1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Truffault, V. Diercks, T. Ab, E. De Jong, R.N. Daniels, M.A. Kaptein, R. Folkers, G.E. Structural Proteomics in Europe (SPINE) 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 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 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 16 149 10.1016/J.STR.2007.10.018 18184592 Structure and DNA Binding of the Human Rtf1 Plus3 Domain. 2008 10.2210/pdb2bze/pdb pdb_00002bze 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 17567.150 KIAA0252 PROTEIN PLUS3, RESIDUES 228-359 1 man polymer RFT1 PLUS3 DOMAIN no no MGSSHHHHHHSSGLVPRGSHMVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVET AKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALN MGSSHHHHHHSSGLVPRGSHMVSLPEELNRVRLSRHKLERWCHMPFFAKTVTGCFVRIGIGNHNSKPVYRVAEITGVVET AKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFMKWKEAMFSAGMQLPTLDEINKKELSIKEALN 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 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 sample SELF MADE CDNA LIBRARY OF MULTIPLE HUMAN CARCINOMA CELL LINES 9606 HOMO SAPIENS 469008 ESCHERICHIA COLI BL21(DE3) RIL PET15B pdbx_database_status pdbx_nmr_software database_2 pdbx_database_status repository Initial release Version format compliance Version format compliance Structure summary Data collection Other Database references Other 1 0 2007-01-03 1 1 2011-05-08 1 2 2011-07-13 1 3 2017-05-24 1 4 2020-01-15 1 5 2023-06-14 _pdbx_database_status.status_code_cs _pdbx_database_status.status_code_mr _pdbx_nmr_software.name _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.status_code_nmr_data PDBE Y PDBE 2005-08-16 REL REL REL REL NONE LOW ENERGY 100 25 HNCO HNH-NOESY HCH-NOESY CNH-NOESY HH-NOESY HNCACO HNCACB CBCACONH HNCA HBHACONH HNCAHA CCH-COSY HCCH-TOCSY 200 mM 6.0 pH 1.0 atm 298.0 K WATER REFINEMENT ACCORDING TO RECORD PROTOCOL torsion angle dynamics 1 90% WATER/10% D2O BRUNGER,ADAMS,CLORE,DELANO,GROS, GROSSE- KUNSTLEVE,JIANG,KUSZEWSKI,NILGES, PANNU,READ, RICE,SIMONSON,WARREN refinement CNS structure solution Sparky structure solution CYANA 700 Bruker DMX MET -21 n 1 MET -21 A GLY -20 n 2 GLY -20 A SER -19 n 3 SER -19 A SER -18 n 4 SER -18 A HIS -17 n 5 HIS -17 A HIS -16 n 6 HIS -16 A HIS -15 n 7 HIS -15 A HIS -14 n 8 HIS -14 A HIS -13 n 9 HIS -13 A HIS -12 