Defense signaling pathways in resistance to plant viruses: Crosstalk and finger pointing.

2区 医学 Q1 Medicine Advances in Virus Research Pub Date : 2024-01-01 Epub Date: 2024-02-27 DOI:10.1016/bs.aivir.2024.01.002
Peter Palukaitis, Ju-Yeon Yoon
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Abstract

Resistance to infection by plant viruses involves proteins encoded by plant resistance (R) genes, viz., nucleotide-binding leucine-rich repeats (NLRs), immune receptors. These sensor NLRs are activated either directly or indirectly by viral protein effectors, in effector-triggered immunity, leading to induction of defense signaling pathways, resulting in the synthesis of numerous downstream plant effector molecules that inhibit different stages of the infection cycle, as well as the induction of cell death responses mediated by helper NLRs. Early events in this process involve recognition of the activation of the R gene response by various chaperones and the transport of these complexes to the sites of subsequent events. These events include activation of several kinase cascade pathways, and the syntheses of two master transcriptional regulators, EDS1 and NPR1, as well as the phytohormones salicylic acid, jasmonic acid, and ethylene. The phytohormones, which transit from a primed, resting states to active states, regulate the remainder of the defense signaling pathways, both directly and by crosstalk with each other. This regulation results in the turnover of various suppressors of downstream events and the synthesis of various transcription factors that cooperate and/or compete to induce or suppress transcription of either other regulatory proteins, or plant effector molecules. This network of interactions results in the production of defense effectors acting alone or together with cell death in the infected region, with or without the further activation of non-specific, long-distance resistance. Here, we review the current state of knowledge regarding these processes and the components of the local responses, their interactions, regulation, and crosstalk.

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抵抗植物病毒的防御信号通路:相互交织和相互指责
抵抗植物病毒感染涉及植物抗性(R)基因编码的蛋白质,即核苷酸结合富亮氨酸重复序列(NLRs)免疫受体。这些传感 NLRs 直接或间接地被病毒蛋白效应物激活,形成效应物触发免疫,从而诱导防御信号通路,导致大量下游植物效应物分子的合成,抑制感染周期的不同阶段,并诱导由辅助 NLRs 介导的细胞死亡反应。这一过程中的早期事件包括各种合子识别 R 基因反应的激活,以及将这些复合物运送到后续事件的发生点。这些事件包括激活多个激酶级联途径、合成两个主转录调节因子 EDS1 和 NPR1 以及植物激素水杨酸、茉莉酸和乙烯。植物激素从初始状态、静止状态过渡到活跃状态,直接或通过相互串扰调节防御信号通路的其余部分。这种调控会导致各种下游事件抑制因子的更替,以及各种转录因子的合成,这些转录因子相互合作和/或竞争,诱导或抑制其他调控蛋白或植物效应分子的转录。这种相互作用网络导致产生防御效应物,单独或与受感染区域的细胞死亡一起发挥作用,或进一步激活非特异性远距离抗性。在此,我们回顾了有关这些过程、局部反应的成分、它们之间的相互作用、调节和相互影响的现有知识。
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来源期刊
CiteScore
7.10
自引率
0.00%
发文量
7
审稿时长
>12 weeks
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