1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Guntert, P. Qian, Y.-Q. Otting, G. Muller, M. Gehring, W.J. Wuthrich, K. 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 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 UK J.Mol.Biol. JMOBAK 0070 0022-2836 217 531 540 10.1016/0022-2836(91)90755-U 1671604 Structure determination of the Antp (C39----S) homeodomain from nuclear magnetic resonance data in solution using a novel strategy for the structure calculation with the programs DIANA, CALIBA, HABAS and GLOMSA. 1991 US Cell(Cambridge,Mass.) CELLB5 0998 0092-8674 59 573 The Structure of the Antennapedia Homeodomain Determined by NMR Spectroscopy in Solution: Comparison with Prokaryotic Repressors 1989 UK J.Mol.Biol. JMOBAK 0070 0022-2836 214 183 Determination of the Three-Dimensional Structure of the Antennapedia Homeodomain from Drosophila in Solution by 1H Nuclear Magnetic Resonance Spectroscopy 1990 UK Embo J. EMJODG 0897 0261-4189 7 4305 Secondary Structure Determination for the Antennapedia Homeodomain by Nuclear Magnetic Resonance and Evidence for a Helix-Turn-Helix Motif 1988 10.2210/pdb2hoa/pdb pdb_00002hoa 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 8661.094 ANTENNAPEDIA PROTEIN 1 man polymer no no MRKRGRQTYTRYQTLELEKEFHFNRYLTRRRRIEIAHALSLTERQIKIWFQNRRMKWKKENKTKGEPG MRKRGRQTYTRYQTLELEKEFHFNRYLTRRRRIEIAHALSLTERQIKIWFQNRRMKWKKENKTKGEPG 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 fruit fly Drosophila Escherichia sample 7227 Drosophila melanogaster 562 Escherichia coli database_2 pdbx_database_status pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_keywords struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations Other Structure summary 1 0 1993-10-31 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-03-09 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site _pdbx_nmr_software.name _struct_keywords.text _struct_ref_seq_dif.details Y BNL 1992-04-04 REL 20 GUNTERT,BRAUN,WUTHRICH refinement DIANA PEARLMAN,CASE,CALDWELL,SIEBEL,SINGH,WEINER,KOLLMAN refinement Amber MET 0 n 1 MET 0 A ARG 1 n 2 ARG 1 A LYS 2 n 3 LYS 2 A ARG 3 n 4 ARG 3 A GLY 4 n 5 GLY 4 A ARG 5 n 6 ARG 5 A GLN 6 n 7 GLN 6 A THR 7 n 8 THR 7 A TYR 8 n 9 TYR 8 A THR 9 n 10 THR 9 A ARG 10 n 11 ARG 10 A TYR 11 n 12 TYR 11 A GLN 12 n 13 GLN 12 A THR 13 n 14 THR 13 A LEU 14 n 15 LEU 14 A GLU 15 n 16 GLU 15 A LEU 16 n 17 LEU 16 A GLU 17 n 18 GLU 17 A LYS 18 n 19 LYS 18 A GLU 19 n 20 GLU 19 A PHE 20 n 21 PHE 20 A HIS 21 n 22 HIS 21 A PHE 22 n 23 PHE 22 A ASN 23 