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  • Tracking adenovirus genomes identifies morphologically distinct late DNA replication compartments.

Tracking adenovirus genomes identifies morphologically distinct late DNA replication compartments.

Traffic (Copenhagen, Denmark) (2016-10-27)
Tetsuro Komatsu, Derrick R Robinson, Miharu Hisaoka, Shuhei Ueshima, Mitsuru Okuwaki, Kyosuke Nagata, Harald Wodrich
ABSTRACT

In adenoviral virions, the genome is organized into a chromatin-like structure by viral basic core proteins. Consequently viral DNAs must be replicated, chromatinized and packed into progeny virions in infected cells. Although viral DNA replication centers can be visualized by virtue of viral and cellular factors, the spatiotemporal regulation of viral genomes during subsequent steps remains to be elucidated. In this study, we used imaging analyses to examine the fate of adenoviral genomes and to track newly replicated viral DNA as well as replication-related factors. We show de novo formation of a subnuclear domain, which we termed Virus-induced Post-Replication (ViPR) body, that emerges concomitantly with or immediately after disintegration of initial replication centers. Using a nucleoside analogue, we show that viral genomes continue being synthesized in morphologically distinct replication compartments at the periphery of ViPR bodies and are then transported inward. In addition, we identified a nucleolar protein Mybbp1a as a molecular marker for ViPR bodies, which specifically associated with viral core protein VII. In conclusion, our work demonstrates the formation of previously uncharacterized viral DNA replication compartments specific for late phases of infection that produce progeny viral genomes accumulating in ViPR bodies.

MATERIALS
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Sigma-Aldrich
Anti-MYBBP1A antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution