1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Kami, K. Takeya, R. Sumimoto, H. Kohda, 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 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 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 EMBO J. EMJODG 0897 0261-4189 21 4268 4276 10.1093/emboj/cdf428 12169629 Diverse recognition of non-PxxP peptide ligands by the SH3 domains from p67(phox), Grb2 and Pex13p. 2002 10.2210/pdb1k4u/pdb pdb_00001k4u 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 6937.713 PHAGOCYTE NADPH OXIDASE SUBUNIT P67PHOX C-TERMINAL SH3 DOMAIN (RESIDUES 455-516) C499S/C514S 1 man polymer 3423.983 PHAGOCYTE NADPH OXIDASE SUBUNIT P47PHOX TAIL PEPTIDE (RESIDUES 359-390) 1 man polymer Neutrophil cytosol factor 2 Neutrophil cytosol factor 1 no no QLKKGSQVEALFSYEATQPEDLEFQEGDIILVLSKVNEEWLEGESKGKVGIFPKVFVEDSAT QLKKGSQVEALFSYEATQPEDLEFQEGDIILVLSKVNEEWLEGESKGKVGIFPKVFVEDSAT S polypeptide(L) no no SKPQPAVPPRPSADLILNRCSESTKRKLASAV SKPQPAVPPRPSADLILNRCSESTKRKLASAV P 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 human Homo Escherichia Escherichia coli sample NCF2 9606 Homo sapiens 469008 Escherichia coli BL21(DE3) BL21(DE3) PLASMID pGEX-2T human Homo Escherichia Escherichia coli sample NCF1 9606 Homo sapiens 469008 Escherichia coli BL21(DE3) BL21(DE3) PLASMID pGEX-2T database_2 pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2002-04-08 1 1 2008-04-27 1 2 2011-07-13 1 3 2021-11-10 _database_2.pdbx_DOI _database_2.pdbx_database_accession _struct_ref_seq_dif.details RCSB Y PDBJ 2001-10-08 REL REL structures with the lowest energy 100 22 HNCA, HN(CO)CA, CBCA(CO)NH, HNCACB, HBHA(CO)NH, HCCH-COSY, HCCH-TOCSY, CCH-COSY, 15N-RESOLVED NOESY, 15-RESOLVED TOCSY, HNHA, HNHB, 3D_F1 13C-FILTERED-F3 13C-RESOLVED NOESY, 3D_F1 15N-FILTERED-F3 15N-RESOLVED NOESY, 2D_SPIN-ECHO DIFFERENCE EXPERIMENTS HNCA, HN(CO)CA, CBCA(CO)NH, HNCACB, HBHA(CO)NH, HCCH-COSY, HCCH-TOCSY, CCH-COSY, 15N-RESOLVED NOESY, 15-RESOLVED TOCSY, HNHA, HNHB, 3D_F1 13C-FILTERED-F3 13C-RESOLVED NOESY, 3D_F1 15N-FILTERED-F3 15N-RESOLVED NOESY, 2D_SPIN-ECHO DIFFERENCE EXPERIMENTS 100mM KCl 7.1 1 atm 298 K The structures are based on a total of 693 restraints, 611 are NOE-derived distance constraints, 82 dihedral angle restraints. No hydrogen bond restraint was used. simulated annealing 7 