A major EBNA1 variant from Asian EBV isolates shows enhanced transcriptional activity compared to prototype B95.8.

Epstein-Barr virus (EBV) nuclear antigen 1 (EBNA1) has an instrumental role in maintaining EBV latent infection by controlling EBV episome replication and regulating viral transcription. It is a ubiquitously expressed protein during latent viral infection and in EBV-associated tumors. The EBNA1 C-terminus interacts functionally with the Qp and Cp that control viral gene expression in latency I/II and III, respectively.

Epstein-Barr virus latency switch in human B-cells: a physico-chemical model.

Background: The Epstein-Barr virus is widespread in all human populations and is strongly associated with human disease, ranging from infectious mononucleosis to cancer. In infected cells the virus can adopt several different latency programs, affecting the cells' behaviour. Experimental results indicate that a specific genetic switch between viral latency programs, reprograms human B-cells between proliferative and resting states.

DNA-dependent conversion of Oct-1 and Oct-2 into transcriptional repressors by Groucho/TLE.

POU domain proteins contain a bipartite DNA-binding element that can confer allosteric control of coactivator recruitment. Dimerization of Oct-1 and Oct-2 on palindromic response elements results in the conformational dependent inclusion or exclusion of the transcriptional coactivator OBF-1. In this paper, we demonstrate that Oct-1 and Oct-2 can function as transcriptional repressors by recruiting and physically interacting with members of the Grg/TLE family of corepressors.