1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Moy, F.J. Glasfeld, E. Mosyak, L. Powers, R. 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 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 39 9146 9156 10.1021/bi0009690 10924108 Solution structure of ZipA, a crucial component of Escherichia coli cell division. 2000 NE J. Biomol. NMR JBNME9 0800 0925-2738 17 275 276 10959637 Letter to the editor: 1H, 15N, 13C, and 13CO assignments and secondary structure determination of ZipA. 2000 10.2210/pdb1f7x/pdb pdb_00001f7x 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 16135.430 CELL DIVISION PROTEIN ZIPA C-TERMINAL DOMAIN 1 man polymer no no MDKPKRKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTP GVTIFMQVPSYGDELQNFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA MDKPKRKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTP GVTIFMQVPSYGDELQNFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA 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 n n n n n n n n n n n n n n n n n n n n Escherichia Escherichia sample 562 Escherichia coli 562 Escherichia coli PLASMID PEG041 citation 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 2001-06-28 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _citation.country _citation.journal_abbrev _citation.journal_id_ASTM _citation.journal_id_CSD _citation.journal_id_ISSN _citation.journal_volume _citation.page_first _citation.page_last _citation.pdbx_database_id_PubMed _citation.title _citation.year _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name 1F7W is the restrained minimized average structure of ZipA for this ensemble. RCSB Y RCSB 2000-06-28 REL The structure was determined using triple-resonance NMR spectroscopy. structures with acceptable covalent geometry,structures with favorable non-bond energy,structures with the least restraint violations,structures with the lowest energy 100 30 3D_13C-separated_NOESY 3D_15N-separated_NOESY HNHA 2D_15N_HSQC 50 5.5 ambient 298 K 50 5.5 ambient 298 K 50 5.5 ambient 298 K The structures are based on a total of 2758 restraints, 2038 are NOE-derived distance constraints, 377 dihedral angle restraints, 84 distance restraints from hydrogen bonds, 113 3JNHa coupling restraints, 230 secondary Ca/Cb chemical shift restraints, and a conformational database. distance geometry simulated annealing 1F7W minimized average structure 1 mM ZipA U-15N,13C; 50mM phosphate buffer; 2 mM NaN3; 50 mM KCl; 90% H2O, 