lowest energy 0.7mM p67SH3(C) U-15N,13C; 0.77mM p47 tail peptide; 5mM MOPSO buffer; 30 mM d10-DTT; 100mM KCl 90% H2O, 10% D2O; 100% D2O 0.5mM p47 tail peptide U-15N,13C; 0.55mM p67SH3(C); 5mM MOPSO buffer; 30mM d10-DTT; 100mM KCl 90% H2O, 10% D2O; 100% D2O Brunger structure solution CNS 1.0 Brunger refinement CNS 1.0 600 Bruker DMX 750 Bruker DMX GLN 455 n 1 GLN 455 S LEU 456 n 2 LEU 456 S LYS 457 n 3 LYS 457 S LYS 458 n 4 LYS 458 S GLY 459 n 5 GLY 459 S SER 460 n 6 SER 460 S GLN 461 n 7 GLN 461 S VAL 462 n 8 VAL 462 S GLU 463 n 9 GLU 463 S ALA 464 n 10 ALA 464 S LEU 465 n 11 LEU 465 S PHE 466 n 12 PHE 466 S SER 467 n 13 SER 467 S TYR 468 n 14 TYR 468 S GLU 469 n 15 GLU 469 S ALA 470 n 16 ALA 470 S THR 471 n 17 THR 471 S GLN 472 n 18 GLN 472 S PRO 473 n 19 PRO 473 S GLU 474 n 20 GLU 474 S ASP 475 n 21 ASP 475 S LEU 476 n 22 LEU 476 S GLU 477 n 23 GLU 477 S PHE 478 n 24 PHE 478 S GLN 479 n 25 GLN 479 S GLU 480 n 26 GLU 480 S GLY 481 n 27 GLY 481 S ASP 482 n 28 ASP 482 S ILE 483 n 29 ILE 483 S ILE 484 n 30 ILE 484 S LEU 485 n 31 LEU 485 S VAL 486 n 32 VAL 486 S LEU 487 n 33 LEU 487 S SER 488 n 34 SER 488 S LYS 489 n 35 LYS 489 S VAL 490 n 36 VAL 490 S ASN 491 n 37 ASN 491 S GLU 492 n 38 GLU 492 S GLU 493 n 39 GLU 493 S TRP 494 n 40 TRP 494 S LEU 495 n 41 LEU 495 S GLU 496 n 42 GLU 496 S GLY 497 n 43 GLY 497 S GLU 498 n 44 GLU 498 S SER 499 n 45 SER 499 S LYS 500 n 46 LYS 500 S GLY 501 n 47 GLY 501 S LYS 502 n 48 LYS 502 S VAL 503 n 49 VAL 503 S GLY 504 n 50 GLY 504 S ILE 505 n 51 ILE 505 S PHE 506 n 52 PHE 506 S PRO 507 n 53 PRO 507 S LYS 508 n 54 LYS 508 S VAL 509 n 55 VAL 509 S PHE 510 n 56 PHE 510 S VAL 511 n 57 VAL 511 S GLU 512 n 58 GLU 512 S ASP 513 n 59 ASP 513 S SER 514 n 60 SER 514 S ALA 515 n 61 ALA 515 S THR 516 n 62 THR 516 S SER 359 n 1 SER 359 P LYS 360 n 2 LYS 360 P PRO 361 n 3 PRO 361 P GLN 362 n 4 GLN 362 P PRO 363 n 5 PRO 363 P ALA 364 n 6 ALA 364 P VAL 365 n 7 VAL 365 P PRO 366 n 8 PRO 366 P PRO 367 n 9 PRO 367 P ARG 368 n 10 ARG 368 P PRO 369 n 11 PRO 369 P SER 370 n 12 SER 370 P ALA 371 n 13 ALA 371 P ASP 372 n 14 ASP 372 P LEU 373 n 15 LEU 373 P ILE 374 n 16 ILE 374 P LEU 375 n 17 LEU 375 P ASN 376 n 18 ASN 376 P ARG 377 n 19 ARG 377 P CYS 378 n 20 CYS 378 P SER 379 n 21 SER 379 P GLU 380 n 22 GLU 380 P SER 381 n 23 SER 381 P THR 382 n 24 THR 382 P LYS 383 n 25 LYS 