1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Hemmi, H. Studts, J.M. Chae, Y.K. Song, J. Markley, J.L. Fox, B.G. 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 3512 3524 10.1021/bi0013703 11297417 Solution structure of the toluene 4-monooxygenase effector protein (T4moD). 2001 NE J.BIOMOL.NMR JBNME9 0800 0925-2738 16 359 360 10.1023/A:1008333115661 Assignment of 1H, 13C and 15N NMR Signals in the Toluene 4-monooxygenase Effector Protein 2000 US PROTEIN EXPR.PURIF. PEXPEJ 0757 1046-5928 16 109 119 10.1006/prep.1999.1067 Application of Fed-batch Fermentation to the Preparation of Isotopicaly Labeled or Selenomethionyl-labeled Proteins 1999 US Biochemistry BICHAW 0033 0006-2960 38 727 739 10.1021/bi981851a Detection and Classification of Hyperfine-shifted 1H, 2H, and 15N Resonances of the Rieske Ferredoxin Component from Toluene 4-monooxygenase 1999 US Biochemistry BICHAW 0033 0006-2960 35 9106 9119 10.1021/bi960456m Recombinant Toluene-4-monooxygenase: Catalytic and Mossbauer Studies of the Purified Diiron and Rieske Components of a Four-Protein Complex 1996 US J.BACTERIOL. JOBAAY 0767 0021-9193 173 3010 3016 Toluene-4-monooxygenase, a Three Component Enzyme System that Catalyzes the Oxidation of Toluene to p-Cresol in Pseudomonas mendocina KR1 1991 10.2210/pdb1g11/pdb pdb_00001g11 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 11497.836 TOLUENE-4-MONOOXYGENASE CATALYTIC EFFECTOR 1.14.13.- 1 man polymer TOLUENE-4-MONOOXYGENASE SYSTEM PROTEIN D, T4MOD no no STLADQALHNNNVGPIIRAGDLVEPVIETAEIDNPGKEITVEDRRAYVRIAAEGELILTRKTLEEQLGRPFNMQELEINL ASFAGQIQADEDQIRFYFDKTM STLADQALHNNNVGPIIRAGDLVEPVIETAEIDNPGKEITVEDRRAYVRIAAEGELILTRKTLEEQLGRPFNMQELEINL ASFAGQIQADEDQIRFYFDKTM 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 n n n n n n Pseudomonas KR1 Escherichia sample 300 Pseudomonas mendocina 562 Escherichia coli PET15B database_2 pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2001-05-09 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession chemical shift assignments minimized average structure RCSB Y RCSB 2000-10-10 REL REL 123 1H-15N CROSS PEAKS WERE ASSIGNED OUT OF THE EXPECTED 129 CROSS PEAKS (95% COMPLETE). 386 BACKBONE RESONANCES WERE ASSIGNED OUT OF THE EXPECTED 400 RESONANCES (97% COMPLETE). 