1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Feher, V.A. Skelton, N.J. Dahlquist, F.W. Cavanagh, J. 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 H8 N2 O3 132.118 y ASPARAGINE 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 US Biochemistry BICHAW 0033 0006-2960 36 10015 10025 10.1021/bi970816l 9254596 High-resolution NMR structure and backbone dynamics of the Bacillus subtilis response regulator, Spo0F: implications for phosphorylation and molecular recognition. 1997 US Protein Sci. PRCIEI 0795 0961-8368 4 1801 1H, 15N, and 13C Backbone Chemical Shift Assignments, Secondary Structure, and Magnesium-Binding Characteristics of the Bacillus Subtilis Response Regulator, Spo0F, Determined by Heteronuclear High-Resolution NMR 1995 10.2210/pdb1fsp/pdb pdb_00001fsp 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 14244.660 STAGE 0 SPORULATION PROTEIN F 1 man polymer SPO0F no no MMNEKILIVDDQYGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVII MTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN MMNEKILIVDDQYGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVII MTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN 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 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 Bacillus Escherichia Escherichia coli sample BL21 SPO0F 1423 Bacillus subtilis SPO0F 469008 Escherichia coli BL21(DE3) BL21 (DE3) PET20B (NOVAGEN) T7 PROMOTER PET0F database_2 pdbx_database_status pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations Other 1 0 1997-12-10 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site Y BNL 1997-06-05 REL LEAST RESTRAINT VIOLATIONS 60 20 TPPI-STATES 6.8 300 K REFINEMENT DETAILS CAN BE FOUND IN BIOCHEMISTRY CITATION. DISTANCE GEOMETRY WITH SIMULATED ANNEALING REFINEMENT BRUNGER refinement X-PLOR 3.1 structure solution X-PLOR 3.1 500 Bruker BRUKER AMX 600 600 Varian DMX 500 600 GE DMX 500 MET 1 n 1 MET 1 A MET 2 n 2 MET 2 A ASN 3 n 3 ASN 3 A GLU 4 n 4 GLU 4 A LYS 5 n 5 LYS 5 A ILE 6 n 6 ILE 6 A LEU 7 n 7 LEU 7 A ILE 8 n 8 ILE 8 A VAL 9 n 9 VAL 9 A ASP 10 n 10 ASP 10 A ASP 11 n 11 ASP 11 A GLN 12 n 12 GLN 12 A TYR 13 n 13 TYR 13 A GLY 14 n 14 GLY 14 A ILE 15 n 15 ILE 15 A ARG 16 n 16 ARG 16 A ILE 17 n 17 ILE 17 A LEU 18 n 18 LEU 18 A LEU 19 n 19 LEU 19 A ASN 20 n 20 ASN 20 A GLU 21 n 21 GLU 21 A VAL 22 n 22 VAL 22 A PHE 23 n 23 PHE 23 A ASN 24 n 24 ASN 24 A LYS 