383 P ARG 384 n 26 ARG 384 P LYS 385 n 27 LYS 385 P LEU 386 n 28 LEU 386 P ALA 387 n 29 ALA 387 P SER 388 n 30 SER 388 P ALA 389 n 31 ALA 389 P VAL 390 n 32 VAL 390 P author_defined_assembly 2 dimeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 identity operation 0.0000000000 0.0000000000 0.0000000000 S N SER 460 A N SER 6 S O VAL 486 A O VAL 32 S N SER 488 A N SER 34 S O GLU 496 A O GLU 42 S N GLY 497 A N GLY 43 S O GLY 504 A O GLY 50 1 S S H O LEU ILE 476 505 1.55 1 S S O H GLY GLY 497 504 1.58 1 S S H O SER VAL 460 486 1.58 2 S S H O LEU ILE 476 505 1.55 2 S S O H GLY GLY 497 504 1.60 3 S S H O LEU ILE 476 505 1.55 4 S S H O LEU ILE 476 505 1.55 4 S S O H GLY GLY 497 504 1.59 5 S S H O SER VAL 460 486 1.51 6 S S H O SER VAL 460 486 1.57 6 S S H O LEU ILE 476 505 1.58 7 S S O H LYS GLU 508 512 1.54 7 S S H O SER VAL 460 486 1.56 7 S S O H GLY GLY 497 504 1.57 7 S S H O LEU ILE 476 505 1.59 8 S S H O LEU ILE 476 505 1.54 8 S S H O SER VAL 460 486 1.58 8 S S O H GLY GLY 497 504 1.59 9 S S H O LEU ILE 476 505 1.58 9 S S H O GLY GLY 497 504 1.60 11 S S H O LEU ILE 476 505 1.59 12 S S H O ALA ASP 464 482 1.56 13 S S H O SER VAL 460 486 1.51 13 S S O H GLY GLY 497 504 1.57 13 S S H O LEU ILE 476 505 1.59 14 S S H O SER VAL 460 486 1.58 14 S S H O LEU ILE 476 505 1.58 15 S S H O SER VAL 460 486 1.57 15 S S O H GLY GLY 497 504 1.57 15 S S H O ALA ASP 464 482 1.59 16 S S H O SER VAL 460 486 1.47 16 S S H O LEU ILE 476 505 1.56 17 S S H O SER VAL 460 486 1.47 17 S S H O LEU ILE 476 505 1.55 18 S S H O SER VAL 460 486 1.53 18 S S H O LEU ILE 476 505 1.56 19 S S H O LEU ILE 476 505 1.59 20 S S H O SER VAL 460 486 1.49 20 S S H O LEU ILE 476 505 1.55 20 S S O H GLY GLY 497 504 1.57 21 S S H O LEU ILE 476 505 1.59 22 S S H O SER VAL 460 486 1.49 22 S S H O LEU ILE 476 505 1.54 22 S S O H GLY GLY 497 504 1.57 1 S SER 460 -166.36 -166.32 1 S LEU 465 -142.85 -32.28 1 S PRO 473 -61.66 -75.83 1 S ILE 483 -111.82 78.69 1 S SER 488 169.02 177.16 1 S ASN 491 -175.51 31.01 1 S GLU 492 75.03 -57.48 1 S LYS 500 71.02 77.88 1 S VAL 511 -155.52 80.09 1 S GLU 512 -63.21 0.98 1 S ASP 513 66.38 160.08 1 S SER 514 -136.19 -41.71 1 S ALA 515 -161.62 108.00 1 P GLN 362 -48.36 156.29 1 P ALA 364 -51.29 100.15 1 P PRO 367 -66.04 91.57 1 P ARG 368 -39.53 140.98 1 P PRO 369 -33.16 149.71 1 P ALA 371 -28.18 -45.82 1 P LEU 386 -97.61 -81.51 1 P ALA 389 57.70 -178.45 2 S LYS 458 -57.98 -170.07 2 S SER 460 -74.62 -163.08 2 S ALA 470 -39.52 110.27 2 S PRO 473 -68.39 -70.66 2 S ILE 483 -103.61 76.79 2 S SER 488 171.53 162.74 2 S ASN 491 -174.71 32.10 2 S GLU 492 75.26 -58.44 2 S SER 499 -89.14 -142.83 2 S LYS 500 -37.16 -86.62 2 S VAL 511 -157.47 56.80 2 S SER 514 77.80 -159.19 2 S ALA 515 75.48 82.70 2 P GLN 362 -46.67 154.31 2 P ALA 364 -50.05 101.68 2 P PRO 369 -25.57 151.34 2 P SER 370 -73.97 34.17 2 P ALA 371 65.38 -63.70 2 P ALA 389 68.55 -69.59 3 S LEU 456 -59.36 179.49 3 S LYS 458 -104.86 -72.47 3 S SER 460 -73.46 -160.43 3 S VAL 462 -160.33 118.10 3 S PRO 473 -62.00 -77.70 3 S GLU 474 -39.74 -37.65 3 S SER 488 167.47 167.17 3 S ASN 491 -176.58 34.38 3 S GLU 492 69.37 -56.68 3 S LYS 500 59.32 91.18 3 S GLU 512 33.83 -146.10 3 S SER 514 -148.15 -67.92 3 S ALA 515 62.45 149.15 3 P GLN 362 -46.72 154.95 3 P PRO 367 -51.91 88.36 3 P ALA 371 69.29 -60.19 3 P SER 379 -60.23 -89.81 3 P GLU 380 -168.55 -43.92 3 P LEU 386 -95.42 -93.83 3 P SER 388 -177.46 -36.46 4 S LEU 456 60.15 177.49 4 S LEU 465 -142.07 -5.69 4 S PRO 473 -62.12 -70.81 4 S SER 488 169.43 163.02 4 S ASN 491 -165.07 -165.19 4 S GLU 493 -148.47 48.27 4 S LYS 500 66.57 73.72 4 S VAL 511 -153.40 61.04 4 S GLU 512 -65.67 13.89 4 S ASP 513 -73.91 -165.16 4 S SER 514 -175.88 81.33 4 P GLN 362 -47.38 156.85 4 P ALA 364 -49.84 103.02 4 P PRO 367 -65.22 94.45 4 P ARG 368 -39.37 159.77 4 P PRO 369 -48.97 173.38 4 P ALA 371 70.22 -56.53 4 P SER 388 -149.53 36.44 5 S VAL 462 -160.29 104.38 5 S GLU 463 -45.45 150.81 5 S GLU 469 -65.80 98.41 5 S PRO 473 -54.40 -74.17 5 S SER 488 175.71 -175.59 5 S VAL 490 -106.33 -96.36 5 S GLU 493 -142.52 42.33 5 S LYS 500 66.85 -95.25 5 S VAL 511 -153.02 8.64 5 S GLU 512 31.93 -145.32 5 S SER 514 -147.48 -74.19 5 P GLN 362 -47.81 154.95 5 P PRO 367 -66.49 95.69 5 P ARG 368 -39.56 159.32 5 P PRO 369 -48.10 176.82 5 P ALA 371 67.23 -64.55 5 P LEU 386 -173.56 36.70 5 P ALA 387 -63.51 83.88 6 S VAL 462 -160.70 119.59 6 S SER 488 165.57 168.66 6 S ASN 491 -179.56 35.42 6 S GLU 492 73.36 -58.65 6 S LYS 500 62.98 86.83 6 S VAL 511 -153.15 57.25 6 S GLU 512 -68.36 13.38 6 S ASP 513 -67.03 -163.96 6 S SER 514 -168.60 80.73 6 S ALA 515 67.55 -71.32 6 P GLN 362 -46.60 157.24 6 P ALA 364 -50.23 103.20 6 P PRO 367 -66.03 97.29 6 P ARG 368 -39.49 160.74 6 P PRO 369 -49.21 176.45 6 P ALA 371 68.05 -62.19 6 P LEU 386 -159.83 -68.33 6 P SER 388 63.51 86.76 6 P ALA 389 -100.89 75.18 7 S LEU 465 55.33 -5.68 7 S ALA 470 -39.37 109.45 7 S GLN 472 -49.06 170.29 7 S PRO 473 -66.88 -72.77 7 S SER 488 172.11 -166.87 7 S GLU 493 -143.40 44.09 7 S LYS 500 62.02 90.12 7 S GLU 512 33.57 -144.65 7 S ASP 513 61.88 -164.71 7 S SER 514 -169.53 97.63 7 P GLN 362 -46.19 155.65 7 P PRO 367 -67.98 96.83 7 P ARG 368 -39.53 158.72 7 P PRO 369 -47.75 177.77 7 P ALA 371 70.18 -57.82 7 P ALA 389 61.77 -81.45 8 S LYS 458 -176.02 -174.82 8 S VAL 462 -160.49 119.44 8 S GLU 463 -48.86 151.38 8 S LEU 465 -144.15 -4.62 8 S GLN 472 94.09 4.01 8 S GLU 474 163.96 -30.41 8 S SER 488 166.18 170.55 8 S ASN 491 -175.65 -166.12 8 S GLU 493 -153.41 49.50 8 S LYS 500 69.59 79.61 8 S VAL 511 -152.38 52.74 8 S ALA 515 -97.74 31.33 8 P GLN 362 -47.35 155.07 8 P ALA 364 -49.95 101.12 8 P PRO 367 -49.35 93.72 8 P ARG 368 -39.83 161.10 8 P PRO 369 -49.20 173.27 8 P ALA 371 69.07 -60.10 9 S SER 460 -78.09 -165.81 9 S VAL 462 -160.46 114.52 9 S LEU 465 -143.88 -5.67 9 S PRO 473 -57.89 -75.09 9 S GLU 474 -39.83 -36.34 9 S SER 488 168.89 166.01 9 S ASN 491 -178.47 35.61 9 S GLU 492 73.10 -58.54 9 S LYS 500 53.67 97.34 9 S VAL 511 -150.60 -54.45 9 S GLU 512 39.55 20.26 9 S ASP 513 -94.09 -158.48 9 P PRO 361 -44.53 102.03 9 P ALA 364 -50.01 101.31 9 P PRO 367 -65.65 94.77 9 P ARG 368 -39.54 159.51 9 P PRO 369 -48.02 170.76 9 P ALA 371 68.43 -61.73 9 P SER 379 -66.65 -89.54 9 P GLU 380 -167.86 -43.25 10 S SER 460 -85.23 -155.43 10 S VAL 462 -160.15 104.25 10 S SER 488 166.80 164.74 10 S ASN 491 179.16 30.95 10 S GLU 492 76.87 -57.03 10 S LYS 500 48.20 104.77 10 S VAL 511 -156.68 81.25 10 S GLU 512 -63.33 10.60 10 S ASP 513 68.99 161.95 10 S SER 514 -167.76 -40.50 10 S ALA 515 61.09 157.71 10 P GLN 362 -46.04 156.96 10 P PRO 367 -68.40 87.06 10 P ARG 368 -39.79 132.22 10 P PRO 369 -24.01 158.12 10 P SER 370 -78.33 29.76 10 P ALA 371 68.01 -61.31 10 P ALA 387 -175.18 -40.63 10 P SER 388 -168.25 35.59 11 S SER 460 -70.93 -166.88 11 S ALA 470 -39.56 107.63 11 S GLN 472 -48.37 163.68 11 S PRO 473 -58.76 -78.76 11 S SER 488 168.35 164.39 11 S ASN 491 -177.59 35.08 11 S GLU 492 72.19 -58.15 11 S LYS 500 63.90 85.45 11 S VAL 511 -155.16 46.97 11 S ALA 515 -99.19 31.00 11 P GLN 362 -46.31 155.22 11 P PRO 367 -54.08 88.93 11 P PRO 369 -49.56 169.40 11 P ALA 371 68.98 -59.97 11 P LEU 386 -107.94 -84.43 11 P ALA 387 57.35 103.22 11 P ALA 389 59.03 179.40 12 S LYS 458 42.56 -163.77 12 S VAL 462 -159.43 -15.63 12 S GLU 463 59.42 142.67 12 S PRO 473 -60.74 -80.25 12 S ILE 483 -104.47 66.42 12 S SER 488 164.67 164.27 12 S ASN 491 -178.70 35.31 12 S GLU 492 73.39 -58.75 12 S LYS 500 62.73 -95.51 12 S VAL 511 -151.23 -35.66 12 S GLU 512 42.82 17.23 12 S ASP 513 54.15 157.74 12 S SER 514 -159.71 -43.16 12 P GLN 362 -46.68 156.81 12 P PRO 367 -68.93 92.14 12 P ARG 368 -39.66 144.78 12 P PRO 369 -51.74 172.82 12 P ALA 371 68.18 -62.83 12 P LYS 385 -95.44 30.49 12 P LEU 386 -172.74 37.42 12 P SER 388 -164.85 35.53 12 P ALA 389 -61.17 -177.38 13 S SER 488 168.26 170.40 13 S ASN 491 -176.10 -167.52 13 S GLU 493 -153.37 49.79 13 S SER 499 -89.94 -143.71 13 S LYS 500 -30.98 -86.43 13 S VAL 511 -156.24 50.80 13 S ALA 515 -117.39 73.77 13 P LYS 360 62.92 139.71 13 P GLN 362 -47.10 154.96 13 P ALA 364 -49.95 101.94 13 P PRO 367 -66.72 96.01 13 P ARG 368 -39.51 159.48 13 P PRO 369 -48.36 174.96 13 P ALA 371 69.15 -60.04 13 P LEU 386 -100.60 -85.29 13 P SER 388 -160.71 -43.67 13 P ALA 389 68.56 172.94 14 S SER 460 -171.53 -176.50 14 S VAL 462 -160.34 117.00 14 S PRO 473 -60.38 -78.17 14 S SER 488 173.28 -167.18 14 S VAL 490 -89.09 -91.88 14 S ASN 491 -104.60 -163.61 14 S GLU 493 -143.15 47.18 14 S LYS 500 68.36 80.35 14 S VAL 511 -148.24 52.01 14 S ALA 515 61.26 154.60 14 P GLN 362 -47.13 154.24 14 P ALA 364 -50.01 102.65 14 P PRO 367 -51.01 96.34 14 P ARG 368 -39.73 161.56 14 P PRO 369 -48.78 175.37 14 P ALA 371 67.40 -64.32 14 P LEU 386 -169.29 34.74 14 P ALA 387 -67.04 88.41 15 S LYS 458 62.63 106.75 15 S VAL 462 -160.07 -12.55 15 S GLU 463 59.03 144.47 15 S LEU 465 -140.34 -4.48 15 S PRO 473 -62.87 -72.56 15 S ILE 483 -103.38 69.06 15 S SER 488 164.34 169.77 15 S ASN 491 -175.90 -167.87 15 S GLU 493 -150.67 42.90 15 S LYS 500 51.38 100.94 15 S GLU 512 -61.07 12.30 15 S ASP 513 78.15 154.67 15 S SER 514 -151.56 -47.00 15 P GLN 362 -45.78 154.47 15 P ALA 364 -51.38 102.64 15 P PRO 367 -66.52 86.64 15 P ARG 368 -39.52 135.69 15 P PRO 369 -30.98 158.47 15 P SER 370 -76.65 36.80 15 P ALA 371 65.67 -61.74 15 P LEU 386 -87.78 -80.94 15 P SER 388 71.68 82.18 