Molecular cloning and functional analysis of lotus salt-induced NnDREB2C, NnPIP1-2 and NnPIP2-1 in Arabidopsis thaliana

Abstract

Dehydration-responsive element bindings transcription factor (DREBs) and plasma membrane intrinsic proteins (PIPs) have been characterized multi-functions in plant growth and metabolism, as well as in the adaptation to various stresses. In this study, we cloned the full-length cDNA of NnDREB2C from a salt-tolerated lotus species with RT-PCR methods. Analysis of qRT-PCR demonstrated that NnDREB2C mRNA in the leaf dramatically increased after the treatments of NaCl, abscisic acid, low temperature and mannitol. Next, NnDREB2C was cloned into constitutive expression vector pSN1301, which in turn transformed into Arabidopsis thaliana to investigate its function in plants. NnDREB2C overexpression significantly elevated Arabidopsis tolerance against salt and drought stresses, showing higher survival rates, lower conductivity and more chlorophyll content than those of wild-type plants. Moreover, higher germination rates were observed in the NnDREB2C overproducing plants when subjected into the stresses of NaCl and mannitol. Furthermore, we investigate the potential down-stream genes regulated by NnDREB2C and observed a significant increase in expressions of several genes belonging to PIPs family, including PIP1-1, PIP1-2, PIP1-3, PIP1-4 and PIP1-5. Consistently, overexpressed NnPIP1-2 and NnPIP2-1 conferred Arabidopsis the tolerance to stresses. Taken together, we concluded that overexpression of NnDREB2C enhanced the tolerance of salt and drought stresses in plants, which might probably be derived from the increased expression of the genes belonging to PIPs family.

Keywords: Drought; Function; Lotus; NaCl; NnDREB2C; PIPs.