1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Dmitriev, O.Y. Fillingame, R.H. 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 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 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 J.Biol.Chem. JBCHA3 0071 0021-9258 276 27449 27454 10.1074/jbc.M100762200 11331283 Structure of Ala(20) --> Pro/Pro(64) --> Ala substituted subunit c of Escherichia coli ATP synthase in which the essential proline is switched between transmembrane helices. 2001 10.2210/pdb1ijp/pdb pdb_00001ijp 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 8259.064 ATP Synthase 3.6.1.34 subunit c A20P, P64A 1 man polymer no no MENLNMDLLYMAAAVMMGLPAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIAMIAVGLGLYVMFAVA MENLNMDLLYMAAAVMMGLPAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIAMIAVGLGLYVMFAVA 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 Escherichia Escherichia sample uncE 562 Escherichia coli 562 Escherichia coli JH613 plasmid pBR322 database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2002-03-27 1 1 2008-04-27 1 2 2011-07-13 1 3 2021-10-27 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _struct_ref_seq_dif.details Solution structure of the wild type subunit c of E.coli ATP Synthase at pH 5.0 Solution structure of the wild type subunit c of E.coli ATP Synthase at pH 5.0, a more recent refinement Solution structure of the wild type subunit c of E.coli ATP Synthase at pH 8.0 RCSB Y RCSB 2001-04-27 REL target function 200 10 DQF-COSY 2D TOCSY 3D_15N-separated TOCSY 2D NOESY 3D_15N-separated_NOESY HNHA 50 mM NaCl 5.0 atmospheric atm 300 K simulated annealing, torsion angle dynamics 2.2 mM subunit c, 50 mM NaCl, pH 5.0 CDCl3:CD3OD:D2O=4:4:1 or CDCl3:CD3OH:H2O=4:4:1 collection XwinNMR data analysis Felix 95.0 structure solution DYANA 1.5 refinement Discover 3.0 600 Bruker DMX MET 1 n 1 MET 1 A GLU 2 n 2 GLU 2 A ASN 3 n 3 ASN 3 A LEU 4 n 4 LEU 4 A ASN 5 n 5 ASN 5 A MET 6 n 6 MET 6 A ASP 7 n 7 ASP 7 A LEU 8 n 8 LEU 8 A LEU 9 n 9 LEU 9 A TYR 10 n 10 TYR 10 A MET 11 n 11 MET 11 A ALA 12 n 12 ALA 12 A ALA 13 n 13 ALA 13 A ALA 14 n 14 ALA 14 A VAL 15 n 15 VAL 15 A MET 16 n 16 MET 16 A MET 17 n 17 MET 17 A GLY 18 n 18 GLY 18 A LEU 19 n 19 LEU 19 A PRO 20 n 20 PRO 20 A ALA 21 n 21 ALA 21 A ILE 22 n 22 ILE 22 A GLY 23 n 23 GLY 23 A ALA 24 n 24 ALA 24 A ALA 25 n 25 ALA 25 A ILE 26 n 26 ILE 26 A GLY 27 n 27 GLY 27 A ILE 28 n 28 ILE 28 A GLY 29 n 29 GLY 29 A ILE 30 n 30 ILE 30 A LEU 31 n 31 LEU 31 A GLY 32 n 32 GLY 32 A GLY 33 n 33 GLY 33 A LYS 34 n 34 LYS 34 A PHE 35 n 35 PHE 35 A LEU 36 n 36 LEU 36 A GLU 37 n 37 GLU 37 A GLY 38 n 38 GLY 38 A ALA 39 n 39 ALA 39 A ALA 40 n 40 ALA 40 A ARG 41 n 41 ARG 41 A GLN 42 n 42 GLN 42 A PRO 43 n 43 PRO 43 A ASP 44 n 44 ASP 44 A LEU 45 n 45 LEU 45 A ILE 46 n 46 ILE 46 A PRO 47 n 47 PRO 47 A LEU 48 n 48 LEU 48 A LEU 49 n 49 LEU 49 A ARG 50 n 50 ARG 50 A THR 51 n 51 THR 51 A GLN 52 n 52 GLN 52 A PHE 53 n 53 PHE 53 A PHE 54 n 54 PHE 54 A ILE 55 n 55 ILE 55 A VAL 56 n 56 VAL 56 A MET 57 n 57 MET 57 A GLY 58 n 58 GLY 58 A LEU 59 n 59 LEU 59 A VAL 60 n 60 VAL 60 A ASP 61 n 61 ASP 61 A ALA 62 n 62 ALA 62 A ILE 63 n 63 ILE 63 A ALA 64 n 64 ALA 64 A MET 65 n 65 MET 65 A ILE 66 n 66 ILE 66 A ALA 67 n 67 ALA 67 A VAL 68 n 68 VAL 68 A GLY 69 n 69 GLY 69 A LEU 70 n 70 LEU 70 A GLY 71 n 71 GLY 71 A LEU 72 n 72 LEU 72 A TYR 73 n 73 TYR 73 A VAL 74 n 74 VAL 74 A MET 75 n 75 MET 75 A PHE 76 n 76 PHE 76 A ALA 77 n 77 ALA 77 A VAL 78 n 78 VAL 78 A ALA 79 n 79 ALA 79 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 1 A A LEU GLY 31 32 147.88 4 A A VAL ASP 60 61 148.35 7 A A VAL ASP 60 61 148.83 8 A A VAL ASP 60 61 148.36 1 -5.92 0.90 118.30 