789 SIDECHAIN RESONANCES WERE ASSIGNED OUT OF THE EXPECTED 901 RESONANCES (88% COMPLETE). ARG SIDECHAIN ATOMS ACCOUNT FOR 51 OF 112 UNASSIGNED SIDECHAIN ATOMS (51%). target function 60 20 1H-15N HSQC,HNCA,HN(CO)CA,C(CO)NH,HNCACB,HCCH-COSY,HCCH-TOCSY,2D_1H-NOESY,2D_1H-TOCSY,CT-13C-HSQC,3D_NOESY-CT-HSCQ,3D_TOCSY-CT-HSQC 67 mM 7.0 ambient 298 K THE STRUCTURES ARE BASED ON 1339 interproton restraints. These comprised 367 intraresidue, 424 sequential, 195 medium-range, and 273 long-range NOE distance restraints and 128 dihedral angle restraints (78 psi, 26 phi, and 24 chi), AND 80 HYDROGEN BONDING reSTRAINTS. DISTANCE GEOMETRY SIMULATED ANNEALING, TORSION ANGLE MOLECULAR DYNAMICS 1 one of ensemble 1.1 mM [U-13C,U-15N] T4moD 50 mM phosphate pH 7.0, 90% H20/10% D20 or 99.9% D20, 0.5 uM azide, protease inhibitor cocktail product no. p 27124, Sigma Chemical Co, St. Louis, MO 3.0 mM [NA] T4moD 50 mM phosphate pH 7.0, 90% H20/10% D20 or 99.9% D20, 0.5 uM azide, protease inhibitor cocktail product no. p 27124, Sigma Chemical Co, St. Louis, MO BRUNGER structure solution X-PLOR 3.843 GUNTER, MUMENTHALER, WUTRICH refinement DYANA 1.5 500 Bruker DMX 600 Bruker DMX SER 1 n 1 SER 1 A THR 2 n 2 THR 2 A LEU 3 n 3 LEU 3 A ALA 4 n 4 ALA 4 A ASP 5 n 5 ASP 5 A GLN 6 n 6 GLN 6 A ALA 7 n 7 ALA 7 A LEU 8 n 8 LEU 8 A HIS 9 n 9 HIS 9 A ASN 10 n 10 ASN 10 A ASN 11 n 11 ASN 11 A ASN 12 n 12 ASN 12 A VAL 13 n 13 VAL 13 A GLY 14 n 14 GLY 14 A PRO 15 n 15 PRO 15 A ILE 16 n 16 ILE 16 A ILE 17 n 17 ILE 17 A ARG 18 n 18 ARG 18 A ALA 19 n 19 ALA 19 A GLY 20 n 20 GLY 20 A ASP 21 n 21 ASP 21 A LEU 22 n 22 LEU 22 A VAL 23 n 23 VAL 23 A GLU 24 n 24 GLU 24 A PRO 25 n 25 PRO 25 A VAL 26 n 26 VAL 26 A ILE 27 n 27 ILE 27 A GLU 28 n 28 GLU 28 A THR 29 n 29 THR 29 A ALA 30 n 30 ALA 30 A GLU 31 n 31 GLU 31 A ILE 32 n 32 ILE 32 A ASP 33 n 33 ASP 33 A ASN 34 n 34 ASN 34 A PRO 35 n 35 PRO 35 A GLY 36 n 36 GLY 36 A LYS 37 n 37 LYS 37 A GLU 38 n 38 GLU 38 A ILE 39 n 39 ILE 39 A THR 40 n 40 THR 40 A VAL 41 n 41 VAL 41 A GLU 42 n 42 GLU 42 A ASP 43 n 43 ASP 43 A ARG 44 n 44 ARG 44 A ARG 45 n 45 ARG 45 A ALA 46 n 46 ALA 46 A TYR 47 n 47 TYR 47 A VAL 48 n 48 VAL 48 A ARG 49 n 49 ARG 49 A ILE 50 n 50 ILE 50 A ALA 51 n 51 ALA 51 A ALA 52 n 52 ALA 52 A GLU 53 n 53 GLU 53 A GLY 54 n 54 GLY 54 A GLU 55 n 55 GLU 55 A LEU 