1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Marassi, F.M. Opella, S.J. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C5 H10 N2 O3 146.144 y GLUTAMINE L-peptide linking C5 H9 N O4 147.129 y GLUTAMIC ACID L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H13 N O2 131.173 y ISOLEUCINE L-peptide linking C6 H13 N O2 131.173 y LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H11 N O2 S 149.211 y METHIONINE L-peptide linking C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking C4 H9 N O3 119.119 y THREONINE L-peptide linking C11 H12 N2 O2 204.225 y TRYPTOPHAN L-peptide linking C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking US Protein Sci. PRCIEI 0795 0961-8368 12 403 411 10.1110/ps.0211503 12592011 Simultaneous assignment and structure determination of a membrane protein from NMR orientational restraints 2003 NE J.Biomol.NMR JBNME9 0800 0925-2738 23 239 242 10.1023/A:1019887612018 Using Pisa pies to resolve ambiguities in angular constraints from PISEMA spectra of aligned proteins 2002 10.2210/pdb1mzt/pdb pdb_00001mzt 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1 SINGLE WAVELENGTH M 1 1.0 5244.000 major coat protein pVIII 1 nat polymer Filamentous phage cloning vector fd-tet no no AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n Inovirus sample 10864 Enterobacteria phage fd Enterobacteria phage M13 database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2002-11-27 1 1 2008-04-28 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name Fd Major Coat Protein In SDS Micelles, NMR, 20 Structures SEQUENCE AUTHOR PROVIDED COORDINATES FOR THE PROTEIN BACKBONE ONLY. RCSB Y RCSB 2002-10-09 REL The structure was determined from one uniformly and four selectively 15N-labeled samples. structures with the lowest energy 6 1 1H/15N PISEMA 0 7 ambient 296 K Structure calculated from 40 chemical shift and 40 dipolar coupling restraints Calculation of bond orientations and dihedral angles from solid-state NMR restraints, followed by back-calculation of NMR data from oriented structure 1 lowest energy 8 mg 15N-labeled fd coat protein, 64 mg POPC, 16 mg POPG, lipid bilayers oriented on glass slides Lipid bilayers hydrated in water Chemagnetics collection CMXW 95 Biosym data analysis Felix 95 Marassi, Opella structure solution BACKTOR 2 Marassi, Opella refinement BACKTOR 2 400 Chemagnetics CMX n 1 1 A n 2 2 A n 3 3 A n 4 4 A n 5 5 A n 6 6 A ALA 7 n 7 ALA 7 A LYS 8 n 8 LYS 8 A ALA 9 n 9 ALA 9 A ALA 10 n 10 ALA 10 A PHE 11 n 11 PHE 11 A ASP 12 n 12 ASP 12 A SER 13 n 13 SER 13 A LEU 14 n 14 LEU 14 A GLN 15 n 15 GLN 15 A ALA 16 n 16 ALA 16 A SER 17 n 17 SER 17 A ALA 18 n 18 ALA 18 A THR 19 n 19 THR 19 A GLU 20 n 20 GLU 20 A TYR 21 n 21 TYR 21 A ILE 22 n 22 ILE 22 A GLY 23 n 23 GLY 23 A TYR 24 n 24 TYR 24 A ALA 25 n 25 ALA 25 A TRP 26 n 26 TRP 26 A ALA 27 n 27 ALA 27 A MET 28 n 