Phytomelatonin: An Emerging Regulator of Plant Biotic Stress Resistance

Dake Zhao; Houping Wang; Suiyun Chen; Diqiu Yu; Russel J. Reiter

doi:10.1016/j.tplants.2020.08.009

Phytomelatonin: An Emerging Regulator of Plant Biotic Stress Resistance

Dake Zhao, Houping Wang, Suiyun Chen, Diqiu Yu, Russel J. Reiter

Department of Cell Systems & Anatomy

Producción científica: Review article › revisión exhaustiva

128 Citas (Scopus)

Resumen

Melatonin has diverse functions in plant development and stress tolerance, with recent evidence showing a beneficial role in plant biotic stress tolerance. It has been hypothesized that pathogenic invasion causes the immediate generation of melatonin, reactive oxygen species (ROS), and reactive nitrogen species (RNS), with these being mutually dependent, forming the integrative melatonin–ROS–RNS feedforward loop. Here we discuss how the loop, possibly located in the mitochondria and chloroplasts, maximizes disease resistance in the early pathogen ingress stage, providing on-site protection. We also review how melatonin interacts with phytohormone signaling pathways to mediate defense responses and discuss the evolutionary context from the beginnings of the melatonin receptor–mitogen-activated protein kinase (MAPK) cascade in unicellular green algae, followed by the occurrence of phytohormone pathways in land plants.

Idioma original	English (US)
Páginas (desde-hasta)	70-82
Número de páginas	13
Publicación	Trends in Plant Science
Volumen	26
N.º	1
DOI	https://doi.org/10.1016/j.tplants.2020.08.009
Estado	Published - ene 2021

ASJC Scopus subject areas

Plant Science

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title = "Phytomelatonin: An Emerging Regulator of Plant Biotic Stress Resistance",

abstract = "Melatonin has diverse functions in plant development and stress tolerance, with recent evidence showing a beneficial role in plant biotic stress tolerance. It has been hypothesized that pathogenic invasion causes the immediate generation of melatonin, reactive oxygen species (ROS), and reactive nitrogen species (RNS), with these being mutually dependent, forming the integrative melatonin–ROS–RNS feedforward loop. Here we discuss how the loop, possibly located in the mitochondria and chloroplasts, maximizes disease resistance in the early pathogen ingress stage, providing on-site protection. We also review how melatonin interacts with phytohormone signaling pathways to mediate defense responses and discuss the evolutionary context from the beginnings of the melatonin receptor–mitogen-activated protein kinase (MAPK) cascade in unicellular green algae, followed by the occurrence of phytohormone pathways in land plants.",

keywords = "MAPK cascade, evolution, melatonin receptor, melatonin–ROS–RNS loop, phytohormone",

author = "Dake Zhao and Houping Wang and Suiyun Chen and Diqiu Yu and Reiter, {Russel J.}",

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doi = "10.1016/j.tplants.2020.08.009",

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T2 - An Emerging Regulator of Plant Biotic Stress Resistance

AU - Zhao, Dake

AU - Wang, Houping

AU - Chen, Suiyun

AU - Yu, Diqiu

AU - Reiter, Russel J.

PY - 2021/1

Y1 - 2021/1

N2 - Melatonin has diverse functions in plant development and stress tolerance, with recent evidence showing a beneficial role in plant biotic stress tolerance. It has been hypothesized that pathogenic invasion causes the immediate generation of melatonin, reactive oxygen species (ROS), and reactive nitrogen species (RNS), with these being mutually dependent, forming the integrative melatonin–ROS–RNS feedforward loop. Here we discuss how the loop, possibly located in the mitochondria and chloroplasts, maximizes disease resistance in the early pathogen ingress stage, providing on-site protection. We also review how melatonin interacts with phytohormone signaling pathways to mediate defense responses and discuss the evolutionary context from the beginnings of the melatonin receptor–mitogen-activated protein kinase (MAPK) cascade in unicellular green algae, followed by the occurrence of phytohormone pathways in land plants.

AB - Melatonin has diverse functions in plant development and stress tolerance, with recent evidence showing a beneficial role in plant biotic stress tolerance. It has been hypothesized that pathogenic invasion causes the immediate generation of melatonin, reactive oxygen species (ROS), and reactive nitrogen species (RNS), with these being mutually dependent, forming the integrative melatonin–ROS–RNS feedforward loop. Here we discuss how the loop, possibly located in the mitochondria and chloroplasts, maximizes disease resistance in the early pathogen ingress stage, providing on-site protection. We also review how melatonin interacts with phytohormone signaling pathways to mediate defense responses and discuss the evolutionary context from the beginnings of the melatonin receptor–mitogen-activated protein kinase (MAPK) cascade in unicellular green algae, followed by the occurrence of phytohormone pathways in land plants.

KW - MAPK cascade

KW - evolution

KW - melatonin receptor

KW - melatonin–ROS–RNS loop

KW - phytohormone

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Phytomelatonin: An Emerging Regulator of Plant Biotic Stress Resistance

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