10% D2O; pH 5.5 90% H2O/10% D2O 1 mM ZipA U-15N,13C; 50mM phosphate buffer; 2 mM NaN3; 50 mM KCl; 100% D2O; pH 5.5 100% D2O 1 mM ZipA U-15N; 50mM phosphate buffer; 2 mM NaN3; 50 mM KCl; 90% H2O, 10% D2O; pH 5.5 90% H2O/10% D2O Brunger structure solution X-PLOR V3.840 Delaglio processing NMRPipe 1.7 Garrett data analysis PIPP 4.2.8 Bruker collection XwinNMR 2.0 Brunger refinement X-PLOR V3.840 600 Bruker DRX MET 1 n 1 MET 1 A ASP 2 n 2 ASP 2 A LYS 3 n 3 LYS 3 A PRO 4 n 4 PRO 4 A LYS 5 n 5 LYS 5 A ARG 6 n 6 ARG 6 A LYS 7 n 7 LYS 7 A GLU 8 n 8 GLU 8 A ALA 9 n 9 ALA 9 A VAL 10 n 10 VAL 10 A ILE 11 n 11 ILE 11 A ILE 12 n 12 ILE 12 A MET 13 n 13 MET 13 A ASN 14 n 14 ASN 14 A VAL 15 n 15 VAL 15 A ALA 16 n 16 ALA 16 A ALA 17 n 17 ALA 17 A HIS 18 n 18 HIS 18 A HIS 19 n 19 HIS 19 A GLY 20 n 20 GLY 20 A SER 21 n 21 SER 21 A GLU 22 n 22 GLU 22 A LEU 23 n 23 LEU 23 A ASN 24 n 24 ASN 24 A GLY 25 n 25 GLY 25 A GLU 26 n 26 GLU 26 A LEU 27 n 27 LEU 27 A LEU 28 n 28 LEU 28 A LEU 29 n 29 LEU 29 A ASN 30 n 30 ASN 30 A SER 31 n 31 SER 31 A ILE 32 n 32 ILE 32 A GLN 33 n 33 GLN 33 A GLN 34 n 34 GLN 34 A ALA 35 n 35 ALA 35 A GLY 36 n 36 GLY 36 A PHE 37 n 37 PHE 37 A ILE 38 n 38 ILE 38 A PHE 39 n 39 PHE 39 A GLY 40 n 40 GLY 40 A ASP 41 n 41 ASP 41 A MET 42 n 42 MET 42 A ASN 43 n 43 ASN 43 A ILE 44 n 44 ILE 44 A TYR 45 n 45 TYR 45 A HIS 46 n 46 HIS 46 A ARG 47 n 47 ARG 47 A HIS 48 n 48 HIS 48 A LEU 49 n 49 LEU 49 A SER 50 n 50 SER 50 A PRO 51 n 51 PRO 51 A ASP 52 n 52 ASP 52 A GLY 53 n 53 GLY 53 A SER 54 n 54 SER 54 A GLY 55 n 55 GLY 55 A PRO 56 n 56 PRO 56 A ALA 57 n 57 ALA 57 A LEU 58 n 58 LEU 58 A PHE 59 n 59 PHE 59 A SER 60 n 60 SER 60 A LEU 61 n 61 LEU 61 A ALA 62 n 62 ALA 62 A ASN 63 n 63 ASN 63 A MET 64 n 64 MET 64 A VAL 65 n 65 VAL 65 A LYS 66 n 66 LYS 66 A PRO 67 n 67 PRO 67 A GLY 68 n 68 GLY 68 A THR 69 n 69 THR 69 A PHE 70 n 70 PHE 70 A ASP 71 n 71 ASP 71 A PRO 72 n 72 PRO 72 A GLU 73 n 73 GLU 73 A MET 74 n 74 MET 74 A LYS 75 n 75 LYS 75 A ASP 76 n 76 ASP 76 A PHE 77 n 77 PHE 77 A THR 78 n 78 THR 78 A THR 79 n 79 THR 79 A PRO 80 n 80 PRO 80 A GLY 81 n 81 GLY 81 A VAL 82 n 82 VAL 82 A THR 83 n 83 THR 83 A ILE 84 n 84 ILE 84 A PHE 85 n 85 PHE 85 A MET 86 n 86 MET 86 A GLN 87 n 87 GLN 87 A VAL 88 n 88 VAL 88 A PRO 89 n 89 PRO 89 A SER 90 n 90 SER 90 A TYR 91 n 91 TYR 91 A GLY 92 n 92 GLY 92 A ASP 93 n 93 ASP 93 A GLU 94 n 94 GLU 94 A LEU 95 n 95 LEU 95 A GLN 96 n 96 GLN 96 A ASN 97 n 97 ASN 97 A PHE 98 n 98 PHE 98 A LYS 99 n 99 LYS 99 