1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Clore, G.M. Strzelecka, T.E. Gronenborn, A.M. 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 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 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 C5 H11 N O2 117.146 y VALINE L-peptide linking UK Structure STRUE6 2005 0969-2126 3 1087 1095 10.1016/S0969-2126(01)00244-1 8590003 The solution structure of the Mu Ner protein reveals a helix-turn-helix DNA recognition motif. 1995 US Biochemistry BICHAW 0033 0006-2960 28 5081 Determination of the Secondary Structure of the DNA Binding Protein Ner from Phage Mu Using 1H Homonuclear and 15N-1H Heteronuclear NMR Spectroscopy 1989 10.2210/pdb1ner/pdb pdb_00001ner 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 8388.538 DNA-BINDING PROTEIN NER 1 nat polymer no no CSNEKARDWHRADVIAGLKKRKLSLSALSRQFGYAPTTLANALERHWPKGEQIIANALETKPEVIWPSRYQAGE CSNEKARDWHRADVIAGLKKRKLSLSALSRQFGYAPTTLANALERHWPKGEQIIANALETKPEVIWPSRYQAGE 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 Mu-like viruses sample 10677 Enterobacteria phage Mu database_2 pdbx_database_status pdbx_struct_assembly pdbx_struct_oper_list struct_keywords repository Initial release Version format compliance Version format compliance Database references Derived calculations Other Structure summary 1 0 1995-12-07 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 _struct_keywords.text Y BNL 1995-08-24 REL REL 30 THE 3D STRUCTURE OF THE MU NER PROTEIN BY MULTI-DIMENSIONAL HETERONUCLEAR NMR IS BASED ON 1546 EXPERIMENTAL RESTRAINTS COMPRISING THE FOLLOWING: 944 INTERPROTON DISTANCE RESTRAINTS [251 SEQUENTIAL; 202 SHORT RANGE (1<|I-J|<=5; 157 LONG RANGE (|I-J|>5); AND 334 INTRARESIDUE]; 40 DISTANCE RESTRAINTS FOR 20 BACKBONE HYDROGEN BONDS; 89 TORSION ANGLE RESTRAINTS 56 PHI, 27 CH1 AND 6 CHI2); 46 3 BOND HN-HA COUPLING CONSTANTS; 140 SECONDARY 13C SHIFTS (72 CA AND 68 CB); 287 1H CHEMICAL SHIFTS (74 HA, 39 METHYL AND 174 OTHER, WITH NO EXCHANGEABLE PROTON SHIFTS). THE STRUCTURE WAS DETERMINED BY SIMULATED ANNEALING [NILGES, CLORE AND GRONENBORN (1988) FEBS LETT. 229, 317 - 324] USING THE PROGRAM X-PLOR (BRUNGER) MODIFIED TO INCORPORATE COUPLING CONSTANT [GARRETT ET AL. AND CLORE (1994) J. MAGN. RESON. B104, 99 - 103], CARBON CHEMICAL SHIFT [KUSZEWSKI, QIN, GRONENBORN AND