112.38 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 1 4.00 0.50 120.30 124.30 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 1 -5.95 0.90 118.30 112.35 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 1 3.85 0.50 120.30 124.15 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 1 5.58 0.90 118.30 123.88 A A A CB CG OD1 ASP ASP ASP 61 61 61 N 1 -6.13 0.90 118.30 112.17 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 2 5.42 0.90 118.30 123.72 A A A CB CG OD1 ASP ASP ASP 7 7 7 N 2 -5.92 0.90 118.30 112.38 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 2 3.92 0.50 120.30 124.22 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 2 -5.93 0.90 118.30 112.37 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 2 3.90 0.50 120.30 124.20 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 2 5.82 0.90 118.30 124.12 A A A CB CG OD1 ASP ASP ASP 61 61 61 N 2 -6.13 0.90 118.30 112.17 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 3 -5.76 0.90 118.30 112.54 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 3 3.94 0.50 120.30 124.24 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 3 5.42 0.90 118.30 123.72 A A A CB CG OD1 ASP ASP ASP 44 44 44 N 3 -6.04 0.90 118.30 112.26 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 3 3.86 0.50 120.30 124.16 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 3 -5.81 0.90 118.30 112.49 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 4 -5.92 0.90 118.30 112.38 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 4 3.90 0.50 120.30 124.20 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 4 -5.95 0.90 118.30 112.35 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 4 3.96 0.50 120.30 124.26 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 4 -5.98 0.90 118.30 112.32 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 5 5.41 0.90 118.30 123.71 A A A CB CG OD1 ASP ASP ASP 7 7 7 N 5 -6.04 0.90 118.30 112.26 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 5 3.86 0.50 120.30 124.16 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 5 -5.80 0.90 118.30 112.50 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 5 3.88 0.50 120.30 124.18 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 5 -5.98 0.90 118.30 112.32 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 6 5.41 0.90 118.30 123.71 A A A CB CG OD1 ASP ASP ASP 7 7 7 N 6 -6.00 0.90 118.30 112.30 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 6 4.00 0.50 120.30 124.30 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 6 -5.96 0.90 118.30 112.34 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 6 3.82 0.50 120.30 124.12 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 6 5.71 0.90 118.30 124.01 A A A CB CG OD1 ASP ASP ASP 61 61 61 N 6 -6.08 0.90 118.30 112.22 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 7 -5.91 0.90 118.30 112.39 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 7 -4.04 0.60 121.00 116.96 A A A CB CG CD2 TYR TYR TYR 10 10 10 N 7 3.80 0.50 120.30 124.10 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 7 -5.91 0.90 118.30 112.39 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 7 3.94 0.50 120.30 124.24 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 7 -5.90 0.90 118.30 112.40 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 8 5.64 0.90 118.30 123.94 A A A CB CG OD1 ASP ASP ASP 7 7 7 N 8 -6.50 0.90 118.30 111.80 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 8 3.88 0.50 120.30 124.18 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 8 -5.80 0.90 118.30 112.50 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 8 3.84 0.50 120.30 124.14 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 