A LEU 100 n 100 LEU 100 A MET 101 n 101 MET 101 A LEU 102 n 102 LEU 102 A GLN 103 n 103 GLN 103 A SER 104 n 104 SER 104 A ALA 105 n 105 ALA 105 A GLN 106 n 106 GLN 106 A HIS 107 n 107 HIS 107 A ILE 108 n 108 ILE 108 A ALA 109 n 109 ALA 109 A ASP 110 n 110 ASP 110 A GLU 111 n 111 GLU 111 A VAL 112 n 112 VAL 112 A GLY 113 n 113 GLY 113 A GLY 114 n 114 GLY 114 A VAL 115 n 115 VAL 115 A VAL 116 n 116 VAL 116 A LEU 117 n 117 LEU 117 A ASP 118 n 118 ASP 118 A ASP 119 n 119 ASP 119 A GLN 120 n 120 GLN 120 A ARG 121 n 121 ARG 121 A ARG 122 n 122 ARG 122 A MET 123 n 123 MET 123 A MET 124 n 124 MET 124 A THR 125 n 125 THR 125 A PRO 126 n 126 PRO 126 A GLN 127 n 127 GLN 127 A LYS 128 n 128 LYS 128 A LEU 129 n 129 LEU 129 A ARG 130 n 130 ARG 130 A GLU 131 n 131 GLU 131 A TYR 132 n 132 TYR 132 A GLN 133 n 133 GLN 133 A ASP 134 n 134 ASP 134 A ILE 135 n 135 ILE 135 A ILE 136 n 136 ILE 136 A ARG 137 n 137 ARG 137 A GLU 138 n 138 GLU 138 A VAL 139 n 139 VAL 139 A LYS 140 n 140 LYS 140 A ASP 141 n 141 ASP 141 A ALA 142 n 142 ALA 142 A ASN 143 n 143 ASN 143 A ALA 144 n 144 ALA 144 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 GLY 40 A N GLY 40 A O ILE 44 A O ILE 44 A O ARG 47 A O ARG 47 A N LEU 58 A N LEU 58 A O ALA 62 A O ALA 62 A N THR 83 A N THR 83 A O MET 86 A O MET 86 A N ILE 11 A N ILE 11 A N ALA 16 A N ALA 16 A O VAL 115 A O VAL 115 A N LEU 23 A N LEU 23 A O THR 79 A O THR 79 1 A O ALA 144 A O ALA 144 1 Y 2 A O ALA 144 A O ALA 144 1 Y 3 A O ALA 144 A O ALA 144 1 Y 4 A O ALA 144 A O ALA 144 1 Y 5 A O ALA 144 A O ALA 144 1 Y 6 A O ALA 144 A O ALA 144 1 Y 7 A O ALA 144 A O ALA 144 1 Y 8 A O ALA 144 A O ALA 144 1 Y 9 A O ALA 144 A O ALA 144 1 Y 10 A O ALA 144 A O ALA 144 1 Y 11 A O ALA 144 A O ALA 144 1 Y 12 A O ALA 144 A O ALA 144 1 Y 13 A O ALA 144 A O ALA 144 1 Y 14 A O ALA 144 A O ALA 144 1 Y 15 A O ALA 144 A O ALA 144 1 Y 16 A O ALA 144 A O ALA 144 1 Y 17 A O ALA 144 A O ALA 144 1 Y 18 A O ALA 144 A O ALA 144 1 Y 19 A O ALA 144 A O ALA 144 1 Y 20 A O ALA 144 A O ALA 144 1 Y 21 A O ALA 144 A O ALA 144 1 Y 22 A O ALA 144 A O ALA 144 1 Y 23 A O ALA 144 A O ALA 144 1 Y 24 A O ALA 144 A O ALA 144 1 Y 25 A O ALA 144 A O ALA 144 1 Y 26 A O ALA 144 A O ALA 144 1 Y 27 A O ALA 144 A O ALA 144 1 Y 28 A O ALA 144 A O ALA 144 1 Y 29 A O ALA 144 A O ALA 144 1 Y 30 A O ALA 144 A O ALA 144 1 Y 1 A A OD1 H ASP ARG 118 122 1.45 1 A A HD1 O HIS GLY 48 55 1.49 1 A A O H ALA THR 62 83 1.53 2 A A OD1 H ASP ARG 118 122 1.45 2 A A O HG GLN