CLORE (1995) J. MAGN. RESON. B106, 92 - 96] AND PROTON CHEMICAL SHIFT [KUSZEWSKI, GRONENBORN AND CLORE (1995) J. MAGN. RESON. B107, 293 - 297] RESTRAINTS. ENTRY 1NEQ IS THE RESTRAINED REGULARIZED MEAN STRUCTURE OBTAINED BY AVERAGING THE COORDINATES OF THE 30 SIMULATED ANNEALING STRUCTURES BEST FITTED TO EACH OTHER (RESIDUES 8 - 66). THE N- AND C-TERMINI ARE DISORDERED, AND THE NUMBER IN THE LAST COLUMN (THE B- FACTOR COLUMN) GIVES THE AVERAGE RMS TO THE MEAN COORDINATE POSITIONS. BRUNGER refinement X-PLOR CYS 1 n 1 CYS 1 A SER 2 n 2 SER 2 A ASN 3 n 3 ASN 3 A GLU 4 n 4 GLU 4 A LYS 5 n 5 LYS 5 A ALA 6 n 6 ALA 6 A ARG 7 n 7 ARG 7 A ASP 8 n 8 ASP 8 A TRP 9 n 9 TRP 9 A HIS 10 n 10 HIS 10 A ARG 11 n 11 ARG 11 A ALA 12 n 12 ALA 12 A ASP 13 n 13 ASP 13 A VAL 14 n 14 VAL 14 A ILE 15 n 15 ILE 15 A ALA 16 n 16 ALA 16 A GLY 17 n 17 GLY 17 A LEU 18 n 18 LEU 18 A LYS 19 n 19 LYS 19 A LYS 20 n 20 LYS 20 A ARG 21 n 21 ARG 21 A LYS 22 n 22 LYS 22 A LEU 23 n 23 LEU 23 A SER 24 n 24 SER 24 A LEU 25 n 25 LEU 25 A SER 26 n 26 SER 26 A ALA 27 n 27 ALA 27 A LEU 28 n 28 LEU 28 A SER 29 n 29 SER 29 A ARG 30 n 30 ARG 30 A GLN 31 n 31 GLN 31 A PHE 32 n 32 PHE 32 A GLY 33 n 33 GLY 33 A TYR 34 n 34 TYR 34 A ALA 35 n 35 ALA 35 A PRO 36 n 36 PRO 36 A THR 37 n 37 THR 37 A THR 38 n 38 THR 38 A LEU 39 n 39 LEU 39 A ALA 40 n 40 ALA 40 A ASN 41 n 41 ASN 41 A ALA 42 n 42 ALA 42 A LEU 43 n 43 LEU 43 A GLU 44 n 44 GLU 44 A ARG 45 n 45 ARG 45 A HIS 46 n 46 HIS 46 A TRP 47 n 47 TRP 47 A PRO 48 n 48 PRO 48 A LYS 49 n 49 LYS 49 A GLY 50 n 50 GLY 50 A GLU 51 n 51 GLU 51 A GLN 52 n 52 GLN 52 A ILE 53 n 53 ILE 53 A ILE 54 n 54 ILE 54 A ALA 55 n 55 ALA 55 A ASN 56 n 56 ASN 56 A ALA 57 n 57 ALA 57 A LEU 58 n 58 LEU 58 A GLU 59 n 59 GLU 59 A THR 60 n 60 THR 60 A LYS 61 n 61 LYS 61 A PRO 62 n 62 PRO 62 A GLU 63 n 63 GLU 63 A VAL 64 n 64 VAL 64 A ILE 65 n 65 ILE 65 A TRP 66 n 66 TRP 66 A PRO 67 n 67 PRO 67 A SER 68 n 68 SER 68 A ARG 69 n 69 ARG 69 A TYR 70 n 70 TYR 70 A GLN 71 n 71 GLN 71 A ALA 72 n 72 ALA 72 A GLY 73 n 73 GLY 73 A GLU 74 n 74 GLU 74 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 2 A A HG1 H THR LYS 60 61 1.30 12 A A HG H SER ALA 24 27 1.27 24 A A HD1 H HIS ALA 10 12 1.31 26 A A HD1 H HIS ALA 10 12 1.27 1 A SER 2 52.19 -92.44 1 A ASN 3 57.79 -114.82 1 A GLU 4 -166.38 -6.40 1 A LYS 5 -77.01 29.67 1 A