Hi, I am Mayavan Subramani, My LiveDNA is 91.12621
 
   
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Dr. Mayavan Subramani
 
Highest Degree: PostDoc. Student in Plant Molecular Genetics and Epigenomics from Delaware State University, USA
 
Institute: Delaware State University, USA
 
Area of Interest: Plant and Soil Sciences
  •   Plant Molecular Genetics
  •   Epigenomics
  •   Agriculture
  •   Natural Sciences
 
URL: http://livedna.org/91.12621
 
My SELECTED Publications
1:   Jaganath, B., K. Subramanyam, S. Mayavan, S. Karthik and D. Elayaraja et al., 2014. An efficient in planta transformation of Jatropha curcas (L.) and multiplication of transformed plants through in vivo grafting. Protoplasma, 251: 591-601.
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2:   Malhotra, K., M. Subramaniyan, K. Rawat, M.Kalamuddin and M.I. Qureshi, 2016. Compartmentalized metabolic engineering for artemisinin biosynthesis and effective malaria treatment by oral delivery of plant cells. Mol. Plant. 10.1016/j.molp.2016.09.013.
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3:   Manickavasagam, M., B. Sudhakar, N. Selvaraj, S. Mayavan, A. Vasudevan and A. Ganapathi, 2006. Biotechnological Achievements in Sugarcane: A review. In: Plant Tissue Culture and Biotechnology. Trivedi, P.C. (Ed.)., Pointer Publishers, India, pp: 269-293.
4:   Mariashibu, T.S., K. Subramanyam, M. Arun, S. Mayavan and M. Rajesh et al., 2013. Vacuum infiltration enhances the Agrobacterium-mediated genetic transformation in Indian soybean cultivars. Acta Physiol. Plant., 35: 41-54.
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5:   Mayavan, S., K. Subramanyam, B. Jaganath, D. Sathish, M. Manickavasagam and A. Ganapathi, 2015. Agrobacterium-mediated in planta genetic transformation of sugarcane setts. Plant Cell Rep., 34: 1835-1848.
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6:   Mayavan, S., K. Subramanyam, M. Arun, M. Rajesh and G.K. Dev et al., 2013. Agrobacterium tumefaciens-mediated in planta seed transformation strategy in sugarcane. Plant Cell Rep., 32: 1557-1574.
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7:   Rajesh, M., M. Jeyaraj, G. Sivanandhan, K. Subramanyam and T.S. Mariashibu et al., 2013. Agrobacterium-mediated transformation of the medicinal plant Podophyllum hexandrum royle (syn. P. emodi Wall. ex Hook. f. and Thomas). Plant Cell Tissue Organ Culture, 114: 71-82.
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8:   Saxena, B., M. Subramaniyan, K. Malhotra, N.S. Bhavesh, S.D. Potlakayala and S. Kumar, 2014. Metabolic engineering of chloroplasts for artemisinic acid biosynthesis and impact on plant growth. J. Biosci., 39: 33-41.
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9:   Sivanandhan, G., M. Arun, S. Mayavan, M. Rajesh and M. Jeyaraj et al., 2012. Optimization of elicitation conditions with methyl jasmonate and salicylic acid to improve the productivity of withanolides in the adventitious root culture of Withania somnifera (L.) dunal. Applied Biochem. Biotechnol., 168: 681-696.
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10:   Sivanandhan, G., M. Arun, S. Mayavan, M. Rajesh and T.S. Mariashibu et al., 2012. Chitosan enhances withanolides production in adventitious root cultures of Withania somnifera (L.) dunal. Ind. Crops Prod., 37: 124-129.
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11:   Subramanian, M., T. Srinivasan and D. Sudarsanam, 2014. Examining the Gm18 and m1G modification positions in tRNA sequences. Genomics Inf., 12: 71-75.
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