15 P ALA 389 57.90 -173.60 16 S LYS 457 58.65 106.09 16 S PRO 473 -68.84 -70.87 16 S SER 488 170.26 166.26 16 S ASN 491 -175.62 -162.89 16 S GLU 493 -151.52 38.83 16 S LYS 500 63.10 88.53 16 S VAL 511 -144.88 53.39 16 P LYS 360 62.94 138.01 16 P GLN 362 -46.05 156.99 16 P ALA 364 -53.15 108.65 16 P PRO 367 -66.75 85.06 16 P ARG 368 -39.85 130.82 16 P PRO 369 -25.80 155.75 16 P SER 370 -78.67 34.41 16 P ALA 371 65.90 -63.11 16 P ALA 387 97.00 -22.98 17 S LYS 457 -77.64 -75.90 17 S SER 488 166.44 170.54 17 S ASN 491 -175.76 36.22 17 S GLU 492 72.14 -59.05 17 S LYS 500 51.11 102.57 17 S GLU 512 42.21 -99.46 17 S ASP 513 -173.91 149.38 17 S SER 514 -154.89 -67.87 17 S ALA 515 65.15 -77.60 17 P GLN 362 -46.50 156.47 17 P ALA 364 -50.03 103.83 17 P PRO 367 -64.78 94.89 17 P ARG 368 -39.37 160.71 17 P PRO 369 -48.96 172.15 17 P ALA 371 67.52 -63.94 17 P LYS 385 -95.03 30.69 17 P LEU 386 -174.94 36.77 17 P ALA 389 64.06 128.68 18 S LEU 456 -177.59 40.35 18 S LYS 458 -69.50 -166.84 18 S SER 460 179.07 -158.51 18 S VAL 462 -160.19 118.79 18 S PRO 473 -61.70 -76.90 18 S ILE 483 -109.48 74.11 18 S SER 488 165.97 166.89 18 S ASN 491 -175.07 -167.47 18 S GLU 493 -153.06 48.13 18 S LYS 500 61.46 90.30 18 S VAL 511 -156.55 82.10 18 S GLU 512 -62.48 11.00 18 S ASP 513 69.47 134.81 18 S SER 514 171.48 39.34 18 P GLN 362 -46.11 155.32 18 P ALA 364 -51.96 101.98 18 P PRO 367 -67.72 95.51 18 P ARG 368 -39.44 158.12 18 P PRO 369 -47.74 175.45 18 P ALA 371 69.90 -57.14 18 P ARG 377 -155.64 52.69 18 P SER 379 -62.13 -81.33 18 P GLU 380 -171.48 -42.47 18 P ALA 387 -64.87 94.56 19 S SER 460 -77.21 -155.13 19 S VAL 462 -160.18 118.45 19 S ILE 483 -105.71 74.33 19 S SER 488 168.72 166.39 19 S ASN 491 -179.82 35.35 19 S GLU 492 73.60 -58.71 19 S SER 499 -93.93 -148.86 19 S LYS 500 -55.14 98.45 19 S VAL 511 -156.84 82.04 19 S GLU 512 -61.96 8.37 19 S ASP 513 67.91 160.05 19 S SER 514 -153.83 -43.87 19 P GLN 362 -46.97 154.77 19 P ALA 364 -50.10 102.80 19 P PRO 367 -65.60 95.27 19 P ARG 368 -39.40 160.04 19 P PRO 369 -49.03 171.79 19 P ALA 371 66.60 -64.82 19 P LYS 385 -97.73 34.00 19 P LEU 386 -169.20 -85.87 19 P ALA 387 48.18 27.26 19 P SER 388 179.07 -54.14 19 P ALA 389 63.01 95.63 20 S ALA 470 -39.37 109.31 20 S PRO 473 -59.87 -78.85 20 S SER 488 174.00 164.65 20 S VAL 490 -103.65 -67.91 20 S GLU 493 -141.50 