Constitutive expression of the wheat TaSOD5 gene enhances salinity tolerance of Arabidopsis thaliana

Y.-G. SONG; T.-X. GAO; X.-J. LIU; W. DONG

doi:10.32615/bp.2019.108

Biologia Plantarum (Dec 2019)

Constitutive expression of the wheat TaSOD5 gene enhances salinity tolerance of Arabidopsis thaliana

Y.-G. SONG,
T.-X. GAO,
X.-J. LIU,
W. DONG

Affiliations

Y.-G. SONG: School of Life Science, Qufu Normal University, Qufu, Shandong, 273165, P.R. China
T.-X. GAO: School of Life Science, Qufu Normal University, Qufu, Shandong, 273165, P.R. China
X.-J. LIU: School of Life Science, Qufu Normal University, Qufu, Shandong, 273165, P.R. China
W. DONG: School of Life Science, Qufu Normal University, Qufu, Shandong, 273165, P.R. China

DOI: https://doi.org/10.32615/bp.2019.108
Journal volume & issue: Vol. 63, no. 1
pp. 750 – 756

Abstract

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Superoxide dismutase is a crucial reactive oxygen species (ROS) scavenger and converts the superoxide radical (O2-) to H2O2, so it is thought to enhance abiotic stress tolerance by reducing ROS accumulation and so avoiding oxidative damage. In this study, we isolated a salt- and oxidative stress-responsive Cu/Zn SOD gene TaSOD5 from wheat. The ectopic overexpression of TaSOD5 in Arabidopsis increased total and Cu/Zn SOD activities, and offered the plant tolerance to salt stress. Arabidopsis ectopically expressing TaSOD5 possessed a superior resistance to oxidative stress induced H2O2. The TaSOD5 ectopic overexpression elevated the activities of both ROS scavengers and O2- producer NADPH oxidase. These findings show that Cu/Zn SOD enhances salt tolerance via regulating the machinery of redox homeostasis rather than improving SOD activity alone.

Published in Biologia Plantarum

ISSN: 1573-8264 (Online)
Publisher: Institute of Experimental Botany of the Czech Academy of Sciences
Country of publisher: Czechia
LCC subjects: Science: Biology (General); Science: Botany: Plant ecology
Website: https://bp.ueb.cas.cz/

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