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在大麦原生质体中高效包装雀麦花叶病毒RNA3所需的顺式作用元件。

cis-acting elements required for efficient packaging of brome mosaic virus RNA3 in barley protoplasts.

作者信息

Damayanti Tri Asmira, Tsukaguchi Satoshi, Mise Kazuyuki, Okuno Tetsuro

机构信息

Laboratory of Plant Pathology, Graduate School of Agriculture, Kyoto University, Kyoto 606-8502, Japan.

出版信息

J Virol. 2003 Sep;77(18):9979-86. doi: 10.1128/jvi.77.18.9979-9986.2003.

DOI:10.1128/jvi.77.18.9979-9986.2003
PMID:12941908
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC224592/
Abstract

Brome mosaic virus (BMV) is a positive-sense RNA plant virus, the tripartite genomic RNAs of which are separately packaged into virions. RNA3 is copackaged with subgenomic RNA4. In barley protoplasts coinoculated with RNA1 and RNA2, an RNA3 mutant with a 69-nucleotide (nt) deletion in the 3'-proximal region of the 3a open reading frame (ORF) was very poorly packaged compared with other RNA3 mutants and wild-type RNA3, despite their comparable accumulation in the absence of coat protein. Computer analysis of RNA secondary structure predicted two stem-loop (SL) structures (i.e., SL-I and SL-II) in the 69-nt region. Disruption of SL-II, but not of SL-I, significantly reduced RNA3 packaging. A chimeric BMV RNA3 (B3Cmp), with the BMV 3a ORF replacing that of cucumber mosaic virus (CMV), was packaged negligibly, whereas RNA4 was packaged efficiently. Replacement of the 3'-proximal region of the CMV 3a ORF in B3Cmp with the 3'-proximal region of the BMV 3a ORF significantly improved packaging efficiency, and the disruption of SL-II in the substituted BMV 3a ORF region greatly reduced packaging efficiency. These results suggest that the 3'-proximal region of the BMV 3a ORF, especially SL-II predicted between nt 904 and 933, plays an important role in the packaging of BMV RNA3 in vivo. Furthermore, the efficient packaging of RNA4 without RNA3 in B3Cmp-infected cells implies the presence of an element in the 3a ORF of BMV RNA3 that regulates the copackaging of RNA3 and RNA4.

摘要

雀麦花叶病毒(BMV)是一种正义RNA植物病毒,其基因组由三条RNA组成,分别包装在病毒粒子中。RNA3与亚基因组RNA4共同包装。在与RNA1和RNA2共接种的大麦原生质体中,一个在3a开放阅读框(ORF)3'近端区域缺失69个核苷酸(nt)的RNA3突变体,与其他RNA3突变体和野生型RNA3相比,包装效率极低,尽管它们在没有衣壳蛋白的情况下积累量相当。对RNA二级结构的计算机分析预测在69-nt区域有两个茎环(SL)结构(即SL-I和SL-II)。破坏SL-II而非SL-I,显著降低了RNA3的包装。一个嵌合的BMV RNA3(B3Cmp),用黄瓜花叶病毒(CMV)的3a ORF替换了BMV的3a ORF,几乎没有被包装,而RNA4被有效包装。用BMV 3a ORF的3'近端区域替换B3Cmp中CMV 3a ORF的3'近端区域,显著提高了包装效率,并且在取代的BMV 3a ORF区域中破坏SL-II极大地降低了包装效率。这些结果表明,BMV 3a ORF的3'近端区域,特别是预测在nt 904和933之间的SL-II,在体内BMV RNA3的包装中起重要作用。此外,在B3Cmp感染的细胞中,没有RNA3时RNA4的有效包装意味着BMV RNA3的3a ORF中存在一个调节RNA3和RNA4共同包装的元件。

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