| 1 | CDC73, RNF40, rNF20 |
| The tumor suppressor CDC73 interacts with the ring finger proteins RNF20 and RNF40 and is required for the maintenance of histone 2B monoubiquitination. | |
| Hahn MA, Dickson KA, Jackson S, Clarkson A, Gill AJ, Marsh DJ. | |
| Hum Mol Genet 21(3):559-68. Epub 2011 Oct 21. 2012 | |
| 2 | RNF20, RNF40 |
| Deficiency in mammalian histone H2B ubiquitin ligase Bre1 (Rnf20/Rnf40) leads to replication stress and chromosomal instability. | |
| Chernikova SB, Razorenova OV, Higgins JP, Sishc BJ, Nicolau M, Dorth JA, Chernikova DA, Kwok S, Brooks JD, Bailey SM, Game JC, Brown JM. | |
| Cancer Res 72(8):2111-9. doi: 10.1158/0008-5472.CAN-11-2209. Epub 2012 Feb 21. 2012 | |
| 3 | RNF20, RNF40, WAC |
| WAC, a functional partner of RNF20/40, regulates histone H2B ubiquitination and gene transcription. | |
| Zhang F, Yu X. | |
| Mol Cell 41(4):384-97. 2011 | |
| 4 | RNF20, RNF40 |
| RNF20-RNF40: A ubiquitin-driven link between gene expression and the DNA damage response. | |
| Shiloh Y, Shema E, Moyal L, Oren M. | |
| FEBS Lett 585(18):2795-802. Epub 2011 Aug 4. 2011 | |
| 5 | RNF20, RNF40 |
| Deficiency in Bre1 impairs homologous recombination repair and cell cycle checkpoint response to radiation damage in mammalian cells. | |
| Chernikova SB, Dorth JA, Razorenova OV, Game JC, Brown JM. | |
| Radiat Res 174(5):558-65. Epub 2010 Aug 25. 2010 | |
| 6 | PAF1, RNF20, RNF40, UBE2E1 |
| Monoubiquitination of human histone H2B: the factors involved and their roles in HOX gene regulation. | |
| Zhu B, Zheng Y, Pham AD, Mandal SS, Erdjument-Bromage H, Tempst P, Reinberg D. | |
| Mol Cell 20(4):601-11. 2005 | |
| 7 | RNF40, STX1A, UBE2L6 |
| Staring, a novel E3 ubiquitin-protein ligase that targets syntaxin 1 for degradation. | |
| Chin LS, Vavalle JP, Li L. | |
| J Biol Chem 277(38):35071-9. 2002 | |
| 8 | RBP1, RNF40 |
| RBP95, a novel leucine zipper protein, binds to the retinoblastoma protein. | |
| Wen H, Ao S. | |
| Biochem Biophys Res Commun 275(1):141-8. 2000 | |
| 9 | AATK, ACIN1, ACOT11, ACSBG1, ADAMTS4, ADGRV1, AKAP11, ANKLE2, ARHGAP26, ARHGEF2, ASTN2, ATP2C2, ATP9A, BICD2, BZRAP1, C12orf51, CAND2, CEP135, CLASP1, CLASP2, CLUAP1, CLUH, CNOT3, COBL, CPNE3, CRTC1, CRY2, CSTF2T, CUL3, CUL4B, DAAM1, DAGLA, DEPDC5, DNAJC13, DOCK10, DZIP3, FBXW11, FKBP15, G3BP2, HEPH, HIP1R, HIPK1, ICOSLG, KIAA0649, KIAA0652, KIF13B, KIF1C, KIF21A, L3MBTL1, LDB3, MAGI2, MAP4K4, MFAP3L, MGEA5, MRC2, MTMR4, N4BP1, NPHP4, OBSL1, PAN2, PHACTR2, PHF2, PHLDB1, PLXND1, PPFIA3, PTCD1, RAB11FIP3, RBM19, RICH2, RNF40, RNF8, ROCK2, RRP12, SAPS2, SETX, SIN3B, SLC24A1, SMCHD1, SNAP91, SOCS5, SS18L1, SWAP70, TBC1D9B, TELO2, TNRC15, TSC22D2, UBE4B, UHRF1BP1L, ULK2, ZBED4, ZC3H11A, ZNF623 |
| Prediction of the coding sequences of unidentified human genes. X. The complete sequences of 100 new cDNA clones from brain which can code for large proteins in vitro. | |
| Ishikawa K, Nagase T, Suyama M, Miyajima N, Tanaka A, Kotani H, Nomura N,Ohara O. | |
| DNA Res 5(3):169-76. 1998 | |