1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Ramelot, T.A. Ni, S. Goldsmith-Fischman, S. Cort, J.R. Honig, B. Kennedy, M.A. Northeast Structural Genomics Consortium (NESG) http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE 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 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 1556 1561 10.1110/ps.03108103 12824501 Solution structure of Vibrio cholerae protein VC0424: a variation of the ferredoxin-like fold. 2003 10.2210/pdb1nxi/pdb pdb_00001nxi 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 15341.780 conserved hypothetical protein VC0424 1 man polymer no no MSHQDDYLSVEELIEIQKEETRDIIQALLEDGSDPDALYEIEHHLFAEDFDKLEKAAVEAFKMGFEVLEAEETEDEDGNK LLCFDATMQSALDAKLIDEQVEKLVNLAEKFDIIYDGWGTYYEGLEHHHHHH MSHQDDYLSVEELIEIQKEETRDIIQALLEDGSDPDALYEIEHHLFAEDFDKLEKAAVEAFKMGFEVLEAEETEDEDGNK LLCFDATMQSALDAKLIDEQVEKLVNLAEKFDIIYDGWGTYYEGLEHHHHHH A OP3 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 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 Vibrio Escherichia sample VC0424 666 Vibrio cholerae 562 Escherichia coli Rosetta (lamdaDE3) plasmid pet28b Northeast Structural Genomics Consortium NESG PSI, Protein Structure Initiative database_2 pdbx_database_status pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif database_2 pdbx_database_status repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations Other Database references Other 1 0 2003-07-01 1 1 2008-04-29 1 2 2011-07-13 1 3 2020-02-05 1 4 2023-06-14 _pdbx_database_status.status_code_cs _pdbx_nmr_software.name _struct_ref_seq_dif.details _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.status_code_nmr_data Y RCSB Y RCSB 2003-02-10 REL REL REL REL all calculated structures submitted 20 20 3D_15N-separated_NOESY 3D_13C-separated_NOESY HNHA 4D_13C-separated_NOESY 20mM Tris HCl, 500mM NaCl 7.8 ambient 293 K THE STRUCTURES ARE BASED ON A TOTAL OF 1263 RESTRAINTS. SUMMARY OF EXPERIMENTAL CONSTRAINTS: DISTANCE CONSTRAINTS: TOTAL = 1030; INTRA-RESIDUE [I=J] = 5; SEQUENTIAL [(I-J)=1] = 250; MEDIUM RANGE [1<(I-J)<5] = 329; LONG RANGE [(I-J)>=5] = 446; HYDROGEN BOND CONSTRAINTS = 116 (2 PER H-BOND); NUMBER OF DISTANCE CONSTRAINTS PER RESIDUE = 9.0; DIHEDRAL-ANGLE CONSTRAINTS = 117 (44 PHI, 62 PSI, 11 CHI1); TOTAL NUMBER OF CONSTRAINTS PER RESIDUE = 11.0 (RESIDES 9-124); NUMBER OF LONG RANGE CONSTRAINTS PER RESIDUE = 3.9; NUMBER OF STRUCTURES COMPUTED = 20; NUMBER OF STRUCTURES