SER GLU GLN LEU HIS LYS VAL LYS VAL VAL THR SEQRES 19 1 285 ARG ILE TYR HIS LYS ALA LYS HIS THR LYS ALA TRP CYS SEQRES 20 1 285 PRO ARG PRO PRO ARG ALA VAL GLN TYR SER HIS THR HIS SEQRES 21 1 285 THR THR ASN TYR LYS LEU SER SER GLU VAL HIS ASN ASP SEQRES 22 1 285 VAL ALA ILE ARG PRO ARG THR ASN LEU THR THR VAL SEQRES 1 2 261 SER PRO SER VAL GLU ALA CYS GLY TYR SER ASP ARG ILE SEQRES 2 2 261 ILE GLN ILE THR ARG GLY ASP SER THR ILE THR SER GLN SEQRES 3 2 261 ASP VAL ALA ASN ALA VAL VAL GLY TYR GLY VAL TRP PRO SEQRES 4 2 261 HIS TYR LEU THR PRO GLN ASP ALA THR ALA ILE ASP LYS SEQRES 5 2 261 PRO THR GLN PRO ASP THR SER SER ASN ARG PHE TYR THR SEQRES 6 2 261 LEU ASP SER LYS MET TRP ASN SER THR SER LYS GLY TRP SEQRES 7 2 261 TRP TRP LYS LEU PRO ASP ALA LEU LYS ASP MET GLY ILE SEQRES 8 2 261 PHE GLY GLU ASN MET PHE TYR HIS PHE LEU GLY ARG SER SEQRES 9 2 261 GLY TYR THR VAL HIS VAL GLN CYS ASN ALA SER LYS PHE SEQRES 10 2 261 HIS GLN GLY THR LEU LEU VAL VAL MET ILE PRO GLU HIS SEQRES 11 2 261 GLN LEU ALA THR VAL ASN LYS GLY ASN VAL ASN ALA GLY SEQRES 12 2 261 TYR LYS TYR THR HIS PRO GLY GLU ALA GLY ARG GLU VAL SEQRES 13 2 261 GLY THR GLN VAL GLU ASN GLU LYS GLN PRO SER ASP ASP SEQRES 14 2 261 ASN TRP LEU ASN PHE ASP GLY THR LEU LEU GLY ASN LEU SEQRES 15 2 261 LEU ILE PHE PRO HIS GLN PHE ILE ASN LEU ARG SER ASN SEQRES 16 2 261 ASN SER ALA THR LEU ILE VAL PRO TYR VAL ASN ALA VAL SEQRES 17 2 261 PRO MET ASP SER MET VAL ARG HIS ASN ASN TRP SER LEU SEQRES 18 2 261 VAL ILE ILE PRO VAL CYS GLN LEU GLN SER ASN ASN ILE SEQRES 19 2 261 SER ASN ILE VAL PRO ILE THR VAL SER ILE SER PRO MET SEQRES 20 2 261 CYS ALA GLU PHE SER GLY ALA ARG ALA LYS THR VAL VAL SEQRES 21 2 261 GLN SEQRES 1 3 238 GLY LEU PRO VAL TYR VAL THR PRO GLY SER GLY GLN PHE SEQRES 2 3 238 MET THR THR ASP ASP MET GLN SER PRO CYS ALA LEU PRO SEQRES 3 3 238 TRP TYR HIS PRO THR LYS GLU ILE PHE ILE PRO GLY GLU SEQRES 4 3 238 VAL LYS ASN LEU ILE GLU MET CYS GLN VAL ASP THR LEU SEQRES 5 3 238 ILE PRO ILE ASN SER THR GLN SER ASN ILE GLY ASN VAL SEQRES 6 3 238 SER MET TYR THR VAL THR LEU SER PRO GLN THR LYS LEU SEQRES 7 3 238 ALA GLU GLU ILE PHE ALA ILE LYS VAL ASP ILE ALA SER SEQRES 8 3 238 HIS PRO LEU ALA THR THR LEU ILE GLY GLU ILE ALA SER SEQRES 9 3 238 TYR PHE THR HIS TRP THR GLY SER LEU ARG PHE SER PHE SEQRES 10 3 238 MET PHE CYS GLY THR ALA ASN THR THR LEU LYS VAL LEU SEQRES 11 3 238 LEU ALA TYR THR PRO PRO GLY ILE GLY LYS PRO ARG SER SEQRES 12 3 238 ARG LYS GLU ALA MET LEU GLY THR HIS VAL VAL TRP ASP SEQRES 13 3 238 VAL GLY LEU GLN SER THR VAL SER LEU VAL VAL PRO TRP SEQRES 14 3 238 ILE SER ALA SER GLN TYR ARG PHE THR THR PRO ASP THR SEQRES 15 3 238 TYR SER SER ALA GLY TYR ILE THR CYS TRP TYR GLN THR SEQRES 16 3 238 ASN PHE VAL VAL PRO PRO ASN THR PRO ASN THR ALA GLU SEQRES 17 3 238 MET LEU CYS PHE VAL SER GLY CYS ASN HIS PHE CYS LEU SEQRES 18 3 238 ARG MET ALA ARG ASP THR ASP LEU HIS LYS GLN THR GLY SEQRES 19 3 238 PRO ILE THR GLN SEQRES 1 4 68 GLY ALA GLN VAL SER ARG GLN ASN VAL GLY THR HIS SER SEQRES 2 4 68 THR GLN ASN MET VAL SER ASN GLY SER SER LEU ASN TYR SEQRES 3 4 68 PHE ASN ILE ASN TYR PHE LYS ASP ALA ALA SER SER GLY SEQRES 4 4 68 ALA SER ARG LEU ASP PHE SER GLN ASP PRO SER LYS PHE SEQRES 5 4 68 THR ASP PRO VAL LYS ASP VAL LEU GLU LYS GLY ILE PRO SEQRES 6 4 68 THR LEU GLN HET OCA 9 10 HETNAM OCA OCTANOIC ACID (CAPRYLIC ACID) FORMUL 5 OCA C8 H16 O2 HELIX 1 1Y ARG 1 5 ASN 1 12 1 8 HELIX 2 1Z SER 1 66 GLY 1 72 1 7 HELIX 3 1AO ASN 1 99 MET 1 103 1 5 HELIX 4 1A GLN 1 105 MET 1 112 1 8 HELIX 5 1B TYR 1 158 SER 1 162 1 5 HELIX 6 2Z VAL 1 56 GLN 1 60 1 5 HELIX 7 2AO VAL 1 81 ASN 1 87 1 7 HELIX 8 2A ASN 1 89 ASN 1 99 1 11 HELIX 9 2B LEU 1 181 SER 1 185 1 5 HELIX 10 3Z ASN 1 43 ASP 1 49 1 7 HELIX 11 3AO GLN 1 91 LYS 1 95 1 5 HELIX 12 3A ILE 1 98 GLN 1 105 1 8 HELIX 13 3B MET 1 143 ALA 1 149 1 7 SHEET 1 B11 4 CYS 1 76 ASP 1 83 0 SHEET 2 B11 4 LYS 1 231 PRO 1 248 -1 SHEET 3 B11 4 TYR 1 115 ALA 1 130 -1 SHEET 4 B11 4 PRO 1 177 LEU 1 181 -1 SHEET 1 B21 4 CYS 1 76 ASP 1 83 0 SHEET 2 B21 4 LYS 1 231 PRO 1 248 -1 SHEET 3 B21 4 TYR 1 115 ALA 1 130 -1 SHEET 4 B21 4 ALA 1 189 MET 1 192 -1 SHEET 1 B31 4 PHE 1 93 TRP 1 96 0 SHEET 2 B31 4 THR 1 216 ILE 1 221 -1 SHEET 3 B31 4 HIS 1 137 VAL 1 145 -1 SHEET 4 B31 4 VAL 1 168 GLN 1 171 -1 SHEET 1 B12 2 GLU 1 13 ASN 1 19 0 SHEET 2 B12 2 ASN 1 21 THR 1 26 -1 SHEET 1 B22 4 GLU 1 64 ARG 1 73 0 SHEET 2 B22 4 HIS 1 238 VAL 1 254 -1 SHEET 3 B22 4 GLN 1 101 THR 1 114 -1 SHEET 4 B22 4 GLY 1 196 SER 1 204 -1 SHEET 1 B32 4 GLU 1 64 ARG 1 73 0 SHEET 2 B32 4 HIS 1 238 VAL 1 254 -1 SHEET 3 B32 4 GLN 1 101 THR 1 114 -1 SHEET 4 B32 4 THR 1 211 MET 1 214 -1 SHEET 1 B42 4 CYS 1 76 GLU 1 79 0 SHEET 2 B42 4 SER 1 219 HIS 1 228 -1 SHEET 3 B42 4 ASP 1 119 SER 1 127 -1 SHEET 4 B42 4 ALA 1 187 TYR 1 191 -1 SHEET 1 B13 4 ILE 1 51 ARG 1 73 0 SHEET 2 B13 4 THR 1 211 HIS 1 228 -1 SHEET 3 B13 4 ARG 1 108 GLU 1 121 -1 SHEET 4 B13 4 GLN 1 161 SER 1 167 -1 SHEET 1 B23 4 ILE 1 51 ARG 1 73 0 SHEET 2 B23 4 THR 1 211 HIS 1 228 -1 SHEET 3 B23 4 ARG 1 108 GLU 1 121 -1 SHEET 4 B23 4 PHE 1 176 ARG 1 178 -1 SHEET 1 B33 4 LEU 1 82 VAL 1 85 0 SHEET 2 B33 4 PHE 1 193 TYR 1 202 -1 SHEET 3 B33 4 PRO 1 126 GLY 1 133 -1 SHEET 4 B33 4 PRO 1 152 ASP 1 157 -1 CRYST1 362.600 347.100 334.900 90.00 90.00 90.00 P 2 21 21 240 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 0.002758 0.000000 0.000000 0.25000 SCALE2 0.000000 0.000188 0.002875 0.00000 SCALE3 0.000000 -0.002980 0.000195 0.00000