Structure and function of cloverleaf RNA in enterovirus

肠道病毒三叶草RNA的结构和功能

• 批准号: 10735859
• 负责人: Kyung H Choi
• 金额: $ 17.15万
• 依托单位: TRUSTEES OF INDIANA UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-06-01 至 2024-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10735859
• 关键词: Structure; function; cloverleaf; RNA; enterovirus

Abstract Human enteroviruses are responsible for diseases that range from mild conditions like the common cold to severe diseases such as poliomyelitis and myocarditis. For example, the inflammation and weakening of the heart muscle (myocarditis) caused by coxsackie B3 virus (CBV3) can lead to heart failure. Approximately 10-15 million people are infected with enteroviruses in the US each year, yet no antiviral therapies are currently available. Our long-term goal is to obtain detailed structural and biochemical information regarding the enterovirus replication process, and to use this information for the development of antiviral therapeutics and vaccines. In enteroviruses and other positive-strand RNA viruses, the RNA genome is used as a template for both protein translation and RNA synthesis, and thus these viruses need a mechanism to balance the relative extents of these two processes. Enteroviruses use a ‘cloverleaf’ four-way junction RNA structure at the 5’ ends of their genomes to serve as a binding site for the host protein, poly(rC)-binding protein 2 (PCBP2) and the virally encoded protein 3CD, and to modulate the relative levels of viral protein translation and RNA genome synthesis. The goal of the project is to understand how the cloverleaf RNA interacts with these host and virus proteins to balance protein translation and genome synthesis to ensure efficient replication. To accomplish these goals, we will determine the structure of 5’ cloverleaf of the coxsackie virus genome and characterize its interactions with PCBP2 using complementary structural, biochemical, and biophysical approaches. The structure of cloverleaf is predicted to be conserved in enterovirus, rhinovirus, and other picornaviruses, and hence our studies will inform how the 3D structure of cloverleaf RNA regulates viral replication in this large class of viruses.

摘要 人类肠道病毒引起的疾病从普通感冒等轻微疾病 小儿麻痹症和心肌炎等严重疾病。例如，炎症和削弱的 由科萨基B3病毒（CBV 3）引起的心肌（心肌炎）可导致心力衰竭。大约10-15 美国每年有100万人感染肠道病毒，但目前还没有抗病毒疗法 available.我们的长期目标是获得关于这些蛋白质的详细结构和生化信息。 肠道病毒复制过程，并利用这些信息开发抗病毒治疗， 疫苗。在肠道病毒和其他正链RNA病毒中，RNA基因组被用作模板， 蛋白质翻译和RNA合成，因此这些病毒需要一种机制来平衡相对的蛋白质翻译和RNA合成。 这两个过程的范围。肠道病毒在5'端使用'三叶草'四向连接RNA结构 它们的基因组作为宿主蛋白，聚（rC）结合蛋白2（PCBP 2）和病毒的结合位点， 编码的蛋白3CD，并调节病毒蛋白翻译和RNA基因组合成的相对水平。 该项目的目标是了解三叶草RNA如何与这些宿主和病毒蛋白相互作用， 平衡蛋白质翻译和基因组合成，以确保高效复制。为了实现这些目标，我们 将确定科萨基病毒基因组5'苜蓿叶的结构，并表征其与 PCBP 2使用互补的结构，生物化学和生物物理方法。立体式结构 预计在肠道病毒、鼻病毒和其他小核糖核酸病毒中是保守的，因此我们的研究将 告知苜蓿叶RNA的3D结构如何调节这一大类病毒中的病毒复制。