1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Schueler, W. Dong, C.-Z. Wecker, K. Roques, B.P. 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 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C10 H14 N5 O6 P 331.222 y 2'-DEOXYADENOSINE-5'-MONOPHOSPHATE DNA linking C9 H14 N3 O7 P 307.197 y 2'-DEOXYCYTIDINE-5'-MONOPHOSPHATE DNA linking C10 H14 N5 O7 P 347.221 y 2'-DEOXYGUANOSINE-5'-MONOPHOSPHATE DNA 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 LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE 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 Zn 2 65.409 ZINC ION non-polymer US Biochemistry BICHAW 0033 0006-2960 38 12984 12994 10.1021/bi990378d 10529168 NMR structure of the complex between the zinc finger protein NCp10 of Moloney murine leukemia virus and the single-stranded pentanucleotide d(ACGCC): comparison with HIV-NCp7 complexes. 1999 NE J.Biomol.NMR JBNME9 0800 0925-2738 4 153 Three-Dimensional 1H NMR Structure of the Nucleocapsid Protein Ncp10 of Moloney Murine Leukemia Virus 1994 10.2210/pdb1a6b/pdb pdb_00001a6b 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1465.001 DNA (5'-D(*AP*CP*GP*CP*C)-3') 1 syn polymer ONE ZINC ION BOUND IN CCHC BOX 4706.383 ZINC FINGER PROTEIN NCP10 CENTRAL DOMAIN RESIDUES 14-53 1 man polymer 65.409 ZINC ION 1 syn non-polymer MOMULV no no (DA)(DC)(DG)(DC)(DC) ACGCC A polydeoxyribonucleotide no no GERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQT GERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQT B 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 database_2 pdbx_database_status pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_conn struct_site repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations Other 1 0 1999-08-23 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-02-16 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site _pdbx_nmr_software.name _struct_conn.ptnr1_auth_comp_id _struct_conn.ptnr1_auth_seq_id _struct_conn.ptnr1_label_asym_id _struct_conn.ptnr1_label_atom_id _struct_conn.ptnr1_label_comp_id _struct_conn.ptnr1_label_seq_id _struct_conn.ptnr2_auth_comp_id _struct_conn.ptnr2_auth_seq_id _struct_conn.ptnr2_label_asym_id _struct_conn.ptnr2_label_atom_id _struct_conn.ptnr2_label_comp_id _struct_conn.ptnr2_label_seq_id _struct_site.pdbx_auth_asym_id _struct_site.pdbx_auth_comp_id _struct_site.pdbx_auth_seq_id Y BNL 1998-02-23 REL ZN ZINC ION REPRESENTATIVE MODEL NUMBER: ZINC WAS ADDED IN 1.5EQ AS ZNCL2. THE STRUCTURE WAS DETERMINED USING 1H-NMR SPECTROSCOPY ON THE CENTRAL DOMAIN (14-53)NCP10. LEAST RESTRAINT VIOLATIONS, LOWEST TOTAL ENERGY 50 20 NOESY TOCSY E.COSY DQF-COSY 6.5 293 K THE PROTEIN PART OF THE STRUCTURE WAS GENERATED IN A SIMULATED ANNEALING CALCULATION AND DOCKED WITH THE NUCLEOTIDE (IDEALIZED CONFORMATION) IN SUCCESSIVE ENERGY MINIMIZATIONS APPLYING FIRST INTRA, THEN INTERMOLECULAR NOE RESTRAINTS. THE CONFORMATION OF THE SINGLE STRANDED NUCLEOTIDE GETS DEFINED BY THE CONTACTS TO THE PROTEIN. FIFTY STRUCTURES OF THE COMPLEX WERE GENERATED BY SIMULATED ANNEALING AND ENERGY MINIMIZATION (MAXIMUM GRADIENT O.O2 KCAL/MOL/A2) THE NUCLEOTIDE CONFORMATION WAS KEPT FIXED DURING SIMULATED ANNEALING IN THE CONFORMATION OBTAINED IN THE FIRST STEP. TWENTY STRUCTURES WERE SELECTED WITH RESPECT TO RESTRAINT VIOLATIONS AND TOTAL ENERGY. DYNAMICAL SIMULATED ANNEALING, ENERGY MINIMIZATION BIOSYM refinement Discover structure solution BRUKER UXNMR UXNMR structure solution BIOSYM/MSI FELIX FELIX 600 Bruker AMX600 ZN 55 3 ZN ZN 55 B A 1 n 1 DA 1 A C 2 n 2 DC 2 A G 3 n 3 DG 3 A C 4 n 4 DC 4 A C 5 n 5 DC 5 A GLY 14 n 1 GLY 14 B GLU 15 n 2 GLU 15 B ARG 16 n 3 ARG 16 B ARG 17 n 4 ARG 17 B ARG 18 n 5 ARG 18 B SER 19 n 6 SER 19 B GLN 20 n 7 GLN 20 B LEU 21 n 8 LEU 21 B ASP 22 n 9 ASP 22 B ARG 23 n 10 ARG 23 B ASP 24 n 11 ASP 24 B GLN 25 n 12 GLN 25 B CYS 26 n 13 CYS 26 B ALA 27 n 14 ALA 27 B TYR 28 n 15 TYR 28 B CYS 29 n 16 CYS 29 B LYS 30 n 17 LYS 30 B GLU 31 n 18 GLU 31 B LYS 32 n 19 LYS 32 B GLY 33 n 20 GLY 33 B HIS 34 n 21 HIS 34 B TRP 35 n 22 TRP 35 B ALA 36 n 23 ALA 36 B LYS 37 n 24 LYS 37 B ASP 38 n 25 ASP 38 B CYS 39 n 26 CYS 39 B PRO 40 n 27 PRO 40 B LYS 41 n 28 LYS 41 B LYS 42 n 29 LYS 42 B PRO 43 n 30 PRO 43 B ARG 44 n 31 ARG 44 B GLY 45 n 32 GLY 45 B PRO 46 n 33 PRO 46 B ARG 47 n 34 ARG 47 B GLY 48 n 35 GLY 48 B PRO 49 n 36 PRO 49 B ARG 50 n 37 ARG 50 B PRO 51 n 38 PRO 51 B GLN 52 n 39 GLN 52 B THR 53 n 40 THR 53 B author_defined_assembly 2 dimeric B CYS 26 B SG CYS 13 1_555 B ZN 55 C ZN ZN 1_555 B CYS 29 B SG CYS 16 1_555 115.4 B CYS 26 B SG CYS 13 1_555 B ZN 55 C ZN ZN 1_555 B HIS 34 B NE2 HIS 21 1_555 106.1 B CYS 29 B SG CYS 16 1_555 B ZN 55 C ZN ZN 1_555 B HIS 34 B NE2 HIS 21 1_555 106.5 B CYS 26 B SG CYS 13 1_555 B ZN 55 C ZN ZN 1_555 B CYS 39 B SG CYS 26 1_555 