n 10 HIS -12 A SER -11 n 11 SER -11 A SER -10 n 12 SER -10 A GLY -9 n 13 GLY -9 A LEU -8 n 14 LEU -8 A VAL -7 n 15 VAL -7 A PRO -6 n 16 PRO -6 A ARG -5 n 17 ARG -5 A GLY -4 n 18 GLY -4 A SER -3 n 19 SER -3 A HIS -2 n 20 HIS -2 A MET -1 n 21 MET -1 A VAL 345 n 22 VAL 345 A SER 346 n 23 SER 346 A LEU 347 n 24 LEU 347 A PRO 348 n 25 PRO 348 A GLU 349 n 26 GLU 349 A GLU 350 n 27 GLU 350 A LEU 351 n 28 LEU 351 A ASN 352 n 29 ASN 352 A ARG 353 n 30 ARG 353 A VAL 354 n 31 VAL 354 A ARG 355 n 32 ARG 355 A LEU 356 n 33 LEU 356 A SER 357 n 34 SER 357 A ARG 358 n 35 ARG 358 A HIS 359 n 36 HIS 359 A LYS 360 n 37 LYS 360 A LEU 361 n 38 LEU 361 A GLU 362 n 39 GLU 362 A ARG 363 n 40 ARG 363 A TRP 364 n 41 TRP 364 A CYS 365 n 42 CYS 365 A HIS 366 n 43 HIS 366 A MET 367 n 44 MET 367 A PRO 368 n 45 PRO 368 A PHE 369 n 46 PHE 369 A PHE 370 n 47 PHE 370 A ALA 371 n 48 ALA 371 A LYS 372 n 49 LYS 372 A THR 373 n 50 THR 373 A VAL 374 n 51 VAL 374 A THR 375 n 52 THR 375 A GLY 376 n 53 GLY 376 A CYS 377 n 54 CYS 377 A PHE 378 n 55 PHE 378 A VAL 379 n 56 VAL 379 A ARG 380 n 57 ARG 380 A ILE 381 n 58 ILE 381 A GLY 382 n 59 GLY 382 A ILE 383 n 60 ILE 383 A GLY 384 n 61 GLY 384 A ASN 385 n 62 ASN 385 A HIS 386 n 63 HIS 386 A ASN 387 n 64 ASN 387 A SER 388 n 65 SER 388 A LYS 389 n 66 LYS 389 A PRO 390 n 67 PRO 390 A VAL 391 n 68 VAL 391 A TYR 392 n 69 TYR 392 A ARG 393 n 70 ARG 393 A VAL 394 n 71 VAL 394 A ALA 395 n 72 ALA 395 A GLU 396 n 73 GLU 396 A ILE 397 n 74 ILE 397 A THR 398 n 75 THR 398 A GLY 399 n 76 GLY 399 A VAL 400 n 77 VAL 400 A VAL 401 n 78 VAL 401 A GLU 402 n 79 GLU 402 A THR 403 n 80 THR 403 A ALA 404 n 81 ALA 404 A LYS 405 n 82 LYS 405 A VAL 406 n 83 VAL 406 A TYR 407 n 84 TYR 407 A GLN 408 n 85 GLN 408 A LEU 409 n 86 LEU 409 A GLY 410 n 87 GLY 410 A GLY 411 n 88 GLY 411 A THR 412 n 89 THR 412 A ARG 413 n 90 ARG 413 A THR 414 n 91 THR 414 A ASN 415 n 92 ASN 415 A LYS 416 n 93 LYS 416 A GLY 417 n 94 GLY 417 A LEU 418 n 95 LEU 418 A GLN 419 n 96 GLN 419 A LEU 420 n 97 LEU 420 A ARG 421 n 98 ARG 421 A HIS 422 n 99 HIS 422 A GLY 423 n 100 GLY 423 A ASN 424 n 101 ASN 424 A ASP 425 n 102 ASP 425 A GLN 426 n 103 GLN 426 A ARG 427 n 104 ARG 427 A VAL 428 n 105 VAL 428 A PHE 429 n 106 PHE 429 A ARG 430 n 107 ARG 430 A LEU 431 n 108 LEU 431 A GLU 432 n 109 GLU 432 A PHE 433 n 110 PHE 433 A VAL 434 n 111 VAL 434 A SER 