USED = 20. AVERAGE DISTANCE VIOLATIONS >0.001 ANG = 27.7; AVERAGE R.M.S. DISTANCE VIOLATION = 0.002 ANG; MAXIMUM NUMBER OF DISTANCE VIOLATIONS 36. AVERAGE DIHEDRAL ANGLE VIOLATIONS: >0.001 DEG = 2.0; MAX NUMBER OF DIHEDRAL ANGLE VIOLATIONS = 4 DEG; AVERAGE R.M.S. ANGLE VIOLATION = 0.03 DEG. RMSD VALUES: BACKBONE ATOMS (N,C,C',O) = 0.51 ANG; ALL HEAVY ATOMS = 1.03 ANG; PROCHECK: MOST FAVORED REGIONS = 82%; ADDITIONAL ALLOWED REGIONS = 16%; GENEROUSLY ALLOWED REGIONS = 1%; DISALLOWED REGIONS = 1%. distance geometry and simulated annealing 1 lowest energy 1.5mM VC0424_delta16c, U-15N, 13C, Tris, pH 7.2 90% H2O/10% D2O 1.5mM VC0424_delta16c, U-15N, 13C, Tris, pH 6.8 99% H2O, 1% D2O Schwieters, Kuszewski, Tjandra, Clore structure solution X-PLOR NIH-2.0.4 MSI processing Felix 98 Varian collection VNMR 6.1C Goddard, Kneller data analysis Sparky 3.98 Schwieters, Kuszewski, Tjandra, Clore refinement X-PLOR NIH-2.0.4 800 Varian INOVA 750 Varian INOVA 600 Varian INOVA 600 Varian UNITY MET 1 n 1 MET 1 A SER 2 n 2 SER 2 A HIS 3 n 3 HIS 3 A GLN 4 n 4 GLN 4 A ASP 5 n 5 ASP 5 A ASP 6 n 6 ASP 6 A TYR 7 n 7 TYR 7 A LEU 8 n 8 LEU 8 A SER 9 n 9 SER 9 A VAL 10 n 10 VAL 10 A GLU 11 n 11 GLU 11 A GLU 12 n 12 GLU 12 A LEU 13 n 13 LEU 13 A ILE 14 n 14 ILE 14 A GLU 15 n 15 GLU 15 A ILE 16 n 16 ILE 16 A GLN 17 n 17 GLN 17 A LYS 18 n 18 LYS 18 A GLU 19 n 19 GLU 19 A GLU 20 n 20 GLU 20 A THR 21 n 21 THR 21 A ARG 22 n 22 ARG 22 A ASP 23 n 23 ASP 23 A ILE 24 n 24 ILE 24 A ILE 25 n 25 ILE 25 A GLN 26 n 26 GLN 26 A ALA 27 n 27 ALA 27 A LEU 28 n 28 LEU 28 A LEU 29 n 29 LEU 29 A GLU 30 n 30 GLU 30 A ASP 31 n 31 ASP 31 A GLY 32 n 32 GLY 32 A SER 33 n 33 SER 33 A ASP 34 n 34 ASP 34 A PRO 35 n 35 PRO 35 A ASP 36 n 36 ASP 36 A ALA 37 n 37 ALA 37 A LEU 38 n 38 LEU 38 A TYR 39 n 39 TYR 39 A GLU 40 n 40 GLU 40 A ILE 41 n 41 ILE 41 A GLU 42 n 42 GLU 42 A HIS 43 n 43 HIS 43 A HIS 44 n 44 HIS 44 A LEU 45 n 45 LEU 45 A PHE 46 n 46 PHE 46 A ALA 47 n 47 ALA 47 A GLU 48 n 48 GLU 48 A ASP 49 n 49 ASP 49 A PHE 50 n 50 PHE 50 A ASP 51 n 51 ASP 51 A LYS 52 n 52 LYS 52 A LEU 53 n 53 LEU 53 A GLU 54 n 54 GLU 54 A LYS 55 n 55 LYS 55 A ALA 56 n 56 ALA 56 A ALA 57 n 57 ALA 57 A VAL 58 n 58 VAL 58 A GLU 59 n 59 GLU 59 A ALA 60 n 60 ALA 60 A PHE 61 n 61 PHE 61 A LYS 62 n 62 LYS 62 A MET 63 n 63 MET 63 A GLY 64 n 64 GLY 64 A PHE 65 n 65 PHE 65 A GLU 66 n 66 GLU 66 A VAL 67 n 67 VAL 67 A LEU 68 n 68 LEU 68 A GLU 69 n 69 GLU 69 A ALA 70 n 70 ALA 70 A GLU 71 n 71 