SER 87 90 1.54 2 A A H OH ASP TYR 119 132 1.56 2 A A O H ALA THR 62 83 1.56 3 A A O H LYS ALA 140 144 1.44 3 A A O H ALA THR 62 83 1.50 3 A A OD1 H ASP ARG 118 122 1.59 4 A A O H ALA THR 62 83 1.49 4 A A OD1 H ASP ARG 118 122 1.50 4 A A HD1 O HIS GLY 48 55 1.51 5 A A H HZ3 ASP LYS 2 3 1.29 5 A A OD1 H ASP ARG 118 122 1.49 5 A A O H ALA THR 62 83 1.53 5 A A O HG MET SER 101 104 1.55 5 A A HD1 O HIS GLY 48 55 1.59 5 A A O H LYS LYS 3 5 1.59 6 A A H3 H MET ASP 1 2 1.34 6 A A HZ3 OD2 LYS ASP 3 134 1.47 6 A A OD1 H ASP ARG 118 122 1.47 6 A A O H LYS ALA 140 144 1.50 6 A A O H ALA THR 62 83 1.54 7 A A OD1 H ASP ARG 118 122 1.49 7 A A H OH ASP TYR 119 132 1.55 7 A A H O ASP ARG 118 122 1.56 8 A A OD1 H ASP ARG 118 122 1.45 8 A A O H ALA THR 62 83 1.49 8 A A H OE2 LYS GLU 3 138 1.57 8 A A O HD21 MET ASN 13 14 1.58 9 A A OD1 H ASP ARG 118 122 1.43 9 A A H OH ASP TYR 119 132 1.53 10 A A OD1 H ASP ARG 118 122 1.45 10 A A O H ALA THR 62 83 1.52 11 A A OD1 H ASP ARG 118 122 1.49 11 A A O H ALA THR 62 83 1.53 12 A A OD1 H ASP ARG 118 122 1.47 12 A A O H ALA THR 62 83 1.48 12 A A O HG LEU SER 27 31 1.50 13 A A OD1 H ASP ARG 118 122 1.53 13 A A H OH ASP TYR 119 132 1.54 13 A A O H LYS ALA 140 144 1.58 13 A A O H ALA THR 62 83 1.58 14 A A OD1 H ASP ARG 118 122 1.52 14 A A O H ALA THR 62 83 1.53 14 A A HG OE2 SER GLU 90 94 1.57 15 A A OD1 H ASP ARG 118 122 1.50 15 A A H OH ASP TYR 119 132 1.58 15 A A O H ALA THR 62 83 1.58 16 A A OD1 H ASP ARG 118 122 1.48 16 A A O H ALA THR 62 83 1.51 16 A A HD1 O HIS GLY 48 55 1.56 16 A A OD2 HZ3 ASP LYS 118 128 1.56 17 A A OD1 H ASP ARG 118 122 1.45 17 A A O H ALA THR 62 83 1.49 17 A A H O ALA THR 62 83 1.59 18 A A OD1 H ASP ARG 118 122 1.45 18 A A H OH ASP TYR 119 132 1.59 19 A A OD1 H ASP ARG 118 122 1.44 19 A A O H ASP MET 71 74 1.60 19 A A O HG LEU SER 28 31 1.60 20 A A OD1 H ASP ARG 118 122 1.50 21 A A OD1 H ASP ARG 118 122 1.50 21 A A O H ALA THR 62 83 1.52 21 A A HD1 O HIS GLY 48 55 1.55 21 A A H O ASP ARG 118 122 1.60 22 A A OE1 HZ1 GLU LYS 94 140 1.44 22 A A OD1 H ASP ARG 118 122 1.48 22 A A O H ALA THR 62 83 1.54 23 A A OD1 H ASP ARG 118 122 1.44 23 A A O H ALA THR 62 83 1.53 23 A A O HG LEU SER 58 90 1.58 23 A A OE1 HE GLN ARG 120 122 1.59 24 A A HD1 O HIS GLY 48 55 1.49 24 A A OD1 H ASP ARG 118 122 1.49 24 A A HG OE1 SER GLU 31 111 1.50 24 A A OE1 HG1 GLU THR 22 78 1.53 24 A A H OH ASP TYR 119 132 1.56 25 A A HD21 H ASN GLU 24 26 1.28 25 A A OD1 H ASP ARG 118 122 1.50 25 A A O H ASP MET 