面对多宿主目标的病毒进化:Potyvirus-Pepper案例研究。

Lucie Tamisier, Séverine Lacombe, Carole Caranta, Jean-Luc Gallois, Benoît Moury
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引用次数: 0

摘要

辣椒(Capsicum spp)中控制多病毒免疫的基因之间的丰富变异性有助于理解植物-病毒的共同进化和植物抗性持久性的主要决定因素。对参与mRNA翻译的真核起始因子4E1 (eIF4E1)的鉴定,作为辣椒对多型病毒抗性的基础,引发了大量的研究工作,表明对多型病毒和其他单链正义RNA病毒的隐性抗性是由许多植物作物物种的真核起始因子突变引起的。同一辣椒基因型中不同eif4e基因组合突变对抗性谱宽度和抗性持久性有复杂的影响,揭示了这两个性状之间的权衡。此外,将eIF4E1突变与数量抗性遗传背景结合对抗性持久性有很强的正向影响。通过分析辣椒基因型对病毒群体施加的进化力量,可以确定提高植物抗性持久性的三个关键因素:病毒适应植物抗性的突变途径的复杂性,这些突变对病毒造成的竞争力下降,以及植物基因型在病毒感染周期中对病毒施加的遗传漂变强度。
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Virus Evolution Faced to Multiple Host Targets: The Potyvirus-Pepper Case Study.

The wealth of variability amongst genes controlling immunity against potyviruses in pepper (Capsicum spp.) has been instrumental in understanding plant-virus co-evolution and major determinants of plant resistance durability. Characterization of the eukaryotic initiation factor 4E1 (eIF4E1), involved in mRNA translation, as the basis of potyvirus resistance in pepper initiated a large body of work that showed that recessive resistance to potyviruses and other single-stranded positive-sense RNA viruses resulted from mutations in eukaryotic initiation factors in many plant crop species. Combining mutations in different eIF4Es in the same pepper genotype had complex effects on the breadth of the resistance spectrum and on resistance durability, revealing a trade-off between these two traits. In addition, combining eIF4E1 mutations with a quantitatively resistant genetic background had a strong positive effect on resistance durability. Analysing the evolutionary forces imposed by pepper genotypes onto virus populations allowed identifying three key factors improving plant resistance durability: the complexity of mutational pathways involved in virus adaptation to the plant resistance, the decrease of competitivity induced by these mutations on the virus and the intensity of genetic drift imposed by plant genotypes on the virus during its infection cycle.

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来源期刊
CiteScore
5.60
自引率
0.00%
发文量
26
审稿时长
>12 weeks
期刊介绍: The review series Current Topics in Microbiology and Immunology provides a synthesis of the latest research findings in the areas of molecular immunology, bacteriology and virology. Each timely volume contains a wealth of information on the featured subject. This review series is designed to provide access to up-to-date, often previously unpublished information.
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