1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Li, N. Zhang, W. White, S.W. Kriwacki, R.W. 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 40 4293 4302 10.1021/bi0028284 11284685 Solution structure of the transcriptional activation domain of the bacteriophage T4 protein, MotA. 2001 10.2210/pdb1i1s/pdb pdb_00001i1s 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 10245.771 MOTA N-TERMINAL DOMAIN, RESIDUES 1-96 1 man polymer no no MSKVTYIIKASNDVLNEKTATILITIAKKDFITAAEVREVHPDLGNAVVNSNIGVLIKKGLVEKSGDGLIITGEAQDIIS NAATLYAQENAPELLK MSKVTYIIKASNDVLNEKTATILITIAKKDFITAAEVREVHPDLGNAVVNSNIGVLIKKGLVEKSGDGLIITGEAQDIIS NAATLYAQENAPELLK 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 T4-like viruses Enterobacteria phage T4 sensu lato Escherichia Escherichia coli sample MOTA 10665 Enterobacteria phage T4 469008 Escherichia coli BL21(DE3) BL21(DE3) PLASMID PET3C 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 2001-02-14 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name Crystal Structure of the Transcriptional Activation Domain Of The Phage T4 Transcription Factor MotA RCSB Y RCSB 2001-02-02 REL structures with the lowest energy 200 20 3D_15N-separated_NOESY 3D_13C-separated_NOESY HNHA 200 mM potassium phosphate 6.5 ambient 301 K 200 mM potassium phosphate 6.5 ambient 301 K the structures are based on 3186 NOE-derived distance constraints, 64 dihedral angle restraints, 152 distance restraints from hydrogen bonds. simulated annealing, molecular dynamics, torsion angle dynamics 1 lowest energy 2mM MotNF U-15N 200 mM potassium phosphate buffer, pH 6.5; 90% H2O, 10% D2O 2mM MotNF U-13C,15N 200 mM potassium phosphate buffer, pH 6.5; 90% H2O, 10% D2O MSI processing Felix 98 MSI data analysis Felix 98 Brunger structure solution X-PLOR 98 Brunger refinement X-PLOR 98 600 Varian INOVA MET 1 n 1 MET 1 A SER 2 n 2 SER 2 A LYS 3 n 3 LYS 3 A VAL 4 n 4 VAL 4 A THR 5 n 5 THR 5 A TYR 6 n 6 TYR 6 A ILE 7 n 7 ILE 7 A ILE 8 n 8 ILE 8 A LYS 9 n 9 LYS 9 A ALA 10 n 10 ALA 10 A SER 11 n 11 SER 11 A ASN 12 n 12 ASN 12 A ASP 13 n 13 ASP 13 A VAL 14 n 14 VAL 14 A LEU 15 n 15 LEU 15 A ASN 16 n 16 ASN 16 A GLU 17 n 17 GLU 17 A LYS 18 n 18 LYS 18 A THR 19 n 19 THR 19 A ALA 20 n 20 ALA 20 A THR 21 n 21 THR 21 A ILE 22 n 22 ILE 22 A LEU 23 n 23 LEU 