28 MET 28 A VAL 29 n 29 VAL 29 A VAL 30 n 30 VAL 30 A VAL 31 n 31 VAL 31 A ILE 32 n 32 ILE 32 A VAL 33 n 33 VAL 33 A GLY 34 n 34 GLY 34 A ALA 35 n 35 ALA 35 A THR 36 n 36 THR 36 A ILE 37 n 37 ILE 37 A GLY 38 n 38 GLY 38 A ILE 39 n 39 ILE 39 A LYS 40 n 40 LYS 40 A LEU 41 n 41 LEU 41 A PHE 42 n 42 PHE 42 A LYS 43 n 43 LYS 43 A LYS 44 n 44 LYS 44 A PHE 45 n 45 PHE 45 A n 46 46 A n 47 47 A n 48 48 A n 49 49 A n 50 50 A author_defined_assembly 1 monomeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 x,y,z identity operation 0.0000000000 0.0000000000 0.0000000000 1 A CB ALA 7 A CB ALA 7 1 Y 1 A CB LYS 8 A CB LYS 8 1 Y 1 A CG LYS 8 A CG LYS 8 1 Y 1 A CD LYS 8 A CD LYS 8 1 Y 1 A CE LYS 8 A CE LYS 8 1 Y 1 A NZ LYS 8 A NZ LYS 8 1 Y 1 A CB ALA 9 A CB ALA 9 1 Y 1 A CB ALA 10 A CB ALA 10 1 Y 1 A CB PHE 11 A CB PHE 11 1 Y 1 A CG PHE 11 A CG PHE 11 1 Y 1 A CD1 PHE 11 A CD1 PHE 11 1 Y 1 A CD2 PHE 11 A CD2 PHE 11 1 Y 1 A CE1 PHE 11 A CE1 PHE 11 1 Y 1 A CE2 PHE 11 A CE2 PHE 11 1 Y 1 A CZ PHE 11 A CZ PHE 11 1 Y 1 A CB ASP 12 A CB ASP 12 1 Y 1 A CG ASP 12 A CG ASP 12 1 Y 1 A OD1 ASP 12 A OD1 ASP 12 1 Y 1 A OD2 ASP 12 A OD2 ASP 12 1 Y 1 A CB SER 13 A CB SER 13 1 Y 1 A OG SER 13 A OG SER 13 1 Y 1 A CB LEU 14 A CB LEU 14 1 Y 1 A CG LEU 14 A CG LEU 14 1 Y 1 A CD1 LEU 14 A CD1 LEU 14 1 Y 1 A CD2 LEU 14 A CD2 LEU 14 1 Y 1 A CB GLN 15 A CB GLN 15 1 Y 1 A CG GLN 15 A CG GLN 15 1 Y 1 A CD GLN 15 A CD GLN 15 1 Y 1 A OE1 GLN 15 A OE1 GLN 15 1 Y 1 A NE2 GLN 15 A NE2 GLN 15 1 Y 1 A CB ALA 16 A CB ALA 16 1 Y 1 A CB SER 17 A CB SER 17 1 Y 1 A OG SER 17 A OG SER 17 1 Y 1 A CB ALA 18 A CB ALA 18 1 Y 1 A CB THR 19 A CB THR 19 1 Y 1 A OG1 THR 19 A OG1 THR 19 1 Y 1 A CG2 THR 19 A CG2 THR 19 1 Y 1 A CB GLU 20 A CB GLU 20 1 Y 1 A CG GLU 20 A CG GLU 20 1 Y 1 A CD GLU 20 A CD GLU 20 1 Y 1 A OE1 GLU 20 A OE1 GLU 20 1 Y 1 A OE2 GLU 20 A OE2 GLU 20 1 Y 1 A CB TYR 21 A CB TYR 21 1 Y 1 A CG TYR 21 A CG TYR 21 1 Y 1 A CD1 TYR 21 A CD1 TYR 21 1 Y 1 A CD2 TYR 21 A CD2 TYR 21 1 Y 1 A CE1 TYR 21 A CE1 TYR 21 1 Y 1 A CE2 TYR 21 A CE2 TYR 21 1 Y 1 A CZ TYR 21 A CZ TYR 21 1 Y 1 A OH TYR 21 A OH TYR 21 1 Y 1 A CB ILE 22 A CB ILE 22 1 Y 1 A CG1 ILE 22 A CG1 ILE 22 1 Y 1 A CG2 ILE 22 A CG2 ILE 22 1 Y 1 A CD1 ILE 22 A CD1 ILE 22 1 Y 1 A CB TYR 24 A CB TYR 24 1 Y 1 A CG TYR 24 A CG TYR 24 1 Y 1 A CD1 TYR 24 A CD1 TYR 24 1 Y 1 A CD2 TYR 24 A CD2 TYR 24 1 Y 1 A CE1 TYR 24 A CE1 TYR 24 1 Y 1 A CE2 TYR 24 A CE2 TYR 24 1 Y 1 A CZ TYR 24 A CZ TYR 24 1 Y 1 A OH TYR 24 A OH TYR 24 1 Y 1 A CB ALA 25 A CB ALA 25 1 Y 1 A CB TRP 26 A CB TRP 26 1 Y 1 A CG TRP 26 A CG TRP 26 1 Y 1 A CD1 TRP 26 A CD1 TRP 26 1 Y 1 A CD2 TRP 26 A CD2 TRP 26 1 Y 1 A NE1 TRP 26 A NE1 TRP 26 1 Y 1 A CE2 TRP 26 A CE2 TRP 26 1 Y 1 A CE3 TRP 26 A CE3 TRP 26 1 Y 1 A CZ2 TRP 26 A CZ2 TRP 26 1 Y 1 A CZ3 TRP 26 A CZ3 TRP 26 1 Y 1 A CH2 TRP 26 A CH2 TRP 26 1 Y 1 A CB ALA 27 A CB ALA 27 1 Y 1 A CB MET 28 A CB MET 