56 n 56 LEU 56 A ILE 57 n 57 ILE 57 A LEU 58 n 58 LEU 58 A THR 59 n 59 THR 59 A ARG 60 n 60 ARG 60 A LYS 61 n 61 LYS 61 A THR 62 n 62 THR 62 A LEU 63 n 63 LEU 63 A GLU 64 n 64 GLU 64 A GLU 65 n 65 GLU 65 A GLN 66 n 66 GLN 66 A LEU 67 n 67 LEU 67 A GLY 68 n 68 GLY 68 A ARG 69 n 69 ARG 69 A PRO 70 n 70 PRO 70 A PHE 71 n 71 PHE 71 A ASN 72 n 72 ASN 72 A MET 73 n 73 MET 73 A GLN 74 n 74 GLN 74 A GLU 75 n 75 GLU 75 A LEU 76 n 76 LEU 76 A GLU 77 n 77 GLU 77 A ILE 78 n 78 ILE 78 A ASN 79 n 79 ASN 79 A LEU 80 n 80 LEU 80 A ALA 81 n 81 ALA 81 A SER 82 n 82 SER 82 A PHE 83 n 83 PHE 83 A ALA 84 n 84 ALA 84 A GLY 85 n 85 GLY 85 A GLN 86 n 86 GLN 86 A ILE 87 n 87 ILE 87 A GLN 88 n 88 GLN 88 A ALA 89 n 89 ALA 89 A ASP 90 n 90 ASP 90 A GLU 91 n 91 GLU 91 A ASP 92 n 92 ASP 92 A GLN 93 n 93 GLN 93 A ILE 94 n 94 ILE 94 A ARG 95 n 95 ARG 95 A PHE 96 n 96 PHE 96 A TYR 97 n 97 TYR 97 A PHE 98 n 98 PHE 98 A ASP 99 n 99 ASP 99 A LYS 100 n 100 LYS 100 A THR 101 n 101 THR 101 A MET 102 n 102 MET 102 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 O ILE 17 A O ILE 17 A N VAL 48 A N VAL 48 A N ALA 51 A N ALA 51 A O THR 40 A O THR 40 A O LEU 58 A O LEU 58 A N ILE 94 A N ILE 94 A O TYR 97 A O TYR 97 A N GLN 86 A N GLN 86 1 A A OD2 H ASP THR 33 59 1.52 4 A A O H GLU ASN 75 79 1.54 4 A A OD1 H ASP GLU 90 91 1.58 4 A A O HZ2 THR LYS 59 61 1.59 5 A A O H GLN ILE 74 78 1.53 6 A A O H GLU ASN 75 79 1.52 9 A A O H GLU ASN 75 79 1.50 10 A A O H GLU ASN 75 79 1.52 10 A A O HG1 PRO THR 25 29 1.55 11 A A O H GLU ASN 75 79 1.58 12 A A O H GLU ASN 75 79 1.54 14 A A O H GLU ASN 75 79 1.51 14 A A O H ASN LEU 72 76 1.57 15 A A O H MET LEU 73 76 1.54 17 A A O H GLU ASN 75 79 1.52 18 A A O H GLU ASN 75 79 1.50 19 A A O H ASN LEU 72 76 1.51 1 A ALA 7 -146.80 44.34 1 A ASN 11 -139.57 -74.26 1 A LYS 37 -85.02 46.13 1 A GLU 38 179.49 49.54 1 A ARG 45 162.66 -47.53 1 A ARG 60 -88.05 33.18 1 A PHE 71 -160.16 -157.01 1 A ALA 81 -122.47 -52.24 1 A ALA 84 -131.13 -45.14 1 A ASP 92 -149.72 59.75 1 A LYS 100 -78.32 -79.32 2 A THR 2 61.76 124.55 2 A ASP 5 -166.49 110.83 2 A ALA 7 -154.18 65.86 2 A LEU 8 -137.49 -63.30 2 A HIS 9 -57.08 175.15 2 A ASN 11 -139.31 -48.59 2 A ASN 12 179.94 147.50 2 A ARG 18 -78.88 -167.14 2 A ASP 21 -179.61 -147.55 2 A GLU 38 179.08 43.82 2 A ARG 44 -81.16 -71.18 2 