23 A ILE 24 n 24 ILE 24 A THR 25 n 25 THR 25 A ILE 26 n 26 ILE 26 A ALA 27 n 27 ALA 27 A LYS 28 n 28 LYS 28 A LYS 29 n 29 LYS 29 A ASP 30 n 30 ASP 30 A PHE 31 n 31 PHE 31 A ILE 32 n 32 ILE 32 A THR 33 n 33 THR 33 A ALA 34 n 34 ALA 34 A ALA 35 n 35 ALA 35 A GLU 36 n 36 GLU 36 A VAL 37 n 37 VAL 37 A ARG 38 n 38 ARG 38 A GLU 39 n 39 GLU 39 A VAL 40 n 40 VAL 40 A HIS 41 n 41 HIS 41 A PRO 42 n 42 PRO 42 A ASP 43 n 43 ASP 43 A LEU 44 n 44 LEU 44 A GLY 45 n 45 GLY 45 A ASN 46 n 46 ASN 46 A ALA 47 n 47 ALA 47 A VAL 48 n 48 VAL 48 A VAL 49 n 49 VAL 49 A ASN 50 n 50 ASN 50 A SER 51 n 51 SER 51 A ASN 52 n 52 ASN 52 A ILE 53 n 53 ILE 53 A GLY 54 n 54 GLY 54 A VAL 55 n 55 VAL 55 A LEU 56 n 56 LEU 56 A ILE 57 n 57 ILE 57 A LYS 58 n 58 LYS 58 A LYS 59 n 59 LYS 59 A GLY 60 n 60 GLY 60 A LEU 61 n 61 LEU 61 A VAL 62 n 62 VAL 62 A GLU 63 n 63 GLU 63 A LYS 64 n 64 LYS 64 A SER 65 n 65 SER 65 A GLY 66 n 66 GLY 66 A ASP 67 n 67 ASP 67 A GLY 68 n 68 GLY 68 A LEU 69 n 69 LEU 69 A ILE 70 n 70 ILE 70 A ILE 71 n 71 ILE 71 A THR 72 n 72 THR 72 A GLY 73 n 73 GLY 73 A GLU 74 n 74 GLU 74 A ALA 75 n 75 ALA 75 A GLN 76 n 76 GLN 76 A ASP 77 n 77 ASP 77 A ILE 78 n 78 ILE 78 A ILE 79 n 79 ILE 79 A SER 80 n 80 SER 80 A ASN 81 n 81 ASN 81 A ALA 82 n 82 ALA 82 A ALA 83 n 83 ALA 83 A THR 84 n 84 THR 84 A LEU 85 n 85 LEU 85 A TYR 86 n 86 TYR 86 A ALA 87 n 87 ALA 87 A GLN 88 n 88 GLN 88 A GLU 89 n 89 GLU 89 A ASN 90 n 90 ASN 90 A ALA 91 n 91 ALA 91 A PRO 92 n 92 PRO 92 A GLU 93 n 93 GLU 93 A LEU 94 n 94 LEU 94 A LEU 95 n 95 LEU 95 A LYS 96 n 96 LYS 96 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 SER 65 A N SER 65 A O GLY 68 A O GLY 68 1 A A H HG1 ASN THR 16 19 1.34 3 A A HG1 H THR GLU 72 74 1.05 3 A A H HG1 ASN THR 16 19 1.35 4 A A H HG1 ASN THR 16 19 1.35 5 A A HG1 H THR GLU 72 74 1.13 7 A A HG1 H THR GLU 72 74 1.20 9 A A H HG1 ASN THR 16 19 1.35 11 A A HG H SER LYS 2 3 1.25 11 A A H HG1 ASN THR 16 19 1.35 12 A A HE HD22 ARG ASN 38 46 1.31 12 A A H HG1 ASN THR 16 19 1.34 13 A A H HG1 ASN THR 16 19 1.35 14 A A HZ1 HZ3 LYS LYS 3 28 1.10 17 A A HG1 H THR GLU 72 74 1.14 18 A A HG1 H THR GLU 72 74 1.06 1 A A MET SER 1 2 116.56 1 A A SER LYS 2 3 -119.52 1 A A ASN GLU 16 17 150.00 1 A A PHE ILE 31 32 134.86 1 A A ILE THR 32 33 139.66 1 A A VAL HIS 40 41 -145.39 1 A A HIS PRO 