1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Maxwell, K.L. Yee, A.A. Booth, V. Arrowsmith, C.H. Gold, M. Davidson, A.R. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE 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 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 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 C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking UK J.Mol.Biol. JMOBAK 0070 0022-2836 308 9 14 10.1006/jmbi.2001.4582 11302702 The solution structure of bacteriophage lambda protein W, a small morphogenetic protein possessing a novel fold. 2001 10.2210/pdb1hyw/pdb pdb_00001hyw 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 7625.749 HEAD-TO-TAIL JOINING PROTEIN W 1 man polymer GPW no no MTRQEELAAARAALHDLMTGKRVATVQKDGRRVEFTATSVSDLKKYIAELEVQTGMTQRRRGPAGFYV MTRQEELAAARAALHDLMTGKRVATVQKDGRRVEFTATSVSDLKKYIAELEVQTGMTQRRRGPAGFYV 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 n n n n n n n n n n n n n n n n n n Lambda-like viruses Escherichia sample W 10710 Enterobacteria phage lambda 562 Escherichia coli BL21(LAMBDADE3) PLASMID PET21D database_2 pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2001-04-25 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 PDBJ 2001-01-22 REL The structure was determined using triple-resonance NMR spectroscopy. structures with the lowest energy 50 15 3D_13C-separated_NOESY 3D_15N-separated_NOESY HNHA 200mM NaCl 6.5 ambient 298 K The structures are based on a total of 1293 restraints, 1171 are NOE-derived distance constraints, 72 dihedral angle restraints,50 distance restraints from hydrogen bonds. distance geometry simulated annealing 1.5mM gpW U-15N, 13C; 10mM phosphate buffer NA, 200mM NaCl,90% H2O,10% D2O 90% H2O/10% D2O Brunger structure solution X-PLOR 3.851 Delaglio processing NMRPipe 1.7 Johnson data analysis NMRView 3.0 Brunger refinement X-PLOR 3.851 500 Varian INOVA 600 Varian INOVA MET 1 n 1 MET 1 A THR 2 n 2 THR 2 A ARG 3 n 3 ARG 3 A GLN 4 n 4 GLN 4 A GLU 5 n 5 GLU 5 A GLU 6 n 6 GLU 6 A LEU 7 n 7 LEU 7 A ALA 8 n 8 ALA 8 A ALA 9 n 9 ALA 9 A ALA 10 n 10 ALA 10 A ARG 11 n 11 ARG 11 A ALA 12 n 12 ALA 12 A ALA 13 n 13 ALA 13 A LEU 14 n 14 LEU 14 A HIS 15 n 15 HIS 15 A ASP 16 n 16 ASP 16 A LEU 17 n 17 LEU 17 A MET 18 n 18 MET 18 A THR 19 n 19 THR 19 A GLY 20 n 20 GLY 20 A LYS 21 n 21 LYS 21 A ARG 22 n 22 ARG 22 A VAL 23 n 23 VAL 23 A ALA 24 n 24 ALA 24 A THR 25 n 25 THR 25 A VAL 26 n 26 VAL 26 A GLN 27 n 27 GLN 27 A