从感知到激活:植物抗病信号的分子遗传和生化景观。

The arabidopsis book Pub Date : 2010-01-01 Epub Date: 2010-05-14 DOI:10.1199/tab.0124
Caleb Knepper, Brad Day
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引用次数: 50

摘要

60多年前,H.H. Flor提出了“基因换基因”假说,该假说描述了寄主植物和病原体之间的遗传关系。在Flor的重要工作之后的几十年里,我们对植物-病原体相互作用的理解已经演变成一个复杂的模型,详细描述了控制宿主范围、抗病信号和易感性的分子遗传和生化过程。植物和微生物之间的相互作用是一种亲密的信号交换,已经进化了数千年,导致病原体毒力策略和宿主识别元件的修改和适应。总的来说,植物进化出了对抗不断变化的生物相互作用的机制,而与此同时,植物病原体也共同进化出了感知和适应这些变化的机制。平均而言,典型的植物容易受到数十种微生物病原体的攻击,但在大多数情况下,仍然对这些挑战具有抵抗力。本领域的研究表明,这些相互作用是由多层紧密相连的信号网络调节的。作为Flor最初观察的进化模型,目前宿主-病原体相互作用的范式是病原体效应分子,在很大程度上,驱动植物的识别、激活和随后的生理反应,从而产生抗性和易感性。在本章中,我们将讨论我们目前对植物和微生物病原体之间关系的理解,详细说明寄主和微生物为维持抗病性或诱导易感性和疾病而施加的压力。从识别到转录重编程,我们将回顾当前的数据和文献,这些数据和文献已经将基因换基因假说的经典模型推进到我们目前对基础和效应触发免疫的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

From perception to activation: the molecular-genetic and biochemical landscape of disease resistance signaling in plants.

From perception to activation: the molecular-genetic and biochemical landscape of disease resistance signaling in plants.

From perception to activation: the molecular-genetic and biochemical landscape of disease resistance signaling in plants.

From perception to activation: the molecular-genetic and biochemical landscape of disease resistance signaling in plants.

More than 60 years ago, H.H. Flor proposed the "Gene-for-Gene" hypothesis, which described the genetic relationship between host plants and pathogens. In the decades that followed Flor's seminal work, our understanding of the plant-pathogen interaction has evolved into a sophisticated model, detailing the molecular genetic and biochemical processes that control host-range, disease resistance signaling and susceptibility. The interaction between plants and microbes is an intimate exchange of signals that has evolved for millennia, resulting in the modification and adaptation of pathogen virulence strategies and host recognition elements. In total, plants have evolved mechanisms to combat the ever-changing landscape of biotic interactions bombarding their environment, while in parallel, plant pathogens have co-evolved mechanisms to sense and adapt to these changes. On average, the typical plant is susceptible to attack by dozens of microbial pathogens, yet in most cases, remains resistant to many of these challenges. The sum of research in our field has revealed that these interactions are regulated by multiple layers of intimately linked signaling networks. As an evolved model of Flor's initial observations, the current paradigm in host-pathogen interactions is that pathogen effector molecules, in large part, drive the recognition, activation and subsequent physiological responses in plants that give rise to resistance and susceptibility. In this Chapter, we will discuss our current understanding of the association between plants and microbial pathogens, detailing the pressures placed on both host and microbe to either maintain disease resistance, or induce susceptibility and disease. From recognition to transcriptional reprogramming, we will review current data and literature that has advanced the classical model of the Gene-for-Gene hypothesis to our current understanding of basal and effector triggered immunity.

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