The Impact of Exogenous Sodium Selenite Treatment on the Nutritional Value and Active Constituents of <i>Pueraria lobata</i>
Hua Cheng | Lu Wang | Huiyi Gong | Li Wang | Yuanfei Chen | Shuiyuan Cheng | Linling Li
Moderate amounts of Se can promote crop growth, enhance stress resistance, increase yield, and improve nutritional quality. In the present study, kudzu seedlings were used as experimental materials, and their physiological indicators, antioxidant activity, nutritional components, and flavonoid content were measured after being treated with Na<sub>2</sub>SeO<sub>3</sub> hydroponics. Transcriptome sequencing analysis was used to reveal the relevant genes involved in regulating the effects of exogenous Se on the content of Se-compounds and flavonoids in kudzu. The results indicated that treatment with 20 mg/L Na<sub>2</sub>SeO<sub>3</sub> significantly increased stem and root lengths, dry and fresh weight, lateral root development, and chlorophyll b content. However, at higher concentrations (30–40 mg/L), lateral root abundance and chlorophyll levels decreased. Na<sub>2</sub>SeO<sub>3</sub> treatment also augmented the antioxidant capacity and enhanced the content of major nutrients in kudzu seedlings. The total Se content in kudzu escalated with increasing Na<sub>2</sub>SeO<sub>3</sub> concentration, with selenomethionine emerging as the primary organic-Se species. After treatment with Na<sub>2</sub>SeO<sub>3</sub>, the content of puerarin in both aboveground and underground parts decreased, while the content of total flavonoids increased. Daidzin increased in the roots. Differential expression gene analysis revealed that genes such as TRXB2, SYM, MMT1, and METE were involved in Se uptake and transformation in kudzu, while bZIP43 and WRKY47 played a role in flavonoid biosynthesis.
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