RAD54L - Knowledge

242: 219: 116: 141: 493: 248: 147: 1105:

supercoils ahead of the replication protein movement and negative supercoils trailing the complex. The interaction with RAD51 enhances the ability of RAD54 to perform this supercoiling and strained opening activity. These proteins also work together to form DNA joints, with RAD54 specifically extending the joints and stabilizing the

1104:

The interaction between RAD54 and RAD51, another member of the RAD52 epistasis group, in humans is mediated by the N-terminal domain of the hRAD54 protein. This N-terminal end interacts with both the free and bound ends of the RAD51 protein. RAD54 moves along the length of the DNA, producing positive

1125:

protein products to cause tumor suppression. This leads to the assumption that other members of the RAD52 epistasis group, including RAD54, are also important in tumor development and suppression because of their homologous relationship. RAD54’s involvement as a necessary recombinational protein is

1082:

Human RAD54, or hRAD54, is linked to chromosome 1p32. It encodes a protein, composed of 747 amino acids, that is 52% identical to its yeast counterpart. These two proteins also share many functional similarities. The RAD54 encoded product is a member of the Swi2/Snf2 protein family, a member of the

1045:

Rad54, a protein known to be involved in the homologous recombination and repair of DNA. This protein has been shown to play a role in homologous recombination related repair of DNA double-strand breaks. The binding of this protein to double-strand DNA induces a DNA topological change, which is

1065:

epistasis group, which additionally includes RAD51, RAD52, RAD55, and RAD57 factors. This group is believed to be involved in DNA recombination events and repair mechanisms, especially those involving double-stranded DNA breaks during both

1091:

activities. hRAD54 transcripts are expressed primarily in the testis and thymus, with lower levels being found also in the small intestines, colon, breast, and prostate. Mutants of hRAD54 are extremely sensitive to x-rays, as well as

1381:

Rasio D, Murakumo Y, Robbins D, Roth T, Silver A, Negrini M, et al. (June 1997). "Characterization of the human homologue of RAD54: a gene located on chromosome 1p32 at a region of high loss of heterozygosity in breast tumors".

1261:

Kanaar R, Troelstra C, Swagemakers SM, Essers J, Smit B, Franssen JH, et al. (July 1996). "Human and mouse homologs of the Saccharomyces cerevisiae RAD54 DNA repair gene: evidence for functional conservation".

1592:

Pluth JM, Fried LM, Kirchgessner CU (March 2001). "Severe combined immunodeficient cells expressing mutant hRAD54 exhibit a marked DNA double-strand break repair and error-prone chromosome repair defect".

1162:

was more than 10-fold higher than in the wild-type mice. This finding, and additional experimental findings, indicated that the RAD54/RAD54B proteins have a role in maintaining a stable

1563:

Bello MJ, de Campos JM, Vaquero J, Ruiz-Barnés P, Kusak ME, Sarasa JL, Rey JA (January 2000). "hRAD54 gene and 1p high-resolution deletion-mapping analyses in oligodendrogliomas".

1867:

Al-Wahiby S, Wong HP, Slijepcevic P (October 2005). "Shortened telomeres in murine scid cells expressing mutant hRAD54 coincide with reduction in recombination at telomeres".

255: 154: 1830:, Czyzewski BK, Alexeev AA, Mazin AV, Kowalczykowski SC, Pavletich NP (April 2005). "Structure of the SWI2/SNF2 chromatin-remodeling domain of eukaryotic Rad54". 1491:

Matsuda M, Miyagawa K, Takahashi M, Fukuda T, Kataoka T, Asahara T, et al. (June 1999). "Mutations in the RAD54 recombination gene in primary cancers".

1087:. These protein products have homology in seven conserved helicase motifs. Purified hRAD54 has been shown to specifically exhibit DNA-dependent ATPase and 1790:

Kim J, Bhinge AA, Morgan XC, Iyer VR (January 2005). "Mapping DNA-protein interactions in large genomes by sequence tag analysis of genomic enrichment".

731: 77: 1126:

supported in the finding that there are mutations of RAD54 in a small percentage of studied breast and colon carcinomas, as well as several lymphomas.

712: 1243: 1225: 1988: 1941:

Akiyama K, Yusa K, Hashimoto H, Poonepalli A, Hande MP, Kakazu N, et al. (November 2006). "Rad54 is dispensable for the ALT pathway".

1109:

formed. An alternative function of RAD54 may be to remove RAD51 proteins after joints formation and recombination initiation has occurred.

1546: 1529: 241: 970: 963: 218: 1057:

in many organisms. Without functional RAD54, tumor development is more likely. RAD54 was initially described in the budding yeast

1318: 1212: 1191: 1159: 1208: 140: 115: 1187: 57: 254: 153: 1096:(MMS). These mutants are most likely defective in both the spontaneous and induced mitotic recombination processes. 247: 146: 1896:

Bugreev DV, Mazina OM, Mazin AV (August 2006). "Rad54 protein promotes branch migration of Holliday junctions".

1747:"Implications of a RAD54L polymorphism (2290C/T) in human meningiomas as a risk factor and/or a genetic marker" 1050: 1041: 776: 65: 1155: 1093: 757: 1039:

The protein encoded by this gene belongs to the DEAD-like helicase superfamily, and shares similarity with

1530:"Analysis of the RAD54 gene on chromosome 1p as a potential tumor-suppressor gene in parathyroid adenomas" 1117:

Defects in RAD51 are known to be associated with tumor development. Normally, RAD51 interacts with both

1616:"The architecture of the human Rad54-DNA complex provides evidence for protein translocation along DNA" 1905: 1627: 129: 44: 1827: 942: 938: 917: 909: 879: 875: 854: 846: 1966: 1929: 1855: 1815: 1516: 1297: 89: 48:, HR54, RAD54A, hHR54, hRAD54, RAD54-like (S. cerevisiae), RAD54 like (S. cerevisiae), RAD54 like 946: 913: 883: 850: 1337:"Rad54/Rad54B deficiency is associated to increased chromosome breakage in mouse spermatocytes" 1958: 1921: 1884: 1847: 1807: 1778: 1733: 1698: 1655: 1602: 1580: 1551: 1508: 1479: 1448:"The human RAD54 recombinational DNA repair protein is a double-stranded DNA-dependent ATPase" 1434: 1391: 1358: 1289: 37: 1950: 1913: 1876: 1839: 1799: 1768: 1758: 1723: 1688: 1680: 1669:"E2F integrates cell cycle progression with DNA repair, replication, and G(2)/M checkpoints" 1645: 1635: 1572: 1541: 1500: 1469: 1459: 1424: 1416: 1348: 1279: 1271: 492: 334: 265: 209: 164: 85: 309: 1909: 1667:

Ren B, Cam H, Takahashi Y, Volkert T, Terragni J, Young RA, Dynlacht BD (January 2002).

1631: 1773: 1746: 1693: 1668: 1576: 1429: 1404: 1275: 646: 641: 636: 631: 626: 621: 616: 611: 606: 590: 585: 580: 564: 559: 554: 549: 544: 539: 534: 1982: 1954: 1650: 1615: 1088: 521: 1970: 1520: 1933: 1859: 1819: 1301: 1143: 327: 106: 69: 1074:. Recently a human homologue of the yeast RAD54 was discovered and termed hRAD54. 1880: 93: 1248:

National Center for Biotechnology Information, U.S. National Library of Medicine

1230:

National Center for Biotechnology Information, U.S. National Library of Medicine

1620:

Proceedings of the National Academy of Sciences of the United States of America

1046:

thought to facilitate homologous DNA pairing, and stimulate DNA recombination.

410: 1135: 1054: 226: 123: 73: 1464: 1447: 1446:

Swagemakers SM, Essers J, de Wit J, Hoeijmakers JH, Kanaar R (October 1998).

1420: 1353: 1336: 1163: 676: 470: 348: 293: 280: 192: 179: 81: 1962: 1925: 1888: 1851: 1811: 1782: 1737: 1728: 1711: 1702: 1659: 1640: 1606: 1584: 1555: 1512: 1504: 1362: 1335:

Russo A, Cordelli E, Salvitti T, Palumbo E, Pacchierotti F (October 2018).