ALA 6 -57.66 -105.03 1 A HIS 10 -41.13 162.63 1 A ARG 21 -95.36 -94.51 1 A LYS 22 -154.79 50.92 1 A ALA 40 -55.77 -74.09 1 A ASN 41 -56.35 -1.04 1 A HIS 46 -56.22 99.11 1 A TRP 47 -160.73 70.50 1 A THR 60 -110.37 -169.83 1 A SER 68 -58.11 5.82 1 A ALA 72 55.62 3.10 2 A ASN 3 51.81 -163.92 2 A LYS 5 -169.57 84.03 2 A ALA 6 49.29 -176.74 2 A ASP 8 -75.33 -143.78 2 A HIS 10 -47.15 167.59 2 A LYS 19 -56.24 -9.07 2 A ARG 21 -94.03 -97.13 2 A LYS 22 -155.08 59.08 2 A LEU 25 -47.15 -16.70 2 A ALA 35 -48.88 164.44 2 A HIS 46 -64.59 86.99 2 A TRP 47 -160.94 73.65 2 A THR 60 -111.02 -169.39 2 A TYR 70 -118.34 -107.13 2 A GLN 71 -158.76 -102.66 2 A ALA 72 -148.10 -36.23 3 A SER 2 -159.63 -108.62 3 A ASN 3 -162.30 45.49 3 A GLU 4 56.24 108.58 3 A LYS 5 48.61 -173.50 3 A ALA 6 -178.10 -89.04 3 A ARG 7 -94.12 -101.16 3 A ASP 8 -74.97 -148.15 3 A HIS 10 -47.82 174.04 3 A ARG 21 -98.04 -95.02 3 A LYS 22 -155.01 49.27 3 A ALA 35 -45.67 161.26 3 A ALA 40 -56.09 -71.44 3 A ASN 41 -58.49 -7.91 3 A HIS 46 -65.47 79.72 3 A TRP 47 -165.44 71.60 3 A THR 60 -111.45 -164.97 3 A GLU 63 -57.60 -4.69 3 A GLN 71 -160.33 77.46 3 A ALA 72 -169.51 -65.44 4 A LYS 5 50.82 -88.94 4 A ALA 6 61.02 -140.44 4 A HIS 10 -39.41 154.77 4 A ARG 21 -96.85 -94.91 4 A LYS 22 -154.55 54.63 4 A ALA 35 -48.38 157.41 4 A HIS 46 -63.07 83.36 4 A TRP 47 -164.72 70.31 4 A GLU 59 53.58 19.93 4 A SER 68 -29.41 -101.98 4 A ARG 69 -106.16 59.67 4 A GLN 71 -159.03 -100.85 4 A ALA 72 54.87 18.85 5 A SER 2 -160.43 -63.27 5 A GLU 4 53.21 -152.34 5 A LYS 5 46.20 -91.90 5 A ALA 6 -175.06 -165.75 5 A ASP 8 -158.50 -140.71 5 A ARG 21 -97.82 -94.61 5 A LYS 22 -155.13 45.84 5 A ALA 35 -45.35 165.87 5 A GLU 44 -133.44 -31.75 5 A HIS 46 -57.53 99.04 5 A TRP 47 -163.03 70.32 5 A GLU 59 52.11 18.15 5 A THR 60 -110.93 -169.22 5 A GLN 71 -160.91 82.77 5 A ALA 72 49.56 11.72 6 A SER 2 61.06 -159.58 6 A ASN 3 -93.10 48.84 6 A ALA 6 -86.71 -104.33 6 A LYS 19 -58.10 -7.67 6 A ARG 21 -93.68 -91.31 6 A LYS 22 -155.16 53.86 6 A TRP 47 -167.37 71.52 6 A THR 60 -117.20 -168.26 6 A SER 68 -32.22 -72.92 6 A GLN 71 -160.45 21.14 6 A ALA 72 -165.01 81.63 7 A SER 2 -167.55 -51.32 7 A ALA 6 -171.79 -43.62 7 A ASP 8 -74.92 -75.43 7 A ARG 21 -96.02 -96.71 7 A LYS 22 -154.57 57.34 7 A ASN 41 -56.02 -6.14 7 A GLU 44 -100.04 -70.35 7 A TRP 47 -162.38 71.16 7 A THR 60 -111.52 -160.68 7 A SER 68 -60.16 15.31 7 A TYR 70 -111.09 74.62 7 A GLN 71 -156.82 54.30 8 A SER 2 -151.93 -34.99 8 A ASN 3 53.24 15.54 8 A LYS 5 59.93 80.74 8 A ARG 7 -92.99 -95.02 8 A ASP 8 -73.17 -142.15 8 A HIS 10 -43.97 152.24 8 A LYS 19 -55.45 -7.03 8 A ARG 21 -94.64 -94.29 8 A LYS 22 -154.74 52.83 8 A LEU 25 -45.62 -15.24 8 A HIS 46 -64.85 86.76 8 A TRP 47 -157.77 68.12 8 A GLN 71 -160.64 -95.36 9 A LYS 5 48.99 -137.03 9 A ALA 6 -155.28 -113.41 9 A HIS 10 -37.88 144.79 9 A LYS 19 -56.95 -8.64 9 A ARG 21 -97.94 -92.90 9 A LYS 22 -154.79 63.30 9 A ALA 35 -46.89 156.74 9 A ASN 41 -57.09 -6.30 9 A GLU 44 -96.10 -78.06 9 A TRP 47 -163.44 72.73 9 A GLN 71 -159.80 73.15 9 A ALA 72 -176.71 100.39 10 A SER 2 54.82 166.54 10 A GLU 4 70.79 154.07 10 A LYS 5 -47.04 167.63 10 A ALA 6 -157.18 -85.64 10 A ARG 7 -91.84 -95.78 10 A ASP 8 -76.28 -147.03 10 A HIS 10 -48.37 167.28 10 A LYS 19 -55.65 -9.91 10 A ARG 21 -95.79 -97.59 10 A LYS 22 -153.34 60.62 10 A ALA 35 -44.18 165.04 10 A ALA 40 -56.31 -73.92 10 A HIS 46 -69.57 79.88 10 A TRP 47 -164.57 70.27 10 A THR 60 -110.51 -166.60 10 A GLU 63 -57.45 -5.52 10 A TYR 70 -117.23 -84.03 10 A GLN 71 -157.74 -76.71 10 A ALA 72 -123.30 -68.53 11 A SER 2 44.28 -164.95 11 A ASN 3 -151.21 -136.22 11 A GLU 4 57.10 -81.30 11 A LYS 5 -79.71 -145.23 11 A ALA 6 80.70 -48.06 11 A ARG 7 -92.53 -71.03 11 A ASP 8 -72.98 -165.08 11 A HIS 10 -45.71 163.17 11 A ARG 21 -93.97 -98.71 11 A LYS 22 -153.95 67.63 11 A HIS 46 -60.70 99.56 11 A TRP 47 -162.77 71.91 11 A GLU 59 57.54 17.08 11 A GLU 63 -59.97 -7.49 11 A TYR 70 -111.94 -163.51 11 A ALA 72 51.82 9.18 12 A ASN 3 48.72 73.19 12 A LYS 5 52.02 106.39 12 A ALA 6 52.89 168.33 12 A ARG 7 -98.12 51.49 12 A ASP 8 -159.73 -137.00 12 A HIS 10 -48.54 162.26 12 A ARG 21 -97.07 -93.35 12 A LYS 22 -154.95 59.48 12 A TYR 34 -58.35 -82.36 12 A ALA 35 -176.60 148.66 12 A HIS 46 -66.12 97.90 12 A TRP 47 -165.48 70.98 12 A GLU 59 52.38 14.67 12 A THR 60 -111.36 -168.24 12 A GLU 63 -59.00 -2.37 12 A GLN 71 -160.05 84.19 12 A ALA 72 -161.08 75.49 13 A SER 2 51.17 -174.42 13 A ASN 3 -151.02 36.31 13 A ALA 6 -69.04 -121.92 13 A HIS 10 -37.75 147.37 13 A ARG 21 -96.04 -94.48 13 A LYS 22 -154.81 59.25 13 A GLU 44 -132.05 -36.42 13 A HIS 46 -64.45 98.46 13 A TRP 47 -163.44 70.78 13 A THR 60 -111.00 -169.69 13 A GLU 63 -59.42 -3.28 