Linger Benjamin R, Kunovska Lyudmyla, Kuhn Richard J, Golden Barbara L
Department of Biochemistry and Department of Biological Sciences, Purdue University, West Lafayette, Indiana 47907, USA.
RNA. 2004 Jan;10(1):128-38. doi: 10.1261/rna.5127104.
In Sindbis virus, initiation of nucleocapsid core assembly begins with recognition of the encapsidation signal of the viral RNA genome by capsid protein. This nucleation event drives the recruitment of additional capsid proteins to fully encapsidate the genome, generating an icosahedral nucleocapsid core. The encapsidation signal of the Sindbis virus genomic RNA has previously been localized to a 132-nucleotide region of the genome within the coding region of the nsP1 protein, and the RNA-binding activity of the capsid was previously mapped to a central region of the capsid protein. It is unknown how capsid protein binding to encapsidation signal leads to ordered oligomerization of capsid protein and nucleocapsid core assembly. To address this question, we have developed a mobility shift assay to study this interaction. We have characterized a 32 amino acid peptide capable of recognizing the Sindbis virus encapsidation signal RNA. Using this peptide, we were able to observe a conformational change in the RNA induced by capsid protein binding. Binding is tight (K(d)(app) = 12 nM), and results in dimerization of the capsid peptide. Mutational analysis reveals that although almost every predicted secondary structure within the encapsidation signal is required for efficient protein binding, the identities of the bases within the helices and hairpin turns of the RNA do not need to be maintained. In contrast, two purine-rich loops are essential for binding. From these data, we have developed a model in which the encapsidation signal RNA adopts a highly folded structure and this folding process directs early events in nucleocapsid assembly.
在辛德毕斯病毒中,核衣壳核心组装的起始是由衣壳蛋白识别病毒RNA基因组的包装信号开始的。这一成核事件促使更多衣壳蛋白聚集,以完全包裹基因组,形成一个二十面体核衣壳核心。辛德毕斯病毒基因组RNA的包装信号先前已定位到nsP1蛋白编码区内基因组的一个132个核苷酸的区域,并且衣壳的RNA结合活性先前已定位到衣壳蛋白的一个中央区域。尚不清楚衣壳蛋白与包装信号的结合如何导致衣壳蛋白的有序寡聚化和核衣壳核心组装。为了解决这个问题,我们开发了一种迁移率变动分析方法来研究这种相互作用。我们鉴定了一种能够识别辛德毕斯病毒包装信号RNA的32个氨基酸的肽。使用这种肽,我们能够观察到衣壳蛋白结合诱导的RNA构象变化。结合紧密(K(d)(app) = 12 nM),并导致衣壳肽二聚化。突变分析表明,虽然包装信号内几乎每个预测的二级结构对于有效的蛋白结合都是必需的,但RNA螺旋和发夹环内碱基的身份无需保持。相反,两个富含嘌呤的环对于结合至关重要。根据这些数据,我们建立了一个模型,其中包装信号RNA采用高度折叠的结构,并且这种折叠过程指导核衣壳组装的早期事件。