1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Qian, Y.Q. Furukubo-Tokunaga, K. Resendez-Perez, D. 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 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 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 238 333 345 10.1006/jmbi.1994.1296 7909851 Nuclear magnetic resonance solution structure of the fushi tarazu homeodomain from Drosophila and comparison with the Antennapedia homeodomain. 1994 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 J.Mol.Biol. JMOBAK 0070 0022-2836 217 531 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 10.2210/pdb1ftz/pdb pdb_00001ftz 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 8796.036 FUSHI TARAZU PROTEIN 1 man polymer no no MDSKRTRQTYTRYQTLELEKEFHFNRYITRRRRIDIANALSLSERQIKIWFQNRRMKSKKDRTLDSSPEH MDSKRTRQTYTRYQTLELEKEFHFNRYITRRRRIDIANALSLSERQIKIWFQNRRMKSKKDRTLDSSPEH 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 fruit fly Drosophila sample 7227 FRUIT Drosophila melanogaster 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 1994-05-31 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 1994-01-07 REL 20 GUNTERT,BRAUN,WUTHRICH refinement DIANA MET -1 n 1 MET -1 A ASP 0 n 2 ASP 0 A SER 1 n 3 SER 1 A LYS 2 n 4 LYS 2 A ARG 3 n 5 ARG 3 A THR 4 n 6 THR 4 A ARG 5 n 7 ARG 5 A GLN 6 n 8 GLN 6 A THR 7 n 9 THR 7 A TYR 8 n 10 TYR 8 A THR 9 n 11 THR 9 A ARG 10 n 12 ARG 10 A TYR 11 n 13 TYR 11 A GLN 12 n 14 GLN 12 A THR 13 n 15 THR 13 A LEU 14 n 16 LEU 14 A GLU 15 n 17 GLU 15 A LEU 16 n 18 LEU 16 A GLU 17 n 19 GLU 17 A LYS 18 n 20 LYS 18 A GLU 19 n 21 GLU 19 A PHE 20 n 22 PHE 20 A HIS 21 n 23 HIS 21 A PHE 22 n 24 PHE 22 A ASN 23 n 25 ASN 23 A ARG 24 n 26 ARG 24 A TYR 25 n 27 TYR 25 A ILE 26 n 28 ILE 26 A THR 27 n 29 THR 27 A ARG 28 n 30 ARG 28 A ARG 29 n 31 ARG 29 A ARG 30 n 32 ARG 30 A ARG 31 n 33 ARG 31 A ILE 32 n 34 ILE 32 A ASP 33 n 35 ASP 33 A ILE 34 n 36 ILE 34 A ALA 35 n 37 ALA 35 A ASN 36 n 38 ASN 36 A ALA 37 n 39 ALA 37 A LEU 38 n 40 LEU 38 A SER 39 n 41 SER 39 A LEU 40 n 42 LEU 40 A SER 41 n 43 SER 41 A GLU 42 n 44 GLU 42 A ARG 43 n 45 ARG 43 A GLN 44 n 46 GLN 44 A ILE 45 n 47 ILE 45 A LYS 46 n 48 LYS 46 A ILE 47 n 49 ILE 47 A TRP 48 n 50 TRP 48 A PHE 49 n 51 PHE 49 A GLN 50 n 52 GLN 50 A ASN 51 n 53 ASN 51 A ARG 52 n 54 ARG 52 A ARG 53 n 55 ARG 53 A MET 54 n 56 MET 54 A LYS 55 n 57 LYS 55 A SER 56 n 58 SER 56 A LYS 57 n 59 LYS 57 A LYS 58 