Dr. Siddharth Kaushal Tripathi
Post-doctoral FellowUniversity of Mississippi, USA
Highest Degree
Ph.D. in Botany from Lucknow University, Lucknow, India
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University of Mississippi, USA
Biography
Dr. Siddharth Kaushal Tripathi is currently working as Postdoctoral at University of Mississippi, USA. He obtained his Ph.D. in Botany from Lucknow University, Lucknow, India. His main area of interest related to Plant and Soil Sciences. His area of expertise includes Gene Expression, Genetics, Microarray, Drug Development, Yeast Genetics, Molecular Biology, Abscission, Senescence, Plant Molecular Biology, Abiotic Stress, and Anti-Fungal Drug Discovery. He has published 9 articles in peer review journals, and 1 chapter in book contributed as author/co-author.
Area of Interest:
Plant and Soil Sciences
100%
Gene Expression
62%
Molecular Biology
90%
Plant Genetics
75%
Plant Abiotic Stress
55%
Research Publications in Numbers
Books
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0
Chapters
0
0
Articles
0
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Abstracts
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Selected Publications
- Xu, T., S.K. Tripathi, Q. Feng, M.C. Lorenz and M.A. Wright et al., 2012. A potent plant-derived antifungal acetylenic acid mediates its activity by interfering with fatty acid homeostasis. Antimicrob. Agents Chemother., 56: 2894-2907.
CrossRef | Direct Link | - Agarwal, A.K., S.K. Tripathi, T. Xu, M.R. Jacob, X.C. Li and A.M. Clark, 2012. Exploring the molecular basis of antifungal synergies using genome-wide approaches. Front. Microbiol., Vol. 3. 10.3389/fmicb.2012.00115.
CrossRef | PubMed | - Xu, T., Q. Feng, M.R. Jacob, B. Avula and M.M. Mask et al., 2011. The marine sponge-derived polyketide endoperoxide plakortide F acid mediates its antifungal activity by interfering with calcium homeostasis. Antimicrob. Agents Chemother., 55: 1611-1621.
CrossRef | Direct Link | - Singh, A.P., S.K. Tripathi, P. Nath and A.P. Sane, 2011. Petal abscission in rose is associated with the differential expression of two ethylene responsive xyloglucan endotransglucosylase/hydrolase genes, RbXTH1 and RbXTH2. J. Exp. Bot., 62: 5091-5103.
CrossRef | Direct Link | - Azeez, A., A.P. Sane, S.K. Tripathi, D. Bhatnagar and P. Nath, 2010. The gladiolus GgEXPA1 is a GA-responsive alpha-expansin gene expressed ubiquitously during expansion of all floral tissues and leaves but repressed during organ senescence. Postharvest Biol. Technol., 58: 48-56.
CrossRef | Direct Link | - Tripathi, S.K., A.P. Singh, A.P. Sane and P. Nath, 2009. Transcriptional activation of a 37kDa ethylene responsive cysteine protease gene, RbCP1, is associated with protein degradation during petal abscission in rose. J. Exp. Bot., 60: 2035-2044.
Direct Link | - Tripathi, S.K., A.P. Sane, P. Nath and N. Tuteja, 2008. Organ Abscission in Plants: Understanding the Process Through Transgenic Approaches. In: A Transgenic Approach in Plant Biochemistry and Physiology, Rivera-Dominguez, M., R. Troncoso-Rojas and M.E. Tiznado-Hernandez (Eds.). Research Signpost, Trivandrum, India, pp: 155-180.
- Tripathi, S.K. and N. Tuteja, 2007. Integrated signaling in flower senescence: An overview. Plant Signal Behav., 2: 437-445.
Direct Link | - Sane, A.P., S.K. Tripathi and P. Nath, 2007. Petal abscission in rose (Rosa bourboniana var Gruss an Teplitz) is associated with the enhanced expression of an alpha expansin gene, RbEXPA1. Plant Sci., 172: 481-487.
CrossRef | Direct Link |