Cheng Chi-Ping, Jaag Hannah M, Jonczyk Magdalena, Serviene Elena, Nagy Peter D
Department of Plant Pathology, University of Kentucky, Plant Science Building, Lexington, KY 40546, USA.
Virology. 2007 Nov 25;368(2):238-48. doi: 10.1016/j.virol.2007.07.001. Epub 2007 Aug 6.
Rapid RNA virus evolution is a major problem due to the devastating diseases caused by human, animal and plant-pathogenic RNA viruses. A previous genome-wide screen for host factors affecting recombination in Tomato bushy stunt tombusvirus (TBSV), a small monopartite plant virus, identified Xrn1p 5'-3' exoribonuclease of yeast, a model host, whose absence led to increased appearance of recombinants [Serviene, E., Shapka, N., Cheng, C.P., Panavas, T., Phuangrat, B., Baker, J., Nagy, P.D., (2005). Genome-wide screen identifies host genes affecting viral RNA recombination. Proc. Natl. Acad. Sci. U. S. A. 102 (30), 10545-10550]. In this paper, we tested if over-expression of Xrn1p in yeast or expression of the analogous Xrn4p cytoplasmic 5'-3' exoribonuclease, which has similar function in RNA degradation in Arabidopsis as Xrn1p in yeast, in Nicotiana benthamiana could affect the accumulation of tombusvirus RNA. We show that over-expression of Xrn1p led to almost complete degradation of TBSV RNA replicons in yeast, suggesting that Xrn1p is involved in TBSV degradation. Infection of N. benthamiana expressing AtXrn4p with Cucumber necrosis tombusvirus (CNV) led to enhanced viral RNA degradation, suggesting that the yeast and the plant cytoplasmic 5'-3' exoribonuclease play similar roles. We also observed rapid emergence of novel CNV genomic RNA variants formed via deletions of 5' terminal sequences in N. benthamiana expressing AtXrn4p. Three of the newly emerging 5' truncated CNV variants were infectious in N. benthamiana protoplasts, whereas one CNV variant caused novel symptoms and moved systemically in N. benthamiana plants. Altogether, this paper establishes that a single plant gene can contribute to the emergence of novel viral variants.
由于人类、动物和植物致病性RNA病毒引发的毁灭性疾病,RNA病毒的快速进化成为一个主要问题。先前针对影响番茄丛矮病毒(TBSV,一种小型单分体植物病毒)重组的宿主因子进行的全基因组筛选,确定了酵母中的Xrn1p 5'-3'外切核糖核酸酶,酵母是一种模式宿主,其缺失导致重组体出现增加[Serviene, E., Shapka, N., Cheng, C.P., Panavas, T., Phuangrat, B., Baker, J., Nagy, P.D., (2005). 全基因组筛选鉴定影响病毒RNA重组的宿主基因。美国国家科学院院刊102 (30), 10545 - 10550]。在本文中,我们测试了在酵母中过表达Xrn1p或在本氏烟草中表达类似的Xrn4p细胞质5'-3'外切核糖核酸酶(其在拟南芥中的RNA降解功能与酵母中的Xrn1p相似)是否会影响番茄丛矮病毒RNA的积累。我们发现,Xrn1p的过表达导致酵母中TBSV RNA复制子几乎完全降解,这表明Xrn1p参与了TBSV的降解。用黄瓜坏死番茄丛矮病毒(CNV)感染表达AtXrn4p的本氏烟草导致病毒RNA降解增强,这表明酵母和植物细胞质5'-3'外切核糖核酸酶发挥相似作用。我们还观察到在表达AtXrn4p的本氏烟草中,通过5'末端序列缺失形成的新型CNV基因组RNA变体迅速出现。新出现的三个5'截短的CNV变体在本氏烟草原生质体中具有感染性,而一个CNV变体导致了新症状并在本氏烟草植株中系统移动。总之,本文证实单个植物基因可促成新型病毒变体的出现。
