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Replication of vesicular stomatitis virus defective interfering particle RNA in vitro: transition from synthesis of defective interfering leader RNA to synthesis of full-length defective interfering RNA. 总被引:8,自引:6,他引:2 下载免费PDF全文
G W Wertz 《Journal of virology》1983,46(2):513-522
The replication of the RNA of vesicular stomatitis virus (VSV) defective interfering (DI) particles was established in a defined cell-free system. The transition from synthesis of only the DI-leader RNA to replication of the full-length DI RNA was effected in the system by newly synthesized VSV proteins and occurred in the absence of VSV helper virus. Both positive- and negative-polarity full-length DI RNA were synthesized. Furthermore, the products of RNA replication associated with newly synthesized viral proteins to form complexes that were indistinguishable from authentic DI particle nucleocapsids on the basis of buoyant density and resistance to ribonuclease digestion. The DI-leader RNA did not form ribonuclease-resistant structures. We conclude that this in vitro system successfully executes many of the reactions of VSV DI particle replication and assembly. 相似文献
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Encapsidation of Sendai virus genome RNAs by purified NP protein during in vitro replication. 总被引:3,自引:2,他引:1
The ability of the Sendai virus major nucleocapsid protein, NP, to support the in vitro synthesis and encapsidation of viral genome RNA during Sendai virus RNA replication was studied. NP protein was purified from viral nucleocapsids isolated from Sendai virus-infected BHK cells and shown to be a soluble monomer under the reaction conditions used for RNA synthesis. The purified NP protein alone was necessary and sufficient for in vitro genome RNA synthesis and encapsidation from preinitiated intracellular Sendai virus defective interfering particle (DI-H) nucleocapsid templates. The amount of DI-H RNA replication increased linearly with the addition of increasing amounts of NP protein. With purified detergent-disrupted DI-H virions as the template, however, there was no genome RNA synthesis in either the absence or presence of the NP protein. Furthermore, addition of the soluble protein fraction of uninfected cells alone or in the presence of purified NP protein also did not support DI-H genome RNA synthesis from purified DI-H. Another viral component in addition to the NP protein appears to be required for the initiation of encapsidation, since the soluble protein fraction of infected but not uninfected cells did support DI-H genome replication from purified DI-H. 相似文献
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Early steps in the assembly of vesicular stomatitis virus nucleocapsids in infected cells. 总被引:2,自引:1,他引:1 下载免费PDF全文
The assembly of nucleocapsids is an essential step in the replicative cycle of vesicular stomatitis virus (VSV). In this study, we have examined the early events of vesicular stomatitis virus nucleocapsid assembly in BHK-21 cells. Nuclease-resistant intracellular nucleocapsids were isolated at various stages of assembly and analyzed for RNA and protein contents. The smallest ribonucleoprotein complex formed during nucleocapsid assembly contains the 5'-terminal 65 nucleotides of nascent viral RNA complexed with the viral proteins N and NS. Elongation of the assembling nucleocapsids proceeds unidirectionally towards the 3' terminus by the sequential addition of viral proteins which incrementally protect short stretches of the growing RNA chain. Pulse-chase studies show that the assembling nucleocapsids can be chased into full-length nucleocapsids which are incorporated into mature virions. Our results also suggest an involvement of the cytoskeletal framework during nucleocapsid assembly. 相似文献
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Complexes of Sendai virus NP-P and P-L proteins are required for defective interfering particle genome replication in vitro. 总被引:18,自引:15,他引:3 下载免费PDF全文
We present evidence that the formation of NP-P and P-L protein complexes is essential for replication of the genome of Sendai defective interfering (DI-H) virus in vitro, using extracts of cells expressing these viral proteins from plasmids. Optimal replication of DI-H nucleocapsid RNA required extracts of cells transfected with critical amounts and ratios of each of the plasmids and was three- to fivefold better than replication with a control extract prepared from a natural virus infection. Extracts in which NP and P proteins were coexpressed supported replication of the genome of purified DI-H virus which contained endogenous polymerase proteins, but extracts in which NP and P were expressed separately and then mixed were inactive. Similarly, the P and L proteins must be coexpressed for biological activity. The replication data thus suggest that two protein complexes, NP-P and P-L, are required for nucleocapsid RNA replication and that these complexes must form during or soon after synthesis of the proteins. Biochemical evidence in support of the formation of each complex includes coimmunoprecipitation of both proteins of each complex with an antibody specific for one component and cosedimentation of the subunits of each complex. We propose that the P-L complex serves as the RNA polymerase and NP-P is required for encapsidation of newly synthesized RNA. 相似文献
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Thermal denaturation of nucleocapsids of wild type (WT) vesicular stomatitis virus (VSV), containing only the nucleocapsid protein (N) and viral RNA, caused a “melting” that resulted in an A260nm absorbance increase of 140%. The nucleocapsids of two temperature-sensitive () VSV mutants, G31BP and G22, both underwent larger absorbance increases of 251% and 177% respectively, suggesting these nucleocapsids are complexed by weaker N protein: RNA interactions than the WT-VSV. Two other mutants, G31 and G41 underwent A260nm increases either similar to, or smaller than, that measured with WT-VSV nucleocapsids. RNA synthesis by G31BP in infected cells was also found to be decreased at elevated temperatures. This temperature sensitive defect in viral RNA metabolism in G31BP may be the result of weaker protein:RNA interactions associated with the nucleocapsid. 相似文献
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Assembly of viral membranes. I. Association of vesicular stomatitis virus membrane proteins and membranes in a cell-free system. 下载免费PDF全文
We report here an in vitro system designed to study the interactions of vesicular stomatitis virus (VSV) proteins with cellular membranes. We have synthesized the VSV nucleocapsid (N) protein, nonstructural (NS) protein, glycoprotein (G protein), and membrane (M) protein in a wheat germ, cell-free, protein-synthesizing system directed by VSV 12 to 18S RNA. When incubated at low salt concentrations with purified cytoplasmic membranes derived from Chinese hamster ovary cells, the VSV M andG proteins bind to membranes, whereas the VSV N and NS proteins do not. The VSV M protein binds to membranes in low or high divalent cation concentrations, whereas binding of significant amounts of G protein requires at least 5 mM magnesium acetate concentrations. 相似文献