ZMFLS1 PROMOTES OXIDATIVE STRESS RESISTANCE BY REGULATING FLAVONOL BIOSYNTHESIS IN TRANSGENIC ARABIDOPSIS THALIANA

Authors: Y. Fan1, H. Li2, R. Fan, H. Zhang, X. Zhao, B. Li1
Journal: Journal of Animal and Plant Sciences (JAPS)
ISSN: 1018-7081 (Print), 2309-8694 (Online)
Volume: 31  Issue: 6  Pages: 1652-1658
Year: 2021
DOI: https://doi.org/10.36899/JAPS.2021.6.0369
URL: https://doi.org/https://doi.org/10.36899/JAPS.2021.6.0369
Publisher: Pakistan Agricultural Scientists Forum

Abstract:
<p>Many biological and abiotic stresses can lead to excessive reactive oxygen species accumulation and oxidative damage in plants. The purpose of the present study was to elucidate the function of maize flavonol synthase 1 (ZmFLS1) in alleviating oxidative stress. The coding sequence of&nbsp;<em>ZmFLS1</em>&nbsp;was cloned from maize B73 complementary DNA and was introduced into&nbsp;<em>Arabidopsis thaliana</em>. Two&nbsp;<em>ZmFLS1</em>&nbsp;overexpression lines, OE-6 and OE-8, showed a significant increase in the accumulation of flavonoids, especially flavonols. The antioxidant capacity test showed that overexpression of&nbsp;<em>ZmFLS1</em>&nbsp;resulted in a higher oxygen radical scavenging rate. Consistent with those, transgenic plants with&nbsp;<em>ZmFLS1</em>&nbsp;overexpression showed enhanced oxidative stress tolerance and lower oxidative damage. In conclusion, ZmFLS1 promoted plant oxidative stress tolerance through regulating flavonoid biosynthesis and accumulation, especially flavonols, and&nbsp;<em>ZmFLS1</em> has the potential in mitigating oxidative damage caused by environmental stress in plants.</p>

Keywords: ZmFLS1; Flavonols; Oxidative stress; MDA (Malondialdehyde)