n 60 LYS 58 A ASP 59 n 61 ASP 59 A ARG 60 n 62 ARG 60 A THR 61 n 63 THR 61 A LEU 62 n 64 LEU 62 A ASP 63 n 65 ASP 63 A SER 64 n 66 SER 64 A SER 65 n 67 SER 65 A PRO 66 n 68 PRO 66 A GLU 67 n 69 GLU 67 A HIS 68 n 70 HIS 68 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 1 A TYR 8 0.108 SIDE CHAIN 1 A TYR 11 0.074 SIDE CHAIN 1 A PHE 20 0.110 SIDE CHAIN 1 A TYR 25 0.083 SIDE CHAIN 2 A TYR 8 0.270 SIDE CHAIN 2 A TYR 25 0.119 SIDE CHAIN 2 A ARG 52 0.133 SIDE CHAIN 3 A TYR 11 0.074 SIDE CHAIN 4 A TYR 8 0.110 SIDE CHAIN 4 A TYR 11 0.095 SIDE CHAIN 4 A TYR 25 0.155 SIDE CHAIN 4 A ARG 29 0.085 SIDE CHAIN 4 A ARG 30 0.082 SIDE CHAIN 4 A ARG 53 0.082 SIDE CHAIN 5 A TYR 8 0.072 SIDE CHAIN 5 A TYR 11 0.095 SIDE CHAIN 5 A TYR 25 0.076 SIDE CHAIN 5 A ARG 60 0.111 SIDE CHAIN 6 A TYR 8 0.241 SIDE CHAIN 6 A TYR 11 0.118 SIDE CHAIN 6 A TYR 25 0.069 SIDE CHAIN 6 A ARG 30 0.250 SIDE CHAIN 6 A PHE 49 0.090 SIDE CHAIN 6 A ARG 52 0.087 SIDE CHAIN 6 A ARG 53 0.077 SIDE CHAIN 7 A TYR 8 0.141 SIDE CHAIN 7 A TYR 11 0.128 SIDE CHAIN 7 A TYR 25 0.163 SIDE CHAIN 7 A ARG 53 0.136 SIDE CHAIN 8 A TYR 11 0.076 SIDE CHAIN 8 A ARG 24 0.093 SIDE CHAIN 9 A PHE 20 0.083 SIDE CHAIN 9 A ARG 30 0.122 SIDE CHAIN 9 A ARG 31 0.075 SIDE CHAIN 9 A ARG 52 0.105 SIDE CHAIN 9 A ARG 53 0.114 SIDE CHAIN 10 A TYR 8 0.077 SIDE CHAIN 10 A TYR 11 0.090 SIDE CHAIN 10 A PHE 49 0.117 SIDE CHAIN 11 A ARG 29 0.102 SIDE CHAIN 11 A ARG 60 0.136 SIDE CHAIN 12 A ARG 5 0.109 SIDE CHAIN 12 A TYR 8 0.124 SIDE CHAIN 12 A TYR 25 0.080 SIDE CHAIN 12 A ARG 29 0.092 SIDE CHAIN 13 A TYR 8 0.256 SIDE CHAIN 13 A TYR 11 0.097 SIDE CHAIN 13 A ARG 31 0.171 SIDE CHAIN 14 A TYR 25 0.139 SIDE CHAIN 14 A ARG 31 0.079 SIDE CHAIN 14 A ARG 53 0.136 SIDE CHAIN 14 A ARG 60 0.092 SIDE CHAIN 15 A TYR 8 0.227 SIDE CHAIN 15 A TYR 11 0.108 SIDE CHAIN 15 A ARG 31 0.150 SIDE CHAIN 16 A TYR 11 0.117 SIDE CHAIN 16 A ARG 29 0.096 SIDE CHAIN 16 A ARG 30 0.076 SIDE CHAIN 16 A ARG 52 0.084 SIDE CHAIN 16 A ARG 60 0.085 SIDE CHAIN 17 A TYR 8 0.168 SIDE CHAIN 17 A TYR 11 0.103 SIDE CHAIN 17 A TYR 25 0.107 SIDE CHAIN 17 A ARG 60 0.080 SIDE CHAIN 18 A TYR 8 0.163 SIDE CHAIN 18 A TYR 11 0.092 SIDE CHAIN 18 A TYR 25 0.067 SIDE CHAIN 19 A TYR 8 0.100 SIDE CHAIN 19 A TYR 11 0.065 SIDE CHAIN 19 A TYR 25 0.088 SIDE CHAIN 19 A ARG 30 0.087 SIDE CHAIN 20 A TYR 8 0.098 SIDE CHAIN 20 A TYR 25 0.069 SIDE CHAIN 20 A ARG 31 0.084 SIDE CHAIN 2 -3.36 0.50 120.30 116.94 