LYS 28 n 28 LYS 28 A ASP 29 n 29 ASP 29 A GLY 30 n 30 GLY 30 A ARG 31 n 31 ARG 31 A ARG 32 n 32 ARG 32 A VAL 33 n 33 VAL 33 A GLU 34 n 34 GLU 34 A PHE 35 n 35 PHE 35 A THR 36 n 36 THR 36 A ALA 37 n 37 ALA 37 A THR 38 n 38 THR 38 A SER 39 n 39 SER 39 A VAL 40 n 40 VAL 40 A SER 41 n 41 SER 41 A ASP 42 n 42 ASP 42 A LEU 43 n 43 LEU 43 A LYS 44 n 44 LYS 44 A LYS 45 n 45 LYS 45 A TYR 46 n 46 TYR 46 A ILE 47 n 47 ILE 47 A ALA 48 n 48 ALA 48 A GLU 49 n 49 GLU 49 A LEU 50 n 50 LEU 50 A GLU 51 n 51 GLU 51 A VAL 52 n 52 VAL 52 A GLN 53 n 53 GLN 53 A THR 54 n 54 THR 54 A GLY 55 n 55 GLY 55 A MET 56 n 56 MET 56 A THR 57 n 57 THR 57 A GLN 58 n 58 GLN 58 A n 59 59 A n 60 60 A n 61 61 A n 62 62 A n 63 63 A n 64 64 A n 65 65 A n 66 66 A n 67 67 A n 68 68 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 A N VAL 26 A N VAL 26 A O VAL 33 A O VAL 33 1 A ARG 59 A ARG 59 1 Y 1 A ARG 60 A ARG 60 1 Y 1 A ARG 61 A ARG 61 1 Y 1 A GLY 62 A GLY 62 1 Y 1 A PRO 63 A PRO 63 1 Y 1 A ALA 64 A ALA 64 1 Y 1 A GLY 65 A GLY 65 1 Y 1 A PHE 66 A PHE 66 1 Y 1 A TYR 67 A TYR 67 1 Y 1 A VAL 68 A VAL 68 1 Y 2 A ARG 59 A ARG 59 1 Y 2 A ARG 60 A ARG 60 1 Y 2 A ARG 61 A ARG 61 1 Y 2 A GLY 62 A GLY 62 1 Y 2 A PRO 63 A PRO 63 1 Y 2 A ALA 64 A ALA 64 1 Y 2 A GLY 65 A GLY 65 1 Y 2 A PHE 66 A PHE 66 1 Y 2 A TYR 67 A TYR 67 1 Y 2 A VAL 68 A VAL 68 1 Y 3 A ARG 59 A ARG 59 1 Y 3 A ARG 60 A ARG 60 1 Y 3 A ARG 61 A ARG 61 1 Y 3 A GLY 62 A GLY 62 1 Y 3 A PRO 63 A PRO 63 1 Y 3 A ALA 64 A ALA 64 1 Y 3 A GLY 65 A GLY 65 1 Y 3 A PHE 66 A PHE 66 1 Y 3 A TYR 67 A TYR 67 1 Y 3 A VAL 68 A VAL 68 1 Y 4 A ARG 59 A ARG 59 1 Y 4 A ARG 60 A ARG 60 1 Y 4 A ARG 61 A ARG 61 1 Y 4 A GLY 62 A GLY 62 1 Y 4 A PRO 63 A PRO 63 1 Y 4 A ALA 64 A ALA 64 1 Y 4 A GLY 65 A GLY 65 1 Y 4 A PHE 66 A PHE 66 1 Y 4 A TYR 67 A TYR 67 1 Y 4 A VAL 68 A VAL 68 1 Y 5 A ARG 59 A ARG 59 1 Y 5 A ARG 60 A ARG 60 1 Y 5 A ARG 61 A ARG 61 1 Y 5 A GLY 62 A GLY 62 1 Y 5 A PRO 63 A PRO 63 1 Y 5 A ALA 64 A ALA 64 1 Y 5 A GLY 65 A GLY 65 1 Y 5 A PHE 66 A PHE 66 1 Y 5 A TYR 67 A TYR 67 1 Y 5 A VAL 68 A VAL 68 1 Y 6 A ARG 59 A ARG 59 1 Y 6 A ARG 60 A ARG 60 1 Y 6 A ARG 61 A ARG 61 1 Y 6 A GLY 62 A GLY 62 1 Y 6 A PRO 63 A PRO 63 1 Y 6 A ALA 64 A ALA 64 1 Y 6 A GLY 65 A GLY 65 1 Y 6 A PHE 66 A PHE 66 1 Y 6 A TYR 67 A TYR 67 1 Y 6 A VAL 68 A VAL 68 1 Y 7 A ARG 59 A ARG 59 1 Y 7 A ARG 60 A ARG 60 1 Y 7 A ARG 61 A ARG 61 1 Y 7 A GLY 62 A GLY 62 1 Y 7 A PRO 63 A PRO 63 1 Y 7 A ALA 64 A ALA 64 1 Y 7 A GLY 65 A GLY 65 1 Y 7 A PHE 