Lim Hyoun-Sub, Bragg Jennifer N, Ganesan Uma, Lawrence Diane M, Yu Jialin, Isogai Masimachi, Hammond John, Jackson Andrew O
Department of Plant and Microbial Biology, University of California, Berkeley, CA 94720, USA.
J Virol. 2008 May;82(10):4991-5006. doi: 10.1128/JVI.02586-07. Epub 2008 Mar 19.
Barley stripe mosaic virus (BSMV) encodes three movement proteins in an overlapping triple gene block (TGB), but little is known about the physical interactions of these proteins. We have characterized a ribonucleoprotein (RNP) complex consisting of the TGB1 protein and plus-sense BSMV RNAs from infected barley plants and have identified TGB1 complexes in planta and in vitro. Homologous TGB1 binding was disrupted by site-specific mutations in each of the first two N-terminal helicase motifs but not by mutations in two C-terminal helicase motifs. The TGB2 and TGB3 proteins were not detected in the RNP, but affinity chromatography and yeast two-hybrid experiments demonstrated that TGB1 binds to TGB3 and that TGB2 and TGB3 form heterologous interactions. These interactions required the TGB2 glycine 40 and the TGB3 isoleucine 108 residues, and BSMV mutants containing these amino acid substitution were unable to move from cell to cell. Infectivity experiments indicated that TGB1 separated on a different genomic RNA from TGB2 and TGB3 could function in limited cell-to-cell movement but that the rates of movement depended on the levels of expression of the proteins and the contexts in which they are expressed. Moreover, elevated expression of the wild-type TGB3 protein interfered with cell-to-cell movement but movement was not affected by the similar expression of a TGB3 mutant that fails to interact with TGB2. These experiments suggest that BSMV movement requires physical interactions of TGB2 and TGB3 and that substantial deviation from the TGB protein ratios expressed by the wild-type virus compromises movement.
大麦条纹花叶病毒(BSMV)在一个重叠的三基因块(TGB)中编码三种运动蛋白,但对这些蛋白的物理相互作用了解甚少。我们已经鉴定了一种核糖核蛋白(RNP)复合体,它由感染大麦植株中的TGB1蛋白和正义BSMV RNA组成,并且在植物体内和体外都鉴定出了TGB1复合体。前两个N端解旋酶基序中每个的位点特异性突变都会破坏同源TGB1结合,但两个C端解旋酶基序中的突变则不会。在RNP中未检测到TGB2和TGB3蛋白,但亲和层析和酵母双杂交实验表明,TGB1与TGB3结合,并且TGB2和TGB3形成异源相互作用。这些相互作用需要TGB2的甘氨酸40和TGB3的异亮氨酸108残基,含有这些氨基酸替代的BSMV突变体无法在细胞间移动。感染性实验表明,与TGB2和TGB3在不同基因组RNA上分离的TGB1可以在有限的细胞间运动中发挥作用,但运动速率取决于蛋白的表达水平以及它们表达的环境。此外,野生型TGB3蛋白的过量表达会干扰细胞间运动,但运动不受无法与TGB2相互作用的TGB3突变体类似表达的影响。这些实验表明,BSMV运动需要TGB2和TGB3的物理相互作用,并且与野生型病毒表达的TGB蛋白比例有很大偏差会损害运动。