1763: 1547:

10.1002/(SICI)1097-0215(19990924)83:1<80::AID-IJC15>3.0.CO;2-E

1483: 1438: 1395: 1293: 1010: 1005: 994: 821: 802: 1917: 1712:"Homologous DNA pairing by human recombination factors Rad51 and Rad54" 1684: 1139: 1071: 1067: 1026: 788: 743: 1745:

Leone PE, Mendiola M, Alonso J, Paz-y-Miño C, Pestaña A (March 2003).

1403:

Golub EI, Kovalenko OV, Gupta RC, Ward DC, Radding CM (October 1997).

1803: 1474: 1284: 1106: 1084: 978: 698: 1843: 1122: 1118: 1062: 661: 657: 1710:

Sigurdsson S, Van Komen S, Petukhova G, Sung P (November 2002).

1033: 61: 501: 1405:"Interaction of human recombination proteins Rad51 and Rad54" 1528:

Carling T, Imanishi Y, Gaz RD, Arnold A (September 1999).

317: 622:

double-strand break repair via homologous recombination

1614:

Ristic D, Wyman C, Paulusma C, Kanaar R (July 2001).

482: 931: 902: 868: 839: 1204: 1202: 1200: 1183: 1181: 1179: 1061:as being a member of the evolutionarily conserved 264: 163: 1319:"Entrez Gene: RAD54L RAD54-like (S. cerevisiae)" 1049:RAD54 is one of the key proteins necessary for 1023:DNA repair and recombination protein RAD54-like 16:Protein-coding gene in the species Homo sapiens 1209:GRCm38: Ensembl release 89: ENSMUSG00000028702 8: 1330: 1328: 1188:GRCh38: Ensembl release 89: ENSG00000085999 672: 517: 305: 204: 101: 1832:Nature Structural & Molecular Biology 1772: 1762: 1727: 1692: 1649: 1639: 1545: 1473: 1463: 1428: 1352: 1283: 449:fetal liver hematopoietic progenitor cell 1313: 1311: 637:cellular response to DNA damage stimulus 535:ATP-dependent DNA/DNA annealing activity 1175: 1113:Inactivation and cancer susceptibility 18: 1158:frequency detected at metaphase 1 of 269: 230: 225: 168: 127: 122: 7: 1716:The Journal of Biological Chemistry 1452:The Journal of Biological Chemistry 928: 899: 865: 836: 812: 793: 767: 748: 722: 703: 487: 405: 343: 322: 14: 1029:that in humans is encoded by the 1955:10.1111/j.1365-2443.2006.01020.x 1565:Cancer Genetics and Cytogenetics 491: 253: 246: 240: 217: 152: 145: 139: 114: 1534:International Journal of Cancer 1154:knockout mice, the spontaneous 627:determination of adult lifespan 607:response to ionizing radiation 502:More reference expression data 471:More reference expression data 391:right hemisphere of cerebellum 1: 1577:10.1016/S0165-4608(99)00122-3 1276:10.1016/S0960-9822(02)00606-1 1134:The frequency of spontaneous 238: 137: 1881:10.1016/j.mrfmmm.2005.04.008 1989:Genes on human chromosome 1 1146:of both wild type mice and 2005: 617:double-strand break repair 591:protein-containing complex 383:mucosa of transverse colon 1244:"Mouse PubMed Reference:" 1226:"Human PubMed Reference:" 1009: 1004: 1000: 993: 977: 971:Chr 4: 115.95 – 115.98 Mb 958: 935: 906: 895: 872: 843: 832: 819: 815: 800: 796: 787: 774: 770: 755: 751: 742: 729: 725: 710: 706: 697: 682: 675: 671: 655: 520: 516: 499: 490: 481: 468: 417: 408: 355: 346: 316: 308: 304: 287: 274: 237: 216: 207: 203: 186: 173: 136: 113: 104: 100: 55: 52: 42: 35: 30: 26: 21: 1465:10.1074/jbc.273.43.28292 1059:Saccharomyces cerevisiae 1051:homologous recombination 1042:Saccharomyces cerevisiae 1673:Genes & Development 1094:methyl methanesulfonate 1083:Swi2/Snf2 subfamily of 964:Chr 1: 46.25 – 46.28 Mb 632:chromosome organization 1729:10.1074/jbc.M208004200 1641:10.1073/pnas.151056798 1505:10.1038/sj.onc.1202692 1421:10.1093/nar/25.20.4106 1409:Nucleic Acids Research 1150:knockout mice. In the 1764:10.1186/1471-2407-3-6 1354:10.1093/mutage/gey027 1166:during male meiosis. 1156:chromosome aberration 445:mandibular prominence 387:cerebellar hemisphere 1142:was measured in the 441:maxillary prominence 395:gastrocnemius muscle 232:Chromosome 4 (mouse) 130:Chromosome 1 (human) 1918:10.1038/nature04889 1910:2006Natur.442..590B 1722:(45): 42790–42794. 1632:2001PNAS...98.8454R 1458:(43): 28292–28297. 371:ganglionic eminence 1685:10.1101/gad.949802 777:ENSMUSG00000028702 600:Biological process 574:Cellular component 555:hydrolase activity 545:nucleotide binding 528:Molecular function 437:tibiofemoral joint 94:RAD54L - orthologs 1949:(11): 1305–1315. 1904:(7102): 590–593. 1869:Mutation Research 1626:(15): 8454–8460. 1499:(22): 3427–3430. 1415:(20): 4106–4110. 1390:(12): 2378–2383. 1020: 1019: 1016: 1015: 989: 988: 954: 953: 925: 924: 891: 890: 862: 861: 828: 827: 809: 808: 783: 782: 764: 763: 738: 737: 719: 718: 667: 666: 612:DNA recombination 565:helicase activity 512: 511: 508: 507: 477: 476: 464: 463: 402: 401: 300: 299: 199: 198: 1996: 1974: 1937: 1892: 1875:(1–2): 134–142. 1863: 1823: 1804:10.1038/nmeth726 1786: 1776: 1766: 1741: 1731: 1706: 1696: 1663: 1653: 1643: 1610: 1601:(6): 2649–2655. 1588: 1559: 1549: 1524: 1487: 1477: 1467: 1442: 1432: 1399: 1367: 1366: 1356: 1332: 1323: 1322: 1315: 1306: 1305: 1287: 1258: 1252: 1251: 1240: 1234: 1233: 1222: 1216: 1206: 1195: 1185: 1002: 1001: 973: 966: 949: 929: 920: 900: 896:RefSeq (protein) 886: 866: 857: 837: 813: 794: 768: 749: 723: 704: 673: 518: 504: 495: 488: 473: 457:genital tubercle 421:primitive streak 413: 411:Top expressed in 406: 367:ventricular zone 351: 349:Top expressed in 344: 323: 306: 296: 283: 272: 257: 250: 244: 233: 221: 205: 195: 182: 171: 156: 149: 143: 132: 118: 102: 96: 47: 40: 19: 2004: 2003: 1999: 1998: 1997: 1995: 1994: 1993: 1979: 1978: 1977: 1940: 1895: 1866: 1844:10.1038/nsmb919 1826: 1789: 1744: 1709: 1666: 1613: 1595:Cancer Research 1591: 1562: 1527: 1490: 1445: 1402: 1384:Cancer Research 1380: 1376: 1374:Further reading 1371: 1370: 1334: 1333: 1326: 1317: 1316: 1309: 1264:Current Biology 1260: 1259: 1255: 1242: 1241: 1237: 1224: 1223: 1219: 1207: 1198: 1186: 1177: 1172: 1132: 1115: 1102: 1080: 1011:View/Edit Mouse 1006:View/Edit Human 969: 962: 959:Location (UCSC) 945: 941: 937: 916: 912: 908: 882: 878: 874: 853: 849: 845: 758:ENSG00000085999 651: 595: 569: 550:protein binding 500: 469: 460: 455: 451: 447: 443: 439: 435: 431: 427: 423: 409: 398: 393: 389: 385: 381: 377: 373: 369: 365: 361: 347: 291: 278: 270: 260: 259: 258: 251: 231: 208:Gene location ( 190: 177: 169: 159: 158: 157: 150: 128: 105:Gene location ( 56: 43: 36: 17: 12: 11: 5: 2002: 2000: 1992: 1991: 1981: 1980: 1976: 1975: 1943:Genes to Cells 1938: 1893: 1864: 1838:(4): 350–356. 