435 n 112 SER 435 A ASN 436 n 113 ASN 436 A GLN 437 n 114 GLN 437 A GLU 438 n 115 GLU 438 A PHE 439 n 116 PHE 439 A THR 440 n 117 THR 440 A GLU 441 n 118 GLU 441 A SER 442 n 119 SER 442 A GLU 443 n 120 GLU 443 A PHE 444 n 121 PHE 444 A MET 445 n 122 MET 445 A LYS 446 n 123 LYS 446 A TRP 447 n 124 TRP 447 A LYS 448 n 125 LYS 448 A GLU 449 n 126 GLU 449 A ALA 450 n 127 ALA 450 A MET 451 n 128 MET 451 A PHE 452 n 129 PHE 452 A SER 453 n 130 SER 453 A ALA 454 n 131 ALA 454 A GLY 455 n 132 GLY 455 A MET 456 n 133 MET 456 A GLN 457 n 134 GLN 457 A LEU 458 n 135 LEU 458 A PRO 459 n 136 PRO 459 A THR 460 n 137 THR 460 A LEU 461 n 138 LEU 461 A ASP 462 n 139 ASP 462 A GLU 463 n 140 GLU 463 A ILE 464 n 141 ILE 464 A ASN 465 n 142 ASN 465 A LYS 466 n 143 LYS 466 A LYS 467 n 144 LYS 467 A GLU 468 n 145 GLU 468 A LEU 469 n 146 LEU 469 A SER 470 n 147 SER 470 A ILE 471 n 148 ILE 471 A LYS 472 n 149 LYS 472 A GLU 473 n 150 GLU 473 A ALA 474 n 151 ALA 474 A LEU 475 n 152 LEU 475 A ASN 476 n 153 ASN 476 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 N LEU 356 A N LEU 33 A O PHE 378 A O PHE 55 A N ILE 381 A N ILE 58 A O ARG 393 A O ARG 70 A N LEU 409 A N LEU 86 A O THR 412 A O THR 89 A N LEU 420 A N LEU 97 A O ARG 427 A O ARG 104 1 A O ASN 476 A O ASN 153 1 Y 2 A O ASN 476 A O ASN 153 1 Y 3 A O ASN 476 A O ASN 153 1 Y 4 A O ASN 476 A O ASN 153 1 Y 5 A O ASN 476 A O ASN 153 1 Y 6 A O ASN 476 A O ASN 153 1 Y 7 A O ASN 476 A O ASN 153 1 Y 8 A O ASN 476 A O ASN 153 1 Y 9 A O ASN 476 A O ASN 153 1 Y 10 A O ASN 476 A O ASN 153 1 Y 11 A O ASN 476 A O ASN 153 1 Y 12 A O ASN 476 A O ASN 153 1 Y 13 A O ASN 476 A O ASN 153 1 Y 14 A O ASN 476 A O ASN 153 1 Y 15 A O ASN 476 A O ASN 153 1 Y 16 A O ASN 476 A O ASN 153 1 Y 17 A O ASN 476 A O ASN 153 1 Y 18 A O ASN 476 A O ASN 153 1 Y 19 A O ASN 476 A O ASN 153 1 Y 20 A O ASN 476 A O ASN 153 1 Y 21 A O ASN 476 A O ASN 153 1 Y 22 A O ASN 476 A O ASN 153 1 Y 23 A O ASN 476 A O ASN 153 1 Y 24 A O ASN 476 A O ASN 153 1 Y 25 A O ASN 476 A O ASN 153 1 Y 5 A A HH21 OE1 ARG GLU 358 362 1.59 7 A A O HG1 ALA THR 371 375 1.59 11 A A OE1 HZ2 GLU LYS 443 446 1.58 14 A A HH11 OE1 ARG GLU 353 468 1.60 16 A A O HG1 ALA THR 371 375 1.59 16 A A OE2 HZ2 GLU LYS 443 446 1.60 16 A A HZ2 OE1 LYS GLU 389 443 1.60 20 A A OE2 HZ2 GLU LYS 463 466 1.59 24 A A O HG1 ALA THR 371 375 1.60 1 A A GLY GLY 