Journal
VIROLOGY
Volume 435, Issue 1, Pages 141-156Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.virol.2012.09.023
Keywords
Chromatin; Virus; Herpesvirus; Adenovirus; Papillomavirus; Human Immunodeficiency Virus; Influenza virus
Categories
Funding
- NIAID NIMH
- NIH [R01DE017336, R01CA117830, R01CA085678, R01CA093606, AI063106, AI099081]
- The Canadian Institutes of Health Research
- NIAID Division of Intramural Research
- NIDCR [P01DE019085]
- NIAID [P01AI099783-01, R56 A1096861-01]
- Ministerio de Ciencia e Innovacion & Plan Nacional de Investigacion Cientifica
- Desarrollo e Innovacikon Tecnologica [BFU2008-00448, BFU2011-26175]
- Ciber de Enfermedades Respiratorias and Programa de investigacion sobre la gripe pandemica ISCIII Deutsche Forschungsgemeinschaft [NE791/2-2]
- Human Frontier Science Program [RGY0071/2008]
- NIEL [AI083139, 5-31536]
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Like their cellular host counterparts, many invading viral pathogens must contend with, modulate, and utilize the host cell's chromatin machinery to promote efficient lytic infection or control persistent-latent states. While not intended to be comprehensive, this review represents a compilation of conceptual snapshots of the dynamic interplay of viruses with the chromatin environment. Contributions focus on chromatin dynamics during infection, viral circumvention of cellular chromatin repression, chromatin organization of large DNA viruses, tethering and persistence, viral interactions with cellular chromatin modulation machinery, and control of viral latency-reactivation cycles. Published by Elsevier Inc.
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