GLU 71 A GLU 72 n 72 GLU 72 A THR 73 n 73 THR 73 A GLU 74 n 74 GLU 74 A ASP 75 n 75 ASP 75 A GLU 76 n 76 GLU 76 A ASP 77 n 77 ASP 77 A GLY 78 n 78 GLY 78 A ASN 79 n 79 ASN 79 A LYS 80 n 80 LYS 80 A LEU 81 n 81 LEU 81 A LEU 82 n 82 LEU 82 A CYS 83 n 83 CYS 83 A PHE 84 n 84 PHE 84 A ASP 85 n 85 ASP 85 A ALA 86 n 86 ALA 86 A THR 87 n 87 THR 87 A MET 88 n 88 MET 88 A GLN 89 n 89 GLN 89 A SER 90 n 90 SER 90 A ALA 91 n 91 ALA 91 A LEU 92 n 92 LEU 92 A ASP 93 n 93 ASP 93 A ALA 94 n 94 ALA 94 A LYS 95 n 95 LYS 95 A LEU 96 n 96 LEU 96 A ILE 97 n 97 ILE 97 A ASP 98 n 98 ASP 98 A GLU 99 n 99 GLU 99 A GLN 100 n 100 GLN 100 A VAL 101 n 101 VAL 101 A GLU 102 n 102 GLU 102 A LYS 103 n 103 LYS 103 A LEU 104 n 104 LEU 104 A VAL 105 n 105 VAL 105 A ASN 106 n 106 ASN 106 A LEU 107 n 107 LEU 107 A ALA 108 n 108 ALA 108 A GLU 109 n 109 GLU 109 A LYS 110 n 110 LYS 110 A PHE 111 n 111 PHE 111 A ASP 112 n 112 ASP 112 A ILE 113 n 113 ILE 113 A ILE 114 n 114 ILE 114 A TYR 115 n 115 TYR 115 A ASP 116 n 116 ASP 116 A GLY 117 n 117 GLY 117 A TRP 118 n 118 TRP 118 A GLY 119 n 119 GLY 119 A THR 120 n 120 THR 120 A TYR 121 n 121 TYR 121 A TYR 122 n 122 TYR 122 A GLU 123 n 123 GLU 123 A GLY 124 n 124 GLY 124 A LEU 125 n 125 LEU 125 A GLU 126 n 126 GLU 126 A HIS 127 n 127 HIS 127 A HIS 128 n 128 HIS 128 A HIS 129 n 129 HIS 129 A HIS 130 n 130 HIS 130 A HIS 131 n 131 HIS 131 A HIS 132 n 132 HIS 132 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 identity operation 0.0000000000 0.0000000000 0.0000000000 A O ALA 86 A O ALA 86 A N HIS 43 A N HIS 43 A N GLU 42 A N GLU 42 A O GLY 119 A O GLY 119 1 A A O H LEU GLY 29 32 1.40 1 A A H O LEU ASP 68 85 1.49 1 A A O H SER GLU 9 12 1.52 4 A A H O LEU ASP 68 85 1.57 5 A A H HZ2 GLU LYS 48 52 1.26 5 A A OG HH SER TYR 33 39 1.54 5 A A O H GLU GLU 74 76 1.55 6 A A HG1 H THR GLU 73 74 1.20 6 A A OD1 H ASP GLU 75 76 1.44 6 A A H O GLU THR 66 87 1.52 7 A A OG1 H THR GLU 73 74 1.58 8 A A OD1 H ASP GLY 75 78 1.32 8 A A H O LEU ASP 68 85 1.49 9 A A H HZ1 ASP LYS 49 52 1.32 9 A A OG1 H THR GLU 73 74 1.47 9 A A O HD21 GLU ASN 102 106 1.50 9 A A O H SER GLU 9 12 1.56 9 A A O H LYS ASP 95 98 1.57 10 A A OG H SER HIS 2 3 1.59 11 A A H O LEU ASP 68 85 1.36 11 A A HZ2 OD2 LYS ASP 18 98 1.54 12 A A O H LEU GLY 29 32 1.36 12 A A OD1 H ASP GLU 75 76 1.50 12 A A H O GLU THR 66 87 1.52 13 A A H O LEU ASP 68 85 1.36 13 A A O H GLY LYS 78 80 1.41 13 A A O H SER GLU 9 12 1.46 13 A A OG1 H THR GLU 73 74 1.52 15 A A O