25 n 25 LYS 25 A GLU 26 n 26 GLU 26 A GLY 27 n 27 GLY 27 A TYR 28 n 28 TYR 28 A GLN 29 n 29 GLN 29 A THR 30 n 30 THR 30 A PHE 31 n 31 PHE 31 A GLN 32 n 32 GLN 32 A ALA 33 n 33 ALA 33 A ALA 34 n 34 ALA 34 A ASN 35 n 35 ASN 35 A GLY 36 n 36 GLY 36 A LEU 37 n 37 LEU 37 A GLN 38 n 38 GLN 38 A ALA 39 n 39 ALA 39 A LEU 40 n 40 LEU 40 A ASP 41 n 41 ASP 41 A ILE 42 n 42 ILE 42 A VAL 43 n 43 VAL 43 A THR 44 n 44 THR 44 A LYS 45 n 45 LYS 45 A GLU 46 n 46 GLU 46 A ARG 47 n 47 ARG 47 A PRO 48 n 48 PRO 48 A ASP 49 n 49 ASP 49 A LEU 50 n 50 LEU 50 A VAL 51 n 51 VAL 51 A LEU 52 n 52 LEU 52 A LEU 53 n 53 LEU 53 A ASP 54 n 54 ASP 54 A MET 55 n 55 MET 55 A LYS 56 n 56 LYS 56 A ILE 57 n 57 ILE 57 A PRO 58 n 58 PRO 58 A GLY 59 n 59 GLY 59 A MET 60 n 60 MET 60 A ASP 61 n 61 ASP 61 A GLY 62 n 62 GLY 62 A ILE 63 n 63 ILE 63 A GLU 64 n 64 GLU 64 A ILE 65 n 65 ILE 65 A LEU 66 n 66 LEU 66 A LYS 67 n 67 LYS 67 A ARG 68 n 68 ARG 68 A MET 69 n 69 MET 69 A LYS 70 n 70 LYS 70 A VAL 71 n 71 VAL 71 A ILE 72 n 72 ILE 72 A ASP 73 n 73 ASP 73 A GLU 74 n 74 GLU 74 A ASN 75 n 75 ASN 75 A ILE 76 n 76 ILE 76 A ARG 77 n 77 ARG 77 A VAL 78 n 78 VAL 78 A ILE 79 n 79 ILE 79 A ILE 80 n 80 ILE 80 A MET 81 n 81 MET 81 A THR 82 n 82 THR 82 A ALA 83 n 83 ALA 83 A TYR 84 n 84 TYR 84 A GLY 85 n 85 GLY 85 A GLU 86 n 86 GLU 86 A LEU 87 n 87 LEU 87 A ASP 88 n 88 ASP 88 A MET 89 n 89 MET 89 A ILE 90 n 90 ILE 90 A GLN 91 n 91 GLN 91 A GLU 92 n 92 GLU 92 A SER 93 n 93 SER 93 A LYS 94 n 94 LYS 94 A GLU 95 n 95 GLU 95 A LEU 96 n 96 LEU 96 A GLY 97 n 97 GLY 97 A ALA 98 n 98 ALA 98 A LEU 99 n 99 LEU 99 A THR 100 n 100 THR 100 A HIS 101 n 101 HIS 101 A PHE 102 n 102 PHE 102 A ALA 103 n 103 ALA 103 A LYS 104 n 104 LYS 104 A PRO 105 n 105 PRO 105 A PHE 106 n 106 PHE 106 A ASP 107 n 107 ASP 107 A ILE 108 n 108 ILE 108 A ASP 109 n 109 ASP 109 A GLU 110 n 110 GLU 110 A ILE 111 n 111 ILE 111 A ARG 112 n 112 ARG 112 A ASP 113 n 113 ASP 113 A ALA 114 n 114 ALA 114 A VAL 115 n 115 VAL 115 A LYS 116 n 116 LYS 116 A LYS 117 n 117 LYS 117 A TYR 118 n 118 TYR 118 A LEU 119 n 119 LEU 119 A PRO 120 n 120 PRO 120 A LEU 121 n 121 LEU 121 A LYS 122 n 122 LYS 122 A SER 123 n 123 SER 123 A ASN 124 n 124 ASN 124 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 O GLN 29 A O GLN 29 A N ILE 6 A N ILE 6 A O LEU 7 A O LEU 7 A N LEU 50 A N LEU 50 A O VAL 51 A O VAL 51 A N ARG 77 A N ARG 77 A N ILE 80 A N ILE 80 A O THR 100 A O THR 100 1 