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Literature DB >> 15808506

Structure of the p53 binding domain of HAUSP/USP7 bound to Epstein-Barr nuclear antigen 1 implications for EBV-mediated immortalization.

Vivian Saridakis¹, Yi Sheng, Feroz Sarkari, Melissa N Holowaty, Kathy Shire, Tin Nguyen, Rongguang G Zhang, Jack Liao, Weontae Lee, Aled M Edwards, Cheryl H Arrowsmith, Lori Frappier.

Abstract

USP7/HAUSP is a key regulator of p53 and Mdm2 and is targeted by the Epstein-Barr nuclear antigen 1 (EBNA1) protein of Epstein-Barr virus (EBV). We have determined the crystal structure of the p53 binding domain of USP7 alone and bound to an EBNA1 peptide. This domain is an eight-stranded beta sandwich similar to the TRAF-C domains of TNF-receptor associated factors, although the mode of peptide binding differs significantly from previously observed TRAF-peptide interactions in the sequence (DPGEGPS) and the conformation of the bound peptide. NMR chemical shift analyses of USP7 bound by EBNA1 and p53 indicated that p53 binds the same pocket as EBNA1 but makes less extensive contacts with USP7. Functional studies indicated that EBNA1 binding to USP7 can protect cells from apoptotic challenge by lowering p53 levels. The data provide a structural and conceptual framework for understanding how EBNA1 might contribute to the survival of Epstein-Barr virus-infected cells.

Entities: Disease Gene Species

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Year: 2005 PMID： 15808506 DOI： 10.1016/j.molcel.2005.02.029

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 17.970

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Cited

136 in total

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4. Functions of the Epstein-Barr virus EBNA1 protein in viral reactivation and lytic infection.

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Journal: J Virol Date: 2012-04-04 Impact factor: 5.103

Review 5. The role of deubiquitinating enzymes in apoptosis.

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6. TSPYL5 suppresses p53 levels and function by physical interaction with USP7.

Authors: Mirjam T Epping; Lars A T Meijer; Oscar Krijgsman; Johannes L Bos; Pier Paolo Pandolfi; René Bernards
Journal: Nat Cell Biol Date: 2010-12-19 Impact factor: 28.824

7. Targeted comparative RNA interference analysis reveals differential requirement of genes essential for cell proliferation.

Authors: Yuichi J Machida; Yuefeng Chen; Yuka Machida; Ankit Malhotra; Sukumar Sarkar; Anindya Dutta
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