HZ3 GLU LYS 99 103 1.42 15 A A OD1 H ASP ASP 5 6 1.59 16 A A H O LEU ASP 68 85 1.31 16 A A O H LEU VAL 8 10 1.41 16 A A OE1 H GLU ASP 74 77 1.52 17 A A H O LEU ASP 68 85 1.38 17 A A O H GLY LYS 78 80 1.50 17 A A HZ2 OD2 LYS ASP 52 112 1.52 17 A A OG1 H THR GLU 73 74 1.58 18 A A H O LEU ASP 68 85 1.38 18 A A HG OH SER TYR 33 39 1.52 19 A A O H LEU ASP 28 31 1.59 20 A A H O LEU ASP 68 85 1.49 20 A A O HG1 GLN THR 17 21 1.50 20 A A O H LEU GLY 29 32 1.56 1 A SER 2 42.18 85.02 1 A HIS 3 -80.11 43.80 1 A ASP 5 -153.62 67.61 1 A SER 9 -170.18 60.14 1 A VAL 10 -34.63 -36.94 1 A ILE 16 -45.92 -75.53 1 A GLN 17 -35.93 -35.41 1 A GLU 30 -36.19 -36.96 1 A LEU 38 56.75 125.33 1 A GLU 72 -35.41 117.95 1 A GLU 76 37.89 22.46 1 A ASP 77 -154.46 -9.63 1 A ASN 79 65.86 -9.54 1 A LYS 80 -165.64 76.12 1 A PHE 111 -98.46 -76.97 1 A ASP 112 166.08 33.43 1 A ASP 116 -158.86 73.62 1 A GLU 126 -84.67 -99.35 1 A HIS 128 -112.89 -124.17 1 A HIS 129 -53.26 -170.22 1 A HIS 130 53.79 110.40 1 A HIS 131 64.09 98.86 2 A GLN 4 -76.53 -161.05 2 A ASP 6 -110.25 74.14 2 A SER 33 -34.51 156.73 2 A LEU 38 56.25 150.85 2 A PHE 50 -41.15 -17.65 2 A ASP 51 -65.81 -77.50 2 A GLU 69 -39.02 165.33 2 A THR 73 -117.67 -139.69 2 A GLU 74 178.78 128.56 2 A ASP 75 -63.23 -178.03 2 A GLU 76 -73.44 29.91 2 A ASP 77 -145.48 -35.26 2 A LYS 80 54.06 100.44 2 A PHE 111 -101.10 -74.89 2 A ASP 112 166.90 32.72 2 A HIS 127 -67.04 89.20 2 A HIS 128 47.04 -179.45 2 A HIS 129 -83.77 -82.18 2 A HIS 130 -178.18 49.14 2 A HIS 131 -156.67 -45.60 3 A SER 2 -116.55 76.49 3 A ILE 25 -36.96 -31.50 3 A SER 33 -53.13 -175.05 3 A ASP 36 -65.36 0.46 3 A LEU 38 55.00 167.29 3 A PHE 50 -46.50 -15.76 3 A GLU 69 -40.89 158.47 3 A ASP 77 171.35 -13.76 3 A ASN 79 -69.34 88.02 3 A LYS 80 -59.59 96.31 3 A PHE 111 -98.02 -77.26 3 A ASP 112 167.22 31.21 3 A ASP 116 -156.46 84.15 3 A TYR 122 -37.28 146.66 3 A HIS 130 -90.02 58.09 3 A HIS 131 -155.33 47.22 4 A SER 2 -70.09 -70.37 4 A GLN 4 55.22 -88.35 4 A ASP 5 169.39 -27.16 4 A VAL 10 -39.50 -18.86 4 A GLU 20 -36.36 -70.89 4 A ILE 24 -75.89 -71.22 4 A SER 33 -40.83 164.71 4 A LEU 38 60.57 157.46 4 A ASP 51 -67.19 -71.66 4 A GLU 69 -48.89 156.87 4 A ASP 75 -113.98 -132.12 4 A LYS 80 61.89 123.04 4 A ALA 91 -88.86 43.31 4 A LEU 92 36.30 80.97 4 A VAL 105 -82.42 -70.03 4 A PHE 111 -99.26 -76.91 4 A ASP 112 168.67 31.67 4 A TYR 122 -53.63 173.32 4 A HIS 128 41.11 -99.29 4 A HIS 129 -116.62 -132.05 4 A HIS 131 82.43 43.09 5 A SER 2 38.07 