1 Pathogen-Plant Interactions Group, Plant Breeding Science, Research Faculty of Agriculture, Hokkaido University, Sapporo 060-8589, Japan; and.
2 National Institute of Advanced Industrial Science and Technology, Sapporo 062-8517, Japan.
Mol Plant Microbe Interact. 2016 Aug;29(8):595-8. doi: 10.1094/MPMI-05-16-0103-CR. Epub 2016 Jul 6.
Plants recognize viral infection via an immune receptor, i.e., nucleotide-binding site (NB)-leucine-rich repeat (LRR) proteins. Another immune receptor, receptor-like kinase proteins, which share an LRR domain with NB-LRRs, perceive conserved molecules of pathogens called pathogen- or microbe-associated molecular patterns, but NB-LRRs generally perceive particular viral proteins. As viruses can evolve more rapidly than the host immune system, how do plant immune systems, which rely on the perception of proteins, remain effective? Viral adaptive evolution may be controlled by penalties that result from mutations in viral proteins that are perceived by NB-LRRs. Our recent studies in pea (Pisum sativum) suggest a penalty of increased susceptibility to another immune system. When a viral protein mutates to evade one immune system, the virus with the mutated protein becomes more susceptible to another. Such antagonistic pleiotropy of a viral protein by two independent plant immune systems may have precedents. Plants may rely on pairs of immune systems to constrain adaptive evolution by viruses and thereby maintain durable antiviral immunity.
植物通过一种免疫受体,即核苷酸结合位点(NB)-富含亮氨酸重复(LRR)蛋白,来识别病毒感染。另一种免疫受体,类受体激酶蛋白,与 NB-LRRs 共享 LRR 结构域,能够感知病原体或微生物相关的保守分子,即所谓的病原体或微生物相关分子模式,但 NB-LRR 通常感知特定的病毒蛋白。由于病毒的进化速度可能快于宿主免疫系统,那么依赖于蛋白质感知的植物免疫系统如何保持有效性呢?病毒的适应性进化可能受到由 NB-LRR 感知的病毒蛋白突变引起的惩罚的控制。我们最近在豌豆(Pisum sativum)中的研究表明,另一种免疫系统的敏感性增加是一种惩罚。当病毒蛋白发生突变以逃避一种免疫系统时,带有突变蛋白的病毒对另一种免疫系统的敏感性增加。这种由两个独立的植物免疫系统对病毒蛋白的拮抗多效性可能有先例。植物可能依赖于成对的免疫系统来限制病毒的适应性进化,从而保持持久的抗病毒免疫力。
