Soybean (Glycine max L.) is an important oil, food and economic crop in the world. High salinity severely affects the growth and yield of soybean. Overexpressing a specific anti-retroviral transcription factor by biotechnology is an effective way to cultivate new stress-tolerant varieties of soybean. TGA transcription factor is a subfamily of bZIP and plays an important role in abiotic stress responses. A TGA subfamily gene GmTGA13 was cloned and the gene expression, subcellular localization and transcriptional activity were measured. Through the Ag. tumefaciens mediated flower dip method and the Ag. rhizogenes mediated transformation of soybean hairy roots, the transgenic Arabidopsis and the 'combination' soybean plants of overexpressing GmTGA13 were obtained. The two types of transgenic plants were treated with salt stress respectively, and the related physiological indexes were determined. Furthermore, the expression levels of five abiotic stress responsive genes were analyzed in GmTGA13 overexpression hairy roots. GmTGA13 gene was highly expressed in roots and significantly induced by saline stress in soybean. GmTGA13 encoded a nuclear localization protein and had transcriptional activation activity. Overexpression of GmTGA13 enhanced the saline stress tolerance of transgenic Arabidopsis and the 'combination' soybean plants. Furthermore, overexpression of GmTGA13 enhanced the expression of the stress responsive genes in transgenic soybean hairy roots. In conclusion, overexpression of GmTGA13 is beneficial to the absorption of K+ and Ca2+ by the cell, thereby regulating the ion homeostasis in the cell balance. GmTGA13 enhanced salt resistance of plants by regulating the expression of many stress-responsive genes.
Keywords: Hairy root transformation; TGA transcription factor; salt tolerance; soybean.
© 2021 German Society for Plant Sciences and The Royal Botanical Society of the Netherlands.