微小RNA引导的加工过程会损害李痘病毒的复制,但该病毒很容易进化以逃避这种沉默机制。
MicroRNA-guided processing impairs Plum pox virus replication, but the virus readily evolves to escape this silencing mechanism.
作者信息
Simón-Mateo Carmen, García Juan Antonio
机构信息
Centro Nacional de Biotecnología-CSIC, Campus Universidad Autónoma de Madrid, Spain.
出版信息
J Virol. 2006 Mar;80(5):2429-36. doi: 10.1128/JVI.80.5.2429-2436.2006.
Abstract
Since the discovery of microRNA (miRNA)-guided processing, a new type of RNA silencing, the possibility that such a mechanism could play a role in virus defense has been proposed. In this work, we have analyzed whether Plum pox virus (PPV) chimeras bearing miRNA target sequences (miR171, miR167, and miR159), which have been reported to be functional in Arabidopsis, were affected by miRNA function in three different host plants. Some of these PPV chimeras had clearly impaired infectivity compared with those carrying nonfunctional miRNA target sequences. The behaviors of PPV chimeras were similar but not identical in all the plants tested, and the deleterious effect on virus infectivity depended on the miRNA sequence cloned and on the site of insertion in the viral genome. The effect of the miRNA target sequence was drastically alleviated in transgenic plants expressing the silencing suppressor P1/HCPro. Furthermore, we show that virus chimeras readily escape RNA silencing interference through mutations within the miRNA target sequence, which mainly affected nucleotides matching the 5'-terminal region of the miRNA.
摘要
自从发现了由微小RNA(miRNA)引导的加工过程,即一种新型的RNA沉默现象以来,人们就提出了这种机制可能在病毒防御中发挥作用的可能性。在这项研究中,我们分析了携带已报道在拟南芥中具有功能的miRNA靶序列(miR171、miR167和miR159)的李痘病毒(PPV)嵌合体,在三种不同宿主植物中是否受到miRNA功能的影响。与携带无功能miRNA靶序列的嵌合体相比,其中一些PPV嵌合体的感染力明显受损。在所有测试的植物中,PPV嵌合体的表现相似但并不完全相同,并且对病毒感染力的有害影响取决于克隆的miRNA序列以及在病毒基因组中的插入位点。在表达沉默抑制子P1/HCPro的转基因植物中,miRNA靶序列的影响被极大地减轻。此外,我们表明病毒嵌合体很容易通过miRNA靶序列内的突变逃避RNA沉默干扰,这些突变主要影响与miRNA 5'末端区域匹配的核苷酸。
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