T
Tanmoy Sarkar
Researcher at Directorate of Groundnut Research
Publications - 21
Citations - 340
Tanmoy Sarkar is an academic researcher from Directorate of Groundnut Research. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 8, co-authored 12 publications receiving 243 citations. Previous affiliations of Tanmoy Sarkar include Central Salt and Marine Chemicals Research Institute & North East Institute of Science and Technology.
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Journal ArticleDOI
Stable genetic transformation of Jatropha curcas via Agrobacterium tumefaciens-mediated gene transfer using leaf explants
Nitish Kumar,K. G. Vijay Anand,D. V. N. Sudheer Pamidimarri,Tanmoy Sarkar,Muppala P. Reddy,T. Radhakrishnan,Tanushri Kaul,Malireddy K. Reddy,Sudhir K. Sopori +8 more
TL;DR: A transformation efficiency of 29% was achieved for leaf explants using this protocol, and GUS histochemical analysis of the transgenic tissues further confirmed the transformation event.
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Heterologous Expression of the AtDREB1A Gene in Transgenic Peanut-Conferred Tolerance to Drought and Salinity Stresses
TL;DR: The better performance of transgenic AtDREB1A peanut at the seedling stage and the improved growth parameters were due to the expression of the transgene, which is a transcription factor, and the possible up-regulation of various stress-inducible, downstream genes in the signal transduction pathway under abiotic stress.
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Stress Inducible Expression of AtDREB1A Transcription Factor in Transgenic Peanut (Arachis hypogaea L.) Conferred Tolerance to Soil-Moisture Deficit Stress
TL;DR: In this article, AtDREB1A transgene insertion was confirmed using PCR and Dot-blot analysis, while copy-number(s) was ascertained using Southern blot analysis.
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Improvement of abiotic stress adaptive traits in mulberry (Morus spp.): an update on biotechnological interventions.
TL;DR: This review discusses omics approaches, molecular breeding, plant tissue culture and genetic engineering techniques exploited for mulberry genetic improvement for abiotic stress tolerance, and high-throughput biotechnological tools need to be utilized in mulberry to accelerate the progress of functional genomics.
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Advances in the development and use of DREB for improved abiotic stress tolerance in transgenic crop plants.
TL;DR: The mechanistic aspects of abiotic stress tolerance, yield gain, the fate of transgenic plants under controlled and field conditions and future research directions toward commercialization of DREB transgenic crops are discussed.