1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Sawai, M.V. Waring, A.J. Kearney, W.R. McCray Jr., P.B. Forsyth, W.R. Lehrer, R.I. Tack, B.F. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H10 N3 O2 1 156.162 y HISTIDINE L-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 C9 H11 N O3 181.189 y TYROSINE L-peptide linking UK Protein Eng. PRENE9 0859 0269-2139 15 225 232 10.1093/protein/15.3.225 11932493 Impact of single-residue mutations on the structure and function of ovispirin/novispirin antimicrobial peptides. 2002 10.2210/pdb1hu5/pdb pdb_00001hu5 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 2270.896 OVISPIRIN-1 1 syn polymer no no KNLRRIIRKIIHIIKKYG KNLRRIIRKIIHIIKKYG A polypeptide(L) n n n n n n n n n n n n n n n n n n database_2 pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2002-04-05 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession RCSB Y RCSB 2001-01-04 REL REL target function 50 20 2D NOESY DQF-COSY TOCSY 0.05 6.32 1 atm 298 K The structures are based on 172 distance constraints and 25 dihedral angle constraints. simulated annealing, torsion angle dynamics 1 lowest target function 0.88 mM OVISPIRIN-1; 50 mM sodium phosphate buffer 50% H2O, 40% TFE-D3, 10% D2O Guentert structure solution DYANA 1.5 Guentert refinement DYANA 1.5 500 Varian INOVA LYS 1 n 1 LYS 1 A ASN 2 n 2 ASN 2 A LEU 3 n 3 LEU 3 A ARG 4 n 4 ARG 4 A ARG 5 n 5 ARG 5 A ILE 6 n 6 ILE 6 A ILE 7 n 7 ILE 7 A ARG 8 n 8 ARG 8 A LYS 9 n 9 LYS 9 A ILE 10 n 10 ILE 10 A ILE 11 n 11 ILE 11 A HIS 12 n 12 HIS 12 A ILE 13 n 13 ILE 13 A ILE 14 n 14 ILE 14 A LYS 15 n 15 LYS 15 A LYS 16 n 16 LYS 16 A TYR 17 n 17 TYR 17 A GLY 18 n 18 GLY 18 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 A O H HIS LYS 12 16 1.27 1 A A O H LYS ILE 9 13 1.38 1 A A O H ILE TYR 13 17 1.40 2 A A O H HIS LYS 12 16 1.27 2 A A O H LYS ILE 9 13 1.38 2 A A O H ILE TYR 13 17 1.39 3 A A O H HIS LYS 12 16 1.27 3 A A O H LYS ILE 9 13 1.38 3 A A O H ILE TYR 13 17 1.39 3 A A O H LYS ARG 1 4 1.53 4 A A O H HIS LYS 12 16 1.27 4 A A O H LYS ILE 9 13 1.38 4 A A O H ILE TYR 13 17 1.40 5 A A O H HIS LYS 12 16 1.27 5 A A O H LYS ILE 9 13 1.38 5 A A O H ILE TYR 13 17 1.39 6 A A O H HIS LYS 12 16 1.26 6 A A O H LYS ILE 9 13 1.38 6 A A O H ILE TYR 13 17 1.40 7 A A O H HIS LYS 12 16 1.27 7 A A O H LYS ILE 9 13 1.39 7 A A O H ILE TYR 13 17 1.40 7 A A O H ILE LYS 6 9 1.58 8 A A O H HIS LYS 12 16 1.27 8 A A O H LYS ILE 9 13 1.39 8 A A O H ILE TYR 13 17 1.39 8 A A O H ILE LYS 6 9 1.59 9 A A O H HIS LYS 12 16 1.27 9 A A O H LYS ILE 9 13 1.38 9 A A O H ILE TYR 13 17 1.39 9 A A O H ILE LYS 6 9 1.49 10 A A O H HIS LYS 12 16 1.27 10 A A O H LYS ILE 9 13 1.38 10 A A O H ILE TYR 13 17 1.39 10 A A O H ILE LYS 6 9 1.50 11 A A O H HIS LYS 12 16 1.27 11 A A O H ILE TYR 13 17 1.39 11 A A O H LYS ILE 9 13 1.43 12 A A O H HIS LYS 12 16 1.27 12 A A O H LYS ILE 9 13 1.38 12 A A O H ILE TYR 13 17 1.39 12 A A O H ILE LYS 6 9 1.49 13 A A O H HIS LYS 12 16 1.27 13 A A O H LYS ILE 9 13 1.38 13 A A O H ILE TYR 13 17 1.40 13 A A O H ILE LYS 6 9 1.49 14 A A O H HIS LYS 12 16 1.31 14 A A O H ILE TYR 13 17 1.37 14 A A O H LYS ILE 9 13 1.38 14 A A O H ILE LYS 6 9 1.52 14 A A O N ILE TYR 13 17 2.16 15 A A O H HIS LYS 12 16 1.27 15 A A O H LYS ILE 9 13 1.38 15 A A O H ILE TYR 13 17 1.39 16 A A O H HIS LYS 12 16 1.27 16 A A O H LYS ILE 9 13 1.38 16 A A O H ILE TYR 13 17 1.40 16 A A O H ILE LYS 6 9 1.50 17 A A O H HIS LYS 12 16 1.27 17 A A O H LYS ILE 9 13 1.38 17 A A O H ILE TYR 13 17 1.40 17 A A O H ILE LYS 6 9 1.51 18 A A O H HIS LYS 12 16 1.26 18 A A O H ILE LYS 6 9 1.36 18 A A O H LYS ILE 9 13 1.38 18 A A O H ILE TYR 13 17 1.40 19 A A O H HIS LYS 12 16 1.26 19 A A O H LYS ILE 9 13 1.38 19 A A O H ILE TYR 13 17 1.40 20 A A O H HIS LYS 12 16 1.27 20 A A O H LYS ILE 9 13 1.38 20 A A O H ILE TYR 13 17 1.39 20 A A O H ILE LYS 6 9 1.53 1 A ASN 2 -56.95 -85.21 1 A HIS 12 -94.26 -60.19 1 A TYR 17 -99.37 -71.33 2 A LEU 3 84.85 -7.21 2 A HIS 12 -94.14 -60.19 2 A TYR 17 -99.43 -71.27 3 A ASN 2 59.17 -90.00 3 A HIS 12 -94.24 -60.23 3 A TYR 17 -99.52 -71.38 4 A ASN 2 73.56 -65.96 4 A LEU 3 84.78 -7.22 4 A HIS 12 -94.18 -60.27 4 A TYR 17 -99.63 -71.22 5 A ASN 2 -90.32 56.90 5 A HIS 12 -94.21 -60.19 5 A TYR 17 -99.42 -71.35 6 A HIS 12 -94.53 -60.17 6 A TYR 17 -99.55 -71.28 7 A ASN 2 -40.63 151.34 7 A HIS 12 -93.89 -60.12 7 A TYR 17 -99.40 -71.33 8 A ASN 2 -85.99 -85.96 8 A HIS 12 -93.83 -60.23 8 A TYR 17 -99.44 -71.29 9 A ASN 2 50.33 -175.47 9 A HIS 12 -94.13 -60.21 9 A TYR 17 -99.46 -71.26 10 A HIS 12 -94.03 -60.20 10 A TYR 17 -99.43 -71.32 11 A ASN 2 178.62 139.71 11 A TYR 17 -99.36 -71.32 12 A ASN 2 41.73 90.00 12 A HIS 12 -94.09 -60.13 12 A TYR 17 -99.40 -71.26 13 A ASN 2 62.04 143.14 13 A HIS 12 -94.24 -60.27 13 A TYR 17 -99.71 -71.33 14 A HIS 12 -94.72 -60.30 14 A TYR 17 -99.43 -75.94 15 A LEU 3 170.21 -19.34 15 A HIS 12 -94.13 -60.19 15 A TYR 17 -99.41 -71.28 16 A ASN 2 -47.49 172.92 16 A HIS 12 -94.20 -60.34 16 A TYR 17 -99.67 -71.35 17 A ASN 2 -49.25 174.93 17 A HIS 12 -94.17 -60.22 17 A TYR 17 -99.49 -71.25 18 A HIS 12 -93.83 -60.22 18 A TYR 17 -99.57 -71.36 19 A LEU 3 169.97 -19.78 19 A HIS 12 -94.52 -60.07 19 A TYR 17 -99.51 -71.21 20 A LEU 3 170.20 -20.28 20 A HIS 12 -94.12 -60.35 20 A TYR 17 -99.60 -71.20 SOLUTION STRUCTURE OF OVISPIRIN-1 1 N N A LEU 3 A LEU 3 HELX_P A TYR 17 A TYR 17 1 1 15 UNKNOWN FUNCTION solution structure, unknown function 1HU5 PDB 1 1HU5 1 18 1HU5 1 18 1HU5 A 1 1 18