1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Choowongkomon, K. Carlin, C.R. Sonnichsen, F.D. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 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 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 C5 H11 N O2 117.146 y VALINE L-peptide linking US J.Biol.Chem. JBCHA3 0071 0021-9258 280 24043 24052 10.1074/jbc.M502698200 15840573 A Structural Model for the Membrane-bound Form of the Juxtamembrane Domain of the Epidermal Growth Factor Receptor 2005 10.2210/pdb1z9i/pdb pdb_00001z9i CHIRALITY ERROR CHIRAL CENTER CA ARG 6-12,14,16-21,23,24. 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1 SINGLE WAVELENGTH M 1 1.0 6246.428 Epidermal growth factor receptor 2.7.1.112 sequence database residues 669-721 1 man polymer Receptor tyrosine-protein kinase ErbB-1 no no RRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSG RRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSG 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 human Homo Escherichia Escherichia coli sample EGFR, ERBB1 9606 Homo sapiens 469008 Escherichia coli BL21(DE3) BL21(DE3) plasmid pGEX-3X database_2 pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2005-05-24 1 1 2008-04-30 1 2 2011-07-13 1 3 2022-03-02 _database_2.pdbx_DOI _database_2.pdbx_database_accession RCSB Y RCSB 2005-04-02 REL REL The structure was determined using triple-resonance NMR spectroscopy and also using restraints from paramagnetic probe studies. structures with the least restraint violations 100 25 3D_15N-separated_NOESY 3D_13C-separated_NOESY HNHA TROSY 5.0 1 atm 308 K the structures are based on a total of 1146 restraints: 1249 are NOE-derived distance constraints, 55 dihedral angle restraints, 27 RDC restraints, 21 distance restraints from paramagnetic probe studies. simulated annealing 1.5 mM JX EGFR in 90 mM DPC 15N,13C, 90% H20, 10% D20 90% H20, 10% D20 1.5 mM JX EGFR in 90 mM DPC 15N in dry acrylamide gel then compress in the NMR tube, 90% H20, 10% D20 90% H20, 10% D20 collection VNMR processing NMRPipe data analysis NMRView 5.2.1 structure solution CNS 1.1 refinement CNS 1.1 500 Varian INOVA 600 Varian INOVA 800 Varian INOVA ARG 1 n 1 ARG 1 A ARG 2 n 2 ARG 2 A ARG 3 n 3 ARG 3 A HIS 4 n 4 HIS 4 A ILE 5 n 5 ILE 5 A VAL 6 n 6 VAL 6 A ARG 7 n 7 ARG 7 A LYS 8 n 8 LYS 8 A ARG 9 n 9 ARG 9 A THR 10 n 10 THR 10 A LEU 11 n 11 LEU 11 A ARG 12 n 12 ARG 12 A ARG 13 n 13 ARG 13 A LEU 14 n 14 LEU 14 A LEU 15 n 15 LEU 15 A GLN 16 n 16 GLN 16 A GLU 17 n 17 GLU 17 A ARG 18 n 18 ARG 