1824: 1792:Nature Methods 1787: 1742: 1707: 1679:(2): 245–256. 1664: 1611: 1589: 1571:(2): 142–147. 1560: 1525: 1488: 1443: 1400: 1377: 1375: 1372: 1369: 1368: 1347:(4): 323–332. 1324: 1307: 1270:(7): 828–838. 1253: 1235: 1217: 1196: 1174: 1173: 1171: 1168: 1138:breaks during 1131: 1128: 1114: 1111: 1101: 1098: 1079: 1076: 1018: 1017: 1014: 1013: 1008: 998: 997: 991: 990: 987: 986: 984: 982: 975: 974: 967: 960: 956: 955: 952: 951: 933: 932: 926: 923: 922: 904: 903: 897: 893: 892: 889: 888: 870: 869: 863: 860: 859: 841: 840: 834: 830: 829: 826: 825: 817: 816: 810: 807: 806: 798: 797: 791: 785: 784: 781: 780: 772: 771: 765: 762: 761: 753: 752: 746: 740: 739: 736: 735: 727: 726: 720: 717: 716: 708: 707: 701: 695: 694: 689: 684: 680: 679: 669: 668: 665: 664: 653: 652: 650: 649: 644: 639: 634: 629: 624: 619: 614: 609: 603: 601: 597: 596: 594: 593: 588: 583: 577: 575: 571: 570: 568: 567: 562: 557: 552: 547: 542: 537: 531: 529: 525: 524: 514: 513: 510: 509: 506: 505: 497: 496: 485: 479: 478: 475: 474: 466: 465: 462: 461: 459: 458: 454: 450: 446: 442: 438: 434: 433:tail of embryo 430: 426: 422: 418: 415: 414: 403: 400: 399: 397: 396: 392: 388: 384: 380: 376: 372: 368: 364: 360: 356: 353: 352: 340: 339: 331: 320: 314: 313: 310:RNA expression 302: 301: 298: 297: 289: 285: 284: 276: 273: 268: 262: 261: 252: 245: 239: 235: 234: 229: 223: 222: 214: 213: 201: 200: 197: 196: 188: 184: 183: 175: 172: 167: 161: 160: 151: 144: 138: 134: 133: 126: 120: 119: 111: 110: 98: 97: 54: 50: 49: 41: 33: 32: 28: 27: 24: 23: 15: 13: 10: 9: 6: 4: 3: 2: 2001: 1990: 1987: 1986: 1984: 1972: 1968: 1964: 1960: 1956: 1952: 1948: 1944: 1939: 1935: 1931: 1927: 1923: 1919: 1915: 1911: 1907: 1903: 1899: 1894: 1890: 1886: 1882: 1878: 1874: 1870: 1865: 1861: 1857: 1853: 1849: 1845: 1841: 1837: 1833: 1829: 1825: 1821: 1817: 1813: 1809: 1805: 1801: 1797: 1793: 1788: 1784: 1780: 1775: 1770: 1765: 1760: 1756: 1752: 1748: 1743: 1739: 1735: 1730: 1725: 1721: 1717: 1713: 1708: 1704: 1700: 1695: 1690: 1686: 1682: 1678: 1674: 1670: 1665: 1661: 1657: 1652: 1647: 1642: 1637: 1633: 1629: 1625: 1621: 1617: 1612: 1608: 1604: 1600: 1596: 1590: 1586: 1582: 1578: 1574: 1570: 1566: 1561: 1557: 1553: 1548: 1543: 1539: 1535: 1531: 1526: 1522: 1518: 1514: 1510: 1506: 1502: 1498: 1494: 1489: 1485: 1481: 1476: 1471: 1466: 1461: 1457: 1453: 1449: 1444: 1440: 1436: 1431: 1426: 1422: 1418: 1414: 1410: 1406: 1401: 1397: 1393: 1389: 1385: 1379: 1378: 1373: 1364: 1360: 1355: 1350: 1346: 