13 A GLN 71 -154.44 57.37 13 A ALA 72 -90.01 -77.69 14 A ASN 3 49.08 90.20 14 A ALA 6 48.91 -128.43 14 A ARG 21 -92.41 -97.73 14 A LYS 22 -154.69 52.52 14 A TYR 34 -50.35 -90.76 14 A GLU 44 -132.55 -43.38 14 A TRP 47 -165.66 71.22 14 A GLU 59 51.37 14.92 14 A SER 68 -31.03 -73.33 14 A GLN 71 -160.22 50.40 15 A GLU 4 51.50 -97.64 15 A ALA 6 47.45 -140.69 15 A ARG 21 -91.81 -99.05 15 A LYS 22 -155.20 46.07 15 A ALA 35 -46.53 163.52 15 A HIS 46 -62.40 87.21 15 A TRP 47 -164.78 74.55 15 A GLU 59 52.80 12.69 15 A THR 60 -111.02 -165.75 15 A PRO 67 -71.80 -71.90 15 A SER 68 -62.65 15.78 15 A GLN 71 -162.25 96.90 15 A ALA 72 -154.95 76.56 16 A GLU 4 -155.96 -122.23 16 A ALA 6 -154.93 43.69 16 A ARG 7 -145.72 -105.31 16 A ASP 8 -72.22 -141.73 16 A HIS 10 -47.51 155.47 16 A ARG 21 -96.09 -96.42 16 A LYS 22 -155.34 62.80 16 A ASN 41 -57.28 -7.11 16 A TRP 47 -167.08 72.15 16 A GLU 59 56.49 17.23 16 A THR 60 -111.60 -160.75 16 A GLN 71 -158.16 27.40 16 A ALA 72 -79.09 37.80 17 A SER 2 47.91 21.93 17 A GLU 4 -129.16 -73.58 17 A ALA 6 77.17 -172.77 17 A ASP 8 -72.59 -169.93 17 A HIS 10 -44.75 162.56 17 A ARG 21 -95.19 -95.87 17 A LYS 22 -155.71 45.84 17 A LEU 25 -37.68 -37.12 17 A ASN 41 -56.16 -7.36 17 A GLU 44 -97.03 -66.37 17 A TRP 47 -164.24 72.47 17 A GLU 59 57.33 5.85 17 A THR 60 -111.24 -165.76 17 A GLN 71 -157.52 74.45 17 A ALA 72 -161.53 32.61 18 A SER 2 -155.98 9.84 18 A GLU 4 -61.43 -168.20 18 A LYS 5 27.19 38.61 18 A ALA 6 -150.15 -14.30 18 A ARG 7 -97.73 -81.84 18 A HIS 10 -46.08 156.24 18 A ARG 21 -95.76 -95.94 18 A LYS 22 -154.41 54.19 18 A TRP 47 -165.40 71.87 18 A GLU 59 58.96 11.39 18 A SER 68 -64.88 4.93 18 A GLN 71 -160.73 19.18 18 A ALA 72 -164.79 19.59 19 A SER 2 -158.45 33.66 19 A ALA 6 -77.50 -102.34 19 A HIS 10 -39.33 146.72 19 A ARG 21 -91.95 -94.55 19 A LYS 22 -155.17 62.88 19 A ALA 35 -48.65 164.29 19 A THR 38 -55.45 -71.03 19 A HIS 46 -60.42 98.97 19 A TRP 47 -166.84 74.46 19 A SER 68 -63.42 8.98 19 A TYR 70 -111.77 -100.12 19 A GLN 71 -160.29 -86.93 19 A ALA 72 -163.47 21.86 20 A ASN 3 -160.93 -60.36 20 A LYS 5 47.79 93.52 20 A ALA 6 -151.84 0.67 20 A ARG 7 -94.72 -106.96 20 A ASP 8 -77.40 -147.06 20 A HIS 10 -48.71 165.10 20 A ARG 21 -97.66 -93.53 20 A LYS 22 -155.05 47.06 20 A ALA 35 -44.85 165.15 20 A ASN 41 -56.40 -7.95 20 A GLU 44 -130.72 -37.61 20 A TRP 