鼠冠状病毒的缺陷干扰颗粒：缺陷病毒RNA的合成机制

Defective-interfering particles of murine coronavirus: mechanism of synthesis of defective viral RNAs.

作者信息

Makino S, Shieh C K, Keck J G, Lai M M

机构信息

Department of Microbiology, University of Southern California School of Medicine, Los Angeles 90033.

出版信息

Virology. 1988 Mar;163(1):104-11. doi: 10.1016/0042-6822(88)90237-1.

DOI:10.1016/0042-6822(88)90237-1

PMID:2831651

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7131348/

Abstract

The mechanism of synthesis of the defective viral RNAs in cells infected with defective-interfering (DI) particles of mouse hepatitis virus was studied. Two DI-specific RNA species, DIssA of genomic size and DIssE of subgenomic size, were detected in DI-infected cells. Purified DI particles, however, were found to contain predominantly DIssA and only a trace amount of DIssE RNA. Despite its negligible amount, the DIssE RNA in virions appears to serve as the template for the synthesis of DIssE RNA in infected cells. This conclusion was supported by two studies. First, the uv target size for DIssE RNA synthesis is significantly smaller than that for DIssA. Second, when purified DIssE RNA was transfected into cells which had been infected with a helper virus, DIssE RNA could replicate itself and became a predominant RNA species in the infected cells. Thus, DIssE RNA was not synthesized from the genomic RNA of DI particles. By studying the relationship between virus dilution and the amount of intracellular viral RNA synthesis, we have further shown that DIssE RNA synthesis requires a helper function, but it does not utilize the leader sequence of the helper virus. In contrast, DIssA synthesis appears to be helper-independent and can replicate itself. Thus DIssA codes for a functional RNA polymerase.

摘要

对感染小鼠肝炎病毒缺陷干扰（DI）颗粒的细胞中缺陷病毒RNA的合成机制进行了研究。在感染DI的细胞中检测到两种DI特异性RNA，基因组大小的DIssA和亚基因组大小的DIssE。然而，发现纯化的DI颗粒主要含有DIssA，仅含有微量的DIssE RNA。尽管病毒粒子中的DIssE RNA数量可忽略不计，但它似乎作为感染细胞中DIssE RNA合成的模板。这一结论得到了两项研究的支持。第一，DIssE RNA合成的紫外线靶标大小明显小于DIssA。第二，当将纯化的DIssE RNA转染到已感染辅助病毒的细胞中时，DIssE RNA可以自我复制并成为感染细胞中的主要RNA种类。因此，DIssE RNA不是从DI颗粒的基因组RNA合成的。通过研究病毒稀释与细胞内病毒RNA合成量之间的关系，我们进一步表明DIssE RNA合成需要辅助功能，但它不利用辅助病毒的前导序列。相比之下，DIssA合成似乎不依赖辅助病毒且可以自我复制。因此，DIssA编码一种功能性RNA聚合酶。

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本文引用的文献

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