| 1 | PPP1R13B, TP53, TP53BP2, TP63, TP73 |
| Molecular interactions of ASPP1 and ASPP2 with the p53 protein family and the apoptotic promoters PUMA and Bax. | |
| Patel S, George R, Autore F, Fraternali F, Ladbury JE, Nikolova PV. | |
| Nucleic Acids Res 36(16):5139-51. Epub 2008 Aug 2. 2008 | |
| 2 | PPP1R13B, PPP1R13L, TP53BP2 |
| Biochemical and structural studies of ASPP proteins reveal differential binding to p53, p63, and p73. | |
| Robinson RA, Lu X, Jones EY, Siebold C. | |
| Structure 16(2):259-68. 2008 | |
| 3 | PPP1R13B, TP53BP2 |
| Solution structure of ASPP2 N-terminal domain (N-ASPP2) reveals a ubiquitin-like fold. | |
| Tidow H, Andreeva A, Rutherford TJ, Fersht AR. | |
| J Mol Biol 371(4):948-58. Epub 2007 May 13. 2007 | |
| 4 | PPP1R13B, PPP1R13L, TP53BP2 |
| ASPP: a new family of oncogenes and tumour suppressor genes. | |
| Sullivan A, Lu X. | |
| Br J Cancer 96(2):196-200. Epub 2007 Jan 9. Review. 2007 | |
| 5 | PPP1R13B |
| ASPP1, a common activator of TP53, is inactivated by aberrant methylation of its promoter in acute lymphoblastic leukemia. | |
| Agirre X, Rom‡n-G—mez J, JimŽnez-Velasco A, Garate L, Montiel-Duarte C, Navarro G, V‡zquez I, Zalacain M, Calasanz MJ, Heiniger A, Torres A, Minna JD, Pr—sper F. | |
| Oncogene 25(13):1862-70. 2006 | |
| 6 | PPP1R13B, TP53BP2 |
| Downregulated mRNA expression of ASPP and the hypermethylation of the 5'-untranslated region in cancer cell lines retaining wild-type p53. | |
| Liu ZJ, Lu X, Zhang Y, Zhong S, Gu SZ, Zhang XB, Yang X, Xin HM. | |
| FEBS Lett 579(7):1587-90. 2005 | |
| 7 | E2F1, PPP1R13B, TP53BP2 |
| ASPP1 and ASPP2 are new transcriptional targets of E2F. | |
| Fogal V, Kartasheva NN, Trigiante G, Llanos S, Yap D, Vousden KH, Lu X. | |
| Cell Death Differ 12(4):369-76. 2005 | |
| 8 | PPP1R13B, TP53BP2 |
| ASPP proteins specifically stimulate the apoptotic function of p53. | |
| Samuels-Lev Y, O'Connor DJ, Bergamaschi D, Trigiante G, Hsieh JK, Zhong S, Campargue I, Naumovski L, Crook T, Lu X. | |
| Mol Cell 8(4):781-94. 2001 | |
| 9 | ADGRL2, ADGRL3, ADNP, AKAP9, ANGEL1, ARHGAP32, ATP10B, ATP1A2, BAG5, BAIAP3, CAMKK2, CLCC1, CLSTN3, DDHD2, DDN, DDX46, DDX46, DGKB, DIP, DOCK4, DST, EIF5B, EPM2AIP1, FAM131B, FAM153A, FARP2, FCHSD2, GPR116, HDAC9, IPO13, KBTBD11, KIAA0748, KIAA0753, KIAA0754, KIAA0802, KLHL18, LARP1, LRIG2, MAST2, MTUS2, MYO10, MYO1D, NFASC, NRXN3, NUP155, OSBPL2, PCNX, PHF14, PPP1R13B, RAD54L2, RBM12, RHOBTB1, RHOBTB2, RIMS2, SACS, SASH1, SEC24A, SEC24B, SEC24C, SEC24D, SENP6, SLC4A8, SNRNP200, SNX13, SORBS2, SPATA2, SPON1, SUPT7L, SV2A, SV2B, SYNE1, TBKBP1, TCAF1, TMCC1, TMEM63A, TOMM70A, TSPYL4, UBXN7, ULK1, USP34, VPRBP, VPS39, VPS8, WSCD2, XPO7, ZBED1, ZBED1Y, ZNF294, ZNF423, ZNF432 |
| Prediction of the coding sequences of unidentified human genes. XI. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro. | |
| Nagase T, Ishikawa K, Suyama M, Kikuno R, Miyajima N, Tanaka A, Kotani H, Nomura N, Ohara O. | |
| DNA Res 5(5):277-86. 1998 | |