18 A GLU 19 n 19 GLU 19 A LEU 20 n 20 LEU 20 A VAL 21 n 21 VAL 21 A GLU 22 n 22 GLU 22 A PRO 23 n 23 PRO 23 A LEU 24 n 24 LEU 24 A THR 25 n 25 THR 25 A PRO 26 n 26 PRO 26 A SER 27 n 27 SER 27 A GLY 28 n 28 GLY 28 A GLU 29 n 29 GLU 29 A ALA 30 n 30 ALA 30 A PRO 31 n 31 PRO 31 A ASN 32 n 32 ASN 32 A GLN 33 n 33 GLN 33 A ALA 34 n 34 ALA 34 A LEU 35 n 35 LEU 35 A LEU 36 n 36 LEU 36 A ARG 37 n 37 ARG 37 A ILE 38 n 38 ILE 38 A LEU 39 n 39 LEU 39 A LYS 40 n 40 LYS 40 A GLU 41 n 41 GLU 41 A THR 42 n 42 THR 42 A GLU 43 n 43 GLU 43 A PHE 44 n 44 PHE 44 A LYS 45 n 45 LYS 45 A LYS 46 n 46 LYS 46 A ILE 47 n 47 ILE 47 A LYS 48 n 48 LYS 48 A VAL 49 n 49 VAL 49 A LEU 50 n 50 LEU 50 A GLY 51 n 51 GLY 51 A SER 52 n 52 SER 52 A GLY 53 n 53 GLY 53 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 6 A CA ARG 1 WRONG HAND 7 A CA ARG 1 WRONG HAND 8 A CA ARG 1 WRONG HAND 9 A CA ARG 1 WRONG HAND 10 A CA ARG 1 WRONG HAND 11 A CA ARG 1 WRONG HAND 12 A CA ARG 1 PLANAR 14 A CA ARG 1 WRONG HAND 16 A CA ARG 1 PLANAR 17 A CA ARG 1 WRONG HAND 18 A CA ARG 1 WRONG HAND 19 A CA ARG 1 WRONG HAND 20 A CA ARG 1 PLANAR 21 A CA ARG 1 WRONG HAND 23 A CA ARG 1 WRONG HAND 24 A CA ARG 1 WRONG HAND 4 -11.18 1.80 110.60 99.42 A A A N CA CB ARG ARG ARG 1 1 1 N 5 11.67 1.80 110.60 122.27 A A A N CA CB ARG ARG ARG 1 1 1 N 6 -83.61 1.80 110.60 26.99 A A A N CA CB ARG ARG ARG 1 1 1 N 7 20.14 1.80 110.60 130.74 A A A N CA CB ARG ARG ARG 1 1 1 N 8 -73.20 1.80 110.60 37.40 A A A N CA CB ARG ARG ARG 1 1 1 N 9 24.37 1.80 110.60 134.97 A A A N CA CB ARG ARG ARG 1 1 1 N 10 23.07 1.80 110.60 133.67 A A A N CA CB ARG ARG ARG 1 1 1 N 11 -84.63 1.80 110.60 25.97 A A A N CA CB ARG ARG ARG 1 1 1 N 12 -110.17 1.80 110.60 0.43 A A A N CA CB ARG ARG ARG 1 1 1 N 14 -37.70 1.80 110.60 72.90 A A A N CA CB ARG ARG ARG 1 1 1 N 16 -99.99 1.80 110.60 10.61 A A A N CA CB ARG ARG ARG 1 1 1 N 17 -58.24 1.80 110.60 52.36 A A A N CA CB ARG ARG ARG 1 1 1 N 18 -52.26 1.80 110.60 58.34 A A A N CA CB ARG ARG ARG 1 1 1 N 19 -61.16 1.80 110.60 49.44 A A A N CA CB ARG ARG ARG 1 1 1 N 20 -105.65 1.80 110.60 4.95 A A A N CA CB ARG ARG ARG 1 1 1 N 21 -13.26 1.80 110.60 97.34 A A A N CA CB ARG ARG ARG 1 1 1 N 22 14.78 1.80 110.60 125.38 A A A N CA CB ARG ARG ARG 1 1 1 N 23 25.35 1.80 110.60 135.95 A A A N CA CB ARG ARG ARG 1 1 1 N 24 -28.71 1.80 110.60 81.89 A A A N CA CB ARG ARG ARG 1 1 1 N 1 A ARG 2 -158.69 -56.90 1 A ARG 3 -111.93 -168.16 1 A LEU 20 -152.85 -78.16 1 A GLU 22 177.58 -53.72 1 A ALA 30 177.98 163.61 2 A ARG 2 -105.34 -63.78 2 A ILE 5 -135.45 -57.62 