VIRAL PROTEINS IN ROTAVIRUS REPLICATION

轮状病毒复制中的病毒蛋白

基本信息

批准号：
3566953
负责人：
JOHN T PATTON
金额：
$ 11.65万
依托单位：
UNIVERSITY OF MIAMI SCHOOL OF MEDICINE
依托单位国家：
美国
项目类别：
财政年份：
1987
资助国家：
美国
起止时间：
1987-09-01 至 1994-03-31
项目状态：
已结题

项目摘要

Rotaviruses, members of the family Reoviridae, are the major cause of acute gastroenteritis in young children. Despite the pathogenic importance of these viruses, the basic molecular biology of the rotaviruses is not well understood. The genome of these viruses consists of eleven segments of double-stranded RNA (dsRNA). The segmented nature of the genome allows different strains of the rotaviruses to undergo reassortment in nature producing new unique variants. The replication of each segment of the genome proceeds in an asymmetrical manner with viral messenger RNA (mRNA; plus- strand RNA) serving as the template for minus-strand RNA to produce dsRNA. To understand the mechanism of rotavirus RNA replication, we developed a cell-free system that supports the synthesis of simian rotavirus SAll dsRNA, mRNA and protein. Subsequently, this system allowed us to identify, isolate and provide a basic descrip- tion of rotavirus subviral particles (SVPs) that synthesize the viral genome. These data indicate that replicase particles contain cores that may be only partially surrounded by VP6, contain two nonstructural proteins (NS34 and NS35), and draw the template for replication into the core during dsRNA synthesis. The focus of this proposal is to characterize more completely the structure of the replicase particle, the function of proteins associated with these particles, and the recognition signals of viral mRNAs that allow their replication by replicase particles. Specifically, protein-proteins crosslinking, immunoelectron microscopy, and limited proteolytic digestion will be used to study the overall protein structure of the replicase particle. Site-specific cleavage, nuclease digestion and other methods will be used to examine the orientation of the mRNA template with replicase particles and how the template moves during replication. To establish possible function of viral proteins in replication, viral proteins that bind RNA and nucleotides will be identified. The role of VP6, NS34, NS35, and other viral proteins in rotavirus RNA replication, the assembly of single-shelled particles from replicase particles, and in mRNA translation will be studies using the cell-free system. Core particles will be disrupted and reassembled from subunits so as to understand better the morphogenesis of rotavirus SVPs. Initiation of minus-strand RNA synthesis on exogenous viral mRNAs in the cell-free system will be optimized and quantitated. Modified viral mRNAs will be synthesized in vitro by transcription vectors containing cDNAs and added to the system to identify recognition signals on viral mRNAs required for the initiation of minus-strand synthesis. These results should provide valuable information on events in the replication of the rotaviruses that may be useful for developing strategies of controlling diseases caused by these viruses.

轮状病毒是家族的reoviridae的成员，是主要原因幼儿急性胃肠炎。尽管有病原这些病毒的重要性，是该病毒的基本分子生物学轮状病毒尚不清楚。这些病毒的基因组由双链RNA（DSRNA）的11个片段组成。这基因组的分段性质允许不同的菌株轮状病毒在自然界中进行重新分类，从而产生新的独特变体。基因组每个部分的复制进行以病毒信使RNA（mRNA; plus-）的不对称方式链RNA）作为负链RNA的模板产生的模板 dsrna。要了解轮状病毒RNA复制的机制，我们开发了一个无细胞的系统，该系统支持合成 Simian轮状病毒SALL DSRNA，mRNA和蛋白质。随后，这个系统允许我们识别，隔离并提供基本的描述轮状病毒亚副颗粒（SVP）的构成，该颗粒合成该颗粒病毒基因组。这些数据表明复制酶颗粒包含可能仅部分被VP6包围的内核，包含两个非结构蛋白（NS34和NS35），并绘制模板在DSRNA合成过程中复制到核心。重点该提议的内容是更完整地表征结构复制酶粒子的蛋白质功能这些颗粒，以及病毒mRNA的识别信号允许通过复制酶颗粒复制。具体来说，蛋白质 - 蛋白质交联，免疫电子显微镜和有限的蛋白水解消化将用于研究整体复制酶颗粒的蛋白质结构。特定地点切割，核酸酶消化和其他方法将用于检查使用复制酶的mRNA模板的方向颗粒以及模板在复制过程中的移动方式。到建立病毒蛋白在复制中的可能功能将鉴定结合RNA和核苷酸的蛋白质。这轮状病毒RNA中VP6，NS34，NS35和其他病毒蛋白的作用复制，单壳颗粒的组装复制酶颗粒，在mRNA中，将使用无细胞系统。核心颗粒将被破坏，并且从亚基重新组装，以便更好地了解轮状病毒SVP的形态发生。启动负链RNA 无细胞系统中外源性病毒mRNA的合成将是优化和定量。修改的病毒mRNA将是由包含cDNA和的转录向量在体外合成添加到系统中以识别有关病毒mRNA的识别信号启动负链合成所需的。这些结果应提供有关事件的宝贵信息轮状病毒的复制，可能对开发有用由这些病毒引起的控制疾病的策略。