1342: 1338: 1331: 1329: 1325: 1320: 1314: 1312: 1308: 1303: 1299: 1295: 1291: 1286: 1281: 1277: 1273: 1269: 1265: 1257: 1254: 1249: 1245: 1239: 1236: 1231: 1227: 1221: 1218: 1214: 1210: 1205: 1203: 1201: 1197: 1193: 1189: 1184: 1182: 1180: 1176: 1169: 1167: 1165: 1161: 1157: 1153: 1149: 1145: 1144:spermatocytes 1141: 1137: 1129: 1127: 1124: 1120: 1112: 1110: 1108: 1099: 1097: 1095: 1090: 1086: 1077: 1075: 1073: 1069: 1064: 1060: 1056: 1052: 1047: 1044: 1043: 1037: 1035: 1032: 1028: 1024: 1012: 1007: 1003: 999: 996: 992: 985: 983: 980: 976: 972: 968: 965: 961: 957: 950: 948: 944: 940: 934: 930: 927: 921: 919: 915: 911: 905: 901: 898: 894: 887: 885: 881: 877: 871: 867: 864: 858: 856: 852: 848: 842: 838: 835: 833:RefSeq (mRNA) 831: 824: 823: 818: 814: 811: 805: 804: 799: 795: 792: 790: 786: 779: 778: 773: 769: 766: 760: 759: 754: 750: 747: 745: 741: 734: 733: 728: 724: 721: 715: 714: 709: 705: 702: 700: 696: 693: 690: 688: 685: 681: 678: 674: 670: 663: 659: 654: 648: 645: 643: 640: 638: 635: 633: 630: 628: 625: 623: 620: 618: 615: 613: 610: 608: 605: 604: 602: 599: 598: 592: 589: 587: 584: 582: 579: 578: 576: 573: 572: 566: 563: 561: 558: 556: 553: 551: 548: 546: 543: 541: 538: 536: 533: 532: 530: 527: 526: 523: 522:Gene ontology 519: 515: 503: 498: 494: 489: 486: 484: 480: 472: 467: 456: 452: 448: 444: 440: 436: 432: 428: 424: 420: 419: 416: 412: 407: 404: 394: 390: 386: 382: 378: 374: 370: 366: 362: 358: 357: 354: 350: 345: 342: 341: 338: 336: 332: 330: 329: 325: 324: 321: 319: 315: 311: 307: 303: 295: 290: 286: 282: 277: 267: 263: 256: 249: 243: 236: 228: 224: 220: 215: 211: 206: 202: 194: 189: 185: 181: 176: 166: 162: 155: 148: 142: 135: 131: 125: 121: 117: 112: 108: 103: 99: 95: 91: 87: 83: 79: 75: 71: 67: 63: 59: 51: 46: 39: 34: 29: 25: 20: 1946: 1942: 1901: 1897: 1872: 1868: 1835: 1831: 1798:(1): 47–53. 1795: 1791: 1754: 1750: 1719: 1715: 1676: 1672: 1623: 1619: 1598: 1594: 1568: 1564: 1540:(1): 80–82. 1537: 1533: 1496: 1492: 1455: 1451: 1412: 1408: 1387: 1383: 1344: 1340: 1267: 1263: 1256: 1247: 1238: 1229: 1220: 1152:Rad54/Rad54B 1151: 1148:Rad54/Rad54B 1147: 1133: 1116: 1103: 1089:supercoiling 1081: 1058: 1048: 1040: 1038: 1030: 1022: 1021: 943:NP_001116431 939:NP_001116430 936: 918:NP_001357695 910:NP_001136020 907: 880:NM_001122959 876:NM_001122958 873: 855:NM_001370766 847:NM_001142548 844: 820: 801: 775: 756: 730: 711: 691: 686: 429:otic vesicle 425:otic placode 363:right testis 333: 326: 292:115,980,887 279:115,951,461 53:External IDs 1341:Mutagenesis 581:nucleoplasm 560:ATP binding 540:DNA binding 359:left testis 271:4|4 D1 191:46,278,480 178:46,246,461 31:Identifiers 1751:BMC Cancer 1215:, May 2017 1194:, May 2017 1170:References 1136:chromosome 1078:Human gene 1055:DNA repair 642:DNA repair 337:(ortholog) 74:HomoloGene 1475:1765/8917 1285:1765/3104 1164:karyotype 947:NP_033041 914:NP_003570 884:NM_009015 851:NM_003579 