41 42 144.07 1 A A LYS GLY 59 60 -122.11 1 A A GLY LEU 60 61 70.31 1 A A LEU VAL 61 62 105.18 1 A A SER GLY 65 66 -125.51 1 A A GLY ASP 66 67 72.84 1 A A ASP GLY 67 68 134.83 1 A A PRO GLU 92 93 -95.76 1 A A GLU LEU 93 94 -140.62 2 A A MET SER 1 2 -142.10 2 A A ASN GLU 16 17 147.32 2 A A PHE ILE 31 32 136.50 2 A A ILE THR 32 33 141.69 2 A A HIS PRO 41 42 126.63 2 A A PRO ASP 42 43 -144.79 2 A A LYS GLY 59 60 -121.87 2 A A GLY LEU 60 61 69.97 2 A A LEU VAL 61 62 107.12 2 A A SER GLY 65 66 -125.64 2 A A GLY ASP 66 67 72.59 2 A A ASP GLY 67 68 136.57 2 A A PRO GLU 92 93 -91.84 2 A A LEU LYS 95 96 -114.03 3 A A ASN GLU 16 17 149.27 3 A A PHE ILE 31 32 134.54 3 A A ILE THR 32 33 139.88 3 A A HIS PRO 41 42 129.74 3 A A LYS GLY 59 60 -121.71 3 A A GLY LEU 60 61 69.08 3 A A LEU VAL 61 62 107.71 3 A A SER GLY 65 66 -134.30 3 A A GLY ASP 66 67 66.12 3 A A ASP GLY 67 68 -148.66 3 A A PRO GLU 92 93 -84.85 3 A A GLU LEU 93 94 -149.45 3 A A LEU LYS 95 96 129.96 4 A A LYS VAL 3 4 -140.33 4 A A ASN GLU 16 17 145.95 4 A A PHE ILE 31 32 135.62 4 A A ILE THR 32 33 138.72 4 A A HIS PRO 41 42 129.39 4 A A LYS GLY 59 60 -122.37 4 A A GLY LEU 60 61 68.79 4 A A LEU VAL 61 62 104.61 4 A A SER GLY 65 66 -124.79 4 A A GLY ASP 66 67 73.51 4 A A ASP GLY 67 68 134.51 4 A A ASN ALA 90 91 145.74 4 A A PRO GLU 92 93 -91.39 4 A A LEU LYS 95 96 -135.41 5 A A ASN GLU 16 17 147.61 5 A A PHE ILE 31 32 134.60 5 A A ILE THR 32 33 140.91 5 A A VAL HIS 40 41 134.83 5 A A HIS PRO 41 42 127.72 5 A A ASP LEU 43 44 -142.62 5 A A LYS GLY 59 60 -122.20 5 A A GLY LEU 60 61 68.64 5 A A LEU VAL 61 62 105.78 5 A A SER GLY 65 66 -123.07 5 A A GLY ASP 66 67 73.04 5 A A ASP GLY 67 68 133.69 5 A A ASN ALA 90 91 145.23 5 A A PRO GLU 92 93 -87.03 5 A A LEU LYS 95 96 -98.52 6 A A MET SER 1 2 102.32 6 A A SER LYS 2 3 -42.22 6 A A ASN ASP 12 13 -118.99 6 A A ASP VAL 13 14 141.73 6 A A PHE ILE 31 32 134.20 6 A A ILE THR 32 33 139.24 6 A A HIS PRO 41 42 141.87 6 A A LYS GLY 59 60 -122.59 6 A A GLY LEU 60 61 69.62 6 A A LEU VAL 61 62 104.99 6 A A SER GLY 65 66 -125.44 6 A A GLY ASP 66 67 72.39 6 A A ASP GLY 67 68 132.61 6 A A ASN ALA 90 91 143.84 6 A A ALA PRO 91 92 -146.03 6 A A PRO GLU 92 93 144.26 6 A A GLU LEU 93 94 -142.40 6 A A LEU LYS 95 96 -115.03 7 A A ASN GLU 16 17 144.77 7 A A PHE ILE 31 