Melatonin improves rice salinity stress tolerance by NADPH oxidase‐dependent control of the plasma membrane K+ transporters and K+ homeostasis

Juan Liu, Sergey Shabala, Jing Zhang, Guohui Ma, Dandan Chen, Lana Shabala, Fanrong Zeng, Zhong-Hua Chen, Meixue Zhou, Gayatri Venkataraman, Quanzhi Zhao

Research output: Contribution to journalArticlepeer-review

Abstract

This study aimed to reveal the mechanistic basis of the melatonin‐mediated amelioration of salinity stress in plants. Electrophysiological experiments revealed that melatonin decreased salt‐induced K+ efflux (a critical determinant of plant salt tolerance) in a dose‐ and time‐dependent manner and reduced sensitivity of the plasma membrane K+‐permeable channels to hydroxyl radicals. These beneficial effects of melatonin were abolished by NADPH oxidase blocker DPI. Transcriptome analyses revealed that melatonin induced 585 (448 up‐ and 137 down‐regulated) and 59 (54 up‐ and 5 down‐regulated) differentially expressed genes (DEGs) in the root tip and mature zone, respectively. The most noticeable changes in the root tip were melatonin‐induced increase in the expression of several DEGs encoding respiratory burst NADPH oxidase (OsRBOHA and OsRBOHF), calcineurin B‐like/calcineurin B‐like‐interacting protein kinase (OsCBL/OsCIPK), and calcium‐dependent protein kinase (OsCDPK) under salt stress. Melatonin also enhanced the expression of potassium transporter genes (OsAKT1, OsHAK1, and OsHAK5). Taken together, these results indicate that melatonin improves salt tolerance in rice by enabling K+ retention in roots, and that the latter process is conferred by melatonin scavenging of hydroxyl radicals and a concurrent OsRBOHF‐dependent ROS signaling required to activate stress‐responsive genes and increasing the expression of K+ uptake transporters in the root tip.
Original languageEnglish
Pages (from-to)2591-2605
Number of pages15
JournalPlant, Cell and Environment
Volume43
Issue number11
DOIs
Publication statusPublished - 2020

Keywords

  • active oxygen
  • melatonin
  • potassium
  • tissue-specific antigens

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