Dr. Amit K. Tripathi
  • Faculty, ICMR-National Institute for Research in Environmental Health
Research fields
  • Molecular Biology
Personal information


Ph.D., International Centre for Genetic Engg and Biotechnology (ICGEB), 2017

Lab information

Molecular Biology Laboratory

Research focus

Epigenetics, Toxicology, Genotoxicity


1. Tripathi AK, Pareek, A, Singla-Pareek, S. L. TUNEL assay to assess extent of DNA fragmentation and programmed cell death in root cells under various stress conditions. Bio-protocol, 2017; 7(16): e2502.
2. Tripathi AK, Pareek A, Singla-Pareek SL. A NAP-family histone chaperone functions in abiotic stress response and adaptation. Plant Physiol., 2016; 171:2854-2868. PubMed PMID: 27342307 [Impact Factor: 5.95].
3. Tripathi AK, Singh K, Pareek A, Singla-Pareek SL. Histone chaperones in Arabidopsis and rice: genome-wide identification, phylogeny, architecture and transcriptional regulation. BMC Plant Biol. 2015;12; 15:42. PubMed PMID: 25849155 [Impact Factor: 3.93].
4. Tripathi AK, Pareek A, Sopory SK, Singla-Pareek SL. Narrowing down the targets for yield improvement in rice under normal and abiotic stress conditions via expression profiling of yield-related genes. Rice(NY), 2012; 5:37. PubMed PMID: 24280046 [Impact Factor: 3.74].
5. Kaur C, Tripathi AK, Nutan KK, Sharma S, Ghosh A, Tripathi JK, Pareek A, Singla-Pareek SL, Sopory SK. A nuclear-localized rice glyoxalase I enzyme, OsGLYI-8, functions in the detoxification of methylglyoxal in the nucleus. The Plant Journal, 2017; 89(3):565-576. PubMed PMID: 27797431.[Impact Factor: 5.78].
6. Joshi R, Sahoo KK, Tripathi AK, Kumar R, Gupta BK, Pareek A, Singla-Pareek SL. Knockdown of an inflorescence meristem-specific cytokinin oxidase – OsCKX2 in rice reduces yield penalty under salinity stress condition. Plant, Cell & Environment, 2018; 41:936-946. PubMed PMID: 28337744. [Impact Factor: 5.42]
7. Gupta BK, Sahoo KK, Ghosh A, Tripathi AK, Anwar K, Das P, Singh AK, Pareek A, Sopory SK, Singla-Pareek SL. Manipulation of glyoxalase pathway confers tolerance to multiple stresses in rice. Plant, Cell & Environment, 2018; 41(5):1186-1200. PubMed PMID: 28425127 [Impact Factor: 5.42].
8. Kumari S, Joshi R, Singh K, Roy S, Tripathi AK, Singh P, Singla-Pareek SL, Pareek A. Expression of a cyclophilin OsCyp2-P isolated from a salt-tolerant landrace of rice in tobacco alleviates stress via ion homeostasis and limiting ROS accumulation. Functional and Integrative Genomics, 2015; 15(4):395-412. PubMed PMID: 25523384 [Impact Factor: 3.89].
9. Singh AK, Kumar R, Tripathi AK, Gupta B, Pareek A, Singla-Pareek SL. Genome-wide investigation and expression analysis of Sodium/Calcium exchanger gene family in rice and Arabidopsis. Rice(NY). 2015; 8:21 PubMed PMID: 26134707 [Impact Factor: 3.74].
10. Gupta B, Tripathi AK, Joshi R, Pareek A, Singla-Pareek SL. Designing climate-smart future crops employing signal transduction components. In Elucidation of Abiotic Stress Signaling in Plants 2015 (pp. 393-413). Springer, New York, NY. [ISBN: 978-1-4939-2210-9]
11. Mustafiz A, Ghosh A, Tripathi AK, Kaur C, Ganguly AK, Bhavesh NS, Tripathi JK, Pareek A, Sopory SK, Singla-Pareek SL. A unique Ni2+-dependent and methylglyoxal-inducible rice glyoxalase I possesses a single active site and functions in abiotic stress response. The Plant Journal, 2014 78(6):951-63. PubMed PMID: 24661284 [Impact Factor: 5.78].
12. Sahoo KK, Tripathi AK, Pareek A, Singla-Pareek SL. Taming drought stress in rice through genetic engineering of transcription factors and protein kinases. Plant Stress, 2013; 7:60–72. [ISSN: 1749-0359].
13. Sahoo KK, Tripathi AK, Pareek A, Sopory SK, Singla-Pareek SL. An improved protocol for efficient transformation and regeneration of diverse indica rice cultivars. Plant Methods (BMC), 2011 30;7(1): 49. PubMed PMID: 22206592 [Impact Factor: 4.27].
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