首页|The flavonoid biosynthesis regulator PFG3 confers drought stress tolerance in plants by promoting flavonoid accumulation
The flavonoid biosynthesis regulator PFG3 confers drought stress tolerance in plants by promoting flavonoid accumulation
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NSTL
Elsevier
Secondary metabolites, such as flavonoids, are key participants in biotic and abiotic stress responses in plants. Production of Flavonol Glycosides 3 (PFG3), an R2R3-MYB transcription factor, has been reported to regulate flavonoid biosynthesis and accumulation in Arabidopsis, but its role in drought and other stress responses remains unclear. In this study, we created PFG3-deficient mutants (pfg3 and pfg3-d1) to investigate how PFG3 influences plant flavonoid synthesis and drought/osmotic stress responses. PFG3 was localized in the nucleus and had transcriptional activator activity. The transcript levels of key flavonoid synthesis genes were significantly reduced in pfg3 and pfg3-d1. PFG3 was expressed mainly in leaves, and its expression was induced by osmotic stress. pfg3 and pfg3-d1 showed impaired accumulation of flavonoids, especially flavonols, and were more sensitive to osmotic and drought stresses. The pfg3 and pfg3-d1 mutants showed less biomass accumulation and a weaker ability to acclimate during drought treatment compared with Col-0 plants. Taken together, our data show that PFG3 is important for plant drought/osmotic stress tolerance by regulating flavonoid biosynthesis.
NSTL
Elsevier
