Functional Characterization of Grapevine VviMYC4 in Regulating Drought Tolerance by Mediating Flavonol Biosynthesis

• Published in: Plants (Basel) Vol. 14; no. 10; p. 1409
• Main Authors: Tan, Yiting, Wang, Wenjuan, Tian, Wenbo, Wang, Beibei, Zhao, Qifeng, Liang, Jinjun, Zhao, Wei, Wen, Pengfei
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 08.05.2025; MDPI
• Subjects: Agricultural production; Amino acids; Analysis; Antioxidants; Bioflavonoids; Biosynthesis; Drought; Drought resistance; drought stress; Enzymes; Flavones; Flavonoids; flavonol biosynthesis; Flavonols; Food quality; Gene expression; gene function; Genes; Genetic transformation; Grapes; grapevine; Grapevines; Homology; Leaves; Metabolism; Metabolites; Myc protein; Phylogeny; Physiology; Plant cells; Plants; Rankings; Reactive oxygen species; Regulatory mechanisms (biology); Scavenging; Seedlings; Signal transduction; Tobacco; Transcription factors; transcriptional regulation; Transgenic plants; Wine; China; gene function; drought stress; grapevine; transcriptional regulation; flavonol biosynthesis
• ISSN: 2223-7747; 2223-7747
• DOI: 10.3390/plants14101409

Drought ranks among the key abiotic stresses that limit the growth and yield of grapevines (Vitis vinifera L.). Flavonols, a class of antioxidants commonly found in grapevines, play a crucial role in combating drought stress. In this study, we characterized the function and regulatory mechanism of the grapevine VviMYC4 in mediating flavonol biosynthesis in response to drought stress. VviMYC4 encodes a protein of 468 amino acids with conserved bHLH-MYC_N and bHLH domains. Phylogenetic analysis confirmed its homology with the grapevine VviMYC2 and similarity in function. The expression of VviMYC4 in ‘Cabernet Sauvignon’ grapevine seedling leaves increased initially and then decreased during prolonged drought stress. The homologous and heterologous transformation of VviMYC4 in grape suspension cells, Arabidopsis plants, tobacco leaves, and grapevine leaves demonstrated its ability to positively regulate flavonol biosynthesis and accumulation by promoting the expression of flavonol-related genes, thereby enhancing the drought tolerance of transgenic plants. Furthermore, VviMYC4 could bind to specific E-box sites on the promoters of VviF3H and VviFLS to improve their activities. This study highlights VviMYC4 as a pivotal positive regulator of drought tolerance in grapevines and proposes that VviMYC4 enhances the antioxidant and reactive oxygen species (ROS) scavenging abilities of grapevines in challenging environments and improves their stress resilience by mediating flavonol biosynthesis. Our findings offer crucial candidate genes and valuable insights for the molecular breeding of grapevine drought resistance.