32 132.87 7 A A ILE THR 32 33 137.74 7 A A HIS PRO 41 42 131.36 7 A A LYS GLY 59 60 -122.24 7 A A GLY LEU 60 61 66.07 7 A A LEU VAL 61 62 104.46 7 A A SER GLY 65 66 -125.05 7 A A GLY ASP 66 67 73.11 7 A A ASP GLY 67 68 134.29 7 A A GLU LEU 93 94 -134.01 8 A A SER LYS 2 3 137.39 8 A A LEU ASN 15 16 142.57 8 A A PHE ILE 31 32 135.56 8 A A ILE THR 32 33 138.60 8 A A HIS PRO 41 42 130.58 8 A A LYS GLY 59 60 -122.71 8 A A GLY LEU 60 61 68.47 8 A A LEU VAL 61 62 104.68 8 A A SER GLY 65 66 -123.22 8 A A GLY ASP 66 67 72.98 8 A A ASP GLY 67 68 135.05 8 A A PRO GLU 92 93 -100.62 8 A A LEU LYS 95 96 147.88 9 A A MET SER 1 2 -142.48 9 A A ASN GLU 16 17 147.05 9 A A PHE ILE 31 32 134.47 9 A A ILE THR 32 33 141.09 9 A A HIS PRO 41 42 131.30 9 A A LYS GLY 59 60 -121.64 9 A A GLY LEU 60 61 69.73 9 A A LEU VAL 61 62 107.97 9 A A SER GLY 65 66 -136.51 9 A A GLY ASP 66 67 66.98 9 A A ASP GLY 67 68 -147.63 9 A A PRO GLU 92 93 -114.36 9 A A LEU LEU 94 95 -139.78 10 A A ASN ASP 12 13 -120.81 10 A A ASP VAL 13 14 142.59 10 A A LEU ASN 15 16 149.56 10 A A PHE ILE 31 32 135.70 10 A A ILE THR 32 33 137.13 10 A A VAL HIS 40 41 -144.92 10 A A HIS PRO 41 42 140.68 10 A A LYS GLY 59 60 -122.03 10 A A GLY LEU 60 61 70.70 10 A A LEU VAL 61 62 105.90 10 A A SER GLY 65 66 -127.65 10 A A GLY ASP 66 67 72.86 10 A A ASP GLY 67 68 134.74 10 A A PRO GLU 92 93 -96.09 10 A A GLU LEU 93 94 103.52 10 A A LEU LYS 95 96 -103.05 11 A A ASN GLU 16 17 146.42 11 A A PHE ILE 31 32 135.62 11 A A ILE THR 32 33 139.58 11 A A HIS PRO 41 42 132.27 11 A A LYS GLY 59 60 -121.52 11 A A GLY LEU 60 61 69.58 11 A A LEU VAL 61 62 107.34 11 A A SER GLY 65 66 -126.45 11 A A GLY ASP 66 67 73.00 11 A A ASP GLY 67 68 133.97 11 A A LEU LYS 95 96 -110.34 12 A A SER LYS 2 3 143.53 12 A A ASN GLU 16 17 146.57 12 A A PHE ILE 31 32 138.27 12 A A ILE THR 32 33 139.37 12 A A HIS PRO 41 42 132.00 12 A A LYS GLY 59 60 -121.53 12 A A GLY LEU 60 61 70.36 12 A A LEU VAL 61 62 106.08 12 A A SER GLY 65 66 -127.47 12 A A GLY ASP 66 67 73.05 12 A A ASP GLY 67 68 133.39 12 A A GLU LEU 93 94 -133.14 12 A A LEU LYS 95 96 -105.31 13 A A SER LYS 2 3 98.10 13 A A ASN GLU 16 17 145.52 13 A A PHE ILE 31 32 131.89 13 A A ILE THR 32 33 140.64 13 A A VAL HIS 40 41 -147.51 13 A A HIS PRO 41 42 144.44 13 A A LYS GLY 59 60 -122.02 