S‐Nitrosylation of the histone deacetylase HDA19 stimulates its activity to enhance plant stress tolerance in Arabidopsis

Author:

Zheng Yu12ORCID,Li Zhenting1,Cui Xiaoyun2,Yang Zheng2,Bao Chun1,Pan Lei1,Liu Xiaoyun1,Chatel‐Innocenti Gilles2,Vanacker Hélène2,Noctor Graham2,Dard Avilien3,Reichheld Jean‐Philippe3ORCID,Issakidis‐Bourguet Emmanuelle2,Zhou Dao‐Xiu2

Affiliation:

1. Hubei Province Research Center of Legume Plants, School of Life Science and Institute for Interdisciplinary Research Jianghan University Wuhan 430056 China

2. Institute of Plant Sciences Paris‐Saclay, CNRS, INRA Université Paris‐Saclay 91405 Orsay France

3. Laboratoire Génome et Développement des Plantes, CNRS Université Perpignan Via Domitia 66860 Perpignan France

Abstract

SUMMARYArabidopsis histone deacetylase HDA19 is required for gene expression programs of a large spectrum of plant developmental and stress‐responsive pathways. How this enzyme senses cellular environment to control its activity remains unclear. In this work, we show that HDA19 is post‐translationally modified by S‐nitrosylation at 4 Cysteine (Cys) residues. HDA19 S‐nitrosylation depends on the cellular nitric oxide level, which is enhanced under oxidative stress. We find that HDA19 is required for cellular redox homeostasis and plant tolerance to oxidative stress, which in turn stimulates its nuclear enrichment, S‐nitrosylation and epigenetic functions including binding to genomic targets, histone deacetylation and gene repression. The Cys137 of the protein is involved in basal and stress‐induced S‐nitrosylation, and is required for HDA19 functions in developmental, stress‐responsive and epigenetic controls. Together, these results indicate that S‐nitrosylation regulates HDA19 activity and is a mechanism of redox‐sensing for chromatin regulation of plant tolerance to stress.

Funder

National Natural Science Foundation of China

China Scholarship Council

Jianghan University

Publisher

Wiley

Subject

Cell Biology,Plant Science,Genetics

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