A MET 2 169.07 37.43 1 A GLU 4 -166.15 68.68 1 A ALA 34 -146.78 -88.01 1 A GLU 46 -132.48 -36.75 1 A ASN 75 -91.98 41.22 1 A GLU 86 -43.94 98.12 1 A LEU 99 -44.09 -84.86 1 A PHE 102 -64.92 -166.79 1 A ALA 103 -161.14 -166.70 1 A TYR 118 -90.03 -70.90 2 A MET 2 -178.88 -35.86 2 A ASN 3 68.07 -166.16 2 A GLU 4 61.11 92.44 2 A ASP 11 -142.54 -45.76 2 A GLN 12 -44.00 106.91 2 A ILE 17 -90.70 -65.59 2 A ASN 20 -64.89 -70.43 2 A ALA 34 171.23 -42.39 2 A GLU 46 -137.75 -38.60 2 A ILE 72 -90.05 -66.42 2 A ASN 75 -105.77 51.02 2 A THR 82 -159.71 66.64 2 A LYS 94 -69.68 -71.84 2 A ALA 103 -137.82 -148.68 2 A TYR 118 -90.13 -66.18 2 A SER 123 -164.59 30.91 3 A MET 2 58.09 82.85 3 A PHE 31 -119.51 -168.98 3 A ALA 34 -69.45 -70.29 3 A ILE 57 -43.13 103.28 3 A MET 81 -101.00 68.42 3 A THR 82 179.43 48.56 3 A LEU 87 -113.55 52.25 3 A LYS 94 -68.06 -76.68 3 A TYR 118 -73.64 -72.98 3 A LYS 122 -56.14 91.08 4 A MET 2 -118.15 -85.35 4 A GLU 4 -173.76 66.75 4 A ASP 10 -158.67 85.88 4 A GLN 12 -44.11 95.36 4 A ALA 34 178.61 -31.46 4 A ARG 47 61.31 67.26 4 A ASN 75 -92.97 44.49 4 A MET 81 -95.97 58.75 4 A THR 82 -169.04 49.28 4 A TYR 84 -44.00 104.56 4 A LEU 87 -100.14 78.35 4 A ASP 88 -136.50 -50.99 4 A ALA 103 -145.44 -148.62 4 A TYR 118 -89.68 -71.22 4 A SER 123 61.35 -89.36 5 A MET 2 66.79 -86.89 5 A ASN 3 67.08 145.79 5 A GLU 4 46.89 83.55 5 A ASP 10 -145.86 -151.71 5 A ASP 11 -161.65 -46.69 5 A ASN 20 -65.69 -70.82 5 A ALA 34 -82.32 -70.71 5 A ARG 47 -9.69 78.55 5 A ILE 57 -43.06 103.21 5 A ASN 75 -116.58 55.50 5 A MET 81 -147.46 52.18 5 A THR 82 -162.68 40.66 5 A ALA 83 -90.15 40.79 5 A GLU 86 -43.81 104.90 5 A ASP 88 -147.24 -78.21 5 A LEU 99 -73.25 -72.25 6 A MET 2 -109.04 66.25 6 A ASN 3 -117.00 59.90 6 A ASP 10 -174.94 123.43 6 A GLN 12 -175.99 -104.51 6 A TYR 13 -179.54 120.47 6 A ILE 17 -90.20 -64.76 6 A ASN 20 -69.20 -71.88 6 A ALA 34 164.34 -62.08 6 A ARG 47 58.18 71.07 6 A ASN 75 -105.55 45.26 6 A MET 81 -102.69 51.99 6 A THR 82 -161.70 44.05 6 A ASP 88 -113.41 -84.65 6 A LEU 99 -90.08 -60.04 6 A ALA 103 -127.25 -148.73 6 A PRO 105 -77.75 -162.40 6 A TYR 118 -90.02 -72.86 6 A LYS 122 -171.21 -168.57 7 A ASN 3 -47.77 172.26 7 A ASP 10 -152.70 88.13 7 A ASN 20 -78.20 -72.45 7 A ALA 34 -172.65 -34.92 7 A ARG 47 60.48 66.85 7 A ILE 57 -42.08 102.25 7 A ILE 76 -57.86 106.85 7 A THR 82 -170.67 28.16 7 A ASP 88 -103.96 -88.71 7 A LYS 94 -52.58 -76.32 7 A ALA 103 -131.35 -148.88 7 A PRO 105 -78.50 -169.56 7 A LEU 121 -161.57 108.63 7 A SER 123 -147.77 -67.35 8 A GLN 12 -67.83 -148.04 8 A ARG 16 -39.75 -27.57 8 A ALA 34 -150.57 -83.46 8 A ASN 75 -96.51 46.85 8 A THR 82 178.79 55.14 8 A LEU 99 -44.11 -84.82 8 A ALA 103 -145.68 -148.34 8 A TYR 118 -64.98 -70.04 8 A LEU 121 -112.45 -149.86 8 A SER 123 -174.50 -174.49 9 A ASN 3 -107.04 -148.98 9 A TYR 13 -43.79 159.02 9 A PHE 31 -121.66 -168.65 9 A ALA 34 -174.77 -47.93 9 A ARG 47 63.26 67.07 9 A PRO 48 -77.51 -161.03 9 A MET 60 178.40 -167.95 9 A ASN 75 -107.06 50.75 9 A THR 82 -169.38 47.48 9 A TYR 84 -83.10 -157.27 9 A LEU 99 -55.24 -81.62 9 A ASP 113 -67.29 -74.61 9 A SER 123 52.49 89.53 10 A GLU 4 38.20 77.83 10 A ASP 10 -174.41 145.61 10 A ILE 17 -90.07 -64.33 10 A ASN 20 -67.72 -72.42 10 A ALA 33 -160.68 -163.47 10 A ALA 34 164.41 -44.81 10 A ARG 47 47.27 71.53 10 A ILE 57 -43.12 103.12 10 A ASN 75 -106.94 50.23 10 A THR 82 -149.67 -146.99 10 A ALA 83 -40.94 153.52 10 A TYR 84 -68.58 85.58 10 A GLU 86 -62.02 -133.10 10 A ASP 88 -104.99 73.14 10 A LYS 94 -71.96 -71.60 10 A LEU 99 -128.04 -60.32 10 A ALA 103 -113.51 -159.99 10 A PHE 106 41.46 -164.07 11 A MET 2 59.08 103.81 11 A ASN 3 -177.90 141.70 11 A TYR 13 -44.56 168.23 11 A ASN 20 -75.84 -72.38 11 A PHE 31 -111.95 -168.38 11 A ALA 34 -175.98 -57.02 11 A ARG 47 71.24 61.64 11 A ASP 73 -173.22 140.35 11 A MET 81 -101.28 54.38 11 A THR 82 -168.64 56.25 11 A MET 89 78.97 -4.46 11 A ALA 103 -132.46 -148.67 11 A PHE 106 70.93 96.59 11 A TYR 118 -54.81 -73.91 11 A PRO 120 -78.44 -159.39 11 A LYS 122 -59.48 -75.64 12 A GLN 12 -56.27 101.09 12 A ILE 17 -90.12 -60.39 12 A PHE 31 -120.99 -158.25 12 A ALA 34 -127.55 -57.90 12 A ALA 39 -39.92 -37.99 12 A GLU 46 -137.26 -36.20 12 A PRO 58 -80.54 41.90 12 A ASN 75 -99.41 47.97 12 A MET 81 -117.68 71.17 12 A THR 82 -176.15 31.15 12 A ALA 83 -44.67 -77.05 12 A TYR 84 -44.14 107.07 12 A LEU 87 -108.28 59.52 12 A ASP 88 -100.77 -92.83 12 A ALA 103 -140.43 -148.58 12 A TYR 118 -81.89 -73.32 12 A SER 123 64.09 98.21 13 A GLU 4 178.46 81.92 13 A ASP 10 -88.61 -149.44 13 A ASN 20 -71.44 -70.63 13 A ALA 34 -178.74 -58.09 13 A GLU 46 -134.50 -37.80 13 A LYS 56 -89.57 46.49 13 A ILE 72 -90.04 -60.07 13 A ASN 75 -107.46 51.81 13 A THR 82 177.80 37.20 13 A ASP 88 -102.19 -90.94 13 A LEU 99 -57.77 -71.48 13 A PHE 106 -55.18 106.08 13 A PRO 120 -78.27 -164.30 13 A LEU 121 -146.39 -159.47 14 A MET 