A ARG 45 168.04 -42.62 2 A GLU 55 -178.46 87.95 2 A ARG 60 -84.18 45.46 2 A PHE 71 -160.23 -159.07 2 A ALA 81 -128.64 -66.27 2 A ASP 92 -151.17 61.77 2 A LYS 100 -103.85 -65.59 3 A ALA 7 -175.57 101.11 3 A HIS 9 172.13 162.13 3 A ASN 11 -149.10 -88.93 3 A LYS 37 -88.27 39.66 3 A GLU 38 179.40 37.64 3 A ARG 45 161.16 -55.26 3 A THR 59 -149.73 19.40 3 A ARG 60 -87.55 46.21 3 A PHE 71 -160.15 -157.73 3 A ASN 72 -163.58 -169.83 3 A LEU 80 -159.43 80.44 3 A ASP 92 -153.54 64.15 3 A THR 101 -37.02 140.78 4 A THR 2 58.30 97.66 4 A ALA 7 -109.20 48.96 4 A HIS 9 172.96 169.38 4 A ASN 11 -161.68 -69.74 4 A ASN 12 -172.90 146.69 4 A ASP 21 179.96 130.40 4 A GLU 38 178.95 51.23 4 A ARG 45 160.16 -50.43 4 A ALA 52 -174.19 -169.53 4 A GLU 53 -38.98 153.78 4 A GLU 55 -173.41 85.39 4 A THR 59 -150.28 20.06 4 A ARG 60 -87.73 42.03 4 A PHE 71 -160.03 -160.41 4 A ASP 92 -153.35 61.46 4 A LYS 100 -76.98 -168.51 4 A THR 101 -36.12 147.03 5 A ALA 7 176.64 72.45 5 A HIS 9 66.81 124.30 5 A ASN 10 58.46 101.58 5 A ASN 11 -144.32 -78.57 5 A ASP 21 -179.95 134.24 5 A PRO 35 -74.94 47.99 5 A LYS 37 -87.59 43.04 5 A GLU 38 179.27 38.83 5 A ARG 45 162.33 -48.47 5 A GLU 53 -90.18 50.47 5 A ARG 60 -86.61 40.20 5 A PHE 71 -159.14 -159.15 5 A ASN 72 -160.23 -160.50 5 A ALA 81 -122.96 -71.78 5 A ASP 92 -157.05 60.27 6 A LEU 3 -57.55 -173.14 6 A ALA 7 49.97 92.18 6 A LEU 8 -75.34 -78.18 6 A HIS 9 66.06 174.69 6 A ASN 10 -78.86 -169.59 6 A ASN 11 -157.06 -87.12 6 A ASP 21 -179.88 137.01 6 A LYS 37 -84.93 44.48 6 A GLU 38 179.39 41.43 6 A ARG 45 158.57 -58.32 6 A ALA 52 179.80 -171.30 6 A GLU 53 -41.71 162.33 6 A GLU 55 -163.44 75.00 6 A THR 59 -147.17 17.43 6 A ARG 60 -89.62 36.43 6 A PHE 71 -159.06 -159.95 6 A ALA 81 -131.05 -66.64 6 A GLU 91 -29.59 -59.89 6 A TYR 97 -170.62 142.39 6 A LYS 100 -57.34 -82.40 7 A ALA 4 -170.96 78.35 7 A GLN 6 -179.04 62.63 7 A LEU 8 -52.62 -89.56 7 A ASN 10 -179.50 38.64 7 A ASN 12 179.95 142.29 7 A ASP 21 179.62 -37.20 7 A GLU 38 179.22 47.43 7 A GLU 42 -113.78 74.15 7 A ARG 45 158.99 -51.37 7 A GLU 53 -90.42 55.12 7 A ARG 60 -87.08 44.37 7 A PHE 71 -160.62 -164.56 7 A ALA 81 -134.44 -52.57 7 A ALA 84 -94.94 -64.36 7 A ASP 92 -150.76 54.24 7 A ILE 94 -162.78 119.61 7 A LYS 100 -54.48 -170.38 7 A THR 101 -36.66 154.58 8 A ALA 7 -167.48 39.05 8 A