n 24 ASN 23 A ARG 24 n 25 ARG 24 A TYR 25 n 26 TYR 25 A LEU 26 n 27 LEU 26 A THR 27 n 28 THR 27 A ARG 28 n 29 ARG 28 A ARG 29 n 30 ARG 29 A ARG 30 n 31 ARG 30 A ARG 31 n 32 ARG 31 A ILE 32 n 33 ILE 32 A GLU 33 n 34 GLU 33 A ILE 34 n 35 ILE 34 A ALA 35 n 36 ALA 35 A HIS 36 n 37 HIS 36 A ALA 37 n 38 ALA 37 A LEU 38 n 39 LEU 38 A SER 39 n 40 SER 39 A LEU 40 n 41 LEU 40 A THR 41 n 42 THR 41 A GLU 42 n 43 GLU 42 A ARG 43 n 44 ARG 43 A GLN 44 n 45 GLN 44 A ILE 45 n 46 ILE 45 A LYS 46 n 47 LYS 46 A ILE 47 n 48 ILE 47 A TRP 48 n 49 TRP 48 A PHE 49 n 50 PHE 49 A GLN 50 n 51 GLN 50 A ASN 51 n 52 ASN 51 A ARG 52 n 53 ARG 52 A ARG 53 n 54 ARG 53 A MET 54 n 55 MET 54 A LYS 55 n 56 LYS 55 A TRP 56 n 57 TRP 56 A LYS 57 n 58 LYS 57 A LYS 58 n 59 LYS 58 A GLU 59 n 60 GLU 59 A ASN 60 n 61 ASN 60 A LYS 61 n 62 LYS 61 A THR 62 n 63 THR 62 A LYS 63 n 64 LYS 63 A GLY 64 n 65 GLY 64 A GLU 65 n 66 GLU 65 A PRO 66 n 67 PRO 66 A GLY 67 n 68 GLY 67 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 8 A ASN 51 10.45 8 A ARG 53 -10.04 8 A A ASN ARG 51 52 -120.63 8 A A ARG ARG 52 53 -98.61 8 A A ARG MET 53 54 128.39 1 A TYR 25 0.064 SIDE CHAIN 1 A ARG 30 0.076 SIDE CHAIN 2 A ARG 29 0.079 SIDE CHAIN 2 A ARG 31 0.126 SIDE CHAIN 3 A TYR 8 0.092 SIDE CHAIN 3 A TYR 11 0.100 SIDE CHAIN 3 A TYR 25 0.068 SIDE CHAIN 3 A ARG 31 0.076 SIDE CHAIN 4 A PHE 22 0.107 SIDE CHAIN 4 A ARG 30 0.079 SIDE CHAIN 6 A TYR 11 0.079 SIDE CHAIN 6 A TYR 25 0.153 SIDE CHAIN 6 A ARG 30 0.106 SIDE CHAIN 7 A PHE 20 0.082 SIDE CHAIN 7 A ARG 31 0.114 SIDE CHAIN 8 A TYR 25 0.074 SIDE CHAIN 10 A TYR 8 0.086 SIDE CHAIN 10 A TYR 25 0.148 SIDE CHAIN 11 A TYR 8 0.122 SIDE CHAIN 11 A ARG 24 0.107 SIDE CHAIN 12 A PHE 22 0.060 SIDE CHAIN 12 A ARG 52 0.116 SIDE CHAIN 13 A TYR 11 0.118 SIDE CHAIN 13 A ARG 52 0.079 SIDE CHAIN 14 A TYR 8 0.093 SIDE CHAIN 14 A ARG 24 0.087 SIDE CHAIN 14 A ARG 52 0.103 SIDE CHAIN 14 A ARG 53 0.084 SIDE CHAIN 15 A PHE 22 0.058 SIDE CHAIN 15 A ARG 31 0.090 SIDE CHAIN 16 A TYR 25 0.101 SIDE CHAIN 16 A PHE 49 0.076 SIDE CHAIN 16 A ARG 52 0.106 SIDE CHAIN 18 A TYR 25 0.085 SIDE CHAIN 18 A ARG 53 0.082 SIDE CHAIN 19 A PHE 22 0.077 SIDE CHAIN 19 A ARG 31 0.079 SIDE CHAIN 19 A ARG 52 0.086 SIDE CHAIN 20 A TYR 8 0.070 SIDE CHAIN 20 A ARG 24 0.108 SIDE CHAIN 20 A ARG 52 0.100 SIDE CHAIN 7 -11.78 0.60 121.00 109.22 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 7 11.42 0.60 121.00 132.42 A A A CB CG CD1 TYR TYR TYR 25 25 25 N 8 17.97 2.50 121.70 139.67 A A A C N CA ARG ARG ARG 52 53 53 Y 10 -3.94 0.60 121.00 117.06 