Journal of Virology (2015) 89, 6184-6195

Xiuling Cao, Xuejiao Jin, Xiaofeng Zhang, Ying Li, Chunyan Wang, Xianbing Wang, Jian Hong, Xiaofeng Wang, Dawei Li and Yongliang Zhang (2015)
Morphogenesis of endoplasmic reticulum membrane-invaginated vesicles during Beet black scorch virus infection: Role of auxiliary replication protein and new implications of three-dimensional architecture
Journal of Virology 89 (12), 6184-6195
Abstract: All well-characterized positive-strand RNA viruses[(+)RNA viruses] induce the formation of host membrane-bound viral replication complexes (VRCs), yet the underlying mechanism and machinery for VRC formation remain elusive. We report here the biogenesis and topology of the Beet black scorch virus (BBSV) replication complex. Distinct cytopathological changes typical of endoplasmic reticulum (ER) aggregation and vesiculation were observed in BBSV-infected Nicotiana benthamiana cells. Immunogold labeling of the auxiliary replication protein p23 and double-stranded RNA (dsRNA) revealed that the ER-derived membranous spherules provide the site for BBSV replication. Further studies indicated that p23 plays a crucial role in mediating the ER rearrangement. Three-dimensional electron tomographic analysis revealed the formation of multiple ER-originated vesicle packets. Each vesicle packet enclosed a few to hundreds of independent spherules that were invaginations of the ER membranes into the lumen. Strikingly, these vesicle packets were connected to each other via tubules, a rearrangement event that is rare among other virus-induced membrane reorganizations. Fibrillar contents within the spherules were also reconstructed by electron tomography, which showed diverse structures. Our results provide the first, to our knowledge, three-dimensional ultrastructural analysis of membrane-bound VRCs of a plant (+)RNA virus and should help to achieve a better mechanistic understanding of the organization and microenvironment of plant (+)RNA virus replication complexes.
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Database assignments for author(s): Dawei Li

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molecular biology - genes

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