13 A A GLY LEU 60 61 69.67 13 A A LEU VAL 61 62 107.46 13 A A SER GLY 65 66 -140.08 13 A A GLY ASP 66 67 67.85 13 A A ALA PRO 91 92 -138.84 13 A A PRO GLU 92 93 -56.13 14 A A MET SER 1 2 48.36 14 A A LEU ASN 15 16 141.53 14 A A PHE ILE 31 32 134.31 14 A A ILE THR 32 33 139.99 14 A A VAL HIS 40 41 -147.23 14 A A HIS PRO 41 42 146.91 14 A A ASP LEU 43 44 149.43 14 A A LYS GLY 59 60 -122.12 14 A A GLY LEU 60 61 68.81 14 A A LEU VAL 61 62 107.26 14 A A SER GLY 65 66 -128.02 14 A A GLY ASP 66 67 72.86 14 A A ASP GLY 67 68 134.46 14 A A GLN GLU 88 89 -146.71 14 A A GLU LEU 93 94 -134.60 15 A A MET SER 1 2 -140.79 15 A A ASN ASP 12 13 -148.37 15 A A ASP VAL 13 14 138.97 15 A A ASN GLU 16 17 149.85 15 A A PHE ILE 31 32 133.08 15 A A ILE THR 32 33 139.62 15 A A HIS PRO 41 42 129.76 15 A A LYS GLY 59 60 -121.96 15 A A GLY LEU 60 61 70.01 15 A A LEU VAL 61 62 106.33 15 A A SER GLY 65 66 -136.75 15 A A GLY ASP 66 67 67.35 15 A A ASP GLY 67 68 -148.56 15 A A PRO GLU 92 93 -95.58 15 A A LEU LEU 94 95 -132.58 16 A A MET SER 1 2 148.77 16 A A SER LYS 2 3 147.51 16 A A PHE ILE 31 32 134.40 16 A A ILE THR 32 33 140.43 16 A A HIS PRO 41 42 130.44 16 A A LYS GLY 59 60 -121.76 16 A A GLY LEU 60 61 68.57 16 A A LEU VAL 61 62 107.06 16 A A SER GLY 65 66 -135.97 16 A A GLY ASP 66 67 66.75 16 A A ASP GLY 67 68 -147.37 16 A A ALA PRO 91 92 -143.99 16 A A PRO GLU 92 93 -67.45 16 A A GLU LEU 93 94 146.59 16 A A LEU LEU 94 95 149.89 16 A A LEU LYS 95 96 109.24 17 A A MET SER 1 2 -142.18 17 A A ASN ASP 12 13 -117.75 17 A A ASP VAL 13 14 142.99 17 A A PHE ILE 31 32 134.84 17 A A ILE THR 32 33 147.18 17 A A VAL HIS 40 41 132.61 17 A A HIS PRO 41 42 133.89 17 A A ASP LEU 43 44 145.14 17 A A LYS GLY 59 60 -122.04 17 A A GLY LEU 60 61 69.06 17 A A LEU VAL 61 62 105.95 17 A A SER GLY 65 66 -137.17 17 A A GLY ASP 66 67 67.24 17 A A PRO GLU 92 93 -78.15 17 A A GLU LEU 93 94 123.20 17 A A LEU LYS 95 96 -135.09 18 A A ASN GLU 16 17 146.11 18 A A PHE ILE 31 32 131.07 18 A A ILE THR 32 33 141.20 18 A A VAL HIS 40 41 -147.36 18 A A HIS PRO 41 42 144.73 18 A A LYS GLY 59 60 -122.53 18 A A GLY LEU 60 61 68.25 18 A A LEU VAL 61 62 104.41 18 A A SER GLY 65 66 -136.86 18 A A GLY ASP 66 67 67.87 18 A A ASP GLY 67 68 -148.62 18 A A ASN ALA 90 91 144.16 18 A A GLU LEU 93 94 -135.11 18 