8 6.08 0.90 118.30 124.38 A A A CB CG OD1 ASP ASP ASP 61 61 61 N 8 -6.30 0.90 118.30 112.00 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 9 5.86 0.90 118.30 124.16 A A A CB CG OD1 ASP ASP ASP 7 7 7 N 9 -6.50 0.90 118.30 111.80 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 9 3.92 0.50 120.30 124.22 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 9 5.66 0.90 118.30 123.96 A A A CB CG OD1 ASP ASP ASP 44 44 44 N 9 -6.15 0.90 118.30 112.15 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 9 3.87 0.50 120.30 124.17 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 9 -5.95 0.90 118.30 112.35 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 10 -5.86 0.90 118.30 112.44 A A A CB CG OD2 ASP ASP ASP 7 7 7 N 10 11.55 1.90 113.40 124.95 A A A CA CB CG TYR TYR TYR 10 10 10 N 10 -4.73 0.60 121.00 116.27 A A A CB CG CD2 TYR TYR TYR 10 10 10 N 10 3.72 0.60 121.00 124.72 A A A CB CG CD1 TYR TYR TYR 10 10 10 N 10 3.85 0.50 120.30 124.15 A A A NE CZ NH1 ARG ARG ARG 41 41 41 N 10 -5.86 0.90 118.30 112.44 A A A CB CG OD2 ASP ASP ASP 44 44 44 N 10 3.95 0.50 120.30 124.25 A A A NE CZ NH1 ARG ARG ARG 50 50 50 N 10 6.59 0.90 118.30 124.89 A A A CB CG OD1 ASP ASP ASP 61 61 61 N 10 -6.71 0.90 118.30 111.59 A A A CB CG OD2 ASP ASP ASP 61 61 61 N 1 A A CD OE2 GLU GLU 2 2 0.115 0.011 1.252 1.367 N 1 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 2 A A CD OE2 GLU GLU 2 2 0.116 0.011 1.252 1.368 N 2 A A CD OE2 GLU GLU 37 37 0.114 0.011 1.252 1.366 N 3 A A CD OE2 GLU GLU 2 2 0.115 0.011 1.252 1.367 N 3 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 4 A A CD OE2 GLU GLU 2 2 0.116 0.011 1.252 1.368 N 4 A A CD OE2 GLU GLU 37 37 0.114 0.011 1.252 1.366 N 5 A A CD OE2 GLU GLU 2 2 0.115 0.011 1.252 1.367 N 5 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 6 A A CD OE2 GLU GLU 2 2 0.115 0.011 1.252 1.367 N 6 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 7 A A CD OE2 GLU GLU 2 2 0.115 0.011 1.252 1.367 N 7 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 8 A A CD OE2 GLU GLU 2 2 0.114 0.011 1.252 1.366 N 8 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 9 A A CD OE2 GLU GLU 2 2 0.115 0.011 1.252 1.367 N 9 A A CD OE2 GLU GLU 37 37 0.115 0.011 1.252 1.367 N 10 A A CD OE2 GLU GLU 2 2 0.116 0.011 1.252 1.368 N 10 A A CD OE2 GLU GLU 37 37 0.114 0.011 1.252 1.366 N 1 A GLU 2 -97.93 -78.94 1 A ASP 44 -119.39 62.56 2 A GLU 2 65.91 80.98 2 A ILE 28 -44.22 -73.58 2 A LEU 59 -58.50 -2.83 2 A ALA 62 -49.90 -73.15 3 A GLU 2 -108.47 -66.31 4 A GLU 2 -97.31 -76.41 4 A ILE 28 -54.65 -70.28 4 A ASP 44 -119.28 60.93 4 A LEU 59 -55.76 -8.20 4 A ALA 62 -48.03 -71.20 4 A ALA 77 71.23 86.22 4 A VAL 78 73.72 -62.29 5 A GLU 2 -128.62 -74.38 5 A ASN 3 -149.42 -49.43 5 A LEU 59 -49.52 -14.34 6 A ILE 28 -47.66 -73.76 6 A LEU 59 -46.53 -17.28 6 A ALA 62 -58.16 -82.65 7 A GLU 2 -98.56 -75.28 7 A LEU 59 -57.72 -2.63 7 A ALA 62 -50.19 -74.88 8 A GLU 2 -116.59 -74.57 8 A ASN 3 -145.11 -65.42 8 A ASP 44 -97.62 31.62 8 A LEU 59 -57.58 -4.44 8 A ALA 77 64.09 78.82 8 A VAL 78 73.60 -35.58 9 A GLU 2 -93.02 -76.27 9 A LEU 59 -48.86 -19.63 9 A VAL 78 40.57 74.31 10 A GLU 2 62.69 70.26 10 A TYR 10 -37.89 -73.72 Solution Structure of Ala20Pro/Pro64Ala substituted subunit c of Escherichia coli ATP synthase 1 N N A GLU 2 A GLU 2 HELX_P A LEU 19 A LEU 19 1 1 18 A ILE 22 A ILE 22 HELX_P A GLN 42 A GLN 42 1 2 21 A LEU 45 A LEU 45 HELX_P A VAL 78 A VAL 78 1 3 34 HYDROLASE transmembrane helix, HYDROLASE ATPL_ECOLI UNP 1 1 P68699 MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA 1 79 1IJP 1 79 P68699 A 1 1 79 1 ALA engineered mutation PRO 20 1IJP A P68699 UNP 20 20 1 PRO engineered mutation ALA 64 1IJP A P68699 UNP 64 64