HIS 9 62.04 174.37 8 A ASN 11 -178.73 -89.08 8 A ASP 21 179.64 -37.79 8 A GLU 38 -179.95 50.19 8 A ARG 45 164.24 -47.70 8 A ALA 52 -178.84 -164.31 8 A GLU 55 -175.55 92.09 8 A THR 59 -140.25 19.80 8 A ARG 60 -88.68 34.75 8 A PHE 71 -153.78 -159.92 8 A ILE 78 -91.75 -71.50 8 A ALA 81 -39.70 -71.03 8 A SER 82 -173.95 -166.06 8 A ALA 84 -153.57 24.98 8 A ASP 92 -155.94 66.55 8 A LYS 100 -111.57 -80.09 9 A THR 2 -165.56 57.54 9 A ALA 4 -174.09 110.49 9 A ASP 5 -164.92 90.08 9 A GLN 6 -178.63 132.36 9 A ALA 7 77.68 106.28 9 A LEU 8 -105.33 -89.94 9 A HIS 9 179.49 -67.61 9 A ASN 11 -163.87 -88.99 9 A ASP 21 179.96 131.88 9 A LYS 37 -83.90 47.90 9 A GLU 38 179.20 38.41 9 A ARG 45 161.82 -47.43 9 A GLU 53 -58.21 -165.42 9 A THR 59 -145.20 19.11 9 A ARG 60 -86.44 44.02 9 A ALA 81 -140.47 -66.90 9 A ALA 84 -87.87 46.51 9 A GLU 91 -29.36 -53.38 9 A ASP 92 -154.12 65.56 9 A TYR 97 -178.32 138.05 9 A LYS 100 -95.19 -87.90 10 A HIS 9 65.11 164.84 10 A ASN 10 -53.15 91.16 10 A ASN 11 -127.55 -80.70 10 A ARG 18 -53.78 177.49 10 A ASP 21 -170.87 39.51 10 A LYS 37 -90.65 40.93 10 A GLU 38 179.77 54.26 10 A ARG 45 161.12 -49.60 10 A THR 59 -148.60 18.95 10 A PHE 71 -160.29 -167.68 10 A ASN 79 -68.74 67.24 10 A ALA 81 -126.30 -71.32 10 A ALA 84 -91.32 -80.55 10 A ASP 92 -158.11 64.91 10 A LYS 100 -79.56 -74.89 11 A THR 2 -54.03 -168.77 11 A ALA 7 -142.12 59.27 11 A HIS 9 65.29 -163.12 11 A ASN 11 -154.55 -82.84 11 A ARG 18 -105.96 49.10 11 A ALA 19 -66.20 -165.48 11 A ASP 21 -174.14 -70.02 11 A LEU 22 -145.22 18.00 11 A LYS 37 -87.63 46.12 11 A GLU 38 -178.62 50.86 11 A ARG 45 162.97 -62.81 11 A THR 59 -142.99 15.60 11 A ARG 60 -87.72 42.05 11 A ALA 81 -122.56 -72.03 11 A ASP 92 -152.61 60.85 11 A LYS 100 -77.38 -82.26 12 A THR 2 -39.26 141.43 12 A LEU 3 -169.98 92.74 12 A ALA 7 -123.15 -128.49 12 A LEU 8 -150.20 -93.59 12 A HIS 9 65.00 88.44 12 A ASN 10 62.24 120.28 12 A ASN 11 -173.29 -88.47 12 A ASP 21 179.69 -37.91 12 A LYS 37 -87.53 46.42 12 A GLU 38 179.98 50.79 12 A ARG 45 161.87 -48.44 12 A GLU 55 -176.70 53.47 12 A THR 59 -143.64 14.57 12 A ARG 60 -86.46 48.01 12 A PHE 71 -155.68 -159.34 12 A ASN 72 -159.05 -156.58 12 A ILE 78 -90.35 -64.52 12 A SER 82 -170.33 -168.39 12 A PHE 83 -170.46 118.12 12 A GLU 91 -29.89 -55.50 12 A ASP 92 -151.80 63.70 12 A