2 65.07 147.47 14 A ASN 3 -158.41 -148.71 14 A TYR 13 -43.07 153.06 14 A ASN 20 -75.72 -70.71 14 A PHE 31 -111.06 -166.19 14 A ALA 34 -145.01 -61.88 14 A ARG 47 65.89 68.41 14 A PRO 48 -77.82 -167.01 14 A ASP 49 -142.10 11.16 14 A MET 55 53.44 17.14 14 A ASP 73 -170.71 116.59 14 A ASN 75 -89.70 43.09 14 A THR 82 -170.89 32.51 14 A ALA 83 -46.48 -76.93 14 A TYR 84 -46.79 100.34 14 A LEU 87 -160.45 22.53 14 A ASP 88 -94.28 -82.32 14 A ILE 90 -90.73 -60.11 14 A LEU 99 -43.74 -83.76 14 A ALA 103 -124.07 -148.56 14 A PHE 106 76.06 99.40 14 A TYR 118 -88.69 -74.19 14 A PRO 120 -77.88 -166.18 14 A SER 123 50.45 -149.45 15 A MET 2 45.50 77.56 15 A GLU 4 67.39 64.01 15 A ASN 20 -71.44 -73.25 15 A ALA 34 170.96 -50.38 15 A MET 55 47.29 22.08 15 A ILE 57 -41.88 102.17 15 A THR 82 -159.04 52.00 15 A LYS 94 -60.06 -82.80 15 A LEU 121 -116.83 -162.50 15 A LYS 122 -46.28 -72.86 15 A SER 123 175.45 157.01 16 A GLU 4 -163.91 62.53 16 A ALA 33 -164.91 -161.94 16 A ALA 34 163.65 -53.72 16 A ARG 47 61.27 73.00 16 A MET 55 51.37 18.70 16 A ASN 75 -114.76 55.49 16 A THR 82 177.80 38.37 16 A ALA 83 -90.04 45.42 16 A GLU 86 -179.00 135.63 16 A ASP 88 -103.65 -95.84 16 A LEU 99 -44.03 -87.60 16 A PHE 102 -69.51 -168.45 16 A ALA 103 -162.81 -165.85 16 A TYR 118 -88.55 -70.80 16 A SER 123 67.69 109.01 17 A ASN 3 -75.69 -148.87 17 A TYR 13 -42.53 155.37 17 A PHE 31 -109.01 -167.23 17 A ALA 34 -173.35 -44.88 17 A ARG 47 38.55 72.12 17 A ILE 57 -41.14 101.15 17 A LYS 67 -72.65 -70.28 17 A ASP 73 -170.06 117.62 17 A ASN 75 -101.20 48.85 17 A THR 82 176.69 38.65 17 A ALA 83 -89.33 43.81 17 A GLU 86 -174.18 87.23 17 A LEU 87 -103.60 69.70 17 A ASP 88 -105.48 -87.52 17 A PHE 102 -63.62 -179.00 17 A ALA 103 -171.08 -157.94 17 A TYR 118 -90.05 -75.07 17 A LEU 121 -91.81 -115.61 17 A SER 123 57.64 112.04 18 A ALA 34 177.67 -31.36 18 A ARG 47 63.48 62.80 18 A ILE 57 -43.11 103.15 18 A THR 82 -166.37 -147.23 18 A ALA 83 -40.93 108.19 18 A LEU 99 -71.11 -71.16 18 A PHE 102 -73.21 -168.31 18 A ALA 103 -168.94 -147.39 18 A TYR 118 -51.96 -72.20 18 A LEU 121 -115.43 79.93 18 A SER 123 59.86 -151.40 19 A ASP 10 -87.51 -155.98 19 A GLN 12 -132.52 -90.13 19 A ASN 20 -74.87 -72.77 19 A ALA 33 178.49 177.52 19 A ALA 34 178.73 -41.18 19 A ARG 47 71.28 65.91 19 A MET 60 -169.47 -150.30 19 A ASP 61 -90.19 -97.28 19 A ASN 75 -103.37 49.87 19 A THR 82 177.29 56.70 19 A LEU 87 -160.11 23.01 19 A ASP 88 -96.75 -77.92 19 A PHE 102 -58.99 -164.35 19 A TYR 118 -84.51 -72.84 19 A LYS 122 -158.57 26.22 19 A SER 123 -142.62 -77.22 20 A MET 2 -63.40 -150.55 20 A ASN 20 -74.16 -71.11 20 A PHE 31 -118.18 -163.56 20 A ALA 34 177.98 -31.62 20 A ARG 47 61.02 63.16 20 A ILE 57 -43.06 103.15 20 A MET 81 -113.88 59.85 20 A THR 82 -172.43 43.43 20 A ALA 83 -52.99 -74.50 20 A TYR 84 -56.52 104.42 20 A LEU 87 -103.71 68.55 20 A MET 89 77.67 -2.40 20 A LEU 121 -113.33 -166.51 20 A SER 123 -48.07 102.69 model building X-PLOR 3.1 refinement X-PLOR 3.1 phasing X-PLOR 3.1 NMR SOLUTION STRUCTURE OF BACILLUS SUBTILIS SPO0F PROTEIN, 20 STRUCTURES 1 Y N A ILE 15 A ILE 15 HELX_P A GLU 26 A GLU 26 1 1 12 A LEU 37 A LEU 37 HELX_P A LYS 45 A LYS 45 1 2 9 A ILE 63 A ILE 63 HELX_P A ILE 72 A ILE 72 1 3 10 A ILE 90 A ILE 90 HELX_P A GLY 97 A GLY 97 1 4 8 A ILE 108 A ILE 108 HELX_P A TYR 118 A TYR 118 1 5 11 RESPONSE REGULATOR RESPONSE REGULATOR, SPORULATION, TWO-COMPONENT SYSTEMS, BACTERIAL SIGNAL TRANSDUCTION, PHOSPHO-RELAY, (BETA/ALPHA)5 PROTEIN A LYS 104 A LYS 104 1 A PRO 105 A PRO 105 -0.04 A LYS 104 A LYS 104 2 A PRO 105 A PRO 105 0.04 A LYS 104 A LYS 104 3 A PRO 105 A PRO 105 -0.11 A LYS 104 A LYS 104 4 A PRO 105 A PRO 105 0.05 A LYS 104 A LYS 104 5 A PRO 105 A PRO 105 0.01 A LYS 104 A LYS 104 6 A PRO 105 A PRO 105 -0.05 A LYS 104 A LYS 104 7 A PRO 105 A PRO 105 -0.07 A LYS 104 A LYS 104 8 A PRO 105 A PRO 105 0.04 A LYS 104 A LYS 104 9 A PRO 105 A PRO 105 0.02 A LYS 104 A LYS 104 10 A PRO 105 A PRO 105 -0.20 A LYS 104 A LYS 104 11 A PRO 105 A PRO 105 -0.17 A LYS 104 A LYS 104 12 A PRO 105 A PRO 105 -0.15 A LYS 104 A LYS 104 13 A PRO 105 A PRO 105 -0.09 A LYS 104 A LYS 104 14 A PRO 105 A PRO 105 0.04 A LYS 104 A LYS 104 15 A PRO 105 A PRO 105 -0.08 A LYS 104 A LYS 104 16 A PRO 105 A PRO 105 -0.06 A LYS 104 A LYS 104 17 A PRO 105 A PRO 105 -0.03 A LYS 104 A LYS 104 18 A PRO 105 A PRO 105 0.01 A LYS 104 A LYS 104 19 A PRO 105 A PRO 105 -0.04 A LYS 104 A LYS 104 20 A PRO 105 A PRO 105 -0.03 SP0F_BACSU UNP 1 1 P06628 MMNEKILIVDDQYGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVII MTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN 1 124 1FSP 1 124 P06628 A 1 1 124 5 parallel parallel parallel parallel A GLN 29 A GLN 29 A ALA 33 A ALA 33 A LYS 5 A LYS 5 A VAL 9 A VAL 9 A LEU 50 A LEU 50 A LEU 53 A LEU 53 A ARG 77 A ARG 77 A MET 81 A MET 81 A THR 100 A THR 100 A PHE 102 A PHE 102 1 P 1