Plant is frequently exposed to various abiotic stress. Salt stress is particularly an important abiotic stress that seriously affects plant growth and development. BrTSR53 gene, a putative stress-related gene isolated from Brassica rapa, was used to generate overexpression transgenic rice. The over-expression of BrTSR53 in BrTSR53-OX transgenic rice was confirmed by quantitative RT-PCR and western blot analysis. To elucidate the role of BrTSR53 in stress tolerance, responses of BrTSR53-OX transgenic rice plants to salt stress conditions were examined. BrTSR53-OX #12, #28, and #32 lines were treated with salt stress on MS medium containing 100 mM or 200 mM of NaCl for 5 and 14 days. Morphological analysis revealed differences between the three transgenic BrTSR53-OX rice and the wild-type rice. The germination rates of the three transgenic BrTSR53-OX lines of rice were significantly higher than that of the wild type rice, indicating that they were more tolerant to 200 mM NaCl than the wild type rice. In addition, the three transgenic BrTSR53-OX rice lines had significantly longer length of root and shoot compared to the wild type rice. These results suggest that the BrTSR53 gene played an important role in the tolerance of rice to salt stress. Therefore, it might be a potential target for the purpose of improving salt tolerance of rice and other crops.
Citations
Citations to this article as recorded by
In vitro selection for drought and salt stress tolerance in rice: an overview Monika Sahu, Shrinkhla Maurya, Zenu Jha Plant Physiology Reports.2023; 28(1): 8. CrossRef
Gene duplication and stress genomics in Brassicas: Current understanding and future prospects Shayani Das Laha, Smritikana Dutta, Anton R. Schäffner, Malay Das Journal of Plant Physiology.2020; 255: 153293. CrossRef
A Novel Variation in the FRIZZLE PANICLE (FZP) Gene Promoter Improves Grain Number and Yield in Rice Sheng-Shan Wang, Chia-Lin Chung, Kai-Yi Chen, Rong-Kuen Chen Genetics.2020; 215(1): 243. CrossRef
Cloning and heterologous expression of Os-AP2/ERF-N22 drought inducible rice transcription factor in E. coli VAIBHAV KUMAR, KISHWAR ALI, AMRESH KUMAR, KALPANA TEWARI, NITIN KUMAR GARG, SUSHIL S CHANGAN, ARUNA TYAGI The Indian Journal of Agricultural Sciences.2018; 88(10): 1515. CrossRef
National Program for Developing Biotech Crops in Korea Sung-Han Park, Jung-Il Cho, Youn-Shic Kim, Su-Min Kim, Su-Mi Lim, Gang-Seob Lee, Soo-Chul Park Plant Breeding and Biotechnology.2018; 6(3): 171. CrossRef