ASP 99 -174.43 94.99 12 A LYS 100 -61.80 -76.68 13 A LEU 3 -55.04 175.88 13 A ALA 7 59.21 79.72 13 A LEU 8 -122.74 -169.37 13 A HIS 9 66.59 143.99 13 A ASN 11 -151.88 -54.19 13 A ASN 12 179.99 147.79 13 A ASP 21 179.84 163.18 13 A GLU 38 -178.74 50.99 13 A ARG 45 162.01 -50.92 13 A GLU 55 -176.55 122.27 13 A THR 59 -140.94 22.54 13 A ARG 60 -85.68 45.05 13 A PHE 71 -160.83 -162.38 13 A ALA 81 -134.13 -47.51 13 A SER 82 -174.48 -179.47 13 A LYS 100 -102.63 -165.99 13 A THR 101 -41.80 164.35 14 A THR 2 -158.20 52.20 14 A GLN 6 -90.68 -74.54 14 A ALA 7 -164.68 84.36 14 A HIS 9 63.67 88.54 14 A ASN 10 66.87 146.74 14 A ASN 11 -179.54 -78.05 14 A ASN 12 -177.30 139.36 14 A ARG 18 -108.28 57.38 14 A ALA 19 -38.74 156.35 14 A ASP 21 -171.93 33.17 14 A LEU 22 -149.58 19.17 14 A LYS 37 -69.57 67.26 14 A GLU 38 -179.76 52.50 14 A ARG 45 159.66 -72.46 14 A ARG 60 -84.91 44.98 14 A ASN 72 -170.60 -169.40 14 A MET 73 -41.94 -70.03 14 A ALA 81 -113.47 -73.12 14 A PHE 83 -178.49 106.83 14 A ALA 84 -53.44 -76.39 14 A ASP 90 -108.98 -168.81 14 A LYS 100 -87.72 -88.44 15 A ASP 5 179.30 151.88 15 A ALA 7 -170.57 44.71 15 A HIS 9 84.01 70.94 15 A ASN 10 61.93 133.07 15 A ASN 11 -171.06 -88.70 15 A ARG 18 -54.29 179.46 15 A ASP 21 -179.85 -37.90 15 A LYS 37 -69.95 63.05 15 A GLU 38 -178.91 56.05 15 A ARG 44 -82.60 -71.98 15 A ARG 45 168.51 -45.52 15 A PHE 71 -160.50 -155.02 15 A ALA 84 -141.72 19.31 15 A GLU 91 -29.28 -52.99 15 A ASP 92 -155.90 66.25 15 A TYR 97 -160.50 104.85 15 A LYS 100 -104.22 -72.16 16 A ALA 7 167.94 101.26 16 A HIS 9 175.83 112.23 16 A ASN 10 55.87 76.38 16 A ASN 11 -134.75 -75.75 16 A ASP 21 -179.05 149.65 16 A PRO 35 -75.10 44.21 16 A GLU 38 179.22 49.74 16 A ARG 44 -82.96 -73.13 16 A ARG 45 167.01 -47.53 16 A ARG 60 -84.64 46.75 16 A PHE 71 -160.25 -157.58 16 A LEU 80 -161.23 105.68 16 A SER 82 -162.34 -164.58 16 A ASP 92 -154.82 60.40 16 A LYS 100 -59.28 -159.30 16 A THR 101 -40.11 152.04 17 A GLN 6 -59.99 94.84 17 A ALA 7 -153.16 85.69 17 A HIS 9 88.42 -145.13 17 A ASN 10 88.77 108.29 17 A ASN 11 179.74 -69.95 17 A ASP 21 -179.42 134.89 17 A LYS 37 -84.04 49.41 17 A GLU 38 179.32 47.38 17 A ARG 45 164.74 -48.16 17 A THR 59 -143.11 14.73 17 A ARG 60 -84.91 47.44 17 A LEU 67 -40.00 -30.91 17 A PHE 71 -160.72 -154.96 17 A ASN 79 -69.77 64.32 