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 13 -3.67 0.60 121.00 117.33 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 14 -5.19 0.60 121.00 115.81 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 15 -5.80 0.60 121.00 115.20 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 15 4.22 0.60 121.00 125.22 A A A CB CG CD1 TYR TYR TYR 25 25 25 N 18 -3.64 0.60 121.00 117.36 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 19 -3.77 0.60 121.00 117.23 A A A CB CG CD2 TYR TYR TYR 25 25 25 N 1 A ARG 1 -163.28 -96.47 1 A LYS 2 50.04 74.41 1 A SER 39 70.81 72.33 1 A THR 62 -141.36 -44.96 2 A LYS 2 -154.56 85.45 2 A ARG 3 -97.11 -89.07 2 A ARG 5 78.33 92.51 2 A PHE 22 -82.57 -75.42 2 A SER 39 117.16 60.16 2 A LYS 58 -81.28 38.90 2 A ASN 60 57.60 12.52 2 A LYS 61 -155.25 62.98 3 A ARG 1 46.17 -99.14 3 A ARG 3 45.91 -155.19 3 A GLN 6 56.32 -165.87 3 A LEU 38 -94.65 -85.16 3 A SER 39 158.43 52.50 3 A ASN 60 -116.42 62.58 3 A GLU 65 -152.85 73.20 4 A LYS 2 -145.59 31.72 4 A ARG 5 -153.83 87.74 4 A PHE 22 -80.78 -76.75 4 A SER 39 80.81 63.52 4 A LYS 61 -157.57 67.05 4 A THR 62 71.32 103.06 4 A PRO 66 -76.24 37.21 5 A ARG 1 68.24 92.36 5 A SER 39 70.39 79.41 5 A ASN 60 -170.47 92.36 5 A LYS 61 -135.27 -58.28 5 A THR 62 -174.59 -32.78 6 A ARG 1 44.98 -91.30 6 A ARG 3 58.62 -158.84 6 A GLN 6 77.66 113.22 6 A SER 39 78.22 58.30 6 A ASN 60 -164.00 93.84 6 A LYS 63 54.15 -156.47 6 A GLU 65 -107.76 79.40 7 A ARG 1 -177.84 -47.37 7 A ARG 3 58.90 -173.13 7 A ARG 5 67.62 114.30 7 A THR 7 -81.73 32.82 7 A LEU 38 -84.34 -80.37 7 A SER 39 150.05 57.42 7 A THR 62 -99.85 -60.41 8 A ARG 1 -170.18 138.30 8 A ARG 5 66.60 72.64 8 A GLN 6 70.05 179.31 8 A SER 39 73.59 60.84 8 A ASN 51 -51.28 -73.05 8 A ARG 53 -159.89 -50.55 8 A LYS 58 -91.00 35.24 8 A ASN 60 51.80 16.78 8 A LYS 61 -168.58 67.40 8 A GLU 65 66.93 87.02 8 A PRO 66 -74.89 -72.16 9 A LYS 2 48.06 -147.59 9 A GLN 6 69.35 133.93 9 A SER 39 121.61 65.07 9 A ASN 60 -145.09 43.62 10 A ARG 1 -126.83 -149.80 10 A LYS 2 71.18 -57.55 10 A ARG 5 -144.14 51.51 10 A PHE 22 -81.31 -75.26 10 A ASN 60 90.28 128.70 10 A THR 62 -71.64 -83.59 10 A LYS 63 64.82 125.12 11 A ARG 1 -121.43 -162.52 11 A ARG 3 -155.30 15.74 11 A GLN 6 66.20 169.02 11 A SER 39 91.05 66.72 12 A LYS 2 67.75 -176.28 12 A GLN 6 70.43 165.37 12 A LEU 38 -102.22 -66.79 12 A SER 39 134.40 65.50 12 A LYS 61 -165.48 68.62 12 A THR 62 -91.97 -133.47 13 A ARG 1 67.72 -68.50 13 A LYS 2 60.26 -75.58 13 A ARG 3 58.30 -177.38 13 A ARG 5 60.51 95.79 13 A SER 39 115.45 65.21 13 A