The microscopic mechanism between endophytic fungi and host plants: From recognition to building stable mutually beneficial relationships

Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant research. However, the micromolecular mechanisms remain vague due to the complexity of the interactions. This article summarizes the latest...

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Published in	Microbiological research Vol. 261; p. 127056
Main Authors	Ji, Xin, Xia, Ye, Zhang, Hui, Cui, Jin-Long
Format	Journal Article
Language	English
Published	Germany Elsevier GmbH 01.08.2022
Subjects	Co-evolution endophytes Fungal endophytes fungi Internal environment metabolism Microscopic mechanism Plant defence plant physiology Plant-microbe interaction symbiosis ABA TFs PAMPs/MAMPs NO PTI PRRs CPT Fungal endophytes H2O2 Plant defence Microscopic mechanism Internal environment SA Plant-microbe interaction JA ROS ETH AMF SLs NLRs ETI Co-evolution
Online Access	Get full text
ISSN	0944-5013 1618-0623 1618-0623
DOI	10.1016/j.micres.2022.127056

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Abstract	Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant research. However, the micromolecular mechanisms remain vague due to the complexity of the interactions. This article summarizes the latest progress in the mechanism studies of the symbiotic relationships between endophytic fungi and plants. We address the aspects from signal generation, plant defense, to fungal coping strategies to establish the balanced constraint relationships between fungi and their hosts that finally form “a community of shared future.” These processes do not occur in isolation but in synergy. Both endophytic fungi and their host plants contribute to establishing the stable symbiosis. New insights have been provided into a deeper understanding of the occurrence of species interactions and their applications to solving practical problems. •The latest findings of the origination and transmission features of endophytic fungi.•Signaling mechanisms for establishing the symbiotic relationships.•Antagonistic mechanisms in natural selection between endophytes and host plants.•Mutual adaptation and balanced symbiosis between endophytic fungi and host plants.•Responsive mechanisms of “plant-endophyte symbiont” to the external influence factors.
AbstractList	Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant research. However, the micromolecular mechanisms remain vague due to the complexity of the interactions. This article summarizes the latest progress in the mechanism studies of the symbiotic relationships between endophytic fungi and plants. We address the aspects from signal generation, plant defense, to fungal coping strategies to establish the balanced constraint relationships between fungi and their hosts that finally form “a community of shared future.” These processes do not occur in isolation but in synergy. Both endophytic fungi and their host plants contribute to establishing the stable symbiosis. New insights have been provided into a deeper understanding of the occurrence of species interactions and their applications to solving practical problems. Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant research. However, the micromolecular mechanisms remain vague due to the complexity of the interactions. This article summarizes the latest progress in the mechanism studies of the symbiotic relationships between endophytic fungi and plants. We address the aspects from signal generation, plant defense, to fungal coping strategies to establish the balanced constraint relationships between fungi and their hosts that finally form "a community of shared future." These processes do not occur in isolation but in synergy. Both endophytic fungi and their host plants contribute to establishing the stable symbiosis. New insights have been provided into a deeper understanding of the occurrence of species interactions and their applications to solving practical problems.Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant research. However, the micromolecular mechanisms remain vague due to the complexity of the interactions. This article summarizes the latest progress in the mechanism studies of the symbiotic relationships between endophytic fungi and plants. We address the aspects from signal generation, plant defense, to fungal coping strategies to establish the balanced constraint relationships between fungi and their hosts that finally form "a community of shared future." These processes do not occur in isolation but in synergy. Both endophytic fungi and their host plants contribute to establishing the stable symbiosis. New insights have been provided into a deeper understanding of the occurrence of species interactions and their applications to solving practical problems. Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant research. However, the micromolecular mechanisms remain vague due to the complexity of the interactions. This article summarizes the latest progress in the mechanism studies of the symbiotic relationships between endophytic fungi and plants. We address the aspects from signal generation, plant defense, to fungal coping strategies to establish the balanced constraint relationships between fungi and their hosts that finally form “a community of shared future.” These processes do not occur in isolation but in synergy. Both endophytic fungi and their host plants contribute to establishing the stable symbiosis. New insights have been provided into a deeper understanding of the occurrence of species interactions and their applications to solving practical problems. •The latest findings of the origination and transmission features of endophytic fungi.•Signaling mechanisms for establishing the symbiotic relationships.•Antagonistic mechanisms in natural selection between endophytes and host plants.•Mutual adaptation and balanced symbiosis between endophytic fungi and host plants.•Responsive mechanisms of “plant-endophyte symbiont” to the external influence factors.
ArticleNumber	127056
Author	Zhang, Hui Cui, Jin-Long Xia, Ye Ji, Xin
Author_xml	– sequence: 1 givenname: Xin surname: Ji fullname: Ji, Xin email: jx199779@163.com organization: Institute of Applied Chemistry, Shanxi University, Taiyuan, Shanxi 030006, China – sequence: 2 givenname: Ye surname: Xia fullname: Xia, Ye email: xia.374@osu.edu organization: Department of Plant Pathology, College of Food, Agricultural and Environmental Sciences, The Ohio State University, Columbus, OH 43210, United States – sequence: 3 givenname: Hui surname: Zhang fullname: Zhang, Hui email: 17339924337@163.com organization: Institute of Applied Chemistry, Shanxi University, Taiyuan, Shanxi 030006, China – sequence: 4 givenname: Jin-Long surname: Cui fullname: Cui, Jin-Long email: cjl717@163.com organization: Institute of Applied Chemistry, Shanxi University, Taiyuan, Shanxi 030006, China
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/35552099$$D View this record in MEDLINE/PubMed
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Keywords	ABA TFs PAMPs/MAMPs NO PTI PRRs CPT Fungal endophytes H2O2 Plant defence Microscopic mechanism Internal environment SA Plant-microbe interaction JA ROS ETH AMF SLs NLRs ETI Co-evolution
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Snippet	Growing research suggests that endophytic fungi deeply affect plant physiology, development, and metabolism, which has become an indispensable subject in plant...
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SubjectTerms	Co-evolution endophytes Fungal endophytes fungi Internal environment metabolism Microscopic mechanism Plant defence plant physiology Plant-microbe interaction symbiosis
Title	The microscopic mechanism between endophytic fungi and host plants: From recognition to building stable mutually beneficial relationships
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