28 1 Y 1 A CG MET 28 A CG MET 28 1 Y 1 A SD MET 28 A SD MET 28 1 Y 1 A CE MET 28 A CE MET 28 1 Y 1 A CB VAL 29 A CB VAL 29 1 Y 1 A CG1 VAL 29 A CG1 VAL 29 1 Y 1 A CG2 VAL 29 A CG2 VAL 29 1 Y 1 A CB VAL 30 A CB VAL 30 1 Y 1 A CG1 VAL 30 A CG1 VAL 30 1 Y 1 A CG2 VAL 30 A CG2 VAL 30 1 Y 1 A CB VAL 31 A CB VAL 31 1 Y 1 A CG1 VAL 31 A CG1 VAL 31 1 Y 1 A CG2 VAL 31 A CG2 VAL 31 1 Y 1 A CB ILE 32 A CB ILE 32 1 Y 1 A CG1 ILE 32 A CG1 ILE 32 1 Y 1 A CG2 ILE 32 A CG2 ILE 32 1 Y 1 A CD1 ILE 32 A CD1 ILE 32 1 Y 1 A CB VAL 33 A CB VAL 33 1 Y 1 A CG1 VAL 33 A CG1 VAL 33 1 Y 1 A CG2 VAL 33 A CG2 VAL 33 1 Y 1 A CB ALA 35 A CB ALA 35 1 Y 1 A CB THR 36 A CB THR 36 1 Y 1 A OG1 THR 36 A OG1 THR 36 1 Y 1 A CG2 THR 36 A CG2 THR 36 1 Y 1 A CB ILE 37 A CB ILE 37 1 Y 1 A CG1 ILE 37 A CG1 ILE 37 1 Y 1 A CG2 ILE 37 A CG2 ILE 37 1 Y 1 A CD1 ILE 37 A CD1 ILE 37 1 Y 1 A CB ILE 39 A CB ILE 39 1 Y 1 A CG1 ILE 39 A CG1 ILE 39 1 Y 1 A CG2 ILE 39 A CG2 ILE 39 1 Y 1 A CD1 ILE 39 A CD1 ILE 39 1 Y 1 A CB LYS 40 A CB LYS 40 1 Y 1 A CG LYS 40 A CG LYS 40 1 Y 1 A CD LYS 40 A CD LYS 40 1 Y 1 A CE LYS 40 A CE LYS 40 1 Y 1 A NZ LYS 40 A NZ LYS 40 1 Y 1 A CB LEU 41 A CB LEU 41 1 Y 1 A CG LEU 41 A CG LEU 41 1 Y 1 A CD1 LEU 41 A CD1 LEU 41 1 Y 1 A CD2 LEU 41 A CD2 LEU 41 1 Y 1 A CB PHE 42 A CB PHE 42 1 Y 1 A CG PHE 42 A CG PHE 42 1 Y 1 A CD1 PHE 42 A CD1 PHE 42 1 Y 1 A CD2 PHE 42 A CD2 PHE 42 1 Y 1 A CE1 PHE 42 A CE1 PHE 42 1 Y 1 A CE2 PHE 42 A CE2 PHE 42 1 Y 1 A CZ PHE 42 A CZ PHE 42 1 Y 1 A CB LYS 43 A CB LYS 43 1 Y 1 A CG LYS 43 A CG LYS 43 1 Y 1 A CD LYS 43 A CD LYS 43 1 Y 1 A CE LYS 43 A CE LYS 43 1 Y 1 A NZ LYS 43 A NZ LYS 43 1 Y 1 A CB LYS 44 A CB LYS 44 1 Y 1 A CG LYS 44 A CG LYS 44 1 Y 1 A CD LYS 44 A CD LYS 44 1 Y 1 A CE LYS 44 A CE LYS 44 1 Y 1 A NZ LYS 44 A NZ LYS 44 1 Y 1 A CB PHE 45 A CB PHE 45 1 Y 1 A CG PHE 45 A CG PHE 45 1 Y 1 A CD1 PHE 45 A CD1 PHE 45 1 Y 1 A CD2 PHE 45 A CD2 PHE 45 1 Y 1 A CE1 PHE 45 A CE1 PHE 45 1 Y 1 A CE2 PHE 45 A CE2 PHE 45 1 Y 1 A CZ PHE 45 A CZ PHE 45 1 Y 1 A ALA 1 A ALA 1 1 Y 1 A GLU 2 A GLU 2 1 Y 1 A GLY 3 A GLY 3 1 Y 1 A ASP 4 A ASP 4 1 Y 1 A ASP 5 A ASP 5 1 Y 1 A PRO 6 A PRO 6 1 Y 1 A THR 46 A THR 46 1 Y 1 A SER 47 A SER 47 1 Y 1 A LYS 48 A LYS 48 1 Y 1 A ALA 49 A ALA 49 1 Y 1 A SER 50 A SER 50 1 Y 1 A A O H VAL ILE 33 37 1.43 1 A A O H ALA VAL 25 29 1.48 1 A A O H GLY GLY 34 38 1.49 1 A A O H VAL GLY 30 34 1.50 1 A A O CA SER TYR 17 24 2.01 1 A A O N THR LEU 36 41 2.12 1 A A O CA ILE LEU 37 41 2.13 1 A THR 19 -93.08 -81.76 1 A GLU 20 -37.20 132.45 NMR structure of the fd bacteriophage pVIII coat protein in lipid bilayer membranes 1 N N A ALA 7 A ALA 7 HELX_P A THR 19 A THR 19 1 1 13 A GLU 20 A GLU 20 HELX_P A PHE 45 A PHE 45 1 2 26 VIRAL PROTEIN fd coat protein, membrane-bound, pVIII, Viral protein COATB_BPFD UNP 1 24 P69539 AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS 24 73 1MZT 1 50 P69539 A 1 1 50