71 74 1.57 25 A A O HG GLN SER 87 90 1.58 26 A A OD1 H ASP ARG 118 122 1.46 26 A A HD1 O HIS GLY 48 55 1.57 26 A A O H ALA THR 62 83 1.58 26 A A O H LYS ALA 140 144 1.58 26 A A OE1 HZ1 GLU LYS 94 140 1.59 27 A A OD1 H ASP ARG 118 122 1.49 27 A A O H ALA THR 62 83 1.50 28 A A OD1 H ASP ARG 118 122 1.46 28 A A O H ALA THR 62 83 1.47 29 A A OD1 H ASP ARG 118 122 1.43 29 A A O H ALA THR 62 83 1.52 30 A A OD1 H ASP ARG 118 122 1.54 30 A A O H ALA THR 62 83 1.54 1 A LYS 5 -78.77 32.28 1 A ALA 17 -71.91 -165.46 1 A ASP 41 -61.79 -163.97 1 A PRO 72 -46.08 -13.96 1 A ASP 76 -152.15 69.34 2 A PRO 4 -35.71 158.24 2 A ALA 17 -71.02 -165.80 2 A PHE 39 -59.98 102.99 2 A ASP 41 -60.53 -162.97 2 A PRO 72 -47.56 -11.28 2 A ASP 76 -151.23 74.78 3 A ALA 9 -165.70 -163.80 3 A ASP 41 -63.78 -163.19 3 A MET 42 57.19 19.81 4 A LYS 5 -80.00 31.04 4 A ASP 41 -64.31 -163.78 4 A PRO 56 -69.61 -176.68 4 A PRO 72 -45.19 -12.64 4 A ASP 76 -150.16 75.66 5 A ASP 2 -91.66 42.24 5 A PRO 4 -65.70 37.60 5 A ALA 17 -72.11 -166.30 5 A ASP 41 -60.76 -161.96 5 A PRO 72 -50.68 -6.45 5 A ASP 76 -150.76 79.35 6 A LYS 5 -80.89 33.03 6 A ASP 41 -65.45 -165.69 6 A PRO 72 -46.66 -8.88 6 A ASP 76 -150.10 78.01 7 A ALA 9 -162.30 -166.66 7 A ALA 17 -71.82 -169.91 7 A PHE 39 -58.62 107.41 7 A ASP 41 -66.43 -166.37 8 A ASP 41 -65.56 -163.35 8 A MET 42 58.70 19.96 8 A PRO 72 -44.05 -14.37 8 A ASP 76 -150.03 78.31 9 A ASP 41 -62.59 -164.45 9 A PRO 72 -42.89 -15.53 10 A ALA 9 -168.17 -166.22 10 A ASP 41 -65.36 -161.97 10 A MET 42 58.18 -99.71 10 A ASN 43 -164.81 28.47 10 A PRO 72 -49.86 -13.37 11 A PRO 4 -56.91 -145.05 11 A LYS 5 -76.34 36.46 11 A ASP 41 -69.34 -169.84 11 A PRO 72 -48.98 -8.17 11 A ASP 76 -154.80 77.80 12 A PRO 4 -67.69 9.70 12 A PHE 39 -58.60 108.24 12 A ASP 41 -69.27 -167.70 12 A PRO 72 -51.10 -9.07 12 A ASP 76 -151.91 79.07 13 A PRO 4 -82.46 46.91 13 A ASP 41 -61.51 -165.96 13 A PRO 72 -49.04 -11.11 14 A PRO 4 -65.75 18.93 14 A ALA 17 -73.12 -164.96 14 A PHE 39 -58.96 102.67 14 A ASP 41 -65.40 -164.94 14 A PRO 72 -40.89 -15.67 14 A ASP 76 -150.29 73.23 15 A LYS 5 -79.18 29.74 15 A ALA 17 -71.26 -164.49 15 A PHE 39 -60.89 98.41 15 A ASP 41 -61.99 -163.65 15 A MET 42 58.46 20.00 15 A PRO 72 -50.45 -9.17 16 A PRO 4 -73.18 23.68 16 A PHE 39 -59.07 106.76 16 A ASP 41 -65.78 -163.11 17 A ASP 2 -90.12 30.87 17 A LYS 5 -78.95 32.43 17 A PHE 39 -58.88 101.36 17 A ASP 41 -65.30 -163.61 17 A PRO 72 -48.13 -4.29 17 A MET 74 -79.72 26.14 17 A ASP 76 -153.79 81.45 18 