Keshava K. Datta
Lecturer
YU-IOB center for systems biology and molecular medicine
Yenepoya University
India
Biography
Dr. Keshava K. Datta is affiliated to YU-IOB center for systems biology and molecular medicine, YENEPOYA UNIVERSITY. Dr. Keshava K. Datta is currently providing services as Lecturer. Dr. Keshava K. Datta has authored and co-authored multiple peer-reviewed scientific papers and presented works at many national and International conferences. Dr. Keshava K. Datta contributions have acclaimed recognition from honourable subject experts around the world. Dr. Keshava K. Datta is actively associated with different societies and academies. Dr. Keshava K. Datta academic career is decorated with several reputed awards and funding. Dr. Keshava K. Datta research interests include Cancer Biology,Biomarkers for non-infectious diseases,Proteomics and proteogenomics.
Research Interest
Cancer Biology,Biomarkers for non-infectious diseases,Proteomics and proteogenomics
Publications
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Datta, K. K., Patil, A. H., Patel, K., Dey, G., Madugundu, A. K., Renuse, S., Kaviyil, J. E., Nirujogi, R. S., Arunima, A., Daswani, B., Kaur, I., Mohanty, J., Sinha, R., Jaiswal, S., Sivapriya, S., Sonnathi, Y., Chattoo, B. B., Gowda, H., Ravikumar, R. and Prasad, T. S. K. (2016). Proteogenomics of Candida tropicalis - an opportunistic pathogen with importance for global health. OMICS: A Journal of Integrative Biology. 20, 239-47.
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Raja, R., Sahasrabuddhe, N. A., Radhakrishnan, A., Syed, N., Solanki, H. S., Puttamallesh V. N., Balaji, S. A., Nanjappa V., Datta, K. K., Babu, N., Renuse, S., Patil, A. H., Izumchenko, E., Prasad, T. S., Chang X., Rangarajan A., Sidransky, D., Pandey, A., Gowda, H., Chatterjee, A. (2016). Chronic exposure to cigarette smoke leads to activation of p21 (RAC1)-activated kinase 6 (PAK6) in non-small cell lung cancer cells. Oncotarget. 7, 61229-45.
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Tiwari, R., Sahu, I., Soni, B. L., Sathe, G. J., Datta, K. K., Thapa, P., Sinha, S., Vadivel, C. K., Dhaka, B., Sinha, S., Gowda, H. and Vaidya, M. M. (2017). Quantitative phosphoproteomic analysis reveals system-wide signaling pathways regulated by site-specific phosphorylation on Keratin-8 in skin squamous cell carcinoma derived cell-line. Proteomics.
