脊髓灰质炎病毒顺式作用复制元件依赖性VPg尿苷酸化降低了起始核苷三磷酸用于病毒RNA复制的米氏常数。

Poliovirus cis-acting replication element-dependent VPg Uridylylation lowers the Km of the initiating nucleoside triphosphate for viral RNA replication.

作者信息

Steil Benjamin P, Barton David J

机构信息

University of Colorado Denver, School of Medicine, Department of Microbiology MS8333, P.O. Box 6511, 12800 East 19th Ave., Aurora, CO 80045, USA.

出版信息

J Virol. 2008 Oct;82(19):9400-8. doi: 10.1128/JVI.00427-08. Epub 2008 Jul 23.

DOI:10.1128/JVI.00427-08

PMID:18653453

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2546976/

Abstract

Initiation of RNA synthesis by RNA-dependent RNA polymerases occurs when a phosphodiester bond is formed between the first two nucleotides in the 5' terminus of product RNA. The concentration of initiating nucleoside triphosphates (NTPi) required for RNA synthesis is typically greater than the concentration of NTPs required for elongation. VPg, a small viral protein, is covalently attached to the 5' end of picornavirus negative- and positive-strand RNAs. A cis-acting replication element (CRE) within picornavirus RNAs serves as a template for the uridylylation of VPg, resulting in the synthesis of VPgpUpU(OH). Mutations within the CRE RNA structure prevent VPg uridylylation. While the tyrosine hydroxyl of VPg can prime negative-strand RNA synthesis in a CRE- and VPgpUpU(OH)-independent manner, CRE-dependent VPgpUpU(OH) synthesis is absolutely required for positive-strand RNA synthesis. As reported herein, low concentrations of UTP did not support negative-strand RNA synthesis when CRE-disrupting mutations prevented VPg uridylylation, whereas correspondingly low concentrations of CTP or GTP had no negative effects on the magnitude of CRE-independent negative-strand RNA synthesis. The experimental data indicate that CRE-dependent VPg uridylylation lowers the K(m) of UTP required for viral RNA replication and that CRE-dependent VPgpUpU(OH) synthesis was required for efficient negative-strand RNA synthesis, especially when UTP concentrations were limiting. By lowering the concentration of UTP needed for the initiation of RNA replication, CRE-dependent VPg uridylylation provides a mechanism for a more robust initiation of RNA replication.

摘要

当在产物RNA的5'末端的前两个核苷酸之间形成磷酸二酯键时，RNA依赖性RNA聚合酶就会启动RNA合成。RNA合成所需的起始核苷三磷酸（NTPi）的浓度通常高于延伸所需的NTPs的浓度。VPg是一种小的病毒蛋白，共价连接到小RNA病毒负链和正链RNA的5'末端。小RNA病毒RNA中的顺式作用复制元件（CRE）作为VPg尿苷酸化的模板，导致VPgpUpU(OH)的合成。CRE RNA结构内的突变会阻止VPg尿苷酸化。虽然VPg的酪氨酸羟基可以以不依赖CRE和VPgpUpU(OH)的方式引发负链RNA合成，但正链RNA合成绝对需要依赖CRE的VPgpUpU(OH)合成。如本文所报道，当CRE破坏突变阻止VPg尿苷酸化时，低浓度的UTP不支持负链RNA合成，而相应低浓度的CTP或GTP对不依赖CRE的负链RNA合成量没有负面影响。实验数据表明，依赖CRE的VPg尿苷酸化降低了病毒RNA复制所需的UTP的K(m)，并且依赖CRE的VPgpUpU(OH)合成是高效负链RNA合成所必需的，尤其是当UTP浓度有限时。通过降低RNA复制起始所需的UTP浓度，依赖CRE的VPg尿苷酸化为更强大的RNA复制起始提供了一种机制。

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