NtMYB27 acts downstream of NtBES1 to modulate flavonoids accumulation in response to UV ‐B radiation in tobacco

• Published in: The Plant journal : for cell and molecular biology Vol. 119; no. 6; pp. 2867 - 2884
• Main Authors: Wang, Zhong, Luo, Zhaopeng, Li, Zefeng, Liu, Pingping, He, Shun, Yu, Shizhou, Zhao, Huina, Yang, Jinchu, Zhang, Zhan, Cao, Peijian, Jin, Shuangxia, Yang, Yongfeng, Yang, Jun
• Format: Journal Article
• Language: English
• Published: 12.08.2024
• ISSN: 0960-7412; 1365-313X; 1365-313X
• DOI: 10.1111/tpj.16958

SUMMARY UV‐B radiation can induce the accumulation of many secondary metabolites, including flavonoids, in plants to protect them from oxidative damage. BRI1‐EMS‐SUPPRESSOR1 (BES1) has been shown to mediate the biosynthesis of flavonoids in response to UV‐B. However, the detailed mechanism by which it acts still needs to be further elucidated. Here, we revealed that UV‐B significantly inhibited the transcription of multiple transcription factor genes in tobacco, including NtMYB27 , which was subsequently shown to be a repressor of flavonoids synthesis in tobacco. We further demonstrated that NtBES1 directly binds to the E‐box motifs present in the promoter of NtMYB27 to mediate its transcriptional repression upon UV‐B exposure. The UV‐B‐repressed NtMYB27 could bind to the ACCT‐containing element (ACE) in the promoters of Nt4CL and NtCHS and served as a modulator that promoted the biosynthesis of lignin and chlorogenic acid (CGA) but inhibited the accumulation of flavonoids in tobacco. The expression of NtMYB27 was also significantly repressed by heat stress, suggesting its putative roles in regulating heat‐induced flavonoids accumulation. Taken together, our results revealed the role of NtBES1 and NtMYB27 in regulating the synthesis of flavonoids during the plant response to UV‐B radiation in tobacco. Significance Statement UV‐B radiation can induce the accumulation of flavonoids in plants to protect them from oxidative damage. BES1 (BRI1‐EMS‐SUPPRESSOR1) has been shown to mediate the biosynthesis of flavonoids in response to UV‐B. However, the detailed mechanism by which BES1 acts still needs to be further elucidated. We provided evidence to reveal the role of NtBES1 and NtMYB27 in modulating plant response to UV‐B radiation by regulating the synthesis of flavonoids in tobacco.