66 A PHE 66 1 Y 7 A TYR 67 A TYR 67 1 Y 7 A VAL 68 A VAL 68 1 Y 8 A ARG 59 A ARG 59 1 Y 8 A ARG 60 A ARG 60 1 Y 8 A ARG 61 A ARG 61 1 Y 8 A GLY 62 A GLY 62 1 Y 8 A PRO 63 A PRO 63 1 Y 8 A ALA 64 A ALA 64 1 Y 8 A GLY 65 A GLY 65 1 Y 8 A PHE 66 A PHE 66 1 Y 8 A TYR 67 A TYR 67 1 Y 8 A VAL 68 A VAL 68 1 Y 9 A ARG 59 A ARG 59 1 Y 9 A ARG 60 A ARG 60 1 Y 9 A ARG 61 A ARG 61 1 Y 9 A GLY 62 A GLY 62 1 Y 9 A PRO 63 A PRO 63 1 Y 9 A ALA 64 A ALA 64 1 Y 9 A GLY 65 A GLY 65 1 Y 9 A PHE 66 A PHE 66 1 Y 9 A TYR 67 A TYR 67 1 Y 9 A VAL 68 A VAL 68 1 Y 10 A ARG 59 A ARG 59 1 Y 10 A ARG 60 A ARG 60 1 Y 10 A ARG 61 A ARG 61 1 Y 10 A GLY 62 A GLY 62 1 Y 10 A PRO 63 A PRO 63 1 Y 10 A ALA 64 A ALA 64 1 Y 10 A GLY 65 A GLY 65 1 Y 10 A PHE 66 A PHE 66 1 Y 10 A TYR 67 A TYR 67 1 Y 10 A VAL 68 A VAL 68 1 Y 11 A ARG 59 A ARG 59 1 Y 11 A ARG 60 A ARG 60 1 Y 11 A ARG 61 A ARG 61 1 Y 11 A GLY 62 A GLY 62 1 Y 11 A PRO 63 A PRO 63 1 Y 11 A ALA 64 A ALA 64 1 Y 11 A GLY 65 A GLY 65 1 Y 11 A PHE 66 A PHE 66 1 Y 11 A TYR 67 A TYR 67 1 Y 11 A VAL 68 A VAL 68 1 Y 12 A ARG 59 A ARG 59 1 Y 12 A ARG 60 A ARG 60 1 Y 12 A ARG 61 A ARG 61 1 Y 12 A GLY 62 A GLY 62 1 Y 12 A PRO 63 A PRO 63 1 Y 12 A ALA 64 A ALA 64 1 Y 12 A GLY 65 A GLY 65 1 Y 12 A PHE 66 A PHE 66 1 Y 12 A TYR 67 A TYR 67 1 Y 12 A VAL 68 A VAL 68 1 Y 13 A ARG 59 A ARG 59 1 Y 13 A ARG 60 A ARG 60 1 Y 13 A ARG 61 A ARG 61 1 Y 13 A GLY 62 A GLY 62 1 Y 13 A PRO 63 A PRO 63 1 Y 13 A ALA 64 A ALA 64 1 Y 13 A GLY 65 A GLY 65 1 Y 13 A PHE 66 A PHE 66 1 Y 13 A TYR 67 A TYR 67 1 Y 13 A VAL 68 A VAL 68 1 Y 14 A ARG 59 A ARG 59 1 Y 14 A ARG 60 A ARG 60 1 Y 14 A ARG 61 A ARG 61 1 Y 14 A GLY 62 A GLY 62 1 Y 14 A PRO 63 A PRO 63 1 Y 14 A ALA 64 A ALA 64 1 Y 14 A GLY 65 A GLY 65 1 Y 14 A PHE 66 A PHE 66 1 Y 14 A TYR 67 A TYR 67 1 Y 14 A VAL 68 A VAL 68 1 Y 15 A ARG 59 A ARG 59 1 Y 15 A ARG 60 A ARG 60 1 Y 15 A ARG 61 A ARG 61 1 Y 15 A GLY 62 A GLY 62 1 Y 15 A PRO 63 A PRO 63 1 Y 15 A ALA 64 A ALA 64 1 Y 15 A GLY 65 A GLY 65 1 Y 15 A PHE 66 A PHE 66 1 Y 15 A TYR 67 A TYR 67 1 Y 15 A VAL 68 A VAL 68 1 Y 1 A CA GLN 58 WRONG HAND 8 A CA GLN 58 WRONG HAND 9 A CA GLN 58 WRONG HAND 10 A CA GLN 58 WRONG HAND 15 A CA GLN 58 WRONG HAND 1 A A O H LEU ILE 43 47 1.54 1 A A O H ILE GLU 47 51 1.57 1 A A O H ALA PHE 24 35 1.57 1 A A O H ASP THR 16 19 1.59 1 A A O H VAL LYS 40 44 1.59 2 A A O H LEU ILE 43 47 1.55 2 A A O H ALA PHE 24 35 1.58 2 A A O H VAL LYS 40 44 1.59 3 A A O H LEU ILE 43 47 1.55 3 A A O H VAL LYS 40 44 1.59 