108.8 B CYS 29 B SG CYS 16 1_555 B ZN 55 C ZN ZN 1_555 B CYS 39 B SG CYS 26 1_555 110.4 B HIS 34 B NE2 HIS 21 1_555 B ZN 55 C ZN ZN 1_555 B CYS 39 B SG CYS 26 1_555 109.4 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 DG 3 0.111 SIDE CHAIN 2 A DG 3 0.075 SIDE CHAIN 2 A DC 5 0.070 SIDE CHAIN 3 A DG 3 0.060 SIDE CHAIN 4 A DG 3 0.074 SIDE CHAIN 4 B ARG 23 0.103 SIDE CHAIN 6 A DG 3 0.107 SIDE CHAIN 6 A DC 4 0.093 SIDE CHAIN 7 A DG 3 0.077 SIDE CHAIN 8 A DG 3 0.092 SIDE CHAIN 8 A DC 4 0.066 SIDE CHAIN 9 A DG 3 0.102 SIDE CHAIN 9 A DC 4 0.066 SIDE CHAIN 10 A DG 3 0.096 SIDE CHAIN 11 B TYR 28 0.084 SIDE CHAIN 12 A DG 3 0.064 SIDE CHAIN 13 A DG 3 0.079 SIDE CHAIN 13 B ARG 17 0.077 SIDE CHAIN 14 A DG 3 0.072 SIDE CHAIN 15 A DG 3 0.082 SIDE CHAIN 15 A DC 4 0.116 SIDE CHAIN 16 A DG 3 0.070 SIDE CHAIN 17 A DG 3 0.103 SIDE CHAIN 17 A DC 4 0.074 SIDE CHAIN 18 A DG 3 0.098 SIDE CHAIN 18 A DC 4 0.067 SIDE CHAIN 19 A DG 3 0.120 SIDE CHAIN 20 A DG 3 0.084 SIDE CHAIN 20 A DC 4 0.099 SIDE CHAIN 1 2.10 0.30 108.30 110.40 A A A O4' C1' N9 DA DA DA 1 1 1 N 1 6.43 0.30 108.30 114.73 A A A O4' C1' N1 DC DC DC 2 2 2 N 1 2.98 0.30 108.30 111.28 A A A O4' C1' N9 DG DG DG 3 3 3 N 1 5.85 0.30 108.30 114.15 A A A O4' C1' N1 DC DC DC 4 4 4 N 1 3.66 0.30 108.30 111.96 A A A O4' C1' N1 DC DC DC 5 5 5 N 2 2.47 0.30 108.30 110.77 A A A O4' C1' N9 DA DA DA 1 1 1 N 2 6.61 0.30 108.30 114.91 A A A O4' C1' N1 DC DC DC 2 2 2 N 2 3.84 0.30 108.30 112.14 A A A O4' C1' N9 DG DG DG 3 3 3 N 2 6.88 0.30 108.30 115.18 A A A O4' C1' N1 DC DC DC 4 4 4 N 2 2.34 0.30 108.30 110.64 A A A O4' C1' N1 DC DC DC 5 5 5 N 2 -11.39 1.40 111.70 100.31 B B B CA N CD PRO PRO PRO 49 49 49 N 3 -4.79 0.70 102.20 97.41 A A A C4' C3' C2' DA DA DA 1 1 1 N 3 2.15 0.30 108.30 110.45 A A A O4' C1' N9 DA DA DA 1 1 1 N 3 6.56 0.30 108.30 114.86 A A A O4' C1' N1 DC DC DC 2 2 2 N 3 3.56 0.30 108.30 111.86 A A A O4' C1' N9 DG DG DG 3 3 3 N 3 7.74 1.20 119.70 127.44 A A A C3' O3' P DG DG DC 3 3 4 Y 3 8.61 0.30 108.30 116.91 A A A O4' C1' N1 DC DC DC 4 4 4 N 4 -4.62 0.70 102.20 97.58 A A A C4' C3' C2' DA DA DA 1 1 1 N 4 5.20 0.30 108.30 113.50 A A A O4' C1' N9 DA DA DA 1 1 1 N 4 7.72 0.30 108.30 116.02 A A A O4' C1' N1 DC DC DC 2 2 2 N 4 3.06 0.30 108.30 111.36 A A A O4' C1' N9 DG DG DG 3 3 3 N 4 7.27 1.20 119.70 126.97 A A A C3' O3' P DG DG DC 3 3 4 Y 4 4.46 0.30 108.30 112.76 A A A O4' C1' N1 DC DC DC 4 4 4 N 4 -11.18 1.80 110.60 99.42 B B B N CA CB LYS LYS LYS 32 32 32 N 5 -6.17 1.00 110.10 103.93 A A A C1' O4' C4' DA DA DA 1 1 1 N 5 7.23 0.30 108.30 115.53 A A A O4' C1' N9 DA DA DA 1 1 1 N 5 -3.65 0.40 104.50 100.85 A A A O4' C4' C3' DC DC DC 2 2 2 N 5 7.14 0.30 108.30 115.44 A A A O4' C1' N1 DC DC DC 2 2 2 N 5 5.21 0.30 108.30 113.51 A A A O4' C1' N9 DG DG DG 3 3 3 N 5 7.22 1.20 119.70 126.92 A A A C3' O3' P DG DG DC 3 3 4 Y 5 7.69 0.30 108.30 115.99 A A A O4' C1' N1 DC DC DC 4 4 4 N 5 -11.22 1.80 110.60 99.38 B B B N CA CB LYS LYS LYS 32 32 32 N 6 2.24 0.30 108.30 110.54 A A A O4' C1' N9 DA DA DA 1 1 1 N 6 6.72 0.30 108.30 115.02 A A A O4' C1' N1 DC DC DC 2 2 2 N 6 4.29 0.30 108.30 112.59 A A A O4' C1' N9 DG DG DG 3 3 3 N 6 -5.17 0.80 105.90 100.73 A A A O4' C1' C2' DC DC DC 4 4 4 N 6 4.81 0.30 108.30 113.11 A A A O4' C1' N1 DC DC DC 4 4 4 N 7 -4.34 0.70 102.20 97.86 A A A C4' C3' C2' DA DA DA 1 1 1 N 7 2.70 0.30 108.30 111.00 A A A O4' C1' N9 DA DA DA 1 1 1 N 7 5.71 0.30 108.30 114.01 A A A O4' C1' N1 DC DC DC 2 2 2 N 7 2.85 0.30 108.30 111.15 A A A O4' C1' N9 DG DG DG 3 3 3 N 7 4.48 0.30 108.30 112.78 A A A O4' C1' N1 DC DC DC 4 4 4 N 8 -4.82 0.70 102.20 97.38 A A A C4' C3' C2' DA DA DA 1 1 1 N 8 6.26 0.30 108.30 114.56 A A A O4' C1' N1 DC DC DC 2 2 2 N 8 2.94 0.30 108.30 111.24 A A A O4' C1' N9 DG DG DG 3 3 3 N 8 6.07 0.30 108.30 114.37 A A A O4' C1' N1 DC DC DC 4 4 4 N 8 -9.72 1.40 111.70 101.98 B B B CA N CD PRO PRO PRO 49 49 49 N 9 5.96 0.30 108.30 114.26 A A A O4' C1' N1 DC DC DC 2 2 2 N 9 2.57 0.30 108.30 110.87 A A A O4' C1' N9 DG DG DG 3 3 3 N 9 6.23 0.30 108.30 114.53 A A A O4' C1' N1 DC DC DC 4 4 4 N 10 6.10 0.30 108.30 114.40 A A A O4' C1' N1 DC DC DC 2 2 2 N 10 3.52 0.30 108.30 111.82 A A A O4' C1' N9 DG DG DG 3 3 3 N 10 4.91 0.30 108.30 113.21 A A A O4' C1' N1 DC DC DC 4 4 4 N 11 4.67 0.30 108.30 112.97 A A A O4' C1' N9 DA DA DA 1 1 1 N 11 -2.99 0.40 104.50 101.51 A A A O4' C4' C3' DC DC DC 2 2 2 N 11 6.22 0.30 108.30 114.52 A A A O4' C1' N1 DC DC DC 2 2 2 N 11 6.27 0.30 108.30 114.57 A A A O4' C1' N9 DG DG DG 3 3 3 N 11 8.37 0.30 108.30 116.67 A A A O4' C1' N1 DC DC DC 4 4 4 N 12 5.47 0.30 108.30 113.77 A A A O4' C1' N1 DC DC DC 2 2 2 N 12 2.79 0.30 108.30 111.09 A A A O4' C1' N9 DG DG DG 3 3 3 N 12 7.34 1.20 119.70 127.04 A A A C3' O3' P DG DG DC 3 3 4 Y 12 7.95 0.30 108.30 116.25 A A A O4' C1' N1 DC DC DC 4 4 4 N 13 3.54 0.30 108.30 111.84 A A A O4' C1' N9 DA DA DA 1 1 1 N 13 6.40 0.30 108.30 114.70 A A A O4' C1' N1 DC DC DC 2 2 2 N 13 2.92 0.30 108.30 111.22 A A A O4' C1' N9 DG DG DG 3 3 3 N 13 -5.09 0.80 105.90 100.81 A A A O4' C1' C2' DC DC DC 4 4 4 N 13 4.95 0.30 108.30 113.25 A A A O4' C1' N1 DC DC DC 4 4 4 N 14 -4.56 0.70 102.20 97.64 A A A C4' C3' C2' DA DA DA 1 1 1 N 14 6.18 0.30 108.30 114.48 A A A O4' C1' N1 DC DC DC 2 2 2 N 14 3.18 0.30 108.30 111.48 A A A O4' C1' N9 DG DG DG 3 3 3 N 14 7.35 1.20 119.70 127.05 A A A C3' O3' P DG DG DC 3 3 4 Y 14 6.35 0.30 108.30 114.65 A A A O4' C1' N1 DC DC DC 4 4 4 N 15 3.23 0.30 108.30 111.53 A A A O4' C1' N9 DA DA DA 1 1 1 N 15 6.16 0.30 108.30 114.46 A A A O4' C1' N1 DC DC DC 2 2 2 N 15 2.66 0.30 108.30 110.96 A A A O4' C1' N9 DG DG DG 3 3 3 N 15 4.82 0.30 108.30 113.12 A A A O4' C1' N1 DC DC DC 4 4 4 N 15 9.30 1.50 119.30 128.60 B B B C N CA GLY PRO PRO 48 49 49 Y 15 -9.83 1.40 111.70 101.87 B B B CA N CD PRO PRO PRO 49 49 49 N 16 2.34 0.30 108.30 110.64 A A A O4' C1' N9 DA DA DA 1 1 1 N 16 6.75 0.30 108.30 115.05 A A A O4' C1' N1 DC DC DC 2 2 2 N 16 3.58 0.30 108.30 111.88 A A A O4' C1' N9 DG DG DG 3 3 3 N 16 -4.96 0.80 105.90 100.94 A A A O4' C1' C2' DC DC DC 4 4 4 N 16 5.24 0.30 108.30 113.54 A A A O4' C1' N1 DC DC DC 4 4 4 N 16 2.38 0.30 108.30 110.68 A A A O4' C1' N1 DC DC DC 5 5 5 N 17 2.55 0.30 108.30 110.85 A A A O4' C1' N9 DA DA DA 1 1 1 N 17 5.69 0.30 108.30 113.99 A A A O4' C1' N1 DC DC DC 2 2 2 N 17 3.49 0.30 108.30 111.79 A A A O4' C1' N9 DG DG DG 3 3 3 N 17 6.60 0.30 108.30 114.90 A A A O4' C1' N1 DC DC DC 4 4 4 N 17 9.82 1.50 119.30 129.12 B B B C N CA GLY PRO PRO 48 49 49 Y 17 -9.48 1.40 111.70 102.22 B B B CA N CD PRO PRO PRO 49 49 49 N 18 3.07 0.30 108.30 111.37 A A A O4' C1' N9 DA DA DA 1 1 1 N 18 5.71 0.30 108.30 114.01 A A A O4' C1' N1 DC DC DC 2 2 2 N 18 3.67 0.30 108.30 111.97 A A A O4' C1' N9 DG DG DG 3 3 3 N 18 5.72 0.30 108.30 114.02 A A A O4' C1' N1 DC DC DC 4 4 4 N 18 9.33 1.50 119.30 128.63 B B B C N CA GLY PRO PRO 48 49 49 Y 18 -9.34 1.40 111.70 102.36 B B B CA N CD PRO PRO PRO 49 49 49 N 19 6.15 0.30 108.30 114.45 A A A O4' C1' N1 DC DC DC 2 2 2 N 19 2.84 0.30 108.30 111.14 A A A O4' C1' N9 DG DG DG 3 3 3 N 19 7.24 1.20 119.70 126.94 A A A C3' O3' P DG DG DC 3 3 4 Y 19 7.72 0.30 108.30 116.02 A A A O4' C1' N1 DC DC DC 4 4 4 N 20 5.43 0.30 108.30 113.73 A A A O4' C1' N9 DA DA DA 1 1 1 N 20 5.92 0.30 108.30 114.22 A A A O4' C1' N1 DC DC DC 2 2 2 N 20 2.78 0.30 108.30 111.08 A A A O4' C1' N9 DG DG DG 3 3 3 N 20 7.49 1.20 119.70 127.19 A A A C3' O3' P DG DG DC 3 3 4 Y 20 -4.83 0.80 105.90 101.07 A A A O4' C1' C2' DC DC DC 4 4 4 N 20 6.02 0.30 108.30 114.32 A A A O4' C1' N1 DC DC DC 4 4 4 N 1 B LYS 32 29.85 -117.38 1 B ARG 47 -162.87 17.22 1 B GLN 52 -179.36 -46.92 2 B GLN 20 -151.32 -154.25 2 B LYS 32 33.68 -113.84 2 B PRO 43 -64.75 27.00 2 B ARG 44 60.77 69.59 2 B PRO 49 37.00 58.43 2 B ARG 50 42.04 95.97 3 B GLU 15 63.87 -78.79 3 B LEU 21 60.46 93.07 3 B TYR 28 -127.93 -54.13 3 B PRO 49 -92.37 49.37 4 B ASP 22 -147.59 -154.27 4 B ARG 23 -40.49 -75.66 4 B ALA 27 -83.97 48.28 4 B TYR 28 -158.65 -53.68 4 B LYS 32 -27.32 -66.77 4 B HIS 34 -156.50 -158.20 4 B ARG 47 70.62 -67.59 4 B GLN 52 78.55 -51.32 5 B GLU 15 -93.79 -104.83 5 B SER 19 56.08 -150.56 5 B GLN 20 -129.38 -73.03 5 B ARG 23 -48.84 -75.75 5 B TYR 28 -150.04 -54.69 5 B LYS 32 -27.10 -63.76 5 B PRO 43 -49.84 106.07 5 B ARG 44 -155.56 67.56 5 B ARG 47 -152.62 -48.18 6 B ARG 16 75.21 -57.02 6 B ARG 17 65.73 -126.24 6 B SER 19 -157.50 -66.44 6 B ASP 22 -93.14 -155.48 6 B ALA 27 -101.10 46.09 6 B TYR 28 -166.23 -48.49 6 B CYS 39 -27.23 112.00 7 B GLU 15 67.31 99.45 7 B ARG 17 56.10 -120.51 7 B ALA 27 -83.49 46.22 7 B TYR 28 -168.85 -51.67 7 B CYS 39 -34.83 126.76 7 B GLN 52 62.08 177.45 8 B ASP 22 57.41 -150.94 8 B ALA 27 -77.63 48.47 8 B TYR 28 -169.91 -53.21 8 B LYS 30 39.69 55.45 8 B CYS 39 -31.64 113.66 8 B ARG 44 -155.55 50.60 8 B PRO 49 32.58 55.54 8 B ARG 50 39.14 99.36 8 B GLN 52 49.51 73.43 9 B GLU 15 62.32 -98.47 9 B ARG 16 60.55 -81.30 9 B SER 19 -95.99 -96.08 9 B LEU 21 39.48 51.44 9 B LYS 32 -12.92 -61.38 9 B ARG 44 72.40 -67.90 9 B PRO 49 -95.20 44.33 10 B SER 19 -74.85 -94.46 10 B GLU 31 -83.31 -145.46 10 B ARG 44 78.15 -56.32 10 B ARG 47 61.33 84.89 10 B PRO 49 -97.91 51.84 11 B ARG 16 76.31 -55.30 11 B LEU 21 32.62 84.37 11 B ASP 22 -65.87 -174.26 11 B ARG 23 -48.43 -75.73 11 B TYR 28 -152.38 -55.48 11 B LYS 32 -26.91 -54.95 11 B CYS 39 -26.02 103.74 11 B ARG 44 76.89 -58.38 12 B ARG 17 -170.92 -70.40 12 B ARG 18 -173.74 146.49 12 B SER 19 -59.49 109.75 12 B LYS 32 -14.73 -66.82 12 B CYS 39 -38.03 120.58 12 B ARG 44 75.76 -55.39 12 B ARG 47 66.52 -74.09 12 B PRO 49 -87.85 48.14 13 B ARG 16 57.34 -156.48 13 B ARG 18 64.62 88.19 13 B GLN 20 -152.07 -82.66 13 B ASP 22 76.34 -170.00 13 B ARG 23 -127.05 -61.79 13 B GLN 52 -153.18 79.96 14 B ARG 16 -169.66 -42.52 14 B ARG 18 90.16 49.41 14 B ASP 24 -179.77 -55.41 14 B ARG 47 70.22 -72.60 14 B PRO 49 -93.47 40.85 15 B ARG 17 -153.56 82.04 15 B SER 19 -160.36 -65.81 15 B LEU 21 60.02 67.82 15 B ASP 22 -132.90 -154.25 15 B LYS 30 81.79 12.96 15 B ARG 47 66.08 106.76 15 B PRO 49 29.61 55.35 15 B ARG 50 30.86 142.63 15 B PRO 51 -76.51 -157.49 16 B GLU 15 -153.84 -67.44 16 B ARG 17 -167.00 -103.76 16 B LEU 21 -153.24 57.64 16 B ASP 22 -52.67 -86.23 16 B ARG 23 -143.47 -59.42 16 B LYS 32 -22.12 -81.81 17 B GLU 15 -90.23 -75.36 17 B ARG 16 -167.64 -63.77 17 B ARG 17 -165.18 -40.30 17 B ARG 18 74.19 -177.49 17 B GLN 20 -77.41 -75.13 17 B PRO 49 26.08 58.57 17 B ARG 50 29.67 101.13 18 B GLU 15 81.45 79.16 18 B ARG 16 -162.38 87.82 18 B ARG 17 56.24 79.13 18 B GLN 20 -134.10 -47.21 18 B LEU 21 -93.02 -122.43 18 B ASP 22 170.38 -115.17 18 B ARG 23 -123.40 -58.41 18 B LYS 32 27.50 -94.22 18 B PRO 43 -60.62 17.84 18 B ARG 44 71.87 -53.24 18 B PRO 49 28.88 55.12 18 B ARG 50 43.06 137.19 18 B GLN 52 72.14 174.96 19 B ARG 16 -160.50 -45.87 19 B GLN 20 -142.30 -143.64 19 B ASP 22 69.80 172.29 19 B PRO 43 -58.72 74.23 19 B PRO 49 -93.99 -148.35 20 B ARG 17 -154.70 65.38 20 B ARG 18 62.81 89.43 20 B GLN 20 65.18 161.63 20 B LEU 21 -94.80 -60.73 20 B TYR 28 -146.78 -56.73 20 B GLU 31 -83.95 -159.42 20 B PRO 43 -38.38 101.10 20 B PRO 46 -53.78 101.78 20 B ARG 47 -142.53 -57.48 NMR STRUCTURE OF THE COMPLEX BETWEEN THE ZINC FINGER PROTEIN NCP10 OF MOLONEY MURINE LEUKEMIA VIRUS AND A SEQUENCE OF THE PSI-PACKAGING DOMAIN OF HIV-1, 20 STRUCTURES 1 N N 2 N N 3 N N metalc 2.309 B CYS 26 B SG CYS 13 1_555 B ZN 55 C ZN ZN 1_555 metalc 2.275 B CYS 29 B SG CYS 16 1_555 B ZN 55 C ZN ZN 1_555 metalc 2.015 B HIS 34 B NE2 HIS 21 1_555 B ZN 55 C ZN ZN 1_555 metalc 2.296 B CYS 39 B SG CYS 26 1_555 B ZN 55 C ZN ZN 1_555 Viral protein/DNA NUCLEOCAPSID PROTEIN, INTERCALATION, NUCLEIC ACID, RETROVIRUS, ZINC FINGER, Viral protein-DNA COMPLEX GAG_MLVMO UNP 2 P03332 1A6B PDB 1 1A6B 492 531 1A6B 14 53 P03332 B 1 1 40 1 5 1A6B 1 5 1A6B A 2 1 5 ZINC BINDING SITE. Unknown 4 BINDING SITE FOR RESIDUE ZN B 55 B ZN 55 Software 4 B CYS 26 B CYS 13 4 1_555 B CYS 29 B CYS 16 4 1_555 B HIS 34 B HIS 21 4 1_555 B CYS 39 B CYS 26 4 1_555 B CYS 26 B CYS 13 4 1_555 B CYS 29 B CYS 16 4 1_555 B HIS 34 B HIS 21 4 1_555 B CYS 39 B CYS 26 4 1_555 1 P 1