Avisar Dror, Prokhnevsky Alexey I, Dolja Valerian V
Department of Botany and Plant Pathology, Oregon State University, Cordley Hall 2082, Corvallis, OR 97331, USA.
J Virol. 2008 Mar;82(6):2836-43. doi: 10.1128/JVI.02246-07. Epub 2008 Jan 16.
The Hsp70 homolog (Hsp70h) of Beet yellows virus (BYV) functions in virion assembly and cell-to-cell movement and is autonomously targeted to plasmodesmata in association with the actomyosin motility system (A. I. Prokhnevsky, V. V. Peremyslov, and V. V. Dolja, J. Virol. 79:14421-14428, 2005). Myosins are a diverse category of molecular motors that possess a motor domain and a tail domain involved in cargo binding. Plants have two classes of myosins, VIII and XI, whose specific functions are poorly understood. We used dominant negative inhibition to identify myosins required for Hsp70h localization to plasmodesmata. Six full-length myosin cDNAs from the BYV host plant Nicotiana benthamiana were sequenced and shown to encode apparent orthologs of the Arabidopsis thaliana myosins VIII-1, VIII-2, VIII-B, XI-2, XI-F, and XI-K. We found that the ectopic expression of the tail domains of each of the class VIII, but not the class XI, myosins inhibited the plasmodesmatal localization of Hsp70h. In contrast, the overexpression of the motor domains or the entire molecules of the class VIII myosins did not affect Hsp70h targeting. Further mapping revealed that the minimal cargo-binding part of the myosin VIII tails was both essential and sufficient for the inhibition of the proper Hsp70h localization. Interestingly, plasmodesmatal localization of the Tobacco mosaic virus movement protein and Arabidopsis protein RGP2 was not affected by myosin VIII tail overexpression. Collectively, our data implicate class VIII myosins in protein delivery to plasmodesmata and suggest that more than one mechanism of such delivery exist in plants.
甜菜黄化病毒(BYV)的热休克蛋白70同源物(Hsp70h)在病毒粒子组装和细胞间运动中发挥作用,并与肌动球蛋白运动系统相关联,自主靶向到胞间连丝(A. I. 普罗赫涅夫斯基、V. V. 佩列梅斯洛娃和V. V. 多尔贾,《病毒学杂志》79:14421 - 14428,2005年)。肌球蛋白是一类多样的分子马达,具有一个马达结构域和一个参与货物结合的尾部结构域。植物有两类肌球蛋白,VIII类和XI类,其具体功能尚不清楚。我们利用显性负抑制来鉴定Hsp70h定位到胞间连丝所需的肌球蛋白。对来自BYV宿主植物本氏烟草的六个全长肌球蛋白cDNA进行了测序,结果显示它们编码拟南芥肌球蛋白VIII - 1、VIII - 2、VIII - B、XI - 2、XI - F和XI - K的明显直系同源物。我们发现,VIII类肌球蛋白(而非XI类肌球蛋白)各自尾部结构域的异位表达抑制了Hsp70h的胞间连丝定位。相反,VIII类肌球蛋白马达结构域或整个分子的过表达并不影响Hsp70h的靶向定位。进一步的定位研究表明,肌球蛋白VIII尾部的最小货物结合部分对于抑制Hsp70h的正确定位既是必需的也是充分的。有趣的是,烟草花叶病毒运动蛋白和拟南芥蛋白RGP2的胞间连丝定位不受肌球蛋白VIII尾部过表达的影响。总体而言,我们的数据表明VIII类肌球蛋白参与了向胞间连丝的蛋白质运输,并提示植物中存在不止一种这样的运输机制。