17 A ALA 81 -131.86 -67.70 17 A ASP 92 -159.28 53.18 17 A TYR 97 -173.54 116.05 17 A ASP 99 179.01 -85.39 17 A LYS 100 -26.84 -84.98 17 A THR 101 -39.07 115.05 18 A HIS 9 170.24 -78.73 18 A ASN 11 -141.21 -89.72 18 A ASP 21 -177.37 124.69 18 A PRO 35 -75.00 -161.53 18 A GLU 38 -168.59 58.84 18 A ILE 39 -125.33 -90.77 18 A GLU 42 -115.59 70.14 18 A ARG 45 162.79 -49.07 18 A GLU 53 -41.94 163.66 18 A GLU 55 -162.49 63.04 18 A ARG 60 -87.87 33.86 18 A ASN 72 -170.60 -168.80 18 A ALA 81 -134.97 -57.99 18 A PHE 98 -115.95 71.88 18 A LYS 100 -55.01 -169.77 18 A THR 101 -36.15 135.29 19 A THR 2 60.62 114.92 19 A LEU 3 -171.84 85.83 19 A ASP 5 171.84 129.93 19 A ALA 7 -178.04 95.35 19 A HIS 9 -177.12 144.99 19 A ASN 11 -132.15 -87.96 19 A ASP 21 179.57 -37.27 19 A LYS 37 -92.75 31.59 19 A GLU 38 -178.31 59.00 19 A ARG 44 -79.98 -76.41 19 A ARG 45 167.01 -46.44 19 A GLU 55 -178.03 110.78 19 A ARG 60 -84.52 46.45 19 A PHE 71 -160.88 -169.99 19 A ASN 72 -171.39 -175.52 19 A MET 73 -49.34 -75.10 19 A GLU 91 -29.72 -61.09 19 A LYS 100 -51.67 -75.61 20 A THR 2 -141.38 44.07 20 A ALA 7 -164.98 74.95 20 A LEU 8 -173.91 -166.67 20 A HIS 9 68.70 -60.56 20 A ASN 10 -163.39 51.99 20 A ASN 11 -96.69 -63.41 20 A ARG 18 -99.35 51.11 20 A ALA 19 -57.79 -161.30 20 A ASP 21 -147.02 -65.67 20 A LEU 22 -148.57 21.40 20 A LYS 37 -90.78 33.07 20 A GLU 38 179.59 46.87 20 A ARG 45 158.68 -65.76 20 A GLU 53 -90.20 -132.70 20 A ARG 60 -88.51 32.50 20 A LEU 67 -39.58 -31.64 20 A ALA 84 -116.16 -74.32 20 A LYS 100 -83.36 -79.23 TOLUENE-4-MONOOXYGENASE CATALYTIC EFFECTOR PROTEIN NMR STRUCTURE 1 N N A LEU 22 A LEU 22 HELX_P A ASP 33 A ASP 33 1 1 12 A ARG 60 A ARG 60 HELX_P A LEU 67 A LEU 67 1 2 8 A MET 73 A MET 73 HELX_P A ASN 79 A ASN 79 1 3 7 OXIDOREDUCTASE aromatic hydrocarbon catabolism, oxidoreductase, monooxygenase, toluene oxidation TMOD_PSEME UNP 1 1 Q00459 STLADQALHNNNVGPIIRAGDLVEPVIETAEIDNPGKEITVEDRRAYVRIAAEGELILTRKTLEEQLGRPFNMQELEINL ASFAGQIQADEDQIRFYFDKTM 1 102 1G11 1 102 Q00459 A 1 1 102 3 3 anti-parallel anti-parallel anti-parallel anti-parallel A ILE 16 A ILE 16 A ARG 18 A ARG 18 A TYR 47 A TYR 47 A ALA 51 A ALA 51 A THR 40 A THR 40 A ASP 43 A ASP 43 A LEU 56 A LEU 56 A LEU 58 A LEU 58 A GLN 93 A GLN 93 A TYR 97 A TYR 97 A GLN 86 A GLN 86 A ASP 90 A ASP 90 1 P 1