A A A NE CZ NH2 ARG ARG ARG 30 30 30 N 6 -3.16 0.50 120.30 117.14 A A A NE CZ NH2 ARG ARG ARG 52 52 52 N 7 -3.34 0.50 120.30 116.96 A A A NE CZ NH2 ARG ARG ARG 52 52 52 N 9 -3.11 0.50 120.30 117.19 A A A NE CZ NH2 ARG ARG ARG 3 3 3 N 17 -3.58 0.50 120.30 116.72 A A A NE CZ NH2 ARG ARG ARG 30 30 30 N 17 -3.12 0.50 120.30 117.18 A A A NE CZ NH2 ARG ARG ARG 31 31 31 N 1 A LYS 2 166.08 -20.38 1 A ARG 3 34.29 89.60 1 A THR 4 50.40 93.38 1 A THR 7 71.62 150.67 1 A SER 39 74.58 72.95 1 A ARG 53 -29.92 -49.85 1 A LYS 55 -82.85 46.22 1 A SER 56 33.95 46.75 1 A LYS 57 -175.22 -51.19 1 A LYS 58 -85.53 45.62 1 A ASP 59 -145.33 -75.30 1 A LEU 62 -50.88 108.30 1 A SER 64 58.08 17.80 2 A SER 1 -58.49 71.88 2 A LYS 2 -64.28 73.34 2 A ARG 3 88.04 166.55 2 A THR 4 52.63 93.54 2 A TYR 8 85.64 146.00 2 A SER 39 80.81 57.67 2 A ARG 53 31.42 42.70 2 A MET 54 35.48 57.40 2 A LYS 55 -72.88 26.57 2 A SER 56 33.88 50.52 2 A LYS 57 -168.05 -35.64 2 A LYS 58 -113.00 60.77 2 A ASP 59 -175.74 -52.23 2 A ASP 63 -87.18 -134.26 2 A SER 65 -158.11 -69.71 2 A GLU 67 46.19 93.86 3 A ASP 0 -167.75 34.72 3 A SER 1 -49.74 109.20 3 A LYS 2 -68.21 77.19 3 A SER 39 90.79 48.03 3 A LYS 55 -91.76 -106.36 3 A LYS 57 -152.53 -36.07 3 A LYS 58 -97.68 56.81 3 A ASP 59 -155.94 -71.52 3 A THR 61 51.95 -176.99 3 A ASP 63 -85.48 -133.79 3 A SER 64 -140.80 45.36 3 A SER 65 79.85 148.25 4 A THR 4 81.48 104.83 4 A SER 39 77.65 61.13 4 A LEU 40 -142.78 -148.18 4 A MET 54 -144.06 31.09 4 A LYS 55 -84.19 46.41 4 A LYS 57 -151.71 -38.62 4 A LYS 58 -103.54 50.12 4 A ASP 59 -170.11 -89.60 4 A ASP 63 -175.85 75.51 4 A SER 64 48.73 27.63 4 A SER 65 156.58 159.06 4 A PRO 66 -80.63 -151.36 5 A SER 1 61.71 -160.23 5 A THR 4 52.05 94.17 5 A TYR 8 82.06 175.45 5 A SER 39 79.97 44.81 5 A MET 54 -141.06 31.19 5 A LYS 55 -80.25 45.93 5 A SER 56 34.12 46.60 5 A LYS 57 -175.65 -51.98 5 A LYS 58 -81.43 49.29 5 A ASP 59 -163.94 -96.02 5 A ARG 60 60.30 99.31 5 A THR 61 -66.58 78.52 5 A SER 64 48.56 -133.79 5 A SER 65 -157.43 -48.73 6 A ARG 3 33.29 73.00 6 A THR 4 44.92 93.31 6 A ARG 5 -103.95 72.06 6 A GLN 6 -65.00 -179.51 6 A ASN 23 -167.54 110.99 6 A SER 39 59.76 73.81 6 A LEU 40 -139.79 -149.54 6 A LYS 55 -117.02 -106.52 6 A LYS 57 -156.01 -19.48 6 A LYS 58 -88.86 45.40 6 A ASP 59 -107.96 -63.64 6 A SER 64 -161.02 -163.89 6 A SER 65 128.63 -72.73 7 A ASP 0 37.32 42.65 7 A LYS 2 -168.40 47.59 7 A THR 7 64.08 135.58 7 A ASN 23 -170.45 148.39 7 A LEU 40 -117.69 -163.96 7 A LYS 57 -154.90 -42.18 7 A LYS 58 -81.01 49.06 7 A ASP 59 174.69 -122.65 7 A SER 64 -153.97 64.82 7 A SER 65 -145.29 -86.53 8 A LYS 2 -140.97 -57.67 8 A ARG 3 164.33 145.35 8 A THR 4 44.15 93.15 8 A TYR 8 87.65 164.85 8 A GLU 19 -156.45 -38.81 8 A ASN 23 -175.63 108.08 8 A LYS 55 -79.00 46.38 8 A SER 56 63.54 83.53 8 A ASP 59 -173.34 -78.28 8 A ARG 60 -162.37 108.86 8 A SER 64 58.95 -148.33 8 A SER 65 -174.98 81.00 8 A GLU 67 -139.01 -134.09 9 A ARG 3 51.57 -172.06 9 A THR 4 44.11 93.29 9 A LEU 40 -134.27 -147.89 9 A MET 54 -118.47 58.37 9 A LYS 55 -150.54 -99.76 9 A LYS 57 -161.62 -38.29 9 A LYS 58 -81.61 44.21 9 A ARG 60 -175.73 105.76 9 A SER 65 -145.33 -71.32 10 A ARG 3 34.75 -103.20 10 A THR 7 72.61 152.64 10 A ASN 23 -178.21 119.43 10 A SER 39 75.34 51.99 10 A ARG 53 -23.81 -57.30 10 A LYS 55 -118.37 -105.53 10 A LYS 57 -150.91 -47.57 10 A ASP 59 -153.66 -72.64 10 A SER 64 -164.59 63.94 10 A PRO 66 -68.55 95.46 11 A LYS 2 34.16 46.26 11 A ARG 5 56.14 81.45 11 A TYR 25 -171.71 88.48 11 A SER 39 95.61 72.35 11 A MET 54 -155.06 54.33 11 A LYS 55 -83.68 -73.16 11 A SER 56 -152.07 40.22 11 A LYS 57 -168.54 -24.08 11 A ASP 59 -157.64 -55.30 11 A SER 64 -177.48 135.89 11 A GLU 67 -98.15 -136.19 12 A SER 1 47.44 78.80 12 A LYS 2 75.98 -47.00 12 A ARG 3 -155.12 -83.38 12 A GLN 6 -175.84 -173.51 12 A TYR 8 72.54 141.00 12 A LEU 40 -121.29 -140.30 12 A MET 54 -81.80 43.89 12 A SER 56 33.48 50.64 12 A LYS 57 -164.57 -36.18 12 A LYS 58 -87.75 34.50 12 A ASP 59 -179.95 -115.37 12 A ARG 60 -94.13 54.06 12 A THR 61 33.29 61.67 12 A LEU 62 -136.76 -133.98 12 A ASP 63 -105.32 -147.19 12 A SER 64 -162.83 53.47 12 A SER 65 90.50 143.38 13 A ASP 0 -68.69 71.22 13 A SER 1 53.88 -119.76 13 A GLN 6 -63.26 -177.98 13 A TYR 8 72.44 140.84 13 A TYR 25 177.14 104.23 13 A SER 39 79.55 41.12 13 A MET 54 -141.79 31.41 13 A LYS 57 -146.69 -46.36 13 A LYS 58 -83.27 39.22 13 A ASP 59 -161.42 -82.36 13 A ASP 63 33.12 64.09 13 A SER 65 67.36 68.32 14 A THR 4 47.35 93.65 14 A ARG 5 -84.53 -145.13 14 A ASN 23 173.70 174.55 14 A TYR 25 -175.68 109.04 14 A SER 39 74.40 39.43 14 A LEU 40 -120.28 -160.93 14 A MET 54 -163.55 94.37 14 A LYS 55 -130.17 -106.88 14 A ASP 59 -142.06 -71.82 14 A ARG 60 5.30 60.37 14 A LEU 62 -158.26 30.45 14 A SER 65 -157.57 -71.84 14 A PRO 66 -73.85 -165.49 15 A SER 1 41.26 -126.63 15 A THR 4 44.65 93.21 15 A ARG 5 -110.94 