2 A VAL 6 -59.46 92.28 2 A ARG 7 -126.37 -72.88 2 A LEU 11 -59.65 -9.04 2 A GLU 19 48.75 21.16 2 A GLU 22 66.63 68.92 2 A SER 27 -67.07 -79.22 2 A GLU 29 72.22 -59.18 3 A ARG 3 -104.73 -168.01 3 A LEU 20 -134.63 -72.37 3 A GLU 22 177.45 -51.50 3 A SER 27 -91.84 -72.66 3 A ALA 30 -176.10 147.49 4 A HIS 4 53.41 92.00 4 A GLU 22 -177.77 -58.92 4 A LEU 24 -145.93 -42.65 4 A THR 25 69.07 100.40 4 A THR 42 -151.09 11.70 5 A HIS 4 63.71 -78.91 5 A ILE 5 73.64 -61.58 5 A VAL 21 -145.39 -50.40 5 A LEU 24 -100.33 -67.76 5 A THR 25 49.27 95.12 5 A PRO 26 -85.12 45.93 5 A GLU 29 -96.69 39.12 5 A THR 42 -146.53 11.79 6 A ARG 2 60.31 162.90 6 A HIS 4 -99.01 31.14 6 A ILE 5 75.69 -60.43 6 A GLU 19 75.54 -0.44 6 A LEU 20 -145.69 -72.70 6 A VAL 21 -154.30 -63.31 6 A GLU 22 -167.18 68.13 6 A SER 27 -77.25 -78.49 6 A GLU 29 75.60 -57.36 7 A ARG 2 -92.18 -73.26 7 A HIS 4 65.61 79.58 7 A ARG 7 -96.94 38.25 7 A GLU 19 -151.29 47.50 7 A LEU 20 -144.46 -77.98 7 A GLU 22 179.68 -55.22 7 A SER 27 -122.79 -62.41 7 A GLU 29 -98.36 35.00 8 A ARG 2 -105.33 -166.95 8 A ARG 7 64.47 -164.17 8 A LYS 8 -48.46 -16.34 8 A LEU 20 -162.98 52.63 8 A GLU 22 -174.81 59.49 8 A PRO 23 -82.00 41.47 9 A ARG 2 -153.87 -68.34 9 A HIS 4 62.89 73.48 9 A ARG 7 -171.74 -44.09 9 A GLU 19 -159.62 -67.54 9 A LEU 20 179.87 -36.81 9 A PRO 23 -68.35 60.44 9 A LEU 24 176.35 -37.41 9 A SER 27 -159.60 -57.19 9 A GLU 29 -179.59 -41.90 9 A ALA 30 115.10 -59.96 10 A ARG 2 59.96 174.09 10 A HIS 4 -98.49 30.72 10 A VAL 6 -98.30 42.87 10 A ARG 13 -76.36 -71.39 10 A LEU 15 -90.24 -65.26 10 A GLU 19 -157.95 39.30 10 A GLU 22 -173.10 130.82 10 A SER 27 -176.68 -39.24 11 A ARG 3 -126.62 -62.31 11 A HIS 4 -175.69 -76.17 11 A ARG 7 -143.56 -68.13 11 A LEU 11 -56.53 -9.37 11 A GLU 19 178.44 -34.01 11 A LEU 20 75.46 46.54 11 A VAL 21 -145.37 -57.97 11 A GLU 22 -177.15 56.61 12 A GLU 22 68.24 62.80 12 A PRO 23 -84.03 49.52 12 A SER 27 -107.50 44.11 13 A ARG 2 -138.19 -69.93 13 A ARG 7 67.59 -151.80 13 A VAL 21 49.08 27.70 13 A GLU 22 -175.67 60.29 13 A LEU 24 -96.71 38.24 14 A ARG 3 -98.77 31.73 14 A ILE 5 70.70 -65.73 14 A ARG 7 -167.12 -46.41 14 A VAL 21 79.03 -43.72 14 A GLU 22 74.90 50.66 14 A LEU 24 -177.14 38.73 14 A SER 27 -92.15 -63.75 14 A ALA 30 179.85 138.17 15 A ARG 2 -107.47 -69.54 15 A ARG 3 -153.35 62.35 15 A HIS 4 -96.24 38.70 15 A ARG 7 -151.83 -59.53 15 A LEU 11 -57.19 -6.67 15 A VAL 21 -156.87 -51.61 15 A GLU 22 -179.12 -58.92 15 A GLU 29 -93.45 48.58 16 A ARG 2 61.09 177.72 16 A ARG 3 -162.26 116.59 16 A HIS 4 -59.09 93.80 16 A VAL 6 