雀麦花叶病毒的三分体病毒颗粒具有不同的物理特性,影响着侵染过程的时间进程。
The tripartite virions of the brome mosaic virus have distinct physical properties that affect the timing of the infection process.
机构信息
Department of Molecular & Cellular Biochemistry, Indiana University, Bloomington, Indiana, USA.
出版信息
J Virol. 2014 Jun;88(11):6483-91. doi: 10.1128/JVI.00377-14. Epub 2014 Mar 26.
UNLABELLED
The three subsets of virions that comprise the Brome mosaic virus (BMV) were previously thought to be indistinguishable. This work tested the hypothesis that distinct capsid-RNA interactions in the BMV virions allow different rates of viral RNA release. Several results support distinct interactions between the capsid and the BMV genomic RNAs. First, the deletion of the first eight residues of the BMV coat protein (CP) resulted in the RNA1-containing particles having altered morphologies, while those containing RNA2 were unaffected. Second, subsets of the BMV particles separated by density gradients into a pool enriched for RNA1 (B1) and for RNA2 and RNA3/4 (B2.3/4) were found to have different physiochemical properties. Compared to the B2.3/4 particles, the B1 particles were more sensitive to protease digestion and had greater resistivity to nanoindentation by atomic force microscopy and increased susceptibility to nuclease digestion. Mapping studies showed that portions of the arginine-rich N-terminal tail of the CP could interact with RNA1. Mutational analysis in the putative RNA1-contacting residues severely reduced encapsidation of BMV RNA1 without affecting the encapsidation of RNA2. Finally, during infection of plants, the more easily released RNA1 accumulated to higher levels early in the infection.
IMPORTANCE
Viruses with genomes packaged in distinct virions could theoretically release the genomes at different times to regulate the timing of gene expression. Using an RNA virus composed of three particles, we demonstrated that the RNA in one of the virions is released more easily than the other two in vitro. The differential RNA release is due to distinct interactions between the viral capsid protein and the RNAs. The ease of RNA release is also correlated with the more rapid accumulation of that RNA in infected plants. Our study identified a novel role for capsid-RNA interactions in the regulation of a viral infection.
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先前认为包含在 Bromemosaic 病毒(BMV)中的三种病毒亚单位无法区分。本研究检验了以下假说,即 BMV 病毒粒子中不同的衣壳-RNA 相互作用可导致不同的病毒 RNA 释放速率。以下几个结果支持衣壳与 BMV 基因组 RNA 之间存在不同的相互作用。首先,BMV 外壳蛋白(CP)的前 8 个残基缺失会导致仅含 RNA1 的病毒粒子形态发生改变,而含 RNA2 的病毒粒子则不受影响。其次,通过密度梯度分离的 BMV 粒子亚群,分为富含 RNA1(B1)和 RNA2 和 RNA3/4(B2.3/4)的两个部分,发现它们具有不同的理化性质。与 B2.3/4 粒子相比,B1 粒子对蛋白酶的消化更为敏感,对原子力显微镜的纳米压痕具有更大的抵抗力,对核酸酶的消化也更敏感。作图研究表明,CP 富含精氨酸的 N 端尾部的部分区域可与 RNA1 相互作用。在假定与 RNA1 相互作用的残基上进行突变分析,严重降低了 BMV RNA1 的包装效率,而不影响 RNA2 的包装效率。最后,在植物感染过程中,更容易释放的 RNA1 在感染早期会积累到更高水平。
重要性
具有包装在不同病毒粒子中的基因组的病毒,理论上可以在不同时间释放基因组,以调节基因表达的时间。本研究使用由三种粒子组成的 RNA 病毒,证明了一种病毒粒子中的 RNA 比其他两种在体外更容易释放。这种差异 RNA 释放是由于病毒衣壳蛋白与 RNA 之间的不同相互作用所致。RNA 释放的容易程度也与感染植物中该 RNA 的更快积累相关。我们的研究确定了衣壳-RNA 相互作用在病毒感染调控中的新作用。
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