3 A A O H ASP THR 16 19 1.59 4 A A O H LEU ILE 43 47 1.54 4 A A O H ARG HIS 11 15 1.55 4 A A O H ALA LEU 10 14 1.55 5 A A O H LEU ILE 43 47 1.55 5 A A O H VAL LYS 40 44 1.59 5 A A O H ASP THR 16 19 1.59 6 A A O H LEU ILE 43 47 1.53 6 A A O H VAL LYS 40 44 1.59 7 A A O H LEU ILE 43 47 1.52 7 A A O H VAL LYS 40 44 1.59 8 A A O H LEU ILE 43 47 1.55 8 A A O H VAL LYS 40 44 1.57 9 A A O H LEU ILE 43 47 1.55 9 A A O H ALA PHE 24 35 1.58 9 A A O H ASP THR 16 19 1.59 9 A A O H VAL LYS 40 44 1.60 10 A A O H LEU ILE 43 47 1.54 10 A A O H VAL LYS 40 44 1.58 10 A A O H ASP THR 16 19 1.59 11 A A O H LEU ILE 43 47 1.54 11 A A O H VAL LYS 40 44 1.60 12 A A O H VAL LYS 40 44 1.56 12 A A O H LEU ILE 43 47 1.56 12 A A O H ALA PHE 24 35 1.57 12 A A O H ASP THR 16 19 1.58 13 A A O H LEU ILE 43 47 1.55 13 A A O H VAL LYS 40 44 1.58 13 A A O H ALA PHE 24 35 1.59 14 A A O H LEU ILE 43 47 1.53 14 A A O H ALA PHE 24 35 1.57 14 A A O H ASP THR 16 19 1.59 14 A A O H VAL LYS 40 44 1.60 15 A A O H LEU ILE 43 47 1.51 15 A A O H ALA PHE 24 35 1.60 1 A THR 19 -149.28 -66.39 1 A LYS 21 -53.22 -163.72 1 A ARG 22 -162.53 -36.96 1 A ASP 29 -101.49 52.30 1 A THR 36 -125.36 -154.89 1 A ALA 37 -96.54 39.82 1 A THR 54 -45.87 158.45 2 A THR 2 68.19 99.80 2 A ARG 3 -115.51 50.35 2 A LYS 21 -52.68 -164.03 2 A ARG 22 -155.10 -42.40 2 A ASP 29 -96.16 39.74 2 A THR 36 -123.55 -162.84 2 A ALA 37 -88.95 43.56 2 A THR 38 -131.21 -54.74 2 A GLN 53 -76.78 -89.46 2 A THR 54 51.53 164.71 2 A MET 56 54.49 79.55 2 A THR 57 -161.99 118.35 3 A THR 2 -143.75 58.42 3 A THR 19 -154.13 -67.15 3 A LYS 21 -52.89 -166.07 3 A ARG 22 -155.19 -41.62 3 A THR 36 -123.98 -162.22 3 A ALA 37 -89.06 43.49 3 A THR 38 -131.18 -55.83 3 A GLN 53 -71.93 -104.37 3 A THR 54 54.43 161.09 3 A MET 56 57.43 89.28 4 A THR 2 -163.67 118.77 4 A THR 19 -152.22 61.91 4 A LYS 21 -54.01 -158.64 4 A ARG 22 -166.19 -45.06 4 A ASP 29 -96.81 47.56 4 A THR 36 -125.64 -156.90 4 A THR 54 -37.80 157.65 5 A THR 2 177.78 -48.83 5 A ARG 3 -111.15 72.89 5 A THR 19 -152.20 -68.34 5 A LYS 21 -52.21 -166.94 5 A ARG 22 -154.07 -43.13 5 A ASP 29 -102.99 44.45 5 A THR 36 -124.00 -162.74 5 A ALA 37 -88.84 43.70 5 A THR 38 -131.67 -53.00 5 A GLN 53 -73.20 -100.87 5 A THR 54 54.92 155.39 5 A THR 57 61.13 124.87 6 A LYS 21 -53.11 -163.88 6 A ARG 22 -155.82 -40.88 6 A THR 36 -124.87 -163.02 6 A ALA 37 -88.52 43.77 6 A THR 38 -131.76 -55.30 6 A THR 54 -43.50 155.03 7 A THR 2 -99.55 51.69 7 A ARG 3 -85.86 -70.89 7 A THR 19 -148.97 -66.88 7 A LYS 21 -52.52 -166.46 7 A ARG 22 -155.27 -41.98 7 A THR 36 -125.77 -161.66 7 A ALA 37 -89.46 41.77 7 A THR 38 -130.29 -51.76 7 A THR 54 -41.38 155.76 8 A THR 2 50.49 76.15 8 A THR 19 -150.85 -67.96 8 A LYS 21 -52.73 -166.42 8 A ARG 22 -154.22 -42.56 8 A THR 36 -124.12 -163.03 8 A ALA 37 -88.82 44.57 8 A THR 38 -134.33 -53.95 8 A GLN 53 -74.47 -97.46 8 A THR 54 54.15 155.60 9 A ARG 3 -140.59 -52.28 9 A THR 19 -153.20 -68.90 9 A LYS 21 -52.66 -166.22 9 A ARG 22 -155.18 -42.19 9 A THR 36 -124.74 -160.66 9 A ALA 37 -89.70 42.11 9 A THR 38 -128.59 -52.58 9 A GLN 53 -71.67 -106.83 9 A THR 54 55.48 159.44 9 A THR 57 66.85 -162.48 10 A THR 2 -51.06 100.33 10 A THR 19 -152.90 -69.62 10 A LYS 21 -52.28 -167.22 10 A ARG 22 -153.42 -43.75 10 A LYS 28 -100.04 -83.94 10 A ASP 29 -179.72 -41.84 10 A THR 36 -124.49 -161.92 10 A ALA 37 -88.96 42.11 10 A THR 38 -130.23 -52.92 10 A THR 54 -38.29 160.08 10 A MET 56 31.92 45.37 11 A ARG 3 -146.34 15.50 11 A THR 19 -151.48 -68.76 11 A LYS 21 -52.46 -166.89 11 A ARG 22 -153.88 -43.93 11 A THR 36 -125.39 -162.42 11 A ALA 37 -88.95 42.96 11 A THR 38 -131.56 -51.84 11 A GLN 53 -73.26 -100.16 11 A THR 54 52.69 163.68 12 A THR 2 -160.53 -164.74 12 A THR 19 -150.19 -65.96 12 A LYS 21 -53.25 -163.38 12 A ARG 22 -162.21 -38.66 12 A ASP 29 -99.59 35.13 12 A THR 36 -126.13 -155.78 12 A ALA 37 -96.36 37.36 12 A GLN 53 -74.20 -98.65 12 A THR 54 53.99 157.78 13 A THR 2 48.69 179.90 13 A THR 19 -152.79 65.34 13 A LYS 21 -53.51 -160.84 13 A ARG 22 -164.02 -37.94 13 A THR 36 -126.41 -154.44 13 A ALA 37 -97.49 37.21 13 A GLN 53 -78.67 -79.38 13 A THR 54 49.42 169.70 13 A MET 56 46.07 87.35 13 A THR 57 69.79 103.10 14 A THR 2 -68.89 -160.71 14 A THR 19 -152.51 -63.53 14 A LYS 21 -53.48 -164.12 14 A ARG 22 -163.96 -37.22 14 A THR 36 -124.64 -155.30 14 A ALA 37 -95.96 35.67 14 A THR 54 -43.05 161.79 14 A MET 56 -53.78 102.47 15 A THR 19 -150.51 -68.80 15 A LYS 21 -52.48 -166.59 15 A ARG 22 -154.46 -44.30 15 A ALA 37 -85.79 48.57 15 A THR 38 -141.47 -46.40 15 A THR 54 -39.89 154.57 SOLUTION STRUCTURE OF BACTERIOPHAGE LAMBDA GPW 1 N N A ARG 3 A ARG 3 HELX_P A MET 18 A MET 18 1 1 16 A SER 39 A SER 39 HELX_P A THR 54 A THR 54 1 2 16 VIRAL PROTEIN novel fold; two helices, one two-stranded beta-sheet, Viral protein A MET 56 A MET 56 9 A THR 57 A THR 57 0.00 VHTJ_LAMBD UNP 1 1 P68660 1 68 1HYW 1 68 P68660 A 1 1 68 2 anti-parallel A ALA 24 A ALA 24 A GLN 27 A GLN 27 A ARG 32 A ARG 32 A PHE 35 A PHE 35 1 P 1