Abstract
Phosphorus (P) is an essential macronutrient for plant growth and development. The concentration of flavonol, a natural plant antioxidant, is closely related to phosphorus nutritional status. However, the regulatory networks of flavonol biosynthesis under low Pi stress are still unclear. In this study, we identified a PFG-type MYB gene, NtMYB12, whose expression was significantly up-regulated under low Pi conditions. Overexpression of NtMYB12 dramatically increased flavonol concentration and the expression of certain flavonol biosynthetic genes (NtCHS, NtCHI, and NtFLS) in transgenic tobacco. Moreover, overexpression of NtMYB12 also increased the total P concentration and enhanced tobacco tolerance of low Pi stress by increasing the expression of Pht1-family genes (NtPT1 and NtPT2). We further demonstrated that NtCHS-overexpressing plants and NtPT2-overexpressing plants also had increased flavonol and P accumulation and higher tolerance to low Pi stress, showing a similar phenotype to NtMYB12-overexpressing transgenic tobacco under low Pi stress. These results suggested that tobacco NtMYB12 acts as a phosphorus starvation response enhancement factor and regulates NtCHS and NtPT2 expression, which results in increased flavonol and P accumulation and enhances tolerance to low Pi stress.
Highlights
Flavonoids are a large group of secondary metabolites in plants, generally having a C6-C3-C6 carbon skeleton (Halbwirth, 2010; Li et al, 2015)
Zhai et al found that two MYB genes, PbMYB9 and PbMYB12, which are among the products of the flavonol glycoside (PFG)-type MYB transcriptional factors (TFs) family, are positive regulators of the flavonol biosynthesis pathway in pears (Pyrus bretschneideri Rehd.) and work by activating the expression of genes encoding Chalcone synthase (CHS) and flavonol synthase (FLS) (Zhai et al, 2016; Zhai et al, 2019)
Evolutionary study of the MYB gene family indicates that typical MYB transcription factors (TFs) involved in flavonoid biosynthesis can be classified into three different groups: PAPtype MYB TFs, TT2-type MYB TFs, and PFG-type MYB TFs
Summary
Flavonoids are a large group of secondary metabolites in plants, generally having a C6-C3-C6 carbon skeleton (Halbwirth, 2010; Li et al, 2015). The most common flavonoids found in plants are anthocyanin and flavonols (Holton and Edwina, 1995; Jia et al, 2015). Previous reports have shown that flavonols play important roles in various biological processes in plants, such as resistance to UV-B damage, cell-wall formation, and defense against pathogens, implying that. Flavonoid biosynthesis has been well documented in Arabidopsis, tomato, and woody plants (Holton and Edwina, 1995; Niggeweg et al, 2004; Li et al, 2015; Zhai et al, 2016; Zhai et al, 2019). The functions and regulatory mechanisms of plant MYB genes have been widely studied, more research is needed to understand the biological role of each member of this vast TF family
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