677:Orthologs 82:GeneCards 1983:Category 1971:34879148 1963:17054727 1926:16862129 1889:15975611 1852:15806108 1828:Thomä NH 1812:15782160 1783:12614485 1738:12205100 1703:11799067 1660:11459989 1607:11289143 1585:10640146 1556:10449612 1521:36652599 1513:10362365 1493:Oncogene 1363:30204892 1211:– 1190:– 1100:Function 995:Wikidata 656:Sources: 453:epiblast 379:testicle 1934:4324847 1906:Bibcode 1860:3226377 1820:6135437 1628:Bibcode 1484:9774452 1439:9321665 1396:9192813 1302:2195913 1294:8805304 1213:Ensembl 1192:Ensembl 1160:meiosis 1140:meiosis 1130:Meiosis 1107:D-loops 1085:ATPases 1072:meiosis 1068:mitosis 1027:protein 789:UniProt 744:Ensembl 683:Species 662:QuickGO 647:meiosis 586:nucleus 312:pattern 38:Aliases 1969: 1961: 1932: 1924: 1898:Nature 1887: 1858: 1850: 1818: 1810: 1781: 1774:152652 1771: 1736: 1701: 1694:155321 1691: 1658: 1648: 1605: 1583: 1554: 1519: 1511: 1482: 1437: 1430:147015 1427: 1394: 1361: 1300: 1292: 1031:RAD54L 981:search 979:PubMed 822:P70270 803:Q92698 699:Entrez 483:BioGPS 170:1p34.1 86:RAD54L 70:894697 62:603615 45:RAD54L 22:RAD54L 1967:S2CID 1930:S2CID 1856:S2CID 1816:S2CID 1757:: 6. 1651:37457 1517:S2CID 1298:S2CID 1123:BRCA2 1119:BRCA1 1063:RAD52 1025:is a 732:19366 692:Mouse 687:Human 658:Amigo 375:gonad 335:Mouse 328:Human 275:Start 210:Mouse 174:Start 107:Human 78:48227 1959:PMID 1922:PMID 1885:PMID 1848:PMID 1808:PMID 1779:PMID 1734:PMID 1699:PMID 1656:PMID 1603:PMID 1581:PMID 1552:PMID 1509:PMID 1480:PMID 1435:PMID 1392:PMID 1359:PMID 1290:PMID 1121:and 1070:and 1053:and 1034:gene 713:8438 318:Bgee 266:Band 227:Chr. 165:Band 124:Chr. 58:OMIM 1951:doi 1914:doi 1902:442 1877:doi 1873:578 1840:doi 1800:doi 1769:PMC 1759:doi 1724:doi 1720:277 1689:PMC 1681:doi 1646:PMC 1636:doi 1573:doi 1569:116 1542:doi 1501:doi 1470:hdl 1460:doi 1456:273 1425:PMC 1417:doi 1349:doi 1280:hdl 1272:doi 288:End 187:End 90:OMA 66:MGI 1985:: 1965:. 1957:. 1947:11 1945:. 1928:. 1920:. 1912:. 1900:. 1883:. 1871:. 1854:. 1846:. 1836:12 1834:. 1814:. 1806:. 1794:. 1777:. 1767:. 1753:. 1749:. 1732:. 1718:. 1714:. 1697:. 1687:. 1677:16 1675:. 1671:. 1654:. 1644:. 1634:. 1624:98 1622:. 1618:. 1599:61 1597:. 1579:. 1567:. 1550:. 1538:83 1536:. 1532:. 1515:. 1507:. 1497:18 1495:. 1478:. 1468:. 1454:. 1450:. 1433:. 1423:. 1413:25 1411:. 1407:. 1388:57 1386:. 1357:. 1345:33 1343:. 1339:. 1327:^ 1310:^ 1296:. 1288:. 1278:. 1266:. 1246:. 1228:. 1199:^ 1178:^ 1036:. 660:/ 294:bp 281:bp 193:bp 180:bp 88:; 84:: 80:; 76:: 72:; 68:: 64:; 60:: 1973:. 1953:: 1936:. 1916:: 1908:: 1891:. 1879:: 1862:. 1842:: 1822:. 1802:: 1796:2 1785:. 1761:: 1755:3 1740:. 1726:: 1705:. 1683:: 1662:. 1638:: 1630:: 1609:. 1587:. 1575:: 1558:. 1544:: 1523:. 1503:: 1486:. 1472:: 1462:: 1441:. 1419:: 1398:. 1365:. 1351:: 1321:. 1304:. 1282:: 1274:: 1268:6 1250:. 1232:. 212:) 109:) 92::

Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.

Index