45.50 20 S SER 499 -96.61 59.20 20 S LYS 500 36.27 93.37 20 S VAL 511 -155.84 45.48 20 P GLN 362 -46.75 156.47 20 P ALA 364 -49.93 102.48 20 P PRO 367 -66.79 95.88 20 P ARG 368 -39.46 159.15 20 P PRO 369 -46.29 175.65 20 P ALA 371 69.03 -59.69 20 P ALA 387 -169.57 -45.74 20 P SER 388 -147.79 21.27 20 P ALA 389 61.89 -81.20 21 S SER 460 -72.27 -168.34 21 S SER 488 171.80 -161.97 21 S ASN 491 -159.28 -51.16 21 S GLU 492 159.99 -38.50 21 S SER 499 -96.47 -148.79 21 S LYS 500 -54.05 98.79 21 S LYS 508 51.22 8.02 21 S VAL 511 -149.25 50.52 21 S ALA 515 -175.41 91.97 21 P LYS 360 -169.46 86.80 21 P PRO 361 -44.38 101.39 21 P GLN 362 -47.46 159.41 21 P ALA 364 -50.48 108.93 21 P PRO 367 -66.96 88.34 21 P ARG 368 -39.83 141.42 21 P PRO 369 -49.02 175.20 21 P ALA 371 68.06 -61.68 21 P SER 388 73.25 35.92 21 P ALA 389 56.73 177.07 22 S LYS 458 44.76 -168.27 22 S VAL 462 -160.60 117.91 22 S LEU 465 -138.56 -31.71 22 S SER 488 177.60 -169.52 22 S VAL 490 -96.82 -92.07 22 S GLU 493 -144.96 46.80 22 S LYS 500 65.91 -94.35 22 S LYS 508 52.64 6.55 22 S VAL 511 -155.03 56.62 22 S ASP 513 -68.06 -164.07 22 S SER 514 -166.47 87.79 22 P LYS 360 -170.11 140.95 22 P GLN 362 -45.93 157.46 22 P ALA 364 -49.83 102.45 22 P PRO 367 -65.11 91.34 22 P ARG 368 -39.35 159.79 22 P PRO 369 -48.38 176.00 22 P ALA 371 69.08 -61.08 22 P ALA 387 -167.83 -56.60 22 P SER 388 -152.63 42.34 22 P ALA 389 67.86 -70.93 Solution structure of the C-terminal SH3 domain of p67phox complexed with the C-terminal tail region of p47phox 1 N N 2 N N S PRO 507 A PRO 53 HELX_P S VAL 511 A VAL 57 5 1 5 P SER 370 B SER 12 HELX_P P ARG 377 B ARG 19 1 2 8 P SER 379 B SER 21 HELX_P P LEU 386 B LEU 28 1 3 8 HORMONE/GROWTH FACTOR P67PHOX, P47PHOX, SH3-PEPTIDE COMPLEX, HELIX-TURN-HELIX, HORMONE-GROWTH FACTOR COMPLEX NCF2_HUMAN UNP 1 455 P19878 QLKKGSQVEALFSYEATQPEDLEFQEGDIILVLSKVNEEWLEGECKGKVGIFPKVFVEDCAT NCF1_HUMAN UNP 2 359 P14598 SKPQPAVPPRPSADLILNRCSESTKRKLASAV 455 516 1K4U 455 516 P19878 S 1 1 62 359 390 1K4U 359 390 P14598 P 2 1 32 1 CYS engineered mutation SER 499 1K4U S P19878 UNP 499 45 1 CYS engineered mutation SER 514 1K4U S P19878 UNP 514 60 4 anti-parallel anti-parallel anti-parallel S SER 460 A SER 6 S GLU 463 A GLU 9 S ILE 483 A ILE 29 S LYS 489 A LYS 35 S LEU 495 A LEU 41 S GLU 498 A GLU 44 S VAL 503 A VAL 49 S PHE 506 A PHE 52