LYS 61 66.81 -13.13 13 A THR 62 47.37 -113.69 13 A LYS 63 64.47 -175.44 14 A ARG 1 46.91 176.63 14 A LYS 2 56.76 -100.36 14 A ARG 5 176.39 140.71 14 A LEU 38 -99.90 -72.57 14 A SER 39 139.55 67.23 14 A LYS 57 -67.12 1.17 14 A LYS 58 -140.38 36.01 14 A GLU 59 169.41 27.77 14 A THR 62 79.05 127.39 14 A LYS 63 -166.39 106.04 15 A ARG 1 -177.85 -42.88 15 A ARG 3 173.33 -32.10 15 A GLN 6 59.99 -161.34 15 A THR 7 -144.81 43.51 15 A SER 39 75.07 66.81 15 A GLU 59 81.73 16.34 15 A ASN 60 37.37 58.35 15 A LYS 63 98.26 90.34 15 A GLU 65 67.06 171.06 16 A ARG 1 -172.45 -75.36 16 A LYS 2 66.52 -34.40 16 A ARG 3 -162.24 116.33 16 A GLN 6 -94.88 48.35 16 A SER 39 120.99 58.41 16 A ASN 60 -153.45 89.67 16 A THR 62 -107.35 -119.50 16 A GLU 65 51.72 73.55 17 A ARG 1 72.40 -68.52 17 A LYS 2 -158.72 72.29 17 A SER 39 79.56 59.67 17 A GLU 59 -116.92 59.84 17 A GLU 65 59.54 164.50 18 A ARG 1 177.97 133.84 18 A ARG 3 -178.58 137.32 18 A ARG 5 72.37 107.84 18 A SER 39 70.30 62.12 18 A GLU 59 -172.37 69.70 18 A ASN 60 91.28 121.12 18 A LYS 61 -139.82 -52.66 18 A THR 62 69.92 -8.75 18 A LYS 63 68.79 -113.86 18 A GLU 65 47.10 74.61 19 A LYS 2 82.88 106.42 19 A ARG 3 73.48 152.11 19 A ARG 5 175.27 126.71 19 A SER 39 115.79 64.61 19 A LYS 61 -65.28 73.24 19 A THR 62 35.01 -99.30 19 A GLU 65 64.77 88.54 20 A ARG 1 67.37 -63.68 20 A LYS 2 55.55 -79.74 20 A ARG 3 54.96 110.70 20 A GLN 6 63.35 -174.74 20 A TYR 8 -112.23 -166.65 20 A SER 39 83.57 61.47 20 A LYS 61 67.85 -23.27 20 A THR 62 57.92 74.04 STRUCTURE DETERMINATION OF THE ANTP(C39->S) HOMEODOMAIN FROM NUCLEAR MAGNETIC RESONANCE DATA IN SOLUTION USING A NOVEL STRATEGY FOR THE STRUCTURE CALCULATION WITH THE PROGRAMS DIANA, CALIBA, HABAS AND GLOMSA 1 Y N A ARG 10 A ARG 11 HELX_P ALPHA HELIX A HIS 21 A HIS 22 1 H1 12 A ARG 28 A ARG 29 HELX_P ALPHA HELIX A LEU 38 A LEU 39 1 H2 11 A GLU 42 A GLU 43 HELX_P ALPHA HELIX A ARG 52 A ARG 53 1 H3 11 A ARG 53 A ARG 54 HELX_P DISORDERED HELIX A GLU 59 A GLU 60 1 H4 7 DNA BINDING PROTEIN DNA-BINDING PROTEIN, DNA BINDING PROTEIN ANTP_DROME UNP 1 1 P02833 MTMSTNNCESMTSYFTNSYMGADMHHGHYPGNGVTDLDAQQMHHYSQNANHQGNMPYPRFPPYDRMPYYNGQGMDQQQQH QVYSRPDSPSSQVGGVMPQAQTNGQLGVPQQQQQQQQQPSQNQQQQQAQQAPQQLQQQLPQVTQQVTHPQQQQQQPVVYA SCKLQAAVGGLGMVPEGGSPPLVDQMSGHHMNAQMTLPHHMGHPQAQLGYTDVGVPDVTEVHQNHHNMGMYQQQSGVPPV GAPPQGMMHQGQGPPQMHQGHPGQHTPPSQNPNSQSSGMPSPLYPWMRSQFGKCQERKRGRQTYTRYQTLELEKEFHFNR YLTRRRRIEIAHALCLTERQIKIWFQNRRMKWKKENKTKGEPGSGGEGDEITPPNSPQ 297 363 2HOA 1 67 P02833 A 1 2 68 1 CYS conflict SER 39 2HOA A P02833 UNP 335 40 1 P 1