49.39 5 A HIS 3 -118.40 67.68 5 A GLN 4 -35.30 132.28 5 A ASP 6 -160.27 115.62 5 A LEU 8 55.19 153.53 5 A VAL 10 -42.89 -16.80 5 A LEU 38 64.95 139.16 5 A GLU 66 -69.37 86.71 5 A GLU 69 -48.95 152.85 5 A GLU 72 -37.74 100.92 5 A THR 73 -101.88 -156.42 5 A ASP 75 -69.15 48.59 5 A GLU 76 38.69 21.56 5 A ASP 77 -130.06 -31.72 5 A ASN 79 -106.10 -158.61 5 A LEU 92 -36.19 102.39 5 A ILE 97 -38.68 -38.14 5 A PHE 111 -97.70 -77.22 5 A ASP 112 170.41 30.62 5 A LEU 125 55.19 89.19 5 A HIS 127 58.43 87.39 5 A HIS 130 -132.74 -134.75 5 A HIS 131 -137.33 -156.94 6 A HIS 3 73.98 -30.34 6 A GLN 4 55.70 91.95 6 A ASP 5 -78.73 -111.87 6 A ASP 6 -160.52 -28.60 6 A TYR 7 -144.92 59.49 6 A LEU 8 -43.50 87.32 6 A ARG 22 -39.05 -37.61 6 A SER 33 -60.53 75.35 6 A LEU 38 64.56 141.25 6 A PHE 50 -43.76 -12.08 6 A GLU 69 -56.45 172.79 6 A THR 73 -113.11 -165.59 6 A MET 88 -160.88 117.08 6 A PHE 111 -107.79 -77.20 6 A ASP 112 167.92 34.96 6 A ASP 116 -160.08 79.17 6 A HIS 129 -171.37 99.60 7 A SER 2 -149.29 53.17 7 A ASP 5 -165.73 67.64 7 A ASP 6 33.59 58.12 7 A TYR 7 -36.99 122.99 7 A ILE 25 -39.25 -38.40 7 A ASP 31 -143.36 29.88 7 A SER 33 -57.99 -121.43 7 A ALA 37 -71.08 -84.32 7 A LEU 38 169.04 150.44 7 A ASP 51 -59.83 -74.08 7 A GLU 69 -39.60 161.61 7 A GLU 72 -58.81 89.25 7 A THR 73 -111.19 -139.81 7 A ASP 75 -79.27 49.08 7 A GLU 76 49.04 13.00 7 A ALA 91 -63.12 -179.11 7 A ALA 94 -38.67 -73.20 7 A PHE 111 -102.36 -77.07 7 A ASP 112 168.45 32.93 8 A SER 2 -142.88 -133.29 8 A HIS 3 -157.71 -92.10 8 A LEU 8 -55.87 -173.70 8 A VAL 10 -49.16 -19.05 8 A LEU 28 -36.93 -36.40 8 A SER 33 -55.86 -170.98 8 A LEU 38 64.60 143.48 8 A GLU 66 -59.45 84.63 8 A GLU 69 -47.83 150.88 8 A THR 73 -126.53 -165.61 8 A GLU 76 -75.06 30.05 8 A ASP 77 -147.41 -49.08 8 A LYS 80 45.32 95.10 8 A LEU 92 -66.48 85.01 8 A PHE 111 -99.31 -77.34 8 A ASP 112 162.49 36.90 8 A TYR 122 -65.07 77.43 8 A LEU 125 -174.53 120.53 8 A HIS 127 -174.70 68.77 8 A HIS 129 -97.52 -155.69 8 A HIS 130 -167.07 -0.57 9 A SER 2 -55.89 -147.00 9 A GLN 4 -102.95 -84.28 9 A ASP 5 175.23 -70.79 9 A LEU 8 59.63 166.57 9 A SER 9 -173.80 -73.94 9 A GLN 17 -35.96 -35.28 9 A GLU 19 -39.66 -35.77 9 A LEU 38 54.43 171.60 9 A PHE 65 -164.23 108.37 9 A GLU 66 -58.03 85.11 9 A GLU 69 -48.02 158.90 9 A GLU 72 -35.55 112.32 9 A THR 73 -125.28 -133.52 9 A GLU 74 -170.59 135.38 9 A ASP 75 -50.87 -95.76 9 A GLU 76 -141.66 26.61 9 A ASP 77 -137.19 -51.51 9 A ALA 91 -53.32 -173.36 9 A PHE 111 -100.44 -77.41 9 A ASP 112 167.23 34.13 9 A ASP 116 -160.84 80.03 9 A GLU 126 -50.76 103.67 9 A HIS 127 -160.94 28.86 9 A HIS 131 -58.38 -80.37 10 A GLN 4 -157.44 -8.71 10 A ASP 5 -62.75 12.93 10 A ASP 6 -143.79 -39.35 10 A LEU 8 -66.28 -165.42 10 A SER 9 -168.62 86.78 10 A LEU 13 -37.25 -37.46 10 A LEU 28 -59.05 -70.82 10 A ASP 36 -57.08 -5.22 10 A LEU 38 55.90 160.43 10 A GLU 72 -44.30 100.17 10 A THR 73 -109.68 -160.08 10 A GLU 76 57.57 5.25 10 A ASN 79 -151.74 10.98 10 A LYS 80 39.89 77.48 10 A PHE 111 -93.86 -76.84 10 A ASP 112 165.39 37.71 10 A ASP 116 -160.58 86.65 10 A GLU 123 -68.32 -175.88 10 A HIS 127 -91.50 -122.86 10 A HIS 131 -135.01 -42.67 11 A GLN 4 -64.99 -175.15 11 A ASP 5 43.78 -112.19 11 A ASP 6 50.89 79.94 11 A TYR 7 -34.32 139.09 11 A LEU 8 -153.39 25.27 11 A SER 9 -141.62 -62.81 11 A SER 33 -48.66 167.42 11 A ASP 36 -49.86 -16.80 11 A ALA 37 -91.21 -102.72 11 A ASP 51 -62.81 -72.51 11 A LYS 52 -37.21 -33.57 11 A GLU 69 -38.45 162.17 11 A GLU 72 -33.75 110.60 11 A THR 73 -119.34 -161.44 11 A ASP 75 -61.54 -132.52 11 A LEU 92 -37.68 134.20 11 A ASP 93 -178.67 113.18 11 A PHE 111 -100.59 -76.73 11 A ASP 112 163.75 33.89 11 A ASP 116 -176.90 81.59 11 A HIS 128 -159.93 -41.60 11 A HIS 129 -115.56 -162.47 11 A HIS 130 59.90 103.05 11 A HIS 131 -126.71 -63.87 12 A GLN 4 59.37 71.23 12 A ASP 6 -134.99 -79.77 12 A SER 9 -153.80 -67.74 12 A LEU 28 -38.02 -39.62 12 A ASP 34 57.85 88.40 12 A PRO 35 -59.23 -1.33 12 A LEU 38 56.99 164.17 12 A LYS 62 -36.76 -34.77 12 A GLU 69 -41.46 153.79 12 A ASP 75 -142.72 -88.42 12 A GLU 76 -151.94 20.41 12 A ASP 77 -171.90 2.98 12 A ASN 79 63.28 -4.92 12 A LYS 80 -176.92 98.79 12 A LEU 92 -57.82 103.72 12 A ALA 94 -66.17 -71.69 12 A PHE 111 -97.32 -77.12 12 A ASP 112 169.56 35.49 12 A LEU 125 -80.59 41.64 12 A GLU 126 62.57 170.97 12 A HIS 127 -167.11 39.55 12 A HIS 130 -156.80 3.44 12 A HIS 131 61.51 -137.80 13 A HIS 3 45.09 86.81 13 A ASP 5 -85.54 -82.59 13 A ILE 25 -36.78 -29.24 13 A ASP 34 -40.78 102.96 13 A PRO 35 -56.19 -9.88 13 A LEU 38 64.19 143.09 13 A GLU 69 -40.01 164.03 13 A THR 73 -127.10 -143.34 13 A ASP 75 -144.96 -121.19 13 A ASP 77 169.20 8.85 13 A ASN 79 61.57 -35.66 13 A LYS 80 -170.14 73.25 13 A LEU 81 -119.06 -167.34 13 A LEU 92 -58.59 109.87 13 A ASP 93 -170.05 130.36 13 A PHE 111 -99.19 -77.19 13 A ASP 112 166.48 36.26 13 A ASP 116 -152.21 88.26 13 A GLU 123 -76.68 42.68 13 A HIS 127 -163.23 -7.19 13 A HIS 131 -167.13 -90.81 14 A SER 