The transcriptional cycle of HIV-1 in real-time and live cells.

The transcriptional cycle of HIV-1 in real-time and live cells. Research Abstract Details 

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The transcriptional cycle of HIV-1 in real-time and live cells. Abstract Text:

Boireau,Paolo Maiuri,Eugenia Basyuk,Manuel de la Mata,Anna Knezevich, Pradet-Balade,Volker ,Alberto Kornblihtt,Alessandro Marcello,Edouard Bertrand, Boireau,Paolo Maiuri,Eugenia Basyuk,Manuel de la Mata,Anna Knezevich, Pradet-Balade,Volker ,Alberto Kornblihtt,Alessandro Marcello,Edouard Bertrand,

RNA polymerase II (RNAPII) is a fundamental enzyme, but few studies have analyzed its activity in living cells. Using human immunodeficiency virus (HIV) type 1 reporters, we study real-time messenger RNA (mRNA) biogenesis by photobleaching nascent RNAs and RNAPII at specific transcription sites. Through modeling, the use of mutant polymerases, drugs, and quantitative in situ hybridization, we investigate the kinetics of the HIV-1 transcription cycle. Initiation appears efficient because most polymerases demonstrate stable gene association. We calculate an elongation rate of approximately 1.9 kb/min, and, surprisingly, polymerases remain at transcription sites 2.5 min longer than nascent RNAs. With a total polymerase residency time estimated at 333 s, 114 are assigned to elongation, and 63 are assigned to 3'-end processing and/or transcript release. However, mRNAs were released seconds after polyadenylation onset, and analysis of polymerase density by chromatin immunoprecipitation suggests that they pause or lose processivity after passing the polyA site. The strengths and limitations of this kinetic approach to analyze mRNA biogenesis in living cells are discussed.

The transcriptional cycle of HIV-1 in real-time and live cells. Publishing Authors By Initials

S Boireau,P Maiuri,E Basyuk,M de la Mata,A Knezevich,B Pradet-Balade,V ,A Kornblihtt,A Marcello,E Bertrand,S Boireau,P Maiuri,E Basyuk,M de la Mata,A Knezevich,B Pradet-Balade,V ,A Kornblihtt,A Marcello,E Bertrand,

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The transcriptional cycle of HIV-1 in real-time and live cells. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: The Journal of cell biology

VOLUME: 179

Page Numbers: 291-304

Journal Abbreviation: J. Cell Biol.

ISSN: 0021-9525

DAY: 22

MONTH: Oct

YEAR: 2007

The transcriptional cycle of HIV-1 in real-time and live cells. Information

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LANGUAGE: eng

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AFFILIATION: Institute of Molecular Genetics of Montpellier, Unité Mixte de Recherche 5535, Centre National de la Recherche Scientifique, 34293 Montpellier, France.

Country: United States

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MEDLINETA: J Cell Biol

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