410 411 -146.12 2 A A GLY GLY 410 411 -142.07 3 A A GLY GLY 410 411 -147.75 4 A A GLY GLY 410 411 -147.05 5 A A GLY GLY 410 411 -144.42 6 A A GLY GLY 410 411 -148.10 7 A A GLY GLY 410 411 -145.03 8 A A GLY GLY 410 411 -139.26 9 A A GLY GLY 410 411 -146.68 10 A A GLY GLY 410 411 -146.33 11 A A GLY GLY 410 411 -142.30 12 A A GLY GLY 410 411 -148.03 13 A A GLY GLY 410 411 -149.65 14 A A GLY GLY 410 411 -146.22 15 A A GLY GLY 410 411 -145.73 16 A A GLY GLY 410 411 -140.03 17 A A GLY GLY 410 411 -145.39 18 A A GLY GLY 410 411 -144.07 19 A A GLY GLY 410 411 -148.04 20 A A GLY GLY 410 411 -146.90 21 A A GLY GLY 410 411 -147.65 23 A A GLY GLY 410 411 -145.73 24 A A GLY GLY 410 411 -147.04 25 A A GLY GLY 410 411 -147.43 3 A ARG 353 0.090 SIDE CHAIN 3 A ARG 421 0.076 SIDE CHAIN 4 A ARG 353 0.078 SIDE CHAIN 4 A ARG 421 0.077 SIDE CHAIN 4 A ARG 427 0.080 SIDE CHAIN 5 A ARG 353 0.077 SIDE CHAIN 7 A ARG 353 0.084 SIDE CHAIN 9 A ARG 353 0.085 SIDE CHAIN 10 A ARG 380 0.122 SIDE CHAIN 10 A ARG 421 0.094 SIDE CHAIN 11 A ARG 353 0.080 SIDE CHAIN 13 A ARG 380 0.092 SIDE CHAIN 16 A ARG 353 0.078 SIDE CHAIN 16 A ARG 363 0.073 SIDE CHAIN 18 A ARG 427 0.132 SIDE CHAIN 19 A ARG -5 0.093 SIDE CHAIN 22 A ARG 421 0.074 SIDE CHAIN 23 A ARG 380 0.092 SIDE CHAIN 24 A ARG 421 0.072 SIDE CHAIN 25 A ARG 353 0.079 SIDE CHAIN 25 A ARG 427 0.093 SIDE CHAIN 7 3.75 0.60 121.00 124.75 A A A CB CG CD2 TYR TYR TYR 407 407 407 N 7 -4.54 0.60 121.00 116.46 A A A CB CG CD1 TYR TYR TYR 407 407 407 N 23 -4.46 0.60 121.00 116.54 A A A CB CG CD1 TYR TYR TYR 407 407 407 N 7 A A CG CD1 TYR TYR 407 407 -0.083 0.013 1.387 1.304 N 15 A A N CA THR THR 412 412 -0.124 0.020 1.459 1.335 N 23 A A CG CD1 TYR TYR 407 407 -0.085 0.013 1.387 1.302 N 1 A HIS -17 70.34 -175.67 1 A ARG -5 61.56 -80.79 1 A PRO 368 -60.51 -164.94 1 A PHE 369 -58.44 80.41 1 A HIS 386 173.73 -38.57 1 A SER 388 69.36 -61.68 1 A PRO 390 -66.44 87.42 1 A ASN 415 -110.41 51.93 2 A HIS -16 72.17 -37.39 2 A HIS -14 62.78 -82.47 2 A HIS -12 -84.68 -76.72 2 A SER -3 -170.79 -29.03 2 A PRO 368 -76.88 -165.10 2 A HIS 386 -165.24 -51.60 2 A SER 388 -155.81 -39.51 2 A ASN 415 -105.41 50.19 3 A HIS -15 -142.01 -77.96 3 A SER -10 73.22 -56.71 3 A HIS -2 -177.70 -173.25 3 A PRO 368 -63.45 -165.61 3 A HIS 386 -103.38 -162.59 3 A ASN 415 -98.76 52.76 4 A SER -18 70.74 -3.63 4 A HIS -17 71.21 171.58 