A PRO 4 -66.41 14.66 18 A ALA 17 -70.65 -164.49 18 A PHE 39 -59.04 99.92 18 A ASP 41 -62.99 -163.59 18 A PRO 72 -45.39 -12.01 18 A ASP 76 -150.45 75.75 19 A PRO 4 -69.43 23.46 19 A ALA 17 -71.53 -164.49 19 A ASP 41 -67.60 -162.90 19 A MET 42 54.78 -101.34 19 A ASN 43 -163.27 31.85 19 A ASP 76 -154.09 78.62 20 A LYS 5 -80.92 33.00 20 A ALA 17 -70.67 -164.11 20 A PHE 39 -59.46 98.40 20 A ASP 41 -67.14 -170.86 20 A PRO 72 -49.10 -11.96 21 A PHE 39 -58.68 101.64 21 A ASP 41 -69.45 -167.22 21 A PRO 72 -49.98 -11.13 22 A ALA 17 -71.70 -168.38 22 A ASP 41 -67.12 -166.16 22 A PRO 72 -50.72 -7.00 23 A PRO 4 -76.23 -160.87 23 A LYS 7 -84.31 -70.00 23 A ALA 17 -75.71 -164.51 23 A PHE 39 -58.30 102.12 23 A ASP 41 -66.28 -163.01 23 A PRO 72 -49.50 -9.34 24 A LYS 5 -80.54 30.01 24 A ALA 17 -73.53 -165.25 24 A PHE 39 -59.74 101.69 24 A ASP 41 -62.34 -162.28 24 A LEU 58 -97.65 -70.61 25 A ALA 17 -70.91 -166.76 25 A ASP 41 -66.20 -170.18 25 A PRO 72 -49.23 -19.32 26 A ALA 17 -72.65 -164.40 26 A ASP 41 -60.41 -164.07 26 A MET 42 56.90 19.98 26 A PRO 72 -49.13 -7.50 27 A LYS 5 -80.06 32.77 27 A ALA 17 -72.48 -164.68 27 A ASP 41 -59.95 -163.52 27 A MET 42 58.89 19.86 27 A PRO 72 -49.59 -8.79 27 A ASP 76 -150.30 79.99 28 A PRO 4 -72.49 25.20 28 A ASP 41 -65.31 -164.77 29 A LYS 5 -79.79 33.32 29 A PHE 39 -59.04 104.82 29 A ASP 41 -65.72 -163.11 29 A PRO 72 -49.79 -10.99 30 A LYS 5 -79.28 31.97 30 A ASP 41 -66.54 -168.05 30 A PRO 72 -44.81 -12.39 30 A ASP 76 -150.96 69.70 minimized average SOLUTION STRUCTURE OF C-TERMINAL DOMAIN ZIPA 1 N N A GLY 25 A GLY 25 HELX_P A ALA 35 A ALA 35 1 1 11 A ASP 71 A ASP 71 HELX_P A ASP 76 A ASP 76 5 2 6 A ASP 93 A ASP 93 HELX_P A GLY 113 A GLY 113 1 3 21 A THR 125 A THR 125 HELX_P A ALA 144 A ALA 144 1 4 20 CELL CYCLE Alpha-Beta fold, cell division, septation, transmembrane, inner membrane, CELL CYCLE A LYS 66 A LYS 66 1 A PRO 67 A PRO 67 -0.08 A VAL 88 A VAL 88 1 A PRO 89 A PRO 89 -1.15 A LYS 66 A LYS 66 2 A PRO 67 A PRO 67 -1.24 A VAL 88 A VAL 88 2 A PRO 89 A PRO 89 0.61 A LYS 66 A LYS 66 3 A PRO 67 A PRO 67 -0.28 A VAL 88 A VAL 88 3 A PRO 89 A PRO 89 0.06 A LYS 66 A LYS 66 4 A PRO 67 A PRO 67 -0.02 A VAL 88 A VAL 88 4 A PRO 89 A PRO 89 0.28 A LYS 66 A LYS 66 5 A PRO 67 A PRO 67 -0.73 A VAL 88 A VAL 88 5 A PRO 89 A PRO 89 -1.17 A LYS 66 A LYS 66 6 A PRO 67 A PRO 67 -0.43 A VAL 88 A VAL 88 6 A PRO 89 A PRO 89 0.37 A LYS 66 A LYS 66 7 A PRO 67 A PRO 67 -0.48 A VAL 88 A VAL 88 7 A PRO 89 A PRO 89 0.19 A LYS 