47 -166.89 74.16 20 A THR 60 -110.96 -168.35 20 A SER 68 -61.38 2.54 20 A ALA 72 49.38 86.80 21 A SER 2 -155.04 -77.51 21 A ALA 6 44.48 -152.20 21 A HIS 10 -41.78 154.62 21 A ARG 21 -93.49 -96.29 21 A LYS 22 -154.89 64.52 21 A ALA 35 80.41 147.93 21 A ALA 40 -55.47 -71.09 21 A HIS 46 -68.34 78.00 21 A TRP 47 -163.97 73.47 21 A SER 68 -57.01 6.07 21 A GLN 71 -155.36 46.89 22 A LYS 5 46.06 -94.95 22 A ALA 6 -164.77 -53.33 22 A ARG 7 -141.29 -32.96 22 A ARG 21 -91.30 -95.96 22 A LYS 22 -155.24 61.75 22 A ASN 41 -56.77 -7.52 22 A HIS 46 -59.39 95.67 22 A TRP 47 -165.44 71.80 22 A GLU 59 58.89 13.62 22 A THR 60 -110.93 -168.81 22 A SER 68 -32.81 -96.04 22 A ARG 69 -99.55 42.90 22 A GLN 71 -158.66 -103.78 23 A SER 2 -162.45 -42.08 23 A ASN 3 -160.36 -108.40 23 A GLU 4 46.10 171.84 23 A LYS 5 40.41 -100.79 23 A ALA 6 50.29 -86.94 23 A ARG 21 -96.62 -96.38 23 A LYS 22 -154.48 51.36 23 A LEU 25 -46.99 -16.61 23 A ALA 35 -46.76 157.00 23 A ASN 41 -56.68 -8.99 23 A HIS 46 -62.44 91.17 23 A TRP 47 -164.63 69.71 23 A GLU 59 53.45 18.27 23 A THR 60 -110.48 -168.91 23 A SER 68 -56.49 1.05 23 A ARG 69 -137.56 -30.44 23 A GLN 71 -158.00 -84.06 23 A ALA 72 47.08 86.27 24 A SER 2 -153.05 -6.09 24 A GLU 4 70.22 -61.65 24 A LYS 5 -95.02 -68.08 24 A ALA 6 72.78 -138.69 24 A TRP 9 -69.62 -114.17 24 A HIS 10 -172.16 149.24 24 A ARG 21 -93.19 -96.30 24 A LYS 22 -155.04 54.39 24 A ALA 35 -40.57 160.20 24 A ASN 41 -56.53 -3.80 24 A GLU 44 -126.30 -64.68 24 A TRP 47 -166.37 70.43 24 A GLU 59 55.81 14.89 24 A SER 68 -60.06 7.03 24 A TYR 70 -103.87 -168.79 24 A GLN 71 -156.75 -74.63 24 A ALA 72 50.32 74.20 25 A SER 2 50.97 -92.99 25 A ASN 3 52.92 11.28 25 A GLU 4 -56.83 -168.43 25 A ALA 6 -59.08 -157.41 25 A ASP 8 -78.86 -146.94 25 A HIS 10 -46.85 164.66 25 A ARG 21 -94.67 -97.73 25 A LYS 22 -154.79 54.09 25 A LEU 25 -47.39 -15.62 25 A ALA 35 78.43 147.37 25 A HIS 46 -68.89 85.52 25 A TRP 47 -161.11 71.72 25 A THR 60 -114.45 -163.54 25 A GLU 63 -59.67 -5.87 25 A GLN 71 -160.67 56.79 26 A ASN 3 60.76 138.49 26 A LYS 5 -39.72 -96.47 26 A ALA 6 71.52 -23.62 26 A ARG 7 -143.01 -99.08 26 A HIS 10 -38.47 148.66 26 A ARG 21 -95.55 -100.31 26 A LYS 22 -154.89 60.79 26 A ALA 35 77.64 143.86 26 A GLU 44 -133.45 -30.26 26 A TRP 47 -168.77 71.39 26 A GLU 63 -58.47 -3.10 26 A TYR 70 -107.01 -165.02 26 A GLN 71 -157.91 