正负链雀麦花叶病毒RNA上的复制酶结合位点及其在植物细胞RNA复制中的作用。

Replicase-binding sites on plus- and minus-strand brome mosaic virus RNAs and their roles in RNA replication in plant cells.

作者信息

Choi S-K, Hema M, Gopinath K, Santos J, Kao C

机构信息

Department of Biochemistry & Biophysics, Texas A&M University, Mail Stop 2128, College Station, TX 77843, USA.

出版信息

J Virol. 2004 Dec;78(24):13420-9. doi: 10.1128/JVI.78.24.13420-13429.2004.

DOI:10.1128/JVI.78.24.13420-13429.2004

PMID:15564452

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC533945/

Abstract

The cis-acting elements for Brome mosaic virus (BMV) RNA synthesis have been characterized primarily for RNA3. To identify additional replicase-binding elements, nested fragments of all three of the BMV RNAs, both plus- and minus-sense fragments, were constructed and tested for binding enriched BMV replicase in a template competition assay. Ten RNA fragments containing replicase-binding sites were identified; eight were characterized further because they were more effective competitors. All eight mapped to noncoding regions of BMV RNAs, and the positions of seven localized to sequences containing previously characterized core promoter elements (C. C. Kao, Mol. Plant Pathol. 3:55-62, 2001), thus suggesting the identities of the replicase-binding sites. Three contained the tRNA-like structures that direct minus-strand RNA synthesis, three were within the 3' region of each minus-strand RNA that contained the core promoter for genomic plus-strand initiation, and one was in the core subgenomic promoter. Single-nucleotide mutations known previously to abolish RNA synthesis in vitro prevented replicase binding. When tested in the context of the respective full-length RNAs, the same mutations abolished BMV RNA synthesis in transfected barley protoplasts. The eighth site was within the intercistronic region (ICR) of plus-strand RNA3. Further mapping showed that a sequence of 22 consecutive adenylates was responsible for binding the replicase, with 16 being the minimal required length. Deletion of the poly(A) sequence was previously shown to severely debilitate BMV RNA replication in plants (E. Smirnyagina, Y. H. Hsu, N. Chua, and P. Ahlquist, Virology 198:427-436, 1994). Interestingly, the B box motif in the ICR of RNA3, which has previously been determined to bind the 1a protein, does not bind the replicase. These results identify the replicase-binding sites in all of the BMV RNAs and suggest that the recognition of RNA3 is different from that of RNA1 and RNA2.

摘要

雀麦花叶病毒（BMV）RNA合成的顺式作用元件主要是针对RNA3进行表征的。为了鉴定其他复制酶结合元件，构建了BMV所有三种RNA的嵌套片段，包括正义和反义片段，并在模板竞争试验中测试其与富集的BMV复制酶的结合。鉴定出10个含有复制酶结合位点的RNA片段；其中8个因其是更有效的竞争者而进一步表征。所有8个片段都定位于BMV RNA的非编码区，7个的位置定位于含有先前表征的核心启动子元件的序列（C.C. Kao，《分子植物病理学》3:55 - 62，2001），从而提示了复制酶结合位点的身份。3个含有指导负链RNA合成的类似tRNA的结构，3个在每个负链RNA的3'区域内，该区域含有基因组正链起始的核心启动子，1个在核心亚基因组启动子中。先前已知在体外消除RNA合成的单核苷酸突变会阻止复制酶结合。当在各自全长RNA的背景下进行测试时，相同的突变在转染的大麦原生质体中消除了BMV RNA合成。第八个位点在正链RNA3的基因间区域（ICR）内。进一步定位表明，22个连续腺苷酸的序列负责与复制酶结合，16个是所需的最小长度。先前已表明删除聚（A）序列会严重削弱植物中BMV RNA的复制（E. Smirnyagina，Y.H. Hsu，N. Chua和P. Ahlquist，《病毒学》198:427 - 436，1994）。有趣的是，RNA3的ICR中的B盒基序，先前已确定其与1a蛋白结合，但不与复制酶结合。这些结果鉴定了所有BMV RNA中的复制酶结合位点，并表明对RNA3的识别不同于RNA1和RNA2。

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