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An immature retroviral RNA genome resembles a kinetically trapped intermediate state.


ABSTRACT: Retroviral virions initially assemble in an immature form that differs from that of the mature infectious particle. The RNA genomes in both immature and infectious particles are dimers, and interactions between the RNA dimer and the viral Gag protein ensure selective packaging into nascent immature virions. We used high-sensitivity selective 2'-hydroxyl acylation analyzed by primer extension (SHAPE) to obtain nucleotide-resolution structural information from scarce, femtomole quantities of Moloney murine leukemia virus (MuLV) RNA inside authentic virions and from viral RNA extracted from immature (protease-minus) virions. Our secondary structure model of the dimerization and packaging domain indicated that a stable intermolecular duplex known as PAL2, previously shown to be present in mature infectious MuLV particles, was sequestered in an alternate stem-loop structure inside immature virions. The intermediate state corresponded closely to a late-folding intermediate that we detected in time-resolved studies of the free MuLV RNA, suggesting that the immature RNA structure reflects trapping of the intermediate folding state by interactions in the immature virion. We propose models for the RNA-protein interactions that trap the RNA in the immature state and for the conformational rearrangement that occurs during maturation of virion particles.The structure of the RNA genome in mature retroviruses has been studied extensively, whereas very little was known about the RNA structure in immature virions. The immature RNA structure is important because it is the form initially selected for packaging in new virions and may have other roles. This lack of information was due to the difficulty of isolating sufficient viral RNA for study. In this work, we apply a high-sensitivity and nucleotide-resolution approach to examine the structure of the dimerization and packaging domain of Moloney murine leukemia virus. We find that the genomic RNA is packaged in a high-energy state, suggesting that interactions within the virion hold or capture the RNA before it reaches its most stable state. This new structural information makes it possible to propose models for the conformational changes in the RNA genome that accompany retroviral maturation.

SUBMITTER: Grohman JK 

PROVIDER: S-EPMC4093898 | biostudies-literature | 2014 Jun

REPOSITORIES: biostudies-literature

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An immature retroviral RNA genome resembles a kinetically trapped intermediate state.

Grohman Jacob K JK   Gorelick Robert J RJ   Kottegoda Sumith S   Allbritton Nancy L NL   Rein Alan A   Weeks Kevin M KM  

Journal of virology 20140312 11


<h4>Unlabelled</h4>Retroviral virions initially assemble in an immature form that differs from that of the mature infectious particle. The RNA genomes in both immature and infectious particles are dimers, and interactions between the RNA dimer and the viral Gag protein ensure selective packaging into nascent immature virions. We used high-sensitivity selective 2'-hydroxyl acylation analyzed by primer extension (SHAPE) to obtain nucleotide-resolution structural information from scarce, femtomole  ...[more]

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