38.51 26 A ALA 72 73.39 -61.78 27 A SER 2 47.86 -157.22 27 A ASN 3 -146.31 -31.09 27 A GLU 4 -48.21 171.66 27 A LYS 5 53.17 76.91 27 A ALA 6 -168.22 -44.50 27 A ARG 7 -97.17 -60.91 27 A ASP 8 -68.04 -169.68 27 A HIS 10 -43.74 154.38 27 A ARG 21 -94.46 -96.92 27 A LYS 22 -155.52 53.70 27 A ALA 35 -46.14 163.39 27 A HIS 46 -68.49 91.77 27 A TRP 47 -163.97 72.05 27 A THR 60 -110.93 -167.51 27 A GLU 63 -56.02 -5.00 27 A SER 68 -57.53 0.38 27 A GLN 71 -160.32 51.28 27 A ALA 72 -174.98 93.62 28 A SER 2 -154.02 -122.02 28 A ASN 3 -169.05 114.24 28 A ALA 6 -76.64 -93.93 28 A HIS 10 -37.73 145.21 28 A ARG 21 -96.13 -97.76 28 A LYS 22 -155.47 49.80 28 A ALA 35 -49.79 164.95 28 A GLU 44 -130.97 -55.62 28 A TRP 47 -165.12 71.01 28 A GLU 59 52.20 7.96 28 A THR 60 -111.21 -167.32 28 A GLU 63 -58.99 -8.70 28 A SER 68 -58.51 2.53 28 A GLN 71 -159.30 35.36 28 A ALA 72 -98.41 58.82 29 A GLU 4 60.70 155.22 29 A LYS 5 49.51 20.80 29 A ALA 6 -147.01 26.94 29 A ARG 7 -97.34 -103.41 29 A ASP 8 -73.61 -144.89 29 A HIS 10 -45.08 162.47 29 A ARG 21 -98.05 -93.40 29 A LYS 22 -154.30 61.47 29 A LEU 25 -46.30 -16.35 29 A ALA 35 -47.72 163.86 29 A ASN 41 -57.29 -7.35 29 A HIS 46 -63.83 97.40 29 A TRP 47 -165.59 71.81 29 A THR 60 -111.39 -167.62 29 A GLU 63 -57.10 -7.52 29 A GLN 71 -158.33 89.33 29 A ALA 72 -154.72 -108.73 30 A SER 2 -140.05 -35.99 30 A ASN 3 -158.19 -61.54 30 A GLU 4 58.93 2.31 30 A LYS 5 -156.99 21.98 30 A ALA 6 50.36 -177.24 30 A ASP 8 -76.87 -163.05 30 A HIS 10 -45.97 154.52 30 A LYS 19 -54.57 -8.10 30 A ARG 21 -96.64 -91.43 30 A LYS 22 -154.33 56.17 30 A ALA 35 -43.57 152.92 30 A ASN 41 -56.23 -7.51 30 A TRP 47 -164.93 71.73 30 A THR 60 -110.68 -166.22 30 A GLU 63 -57.84 -3.45 30 A GLN 71 -152.51 -56.91 30 A ALA 72 48.74 81.07 model building X-PLOR refinement X-PLOR phasing X-PLOR SOLUTION STRUCTURE OF THE MU NER PROTEIN BY MULTIDIMENSIONAL NMR 1 Y N A ARG 11 A ARG 11 HELX_P A LEU 18 A LEU 18 1 1 8 A LEU 25 A LEU 25 HELX_P A PHE 32 A PHE 32 1 2 8 A PRO 36 A PRO 36 HELX_P A LEU 43 A LEU 43 1 3 8 A PRO 48 A PRO 48 HELX_P A LEU 58 A LEU 58 1 4 11 A PRO 62 A PRO 62 HELX_P A ILE 65 A ILE 65 1 5 4 DNA BINDING PROTEIN DNA-BINDING PROTEIN, DNA BINDING PROTEIN NER_BPMU UNP 1 1 P06020 CSNEKARDWHRADVIAGLKKRKLSLSALSRQFGYAPTTLANALERHWPKGEQIIANALETKPEVIWPSRYQAGE 1 74 1NER 1 74 P06020 A 1 1 74 1 P 1