Overexpression of Asr6, abscisic acid stress-ripening protein, enhances drought tolerance and modulates gene expression in rice (Oryza sativa L.)

Abstract

Rice ( Oryza sativa L.), being a paddy crop, is particularly susceptible to drought, reducing its yield drastically. Abscisic acid stress-ripening proteins (Asr) are a family of plant-specific ABA-induced low molecular weight hydrophilic proteins encoded by the stress-regulated gene. This work substantiates the biological role of rice Asr6 against drought stress by its overexpression in rice. The Asr6 overexpressing (OE) lines showed better overall growth than wild-type (WT) plants reflected by their longer shoot length with higher biomass and enhanced density of the lateral roots. The decreased level of MDA and electrolyte leakage, higher proline content, less ROS accumulation, and enhanced antioxidant enzyme activities (SOD, APX, and CAT) were observed in OE lines as compared to WT plants during drought stress. The OE lines showed better recovery than WT plants after drought stress at the reproductive stage, in the terms of the increased number of panicles and total grain yields. The transcriptome analysis revealed that Asr6 regulates the expression of a wide spectrum of genes related to hormone metabolism, stress (abiotic and biotic), transcription factors, antioxidant activity, photosynthesis, signalling, transport and secondary metabolites. Interestingly, the genes related to jasmonic acid biosynthesis (up-regulation of LOX and AOS) and signalling (up-regulation of COI1 and down-regulation of JAZ proteins) were differentially expressed in OE lines, which were further validated by qRT-PCR analysis. Our findings demonstrate, Asr6 to be a positive regulator commonly involved in tolerance to drought stress and may regulate a novel JA-dependent signalling pathway in rice for drought tolerance. • Overexpression of Asr6 can improve drought stress tolerance in rice. • Asr6 promotes lateral root growth leading to higher root biomass as compared to wild type plants under drought condition. • Asr6 transgenic rice maintains redox homeostasis on exposure to drought. • Asr6 alters the expression of jasmonic acid biosynthesis and signalling pathway genes.