Adenovirus major core protein condenses DNA in clusters and bundles, modulating genome release and capsid internal pressure

Some viruses package dsDNA together with large amounts of positively charged proteins, thought to help condense the genome inside the capsid with no evidence. Further, this role is not clear because these viruses have typically lower packing fractions than viruses encapsidating naked dsDNA. In addit...

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Published inNucleic acids research Vol. 47; no. 17; pp. 9231 - 9242
Main Authors Martín-González, Natalia, Hernando-Pérez, Mercedes, Condezo, Gabriela N, Pérez-Illana, Marta, Šiber, Antonio, Reguera, David, Ostapchuk, Philomena, Hearing, Patrick, San Martín, Carmen, de Pablo, Pedro J
Format Journal Article
LanguageEnglish
Published England Oxford University Press 26.09.2019
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Summary:Some viruses package dsDNA together with large amounts of positively charged proteins, thought to help condense the genome inside the capsid with no evidence. Further, this role is not clear because these viruses have typically lower packing fractions than viruses encapsidating naked dsDNA. In addition, it has recently been shown that the major adenovirus condensing protein (polypeptide VII) is dispensable for genome encapsidation. Here, we study the morphology and mechanics of adenovirus particles with (Ad5-wt) and without (Ad5-VII-) protein VII. Ad5-VII- particles are stiffer than Ad5-wt, but DNA-counterions revert this difference, indicating that VII screens repulsive DNA-DNA interactions. Consequently, its absence results in increased internal pressure. The core is slightly more ordered in the absence of VII and diffuses faster out of Ad5-VII- than Ad5-wt fractured particles. In Ad5-wt unpacked cores, dsDNA associates in bundles interspersed with VII-DNA clusters. These results indicate that protein VII condenses the adenovirus genome by combining direct clustering and promotion of bridging by other core proteins. This condensation modulates the virion internal pressure and DNA release from disrupted particles, which could be crucial to keep the genome protected inside the semi-disrupted capsid while traveling to the nuclear pore.
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ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkz687