Browsing by Author "Waheed, Mohammad Tahir"
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Pubmed Isolation of the 3β-HSD promoter from Digitalis ferruginea subsp. ferruginea and its functional characterization in Arabidopsis thaliana.(2022-07-01T00:00:00Z) Aslam, Noreen; Sameeullah, Muhammad; Yildirim, Muhammet; Baloglu, Mehmet Cengiz; Yucesan, Buhara; Lössl, Andreas G; Waheed, Mohammad Tahir; Gurel, EkremAlthough members of the SDR gene family (short chain dehydrogenase) are distributed in kingdom of life, they have diverse roles in stress tolerance mechanism or secondary metabolite biosynthesis. Nevertheless, their precise roles in gene expression or regulation under stress are yet to be understood.Pubmed Plastidial Expression of 3β-Hydroxysteroid Dehydrogenase and Progesterone 5β-Reductase Genes Confer Enhanced Salt Tolerance in Tobacco.(2021-10-29T00:00:00Z) Sameeullah, Muhammad; Yildirim, Muhammet; Aslam, Noreen; Baloğlu, Mehmet Cengiz; Yucesan, Buhara; Lössl, Andreas G; Saba, Kiran; Waheed, Mohammad Tahir; Gurel, EkremThe short-chain dehydrogenase/reductase (SDR) gene family is widely distributed in all kingdoms of life. The genes, 3β-hydroxysteroid dehydrogenase () and progesterone 5-β-reductases (, ) play a crucial role in cardenolide biosynthesis pathway in the species. However, their role in plant stress, especially in salinity stress management, remains unexplored. In the present study, transplastomic tobacco plants were developed by inserting the , and genes. The integration of transgenes in plastomes, copy number and transgene expression at transcript and protein level in transplastomic plants were confirmed by PCR, end-to-end PCR, qRT-PCR and Western blot analysis, respectively. Subcellular localization analysis showed that 3β-HSD and P5βR1 are cytoplasmic, and P5βR2 is tonoplast-localized. Transplastomic lines showed enhanced growth in terms of biomass and chlorophyll content compared to wild type (WT) under 300 mM salt stress. Under salt stress, transplastomic lines remained greener without negative impact on shoot or root growth compared to the WT. The salt-tolerant transplastomic lines exhibited enhanced levels of a series of metabolites (sucrose, glutamate, glutamine and proline) under control and NaCl stress. Furthermore, a lower Na/K ratio in transplastomic lines was also observed. The salt tolerance, mediated by plastidial expression of the , and genes, could be due to the involvement in the upregulation of nitrogen assimilation, osmolytes as well as lower Na/K ratio. Taken together, the plastid-based expression of the genes leading to enhanced salt tolerance, which opens a window for developing saline-tolerant plants via plastid genetic engineering.