2 -158.46 27.08 14 A ASP 6 -158.45 85.45 14 A TYR 7 39.95 79.07 14 A SER 9 -172.75 -53.92 14 A SER 33 -48.32 -175.89 14 A LEU 38 55.45 160.70 14 A ASP 51 -70.62 -72.04 14 A LYS 52 -39.91 -35.44 14 A GLU 66 -64.47 88.15 14 A GLU 69 -46.02 164.60 14 A THR 73 -116.40 -150.71 14 A ASP 75 -91.44 -60.56 14 A GLU 76 -96.37 30.05 14 A ASP 77 51.91 10.26 14 A SER 90 -173.08 -176.91 14 A LEU 92 -42.28 96.35 14 A PHE 111 -95.14 -76.07 14 A ASP 112 160.91 34.60 14 A ASP 116 -162.74 84.36 14 A GLU 126 -149.96 12.31 14 A HIS 127 -110.41 52.00 14 A HIS 129 -69.75 -96.21 14 A HIS 131 54.35 5.19 15 A HIS 3 -164.97 -81.33 15 A ASP 6 54.38 157.46 15 A SER 9 -130.54 -55.77 15 A VAL 10 -39.98 -31.22 15 A ARG 22 -35.06 -35.37 15 A SER 33 -46.98 168.93 15 A LEU 38 60.29 146.66 15 A GLU 69 -42.16 154.67 15 A GLU 72 -37.68 113.99 15 A THR 73 -118.13 -124.27 15 A GLU 76 53.49 4.14 15 A MET 88 -160.66 111.85 15 A LEU 92 32.14 95.92 15 A PHE 111 -92.21 -74.97 15 A ASP 112 160.64 35.76 15 A ASP 116 -163.67 74.46 15 A GLU 126 -87.38 -148.13 15 A HIS 128 -177.79 -49.17 15 A HIS 130 -107.26 -166.04 15 A HIS 131 -108.87 63.90 16 A GLN 4 73.76 156.41 16 A ASP 5 -87.91 -131.91 16 A ASP 6 -174.86 115.45 16 A TYR 7 44.41 98.23 16 A LEU 8 -116.65 -89.23 16 A SER 9 61.91 -58.56 16 A ASP 31 -140.05 56.92 16 A SER 33 -62.40 -115.49 16 A ALA 37 -95.44 -107.98 16 A ASP 51 -67.81 -71.31 16 A GLU 69 -43.65 163.79 16 A GLU 74 178.45 145.47 16 A GLU 76 -167.98 37.48 16 A LEU 92 -55.30 103.16 16 A PHE 111 -102.58 -75.52 16 A ASP 112 162.25 45.89 16 A ASP 116 -178.12 81.16 16 A GLU 123 -47.58 97.73 16 A LEU 125 45.91 102.86 16 A GLU 126 -97.13 -154.55 16 A HIS 129 177.31 -30.38 16 A HIS 131 43.09 -104.57 17 A HIS 3 -36.35 115.05 17 A GLN 4 -125.85 -122.74 17 A ASP 5 -109.18 -129.94 17 A LEU 8 -111.84 -76.09 17 A SER 9 80.35 -59.60 17 A SER 33 -38.30 157.02 17 A PRO 35 -61.50 2.82 17 A LEU 38 56.59 146.08 17 A GLU 72 -37.91 114.25 17 A THR 73 -133.28 -159.68 17 A ASP 77 -150.40 -11.43 17 A ASN 79 60.33 -64.72 17 A ALA 91 -99.28 43.48 17 A LEU 92 36.11 93.20 17 A ASP 93 -160.29 110.50 17 A PHE 111 -100.03 -74.73 17 A ASP 112 165.08 34.34 17 A LEU 125 48.29 78.20 17 A GLU 126 44.68 103.89 17 A HIS 128 -80.76 -78.82 17 A HIS 129 -176.87 22.68 18 A SER 2 -106.16 54.65 18 A HIS 3 43.95 73.80 18 A GLN 4 -61.61 76.13 18 A ASP 5 -73.18 42.54 18 A ASP 6 -155.79 -27.67 18 A TYR 7 36.10 67.70 18 A SER 9 -174.32 -66.94 18 A LEU 38 73.98 140.90 18 A GLU 69 -44.39 