鼠冠状病毒缺陷干扰RNA的一级结构与翻译

Primary structure and translation of a defective interfering RNA of murine coronavirus.

作者信息

Makino S, Shieh C K, Soe L H, Baker S C, 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 Oct;166(2):550-60. doi: 10.1016/0042-6822(88)90526-0.

DOI:10.1016/0042-6822(88)90526-0

PMID:2845661

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7131284/

Abstract

An intracellular defective-interfering (DI) RNA, DIssE, of mouse hepatitis virus (MHV) obtained after serial high multiplicity passage of the virus was cloned and sequenced. DIssE RNA is composed of three noncontiguous genomic regions, representing the first 864 nucleotides of the 5' end, an internal 748 nucleotides of the polymerase gene, and 601 nucleotides from the 3' end of the parental MHV genome. The DIssE sequence contains one large continuous open reading frame. Two protein products from this open reading frame were identified both by in vitro translation and in DI-infected cells. Sequence comparison of DIssE and the corresponding parts of the parental virus genome revealed that DIssE had three base substitutions within the leader sequence and also a deletion of nine nucleotides located at the junction of the leader and the remaining genomic sequence. The 5' end of DIssE RNA was heterogeneous with respect to the number of UCUAA repeats within the leader sequence. The parental MHV genomic RNA appears to have extensive and stable secondary structures at the regions where DI RNA rearrangements occurred. These data suggest that MHV DI RNA may have been generated as a result of the discontinuous and nonprocessive manner of MHV RNA synthesis.

摘要

对经连续高倍传代后获得的小鼠肝炎病毒（MHV）的一种细胞内缺陷干扰（DI）RNA——DIssE进行了克隆和测序。DIssE RNA由三个不连续的基因组区域组成，分别代表5'端的前864个核苷酸、聚合酶基因内部的748个核苷酸以及亲本MHV基因组3'端的601个核苷酸。DIssE序列包含一个大的连续开放阅读框。通过体外翻译和DI感染的细胞均鉴定出了该开放阅读框的两种蛋白质产物。DIssE与亲本病毒基因组相应部分的序列比较显示，DIssE在前导序列内有三个碱基替换，并且在该前导序列与其余基因组序列的交界处有九个核苷酸的缺失。DIssE RNA的5'端在前导序列内的UCUAA重复序列数量方面是异质的。亲本MHV基因组RNA在DI RNA发生重排的区域似乎具有广泛且稳定的二级结构。这些数据表明，MHV DI RNA可能是由于MHV RNA合成的不连续和非连续方式而产生的。

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