[Virus resistance genes in plants].

Uirusu Pub Date : 2018-01-01 DOI:10.2222/jsv.68.13
Kazuhiro Ishibashi, Masayuki Ishikawa
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引用次数: 1

Abstract

Plants defend themselves from virus infection by RNA silencing and resistance (R) gene-mediated mechanisms. Many dominant R genes encode nucleotide-binding site and leucine-rich repeat (NB-LRR)-containing proteins. NB-LRR proteins are also encoded by R genes against bacteria or fungi, suggesting a similar mechanism underlies defense systems to diverse pathogens. In contrast, several non-NB-LRR-type R genes have recently been cloned, each of which differs from others in sequences and functions. In this review, we introduce a diversity of R gene-mediated plant defense systems against viruses. Tm-1, JAX1, and Scmv1, resistance genes against tomato mosaic virus, potexviruses, and sugarcane mosaic virus, respectively, inhibit virus multiplication at a single cell level. The RTM1, RTM2, RTM3 genes of Arabidopsis thaliana inhibit systemic transport of potyviruses through the phloem. STV11 of rice against rice stripe virus and Ty-1 and Ty-3 genes of tomato against tomato yellow leaf curl virus allow low level virus multiplication and confer tolerance. The wide diversity of plant defense systems against viruses implies their recent emergence. We suggest that plants evolved new defense systems to counter infection by viruses that had overcome pre-existing defense systems (RNA silencing and NB-LRR-type R gene-mediated systems).

[植物中的病毒抗性基因]。
植物通过RNA沉默和抗性(R)基因介导的机制保护自己免受病毒感染。许多显性R基因编码核苷酸结合位点和富含亮氨酸重复序列(NB-LRR)的蛋白。NB-LRR蛋白也由R基因编码,用于对抗细菌或真菌,这表明针对各种病原体的防御系统也存在类似的机制。相比之下,最近已经克隆了几个非nb - lrr型R基因,每个基因在序列和功能上都与其他基因不同。本文综述了R基因介导的植物抗病毒防御系统的多样性。Tm-1、JAX1和Scmv1分别是番茄花叶病毒、马铃薯病毒和甘蔗花叶病毒的抗性基因,它们在单细胞水平上抑制病毒的增殖。拟南芥的RTM1, RTM2, RTM3基因抑制多病毒通过韧皮部的全身运输。水稻抗水稻条纹病毒的STV11基因和番茄抗番茄黄卷叶病毒的Ty-1和Ty-3基因允许病毒低水平增殖并赋予耐受性。植物防御病毒系统的广泛多样性意味着它们是最近才出现的。我们认为植物进化出了新的防御系统来对抗病毒感染,这些防御系统已经克服了原有的防御系统(RNA沉默和nb - lrr型R基因介导系统)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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