4 A HIS -12 56.60 84.02 4 A MET -1 60.21 173.60 4 A PRO 368 -67.19 -165.01 4 A PHE 369 -58.99 104.33 4 A ASN 387 -101.09 -157.90 4 A ASN 415 -103.09 51.11 5 A SER -18 -150.07 -67.21 5 A HIS -17 60.77 79.75 5 A HIS -13 68.63 66.40 5 A HIS -12 -156.62 19.17 5 A SER -11 -61.66 81.08 5 A SER -10 157.07 88.23 5 A SER -3 -67.45 0.41 5 A MET -1 63.51 156.39 5 A HIS 366 175.12 -25.81 5 A PRO 368 -65.20 -166.38 5 A ILE 383 -116.41 78.44 5 A ASN 415 -102.18 63.98 6 A HIS -16 72.80 -66.23 6 A HIS -15 152.71 -60.69 6 A LEU -8 60.73 93.26 6 A PRO 368 -71.59 -164.96 6 A ILE 383 -105.68 79.74 6 A ASN 415 -99.52 52.35 7 A HIS -16 -93.89 -98.34 7 A HIS -12 -152.91 -40.40 7 A SER 346 -141.03 -5.49 7 A PRO 368 -44.21 -161.68 7 A PHE 369 -57.56 50.83 7 A ASN 387 -148.12 -98.83 7 A TYR 407 -101.55 -165.22 7 A ASN 415 -104.45 52.26 8 A PRO 368 -71.51 -166.43 8 A HIS 386 -161.56 -44.66 8 A SER 388 -174.40 -70.76 8 A ASN 415 -103.63 51.04 9 A HIS -15 69.01 -69.20 9 A HIS -14 -136.47 -62.38 9 A HIS -13 -156.49 -57.71 9 A HIS -12 68.22 166.15 9 A SER -3 -173.26 -46.22 9 A HIS -2 -118.53 -164.33 9 A PRO 368 -56.61 -164.16 9 A PHE 369 -58.08 68.37 9 A ASN 387 -123.37 -90.35 9 A ASN 415 -99.98 50.48 10 A HIS -17 55.76 80.41 10 A LEU -8 -89.00 39.95 10 A ARG -5 62.38 179.47 10 A PRO 368 -72.82 -169.68 10 A ASN 415 -99.65 52.81 11 A SER -18 -91.62 31.78 11 A HIS -13 -160.55 119.27 11 A SER -3 73.57 -3.07 11 A MET -1 64.03 156.90 11 A PRO 368 -71.53 -165.64 11 A ASN 387 65.63 -82.10 11 A ASN 415 -101.50 50.98 12 A SER -18 -178.51 -70.98 12 A HIS -15 -124.27 -56.23 12 A HIS -14 64.81 161.79 12 A MET -1 63.35 154.21 12 A ASN 415 -108.75 50.52 13 A SER -11 72.79 -71.57 13 A LEU -8 61.32 85.90 13 A HIS 386 -156.43 23.57 13 A ASN 387 -114.00 -168.60 14 A HIS -14 73.41 84.42 14 A HIS -13 -143.56 18.27 14 A SER -10 56.18 -91.42 14 A LEU -8 52.40 83.88 14 A MET -1 58.11 178.09 14 A PRO 368 -62.95 -165.68 14 A ASN 385 -118.73 63.75 14 A ASN 415 -101.55 52.93 15 A HIS -15 -131.58 -154.61 15 A ARG -5 -85.57 34.61 15 A SER -3 -150.93 14.69 15 A PRO 368 -54.02 -163.79 15 A PHE 369 -57.76 60.32 15 A ASN 387 -176.63 -174.00 15 A ASN 415 -106.96 51.04 16 A HIS -12 -142.98 -52.85 16 A ARG -5 68.46 -37.70 16 A PRO 368 -64.27 -164.72 16 A PHE 369 -58.48 88.75 16 A ASN 415 -107.54 51.85 17 A SER -18 73.12 -66.71 17 A HIS -17 63.27 110.45 17 A SER -11 75.62 103.55 17 A PRO -6 -75.44 -164.39 17 A ILE 383 -116.91 78.92 17 A ASN 387 66.60 -80.93 17 A ASN 415 -97.46 52.85 18 A PRO 368 -72.28 -164.35 18 A PHE 369 -57.26 97.29 18 A ASN 387 63.78 -85.89 18 A ASN 415 -100.80 50.04 19 A HIS -16 73.84 78.69 19 A LEU -8 53.60 79.67 19 A MET -1 61.04 154.35 19 A PRO 368 -73.38 -166.17 19 A HIS 386 -136.70 -37.33 19 A ASN 415 -104.75 60.77 20 A HIS -13 -167.05 102.19 20 A HIS -12 -87.24 -90.19 20 A SER -11 -98.85 -74.36 20 A PRO -6 -36.95 132.34 20 A HIS -2 -177.04 -169.35 20 A PRO 368 -64.94 -165.24 20 A PHE 369 -59.04 94.75 20 A ASN 415 -108.88 53.87 21 A SER -18 -151.65 80.27 21 A HIS -2 -122.78 -166.83 21 A PRO 368 -74.76 -165.65 21 A PHE 369 -58.23 101.87 21 A ASN 415 -101.46 51.83 22 A PRO 368 -55.75 -165.09 22 A PHE 369 -59.92 71.73 22 A ASN 387 -86.27 -70.39 22 A SER 388 -177.04 -44.60 22 A THR 403 -106.13 -168.28 23 A HIS -15 58.32 -81.97 23 A SER -3 -79.46 28.91 23 A HIS 366 -177.64 -32.13 23 A TYR 407 -111.37 -169.91 23 A ASN 415 -101.43 52.96 24 A HIS -14 -153.30 -52.88 24 A SER -10 59.08 -79.09 24 A ASN 387 58.27 -86.84 24 A ASN 415 -103.60 49.34 25 A HIS -15 51.04 -93.65 25 A HIS -14 -174.03 90.82 25 A SER -11 70.32 160.72 25 A LEU -8 57.87 71.74 25 A SER -3 -68.89 15.73 25 A PRO 368 -56.86 -164.08 25 A PHE 369 -58.33 71.29 25 A ASN 387 69.77 -87.14 25 A ASN 415 -98.77 51.85 NMR Structure of human RTF1 PLUS3 domain. 1 N N A LEU 347 A LEU 24 HELX_P A VAL 354 A VAL 31 1 1 8 A SER 357 A SER 34 HELX_P A CYS 365 A CYS 42 1 2 9 A PHE 370 A PHE 47 HELX_P A THR 375 A THR 52 1 3 6 A ARG 430 A ARG 107 HELX_P A PHE 433 A PHE 110 5 4 4 A THR 440 A THR 117 HELX_P A GLY 455 A GLY 132 1 5 16 A THR 460 A THR 137 HELX_P A LEU 475 A LEU 152 1 6 16 TRANSCRIPTION REGULATION HUMAN RTF1 PLUS3 DOMAIN, TRANSCRIPTION, ELONGATION, PAF1 COMPLEX, HISTONE H3 METHYLATION, H2B UBIQUITINATION, CDC73, LEO1, CTR9, PLUS3 DOMAIN, TRANSCRIPTION REGULATION, STRUCTURAL PROTEOMICS IN EUROPE, SPINE, STRUCTURAL GENOMICS 2BZE PDB 1 2BZE Q92541_HUMAN UNP 1 Q92541 -21 -1 2BZE -21 -1 2BZE A 1 1 21 228 359 2BZE 345 476 Q92541 A 2 22 153 5 parallel anti-parallel anti-parallel anti-parallel A ARG 355 A ARG 32 A LEU 356 A LEU 33 A PHE 378 A PHE 55 A GLY 382 A GLY 59 A TYR 392 A TYR 69 A LEU 409 A LEU 86 A THR 412 A THR 89 A ARG 421 A ARG 98 A GLN 426 A GLN 103 A PHE 429 A PHE 106 1 P 1