Effects of Selenium on Growth and Biochemical Characters of Tissue Culture Seedlings of Sophora tonkinensis

Abstract

Background Selenium (Se) plays a key role in controlling several processes in plant development, such as root growth and regulation of enzyme activity. However, research on the effects of Se in Sophora tonkinensis, a medicinal plant, has not been reported. To elucidate the effect of Se on the accumulation of secondary metabolites in tissue-cultured seedlings of S. tonkinensis. Materials and Methods Tissue culture seedlings of S. tonkinensis was treated with different concentrations of Se in the rooting medium. Agronomic traits of roots and concentrations of hormones and some secondary metabolites were measured from seedlings. Results The results show that (1) root growth of tissue culture seedlings were stimulated by Se; (2) a specific amount of Se enhanced the activities of peroxidase (POD) and superoxide dismutase (SOD), as well as the production and storage of soluble proteins and chlorophyll; and (3) Se treatment lowered brassinolide (BR) content, and 15 mg/L Se minimized abscisic acid (ABA) content, while 60 mg/L Se enhanced ABA content. The gibberellin (GA3) content in seedlings increased significantly compared with the control under the treatment of 60 mg/L Se. Conclusion Se concentration of 30 mg/L facilitated matrine and oxymatrine production and accumulation in stem/leaf tissues.