Education
Ph.D. in Photobiology, School of Life Sciences, Jawaharlal Nehru University, New Delhi, 1978
Current position
Professor, Repository of Tomato Genomics Resources, Dept of Plant Sciences, University of Hyderabad, Hyderabad-500 046, India
Publications (since 2009)
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Tyagi, K., Upadhyaya, P., Sarma, S., Tamboli, V., Sreelakshmi, Y. and Sharma, R. (2015). High performance liquid chromatography coupled to mass spectrometry for profiling and quantitative analysis of folate monoglutamates in tomato. Food Chem 179: 76-84.
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Gupta, P., Sreelakshmi, Y. and Sharma, R. (2015). A rapid and sensitive method for determination of carotenoids in plant tissues by high performance liquid chromatography. Plant Methods 11: 5.
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Sharma, S., Kharshiing, E., Srinivas, A., Zikihara, K., Tokutomi, S., Nagatani, A., Fukayama, H., Bodanapu, R., Behera, R. K., Sreelakshmi, Y. and Sharma, R. (2014). A dominant mutation in the light-oxygen and voltage2 domain vicinity impairs phototropin1 signaling in tomato. Plant Physiol 164(4): 2030-2044.
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Thomas, S., Sreelakshmi, Y. and Sharma, R. (2014). Light modulates the root tip excision induced lateral root formation in tomato. Plant Signal Behav 9(10): e970098.
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Kilambi, H. V., Kumar, R., Sharma, R. and Sreelakshmi, Y. (2013). Chromoplast-specific carotenoid-associated protein appears to be important for enhanced accumulation of carotenoids in hp1 tomato fruits. Plant Physiol 161(4): 2085-2101.
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Santisree, P., Nongmaithem, S., Sreelakshmi, Y., Ivanchenko, M. and Sharma, R. (2012). The root as a drill: an ethylene-auxin interaction facilitates root penetration in soil. Plant Signal Behav 7(2): 151-156.
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Vankudavath, R. N., Bodanapu, R., Sreelakshmi, Y. and Sharma, R. (2012). High-throughput phenotyping of plant populations using a personal digital assistant. Methods Mol Biol 918: 97-116.
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Gupta, S., Charakana, C., Sreelakshmi, Y. and Sharma, R. (2011). Fluorescent dye labeled DNA size standards for molecular mass detection in visible/infrared range. BMC Res Notes 4: 12.
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Negi, S., Kharshiing, E. V. and Sharma, R. (2011). NO way! Is nitric oxide level in tomato regulated by a mammalian IKK/NF-kappaB like signaling pathway? Plant Signal Behav 6(7): 1049-1052.
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Santisree, P., Nongmaithem, S., Vasuki, H., Sreelakshmi, Y., Ivanchenko, M. G. and Sharma, R. (2011). Tomato root penetration in soil requires a coaction between ethylene and auxin signaling. Plant Physiol 156(3): 1424-1438.
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Kharshiing, E.V., Kumar, G.P., Ditengou, F.A., Li, X., Palme, K. and Sharma, R. (2010). The polycotyledon (pct1-2) mutant of tomato shows enhanced accumulation of PIN1 auxin transport facilitator protein. Plant Biology 12: 224-228
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Sreelakshmi, Y., Gupta, S., Bodanapu, R., Chauhan, V. S., Hanjabam, M., Thomas, S., Mohan, V., Sharma, S., Srinivasan, R. and Sharma, R. (2010). NEATTILL: A simplified procedure for nucleic acid extraction from arrayed tissue for TILLING and other high-throughput reverse genetic applications. Plant Methods 6(1): 3.
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Negi, S., Santisree, P., Kharshiing, E. V. and Sharma, R. (2010). Inhibition of the ubiquitin-proteasome pathway alters cellular levels of nitric oxide in tomato seedlings. Mol Plant 3(5): 854-869.
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Kharshiing, E. V., Kumar, G. P. and Sharma, R. (2010). PIN it on auxin: the role of PIN1 and PAT in tomato development. Plant Signal Behav 5(11): 1379-1383.
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Vankadavath, R. N., Hussain, A. J., Bodanapu, R., Kharshiing, E., Basha, P. O., Gupta, S., Sreelakshmi, Y. and Sharma, R. (2009). Computer aided data acquisition tool for high-throughput phenotyping of plant populations. Plant Methods 5: 18.