66.78 133.68 16 A ARG 9 -49.82 -15.03 16 A GLU 19 66.69 -71.06 16 A LEU 20 -142.89 -46.82 16 A VAL 21 -148.62 -68.49 16 A GLU 22 -176.88 52.35 16 A PRO 23 -64.80 -74.77 16 A SER 27 -178.75 38.43 16 A ALA 30 -156.67 -58.11 17 A ARG 2 -167.26 90.81 17 A ILE 5 -143.36 -49.23 17 A ARG 7 -146.89 -48.46 17 A LEU 20 -130.79 -77.18 17 A GLU 22 178.74 -54.99 17 A SER 27 -163.88 -49.37 17 A ASN 32 -43.60 -71.18 17 A THR 42 175.73 -74.21 18 A VAL 6 66.87 138.17 18 A GLU 19 -171.98 38.78 18 A SER 27 -144.18 -55.91 18 A GLU 29 69.92 -57.30 19 A ARG 2 -146.84 20.80 19 A HIS 4 62.18 78.24 19 A VAL 6 63.17 62.27 19 A ARG 7 -166.10 -48.79 19 A LEU 20 -145.09 47.40 19 A VAL 21 -162.88 -49.00 19 A GLU 22 -178.98 59.24 19 A PRO 26 -89.76 39.31 19 A SER 27 -165.31 50.13 19 A GLU 29 -159.02 34.98 20 A ARG 3 -162.21 76.50 20 A VAL 6 -101.94 75.62 20 A ARG 7 -179.58 -38.66 20 A LEU 20 -135.13 -47.00 20 A GLU 22 -175.63 -53.91 20 A PRO 23 -57.89 84.26 20 A SER 27 -159.93 52.83 20 A ALA 30 107.68 -56.18 21 A ARG 2 -121.40 -80.14 21 A ARG 3 -151.61 72.43 21 A LEU 20 -130.20 -45.46 21 A GLU 22 -175.90 -53.29 21 A LEU 24 -141.26 -61.39 21 A THR 25 54.99 96.81 21 A SER 27 -151.74 -54.65 21 A GLU 29 -157.53 42.57 21 A ALA 30 -104.26 -69.25 22 A ARG 2 -72.87 -82.79 22 A ARG 3 -156.17 21.25 22 A HIS 4 49.03 98.24 22 A LEU 20 -102.24 -60.63 22 A GLU 22 -168.36 -60.72 22 A SER 27 -61.32 -71.48 22 A ALA 30 -177.86 149.40 23 A ARG 2 -156.49 25.57 23 A ARG 3 -160.04 24.12 23 A ILE 5 58.40 -87.51 23 A VAL 6 175.26 53.05 23 A LEU 20 -141.82 30.65 23 A GLU 22 64.16 80.75 23 A THR 25 51.58 92.06 23 A SER 27 -56.53 -80.82 23 A ALA 30 113.43 -50.48 24 A ARG 2 -152.68 -50.26 24 A ILE 5 -134.78 -62.01 24 A ARG 7 -149.86 -61.96 24 A LEU 20 -94.26 47.61 24 A VAL 21 -142.25 -67.44 24 A THR 25 41.42 88.95 24 A SER 27 -151.14 52.51 24 A GLU 29 -162.06 -47.01 24 A THR 42 -151.12 -72.75 25 A ARG 3 -91.64 -79.50 25 A ARG 7 178.52 -52.07 25 A GLU 22 -174.11 55.01 25 A LEU 24 -165.22 -40.93 25 A THR 25 58.41 98.13 25 A SER 27 -107.12 -61.87 A Structural Model for the Membrane-Bound Form of the Juxtamembrane Domain of the Epidermal Growth Factor Receptor 1 N N A ARG 9 A ARG 9 HELX_P A GLU 17 A GLU 17 1 1 9 A ARG 18 A ARG 18 HELX_P A LEU 20 A LEU 20 5 2 3 A ALA 30 A ALA 30 HELX_P A THR 42 A THR 42 1 3 13 A THR 42 A THR 42 HELX_P A GLY 51 A GLY 51 1 4 10 TRANSFERASE juxtamembrane structure EGFR micelle, TRANSFERASE EGFR_HUMAN UNP 1 669 P00533 RRRHIVRKRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGSG 669 721 1Z9I 1 53 P00533 A 1 1 53