65.46 15 A THR 7 65.03 174.69 15 A SER 39 84.67 56.13 15 A SER 56 -83.44 42.04 15 A LYS 57 44.11 12.33 15 A ASP 59 -175.01 -67.14 15 A SER 64 49.74 -149.42 15 A GLU 67 -109.52 51.44 16 A THR 4 56.44 93.95 16 A ASN 23 -173.56 -176.37 16 A TYR 25 -175.79 88.47 16 A SER 39 92.85 42.99 16 A MET 54 -155.34 57.19 16 A LYS 57 -163.35 -45.54 16 A ASP 59 -165.79 -51.68 16 A THR 61 51.09 -167.53 16 A LEU 62 -165.30 27.43 17 A ARG 3 -73.96 47.17 17 A THR 4 43.88 93.51 17 A THR 7 59.52 124.34 17 A LEU 40 -124.63 -152.47 17 A LYS 57 -150.04 -57.21 17 A LYS 58 -100.17 55.20 17 A ASP 59 -163.72 -79.32 17 A THR 61 50.75 95.48 18 A SER 1 -82.13 -150.33 18 A LYS 2 60.80 -64.33 18 A THR 4 44.64 93.17 18 A TYR 8 77.00 162.09 18 A SER 39 84.99 54.25 18 A LYS 57 -155.42 -55.95 18 A LYS 58 -90.32 44.56 18 A ASP 59 -168.09 -84.99 18 A THR 61 52.59 -164.10 18 A SER 64 49.72 -134.09 18 A GLU 67 -148.94 -133.76 19 A ASP 0 -69.34 76.96 19 A THR 4 44.50 93.48 19 A ARG 5 -116.85 61.94 19 A GLN 6 55.81 172.58 19 A ASN 23 173.04 166.85 19 A TYR 25 -170.73 104.50 19 A LEU 40 -132.02 -152.68 19 A ARG 53 24.59 42.14 19 A LYS 55 -54.95 11.54 19 A SER 56 54.20 13.63 19 A LYS 57 -163.37 39.48 19 A LYS 58 -168.89 45.96 19 A ASP 59 -121.69 -50.90 19 A SER 65 61.22 65.72 20 A ASP 0 -33.34 169.74 20 A SER 1 72.60 95.26 20 A THR 4 43.60 93.40 20 A ARG 5 -146.92 -26.96 20 A ASN 36 -71.02 -70.72 20 A MET 54 -108.01 52.99 20 A LYS 55 -65.61 17.48 20 A LYS 57 -163.13 -47.05 20 A LYS 58 -94.17 33.50 20 A ASP 59 -95.50 -70.14 20 A ARG 60 10.81 53.58 20 A THR 61 174.84 177.85 NUCLEAR MAGNETIC RESONANCE SOLUTION STRUCTURE OF THE FUSHI TARAZU HOMEODOMAIN FROM DROSOPHILA AND COMPARISON WITH THE ANTENNAPEDIA HOMEODOMAIN 1 Y N A ARG 10 A ARG 12 HELX_P ALPHA HELIX A HIS 21 A HIS 23 1 H1 12 A ARG 28 A ARG 30 HELX_P ALPHA HELIX A LEU 38 A LEU 40 1 H2 11 A GLU 42 A GLU 44 HELX_P ALPHA HELIX A ARG 52 A ARG 54 1 H3 11 DNA-BINDING DNA-BINDING FTZ_DROME UNP 1 1 P02835 MATTNSQSHYSYADNMNMYNMYHPHSLPPTYYDNSGSNAYYQNTSNYHSYQGYYPQESYSESCYYYNNQEQVTTQTVPPV QPTTPPPKATKRKAEDDAASIIAAVEERPSTLRALLTNPVKKLKYTPDYFYTTVEQVKKAPAVTTKVTASPAPSYDQEYV TVPTPSASEDVDYLDVYSPQSQTQKLKNGDFATPPPTTPTSLPPLEGISTPPQSPGEKSSSAVSQEINHRIVTAPNGAGD FNWSHIEETLASDCKDSKRTRQTYTRYQTLELEKEFHFNRYITRRRRIDIANALSLSERQIKIWFQNRRMKSKKDRTLDS SPEHCGAGYTAMLPPLEATSTATTGAPSVPVPMYHHHQTTAAYPAYSHSHSHGYGLLNDYPQQQTHQQYDAYPQQYQQQC SYQQHPQDLYHLS 256 324 1FTZ 0 68 P02835 A 1 2 70 1 P 1