A Genome-Wide Epstein-Barr Virus Polyadenylation Map and Its Antisense RNA to EBNA | Zendy

Vladimır Majerčiak | Zendy; Wenjing Yang | Zendy; Jing Zheng | Zendy; Jun Zhu | Zendy; ZhiMing Zheng | Zendy

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A Genome-Wide Epstein-Barr Virus Polyadenylation Map and Its Antisense RNA to EBNA

Author(s) -

Vladimır Majerčiak,

Wenjing Yang,

Jing Zheng,

Jun Zhu,

ZhiMing Zheng

Publication year - 2018

Publication title -

journal of virology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.617

H-Index - 292

eISSN - 1070-6321

pISSN - 0022-538X

DOI - 10.1128/jvi.01593-18

Subject(s) - biology , lytic cycle , polyadenylation , epstein–barr virus , genome , gene , virology , bzlf1 , virus , rna , genetics , terminator (solar) , herpesviridae , viral disease , ionosphere , physics , astronomy

Epstein-Barr virus represents an important human pathogen with an etiological role in the development of several cancers. By elucidation of a genome-wide polyadenylation landscape of EBV in JSC-1, Raji, and Akata cells, we have redefined the EBV transcriptome and mapped individual polymerase II (Pol II) transcripts of viral genes to each one of the mapped pA sites at single-nucleotide resolution as well as the depth of expression. By unveiling a new class of viral lytic RNA transcripts antisense to latent EBNAs, we provide a novel mechanism of how EBV might control the expression of viral latent genes and lytic infection. Thus, this report takes another step closer to understanding EBV gene structure and expression and paves a new path for antiviral approaches.

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