A A LEU LYS 95 96 123.24 19 A A MET SER 1 2 -109.58 19 A A PHE ILE 31 32 132.89 19 A A ILE THR 32 33 140.14 19 A A HIS PRO 41 42 134.88 19 A A LYS GLY 59 60 -122.83 19 A A GLY LEU 60 61 69.13 19 A A LEU VAL 61 62 105.86 19 A A SER GLY 65 66 -139.51 19 A A GLY ASP 66 67 68.07 19 A A ASP GLY 67 68 -149.81 19 A A ASN ALA 90 91 145.55 19 A A PRO GLU 92 93 -107.23 19 A A GLU LEU 93 94 -148.61 19 A A LEU LYS 95 96 -101.66 20 A A ASN GLU 16 17 149.12 20 A A PHE ILE 31 32 136.81 20 A A ILE THR 32 33 139.54 20 A A HIS PRO 41 42 131.18 20 A A LYS GLY 59 60 -121.92 20 A A GLY LEU 60 61 69.22 20 A A LEU VAL 61 62 107.07 20 A A SER GLY 65 66 -127.76 20 A A GLY ASP 66 67 72.79 20 A A ASP GLY 67 68 134.98 20 A A ASN ALA 90 91 149.53 20 A A ALA PRO 91 92 -147.47 20 A A GLU LEU 93 94 144.98 1 A ARG 38 0.295 SIDE CHAIN 2 A ARG 38 0.295 SIDE CHAIN 3 A ARG 38 0.276 SIDE CHAIN 4 A ARG 38 0.303 SIDE CHAIN 5 A ARG 38 0.307 SIDE CHAIN 6 A ARG 38 0.244 SIDE CHAIN 7 A ARG 38 0.239 SIDE CHAIN 7 A TYR 86 0.069 SIDE CHAIN 8 A ARG 38 0.314 SIDE CHAIN 9 A ARG 38 0.274 SIDE CHAIN 9 A TYR 86 0.089 SIDE CHAIN 10 A ARG 38 0.289 SIDE CHAIN 11 A ARG 38 0.252 SIDE CHAIN 12 A ARG 38 0.279 SIDE CHAIN 13 A ARG 38 0.235 SIDE CHAIN 14 A ARG 38 0.322 SIDE CHAIN 15 A ARG 38 0.304 SIDE CHAIN 16 A ARG 38 0.237 SIDE CHAIN 17 A ARG 38 0.308 SIDE CHAIN 18 A ARG 38 0.314 SIDE CHAIN 19 A ARG 38 0.285 SIDE CHAIN 20 A ARG 38 0.250 SIDE CHAIN 1 A SER 2 71.19 158.93 1 A ASN 12 105.52 68.05 1 A VAL 14 -94.05 -61.78 1 A ILE 32 -50.46 -161.06 1 A LEU 44 -95.14 -66.04 1 A ASP 67 -150.14 62.18 1 A ALA 91 59.91 81.87 1 A LEU 94 -153.13 -55.89 1 A LEU 95 -127.89 -62.61 2 A SER 2 -167.72 -69.39 2 A ASN 12 107.82 64.49 2 A VAL 14 -97.43 -61.29 2 A ASN 16 -90.99 -156.07 2 A ILE 32 -50.90 -162.24 2 A ASP 67 -150.10 61.00 2 A ALA 91 56.58 82.94 2 A LEU 94 -134.19 -52.01 3 A ASN 12 109.33 63.72 3 A VAL 14 -97.44 -61.63 3 A ASN 16 -95.42 -159.18 3 A ILE 32 -51.85 -161.22 3 A LEU 44 -96.96 -68.50 3 A LEU 61 -161.11 97.95 3 A ALA 91 55.34 82.92 3 A LEU 94 -151.74 -57.90 3 A LEU 95 -163.00 -63.94 4 A SER 2 64.34 173.34 4 A ASN 12 109.45 63.68 4 A VAL 14 -97.31 -62.39 4 A ASN 16 -93.44 -159.35 4 A ILE 32 -52.26 -161.40 4 A LEU 44 -98.15 -69.05 4 A LEU 61 -160.15 97.63 4 A ASP 67 -150.04 62.28 4 A GLU 89 -100.44 -61.32 4 A ALA 91 66.01 84.26 4 A GLU 93 -63.04 77.82 4 A LEU 95 -135.45 -59.94 5 A ASN 12 108.50 64.81 5 A VAL 14 -96.88 -61.83 5 A ASN 16 -91.90 -156.71 5 A ILE 32 -51.62 -160.75 5 A ASP 67 -150.02 63.87 5 A ALA 91 64.56 83.60 5 A GLU 93 -64.50 77.18 6 A SER 2 62.85 -176.17 6 A ASN 12 177.53 -25.32 6 A VAL 14 -96.98 -64.67 6 A ILE 32 -51.19 -160.72 6 A LEU 61 -160.10 97.86 6 A LEU 94 -171.98 -52.52 7 A ASN 12 106.68 63.49 7 A VAL 14 -96.96 -61.60 7 A ASN 16 -96.84 -158.45 7 A ILE 32 -51.30 -160.41 7 A LEU 61 -162.61 97.70 7 A ASP 67 -150.13 62.04 7 A GLU 89 -91.46 -61.94 7 A ALA 91 62.51 99.65 7 A LEU 94 -165.98 -65.06 7 A LEU 95 -131.20 -65.13 8 A SER 2 -174.13 66.71 8 A ASN 12 107.58 63.62 8 A VAL 14 -92.79 -63.45 8 A GLU 17 -28.69 -65.79 8 A ILE 32 -51.52 -160.56 8 A LEU 44 -91.95 -67.60 8 A ASP 67 -150.15 62.42 8 A ALA 91 61.31 84.20 8 A GLU 93 -60.10 76.86 8 A LEU 95 -144.47 59.65 9 A ASN 12 104.06 65.53 9 A VAL 14 -97.49 -60.71 9 A ASN 16 -93.77 -156.50 9 A ILE 32 -50.28 -162.30 9 A LEU 44 -94.38 -66.35 9 A LEU 61 -160.05 97.68 9 A ALA 91 66.20 95.64 9 A GLU 93 -48.84 79.46 9 A LEU 95 -149.74 -43.13 10 A SER 2 -162.22 74.72 10 A ASN 12 177.81 -25.79 10 A ASP 13 63.91 66.34 10 A VAL 14 -100.23 -64.65 10 A ASN 16 -105.67 -165.19 10 A ILE 32 -51.58 -160.07 10 A LEU 44 -99.90 -75.83 10 A LEU 61 -160.12 97.87 10 A ASP 67 -150.01 60.44 10 A GLU 89 -90.69 -61.39 10 A ALA 91 56.23 93.69 10 A LEU 94 29.07 -73.50 10 A LEU 95 -108.96 -61.86 11 A SER 2 -168.95 -65.00 11 A ASN 12 105.60 65.99 11 A VAL 14 -96.26 -62.52 11 A ASN 16 -94.31 -158.53 11 A ILE 32 -48.66 -162.38 11 A LEU 44 -96.35 -73.19 11 A LEU 61 -160.04 97.66 11 A ASP 67 -150.16 61.78 11 A GLU 89 -102.09 -60.55 11 A ALA 91 67.15 76.59 11 A GLU 93 26.95 45.42 12 A ASN 12 113.51 61.61 12 A VAL 14 -96.54 -64.33 12 A ILE 32 -50.74 -158.85 12 A LEU 44 -96.39 -73.16 12 A ASP 67 -150.08 61.22 12 A GLU 93 -151.85 86.81 12 A LEU 94 -176.45 -58.84 12 A LEU 95 -130.49 -58.50 13 A SER 2 63.52 60.23 13 A ASN 12 109.07 64.37 13 A VAL 14 -95.13 -63.64 13 A ASN 16 -91.15 -157.86 13 A ILE 32 -51.04 -165.52 13 A LEU 44 -96.56 -66.26 13 A ASN 90 -78.59 -79.13 13 A ALA 91 22.93 47.90 13 A GLU 93 -56.53 102.57 13 A LEU 95 -146.49 -56.17 14 A SER 2 176.29 -66.25 14 A ASN 12 107.79 64.97 14 A VAL 14 -93.75 -63.62 14 A GLU 17 -25.75 -64.71 14 A ILE 32 -51.08 -162.38 14 A ASP 43 -143.47 52.13 14 A ASP 67 -150.06 61.43 14 A LEU 94 -161.02 -64.47 14 A LEU 95 -171.81 51.26 15 A ASN 12 147.02 24.06 15 A ASN 16 -96.39 -159.41 15 A ILE 32 -52.57 -160.72 15 A LEU 44 -98.66 -68.63 15 A ALA 91 56.02 82.39 15 A GLU 93 -58.60 78.91 15 A LEU 95 180.00 -65.71 16 A ASN 12 107.62 67.43 16 A VAL 14 -92.75 -63.06 16 A ASN 16 -95.08 -156.75 16 A ILE 32 -53.18 -161.38 16 A LEU 44 -95.05 -69.25 16 A GLU 89 -69.76 -73.53 16 A ASN 90 -68.81 -74.37 16 A ALA 91 15.15 54.33 16 A GLU 93 -56.04 75.33 17 A ASN 12 -179.67 -25.60 17 A ASP 13 63.23 68.22 17 A VAL 14 -105.03 -67.02 17 A ASN 16 -102.33 -158.38 17 A ILE 32 -54.04 -169.30 17 A ASP 43 -147.13 52.05 17 A LEU 61 -160.42 97.76 17 A ALA 91 -28.29 121.83 17 A LEU 95 -121.53 -56.44 18 A SER 2 -168.98 -65.25 18 A ASN 12 109.05 65.67 18 A VAL 14 -96.64 -64.66 18 A ASN 16 -94.89 -158.80 18 A ILE 32 -53.06 -164.24 18 A LEU 44 -94.86 -68.70 18 A ALA 91 60.59 77.82 18 A LEU 94 -166.95 -62.81 18 A LEU 95 -130.53 -60.45 19 A ASN 12 105.01 64.84 19 A VAL 14 -96.20 -60.45 19 A ASN 16 -97.09 -152.48 19 A ILE 32 -50.35 -163.19 19 A LEU 44 -101.92 -72.67 19 A ALA 91 64.68 90.50 19 A GLU 93 -52.58 109.62 19 A LEU 94 -148.16 -53.64 20 A SER 2 80.24 -63.32 20 A ASN 12 107.10 65.84 20 A VAL 14 -98.41 -61.95 20 A ASN 16 -99.84 -157.62 20 A ILE 32 -50.76 -159.62 20 A ASP 67 -150.10 61.44 20 A ALA 91 64.58 75.64 20 A GLU 93 -109.53 -66.96 20 A LEU 94 38.15 -85.58 20 A LEU 95 -124.72 -58.98 SOLUTION STRUCTURE OF THE TRANSCRIPTIONAL ACTIVATION DOMAIN OF THE BACTERIOPHAGE T4 PROTEIN MOTA 1 N N A LYS 3 A LYS 3 HELX_P A ASN 12 A ASN 12 1 1 10 A ASN 16 A ASN 16 HELX_P A LYS 29 A LYS 29 1 2 14 A THR 33 A THR 33 HELX_P A HIS 41 A HIS 41 1 3 9 A GLY 45 A GLY 45 HELX_P A GLY 60 A GLY 60 1 4 16 A THR 72 A THR 72 HELX_P A ASN 90 A ASN 90 1 5 19 TRANSCRIPTION MotNF, coiled-coil, crystal packing, transcription A GLY 45 A GLY 45 11 A ASN 46 A ASN 46 7.25 A GLY 45 A GLY 45 12 A ASN 46 A ASN 46 28.49 MOTA_BPT4 UNP 1 1 P22915 MSKVTYIIKASNDVLNEKTATILITIAKKDFITAAEVREVHPDLGNAVVNSNIGVLIKKGLVEKSGDGLIITGEAQDIIS NAATLYAQENAPELLK 1 96 1I1S 1 96 P22915 A 1 1 96 2 anti-parallel A GLU 63 A GLU 63 A SER 65 A SER 65 A GLY 68 A GLY 68 A ILE 70 A ILE 70 1 P 1