158.37 18 A GLU 72 -36.33 93.81 18 A THR 73 -111.01 -161.33 18 A ASP 75 -68.35 32.30 18 A GLU 76 57.02 -2.70 18 A ASN 79 -127.53 -162.81 18 A ALA 91 -69.39 -175.11 18 A PHE 111 -95.19 -72.72 18 A ASP 112 158.99 34.04 18 A ASP 116 -150.70 87.14 18 A LEU 125 60.49 60.39 18 A GLU 126 68.72 77.55 18 A HIS 131 -51.69 -84.44 19 A GLN 4 47.43 24.52 19 A ASP 6 -49.44 89.63 19 A TYR 7 37.76 -163.35 19 A SER 9 -167.49 -89.55 19 A SER 33 -61.98 84.89 19 A LEU 38 54.61 157.06 19 A ASP 51 -52.51 -76.12 19 A VAL 67 -44.54 156.78 19 A GLU 69 -44.55 162.65 19 A THR 73 -123.17 -154.28 19 A GLU 76 -64.58 4.36 19 A ILE 97 -36.40 -32.51 19 A GLU 102 -39.50 -32.72 19 A PHE 111 -96.54 -77.12 19 A ASP 112 166.02 32.42 19 A ASP 116 -150.84 82.87 19 A TYR 122 -36.86 142.51 19 A LEU 125 -66.05 76.92 19 A HIS 128 -101.56 -160.44 19 A HIS 129 -140.58 -45.61 20 A HIS 3 46.76 -171.30 20 A SER 9 -166.84 95.44 20 A VAL 10 -39.20 -26.88 20 A SER 33 -60.71 -143.40 20 A PRO 35 -54.64 -8.30 20 A LEU 38 55.14 162.51 20 A GLU 72 -36.80 109.18 20 A THR 73 -140.38 -150.63 20 A ASP 75 -95.63 -154.88 20 A ASP 93 -172.23 135.21 20 A LYS 95 -37.12 -39.68 20 A PHE 111 -100.63 -77.42 20 A ASP 112 158.99 36.19 20 A ASP 116 -164.57 85.10 20 A TYR 122 -34.38 122.05 20 A GLU 123 -93.43 51.53 20 A GLU 126 -147.57 -38.21 20 A HIS 129 -128.53 -132.09 Solution structure of Vibrio cholerae protein VC0424 1 N N A SER 9 A SER 9 HELX_P A GLY 32 A GLY 32 1 1 24 A ASP 49 A ASP 49 HELX_P A GLY 64 A GLY 64 1 2 16 A ASP 93 A ASP 93 HELX_P A ASP 112 A ASP 112 1 3 20 STRUCTURAL GENOMICS, UNKNOWN FUNCTION structural genomics, ab sandwich, COG 3076, ATCC no. 51394D, NESG TARGET OP3, PSI, Protein Structure Initiative, Northeast Structural Genomics Consortium, UNKNOWN FUNCTION Q9KUU1_VIBCH UNP 1 1 Q9KUU1 MSHQDDYLSVEELIEIQKEETRDIIQALLEDGSDPDALYEIEHHLFAEDFDKLEKAAVEAFKMGFEVLEAEETEDEDGNK LLCFDATMQSALDAKLIDEQVEKLVNLAEKFDIIYDGWGTYYEG 1 124 1NXI 1 124 Q9KUU1 A 1 1 124 1 expression tag LEU 125 1NXI A Q9KUU1 UNP 125 1 expression tag GLU 126 1NXI A Q9KUU1 UNP 126 1 expression tag HIS 127 1NXI A Q9KUU1 UNP 127 1 expression tag HIS 128 1NXI A Q9KUU1 UNP 128 1 expression tag HIS 129 1NXI A Q9KUU1 UNP 129 1 expression tag HIS 130 1NXI A Q9KUU1 UNP 130 1 expression tag HIS 131 1NXI A Q9KUU1 UNP 131 1 expression tag HIS 132 1NXI A Q9KUU1 UNP 132 3 anti-parallel anti-parallel A LEU 82 A LEU 82 A SER 90 A SER 90 A TYR 39 A TYR 39 A ALA 47 A ALA 47 A ILE 114 A ILE 114 A THR 120 A THR 120