Types of Membrane Transporters and the Mechanisms of Interaction between Them and Reactive Oxygen Species in Plants

Yuan, Ding; Wu, Xiaolei; Jiang, Xiangqun; Gong, Binbin; Gao, Hongbo

doi:10.3390/antiox13020221

Antioxidants

2024

DOI: 10.3390/antiox13020221

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Types of Membrane Transporters and the Mechanisms of Interaction between Them and Reactive Oxygen Species in Plants

Ding Yuan,

Xiaolei Wu,

Xiangqun Jiang

et al.

Abstract: Membrane transporters are proteins that mediate the entry and exit of substances through the plasma membrane and organellar membranes and are capable of recognizing and binding to specific substances, thereby facilitating substance transport. Membrane transporters are divided into different types, e.g., ion transporters, sugar transporters, amino acid transporters, and aquaporins, based on the substances they transport. These membrane transporters inhibit reactive oxygen species (ROS) generation through ion re… Show more

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Cited by 6 publications

References 208 publications

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Molecular evolution and interaction of ROS with ion transport for plant abiotic stresses

Yu,

Xiao,

Abou‐Elwafa

et al. 2024

New Plant Protection

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Reactive oxygen species (ROS) serve as crucial signaling molecules in plants, enabling rapid responses to environmental stresses such as abiotic factors. ROS production primarily stems from the activation of enzymes such as nicotinamide adenine dinucleotide phosphate (NADPH) oxidases and peroxidases, as well as disruptions in the respiratory and photosynthetic electron transport chains. This oxidative stress triggers signaling pathways that involve in calcium ion (Ca2+) influx across cell membranes, altering ionic conductance. ROS encompass hydroxyl radicals (OH•) and hydrogen peroxide (H2O2), which activate hyperpolarization‐activated Ca2+ channels and influence ion transport dynamics. Our review focuses on the mechanisms driving ROS generation and ion transport during plant responses to abiotic stress. We explore the regulation, characteristics, and potential structures of ROS‐activated ion channels in plants. Specifically, we examine the molecular responses and evolutionary adaptations of Shaker‐type K+ channels (AKT/KAT/GORK/SKOR) under stress conditions. Comparative genetic analyses highlight the conservation of these channels and other ROS‐regulated proteins (e.g., MDHAR, POX, and RBOH), suggesting their essential roles in plant to adapt to diverse stresses. This study underscores the significance of ROS‐regulated proteins in plant stress responses, advocating for further research to elucidate their fundamental roles.

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Molecular evolution and interaction of ROS with ion transport for plant abiotic stresses

Yu,

Xiao,

Abou‐Elwafa

et al. 2024

New Plant Protection

View full text Add to dashboard Cite

show abstract

Plant membrane transporters function under abiotic stresses: a review

Mishra,

Mohapatra,

Rout

2024

Planta

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Soybean gene GmMLP34 regulates Arabidopsis negative response to high temperature stress

Xianguan,

Yun,

Wei

et al. 2025

Gene

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Types of Membrane Transporters and the Mechanisms of Interaction between Them and Reactive Oxygen Species in Plants

Cited by 6 publications

References 208 publications

Molecular evolution and interaction of ROS with ion transport for plant abiotic stresses

Molecular evolution and interaction of ROS with ion transport for plant abiotic stresses

Plant membrane transporters function under abiotic stresses: a review

Soybean gene GmMLP34 regulates Arabidopsis negative response to high temperature stress

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