Elicitins as molecular weapons against pathogens: consolidated biotechnological strategy for enhancing plant growth

生物 病原相关分子模式 过敏反应 植物对草食的防御 功能(生物学) 基因 病菌 转录因子 计算生物学 疫霉菌 防御机制 细胞生物学 微生物学 植物抗病性 遗传学 先天免疫系统 受体 植物 模式识别受体
作者
Ali Noman,Muhammad Aqeel,Muhammad Irshad,Sameer H. Qari,Mohamed Hashem,Saad Alamri,Awatif M. Abdulmajeed,Abdullah M. Al‐Sadi
出处
期刊:Critical Reviews in Biotechnology [Taylor & Francis]
卷期号:40 (6): 821-832 被引量:17
标识
DOI:10.1080/07388551.2020.1779174
摘要

To fight against pathogens, defense systems in plants mainly depend upon preformed as well as induced responses. Pathogen detection activates induced responses and signals are transmitted for coordinated cellular events in order to restrict infection and spread. In spite of significant developments in manipulating genes, transcription factors and proteins for their involvement in immunity, absolute tolerance/resistance to pathogens has not been seen in plants/crops. Defense responses, among diverse plant types, to different pathogens involve modifications at the physio-biochemical and molecular levels. Secreted by oomycetes, elicitins are small, highly conserved and sterol-binding extracellular proteins with PAMP (pathogen associated molecular patterns) functions and are capable of eliciting plant defense reactions. Belonging to multigene families in oomycetes, elicitins are different from other plant proteins and show a different affinity for binding sterols and other lipids. These function for sterols binding to catalyze their inter-membrane and intra- as well as inter-micelle transport. Importantly, elicitins protect plants by inducing HR (hypersensitive response) and systemic acquired resistance. Despite immense metabolic significance and the involvement in defense activities, elicitins have not yet been fully studied and many questions regarding their functional activities remain to be explained. In order to address multiple questions associated with the role of elicitins, we have reviewed the understanding and topical advancements in plant defense mechanisms with a particular interest in elicitin-based defense actions and metabolic activities. This article offers potential attributes of elicitins as the biological control of plant diseases and can be considered as a baseline toward a more profound understanding of elicitins.
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