66 A LYS 66 8 A PRO 67 A PRO 67 -0.48 A VAL 88 A VAL 88 8 A PRO 89 A PRO 89 0.01 A LYS 66 A LYS 66 9 A PRO 67 A PRO 67 -0.59 A VAL 88 A VAL 88 9 A PRO 89 A PRO 89 -0.93 A LYS 66 A LYS 66 10 A PRO 67 A PRO 67 -0.29 A VAL 88 A VAL 88 10 A PRO 89 A PRO 89 -0.44 A LYS 66 A LYS 66 11 A PRO 67 A PRO 67 -0.73 A VAL 88 A VAL 88 11 A PRO 89 A PRO 89 -1.38 A LYS 66 A LYS 66 12 A PRO 67 A PRO 67 -0.25 A VAL 88 A VAL 88 12 A PRO 89 A PRO 89 -1.60 A LYS 66 A LYS 66 13 A PRO 67 A PRO 67 -0.08 A VAL 88 A VAL 88 13 A PRO 89 A PRO 89 0.14 A LYS 66 A LYS 66 14 A PRO 67 A PRO 67 -0.77 A VAL 88 A VAL 88 14 A PRO 89 A PRO 89 0.48 A LYS 66 A LYS 66 15 A PRO 67 A PRO 67 0.34 A VAL 88 A VAL 88 15 A PRO 89 A PRO 89 -0.07 A LYS 66 A LYS 66 16 A PRO 67 A PRO 67 -1.22 A VAL 88 A VAL 88 16 A PRO 89 A PRO 89 0.27 A LYS 66 A LYS 66 17 A PRO 67 A PRO 67 -0.97 A VAL 88 A VAL 88 17 A PRO 89 A PRO 89 -0.35 A LYS 66 A LYS 66 18 A PRO 67 A PRO 67 -0.71 A VAL 88 A VAL 88 18 A PRO 89 A PRO 89 0.11 A LYS 66 A LYS 66 19 A PRO 67 A PRO 67 -1.07 A VAL 88 A VAL 88 19 A PRO 89 A PRO 89 -0.46 A LYS 66 A LYS 66 20 A PRO 67 A PRO 67 -0.12 A VAL 88 A VAL 88 20 A PRO 89 A PRO 89 0.00 A LYS 66 A LYS 66 21 A PRO 67 A PRO 67 -0.83 A VAL 88 A VAL 88 21 A PRO 89 A PRO 89 -0.33 A LYS 66 A LYS 66 22 A PRO 67 A PRO 67 -0.59 A VAL 88 A VAL 88 22 A PRO 89 A PRO 89 0.16 A LYS 66 A LYS 66 23 A PRO 67 A PRO 67 -0.57 A VAL 88 A VAL 88 23 A PRO 89 A PRO 89 -0.07 A LYS 66 A LYS 66 24 A PRO 67 A PRO 67 0.18 A VAL 88 A VAL 88 24 A PRO 89 A PRO 89 -0.43 A LYS 66 A LYS 66 25 A PRO 67 A PRO 67 -0.69 A VAL 88 A VAL 88 25 A PRO 89 A PRO 89 0.27 A LYS 66 A LYS 66 26 A PRO 67 A PRO 67 -0.45 A VAL 88 A VAL 88 26 A PRO 89 A PRO 89 -2.06 A LYS 66 A LYS 66 27 A PRO 67 A PRO 67 0.10 A VAL 88 A VAL 88 27 A PRO 89 A PRO 89 -0.66 A LYS 66 A LYS 66 28 A PRO 67 A PRO 67 0.22 A VAL 88 A VAL 88 28 A PRO 89 A PRO 89 -0.27 A LYS 66 A LYS 66 29 A PRO 67 A PRO 67 -0.84 A VAL 88 A VAL 88 29 A PRO 89 A PRO 89 -0.18 A LYS 66 A LYS 66 30 A PRO 67 A PRO 67 -0.19 A VAL 88 A VAL 88 30 A PRO 89 A PRO 89 0.25 ZIPA_ECOLI UNP 1 P77173 185 328 1F7X 1 144 P77173 A 1 1 144 6 2 anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel A ILE 38 A ILE 38 A GLY 40 A GLY 40 A ILE 44 A ILE 44 A HIS 48 A HIS 48 A ALA 57 A ALA 57 A ASN 63 A ASN 63 A GLY 81 A GLY 81 A GLN 87 A GLN 87 A VAL 10 A VAL 10 A ALA 16 A ALA 16 A VAL 115 A VAL 115 A LEU 117 A LEU 117 A LEU 23 A LEU 23 A ASN 24 A ASN 24 A THR 78 A THR 78 A THR 79 A THR 79