Publications

You are here

Home » Technology Platforms

Listed below are the Publications supported by Technology platforms at C-CAMP / Bangalore Life Science Cluster.

Export 224 results:
Author Title Type [ Year(Asc)]
Filters: First Letter Of Last Name is K  [Clear All Filters]
2017
Vikram A, Lewarchik CM, Yoon J-Y, Naqvi A, Kumar S, Morgan GM, Jacobs JS, Li Q, Kim Y-R, Kassan M et al..  2017.  Sirtuin 1 regulates cardiac electrical activity by deacetylating the cardiac sodium channel.. Nat Med.
Vikram A, Lewarchik CM, Yoon J-Y, Naqvi A, Kumar S, Morgan GM, Jacobs JS, Li Q, Kim Y-R, Kassan M et al..  2017.  Sirtuin 1 regulates cardiac electrical activity by deacetylating the cardiac sodium channel.. Nat Med.
Vikram A, Lewarchik CM, Yoon J-Y, Naqvi A, Kumar S, Morgan GM, Jacobs JS, Li Q, Kim Y-R, Kassan M et al..  2017.  Sirtuin 1 regulates cardiac electrical activity by deacetylating the cardiac sodium channel.. Nat Med.
Vikram A, Lewarchik CM, Yoon J-Y, Naqvi A, Kumar S, Morgan GM, Jacobs JS, Li Q, Kim Y-R, Kassan M et al..  2017.  Sirtuin 1 regulates cardiac electrical activity by deacetylating the cardiac sodium channel.. Nat Med.
Vikram A, Lewarchik CM, Yoon J-Y, Naqvi A, Kumar S, Morgan GM, Jacobs JS, Li Q, Kim Y-R, Kassan M et al..  2017.  Sirtuin 1 regulates cardiac electrical activity by deacetylating the cardiac sodium channel.. Nat Med.
Kumar S, Kim Y-R, Vikram A, Naqvi A, Li Q, Kassan M, Kumar V*, Bachschmid MM, Jacobs JS, Kumar A et al..  2017.  Sirtuin1-regulated lysine acetylation of p66Shc governs diabetes-induced vascular oxidative stress and endothelial dysfunction.. Proc Natl Acad Sci U S A.
Kumar S, Kim Y-R, Vikram A, Naqvi A, Li Q, Kassan M, Kumar V*, Bachschmid MM, Jacobs JS, Kumar A et al..  2017.  Sirtuin1-regulated lysine acetylation of p66Shc governs diabetes-induced vascular oxidative stress and endothelial dysfunction.. Proc Natl Acad Sci U S A.
Kumar S, Kim Y-R, Vikram A, Naqvi A, Li Q, Kassan M, Kumar V*, Bachschmid MM, Jacobs JS, Kumar A et al..  2017.  Sirtuin1-regulated lysine acetylation of p66Shc governs diabetes-induced vascular oxidative stress and endothelial dysfunction.. Proc Natl Acad Sci U S A.
Kumar S, Kim Y-R, Vikram A, Naqvi A, Li Q, Kassan M, Kumar V*, Bachschmid MM, Jacobs JS, Kumar A et al..  2017.  Sirtuin1-regulated lysine acetylation of p66Shc governs diabetes-induced vascular oxidative stress and endothelial dysfunction.. Proc Natl Acad Sci U S A.
Kumar S, Kim Y-R, Vikram A, Naqvi A, Li Q, Kassan M, Kumar V*, Bachschmid MM, Jacobs JS, Kumar A et al..  2017.  Sirtuin1-regulated lysine acetylation of p66Shc governs diabetes-induced vascular oxidative stress and endothelial dysfunction.. Proc Natl Acad Sci U S A.
Deshpande AB, Anamika K, Jha V, Chidley HG, Oak PS, Kadoo NY, Pujari KH, Giri AP, Gupta VS.  2017.  Transcriptional transitions in Alphonso mango (Mangifera indica L.) during fruit development and ripening explain its distinct aroma and shelf life characteristics [Next Gen Genomics Facility]. Sci Rep. 7(1):8711.
2016
Kumar N, Gupta DGopal, Kumar S, al. et..  2016.  Exploring Packaged Microvesicle Proteome Composition of Chinese Hamster Ovary Secretome [Mass Spectrometry - Proteomics]. Journal of Bioprocessing & Biotechniques. 6:1-11.
Kumar N, Gupta DGopal, Kumar S, al. et..  2016.  Exploring Packaged Microvesicle Proteome Composition of Chinese Hamster Ovary Secretome [Mass Spectrometry - Proteomics]. Journal of Bioprocessing & Biotechniques. 6:1-11.
Thakur R, Kini S, Kurkalang S, Banerjee A, Chatterjee P, Chanda A, Chatterjee A, Panda D, Mukherjee AK.  2016.  Mechanism of apoptosis induction in human breast cancer MCF-7 cell by Ruviprase, a small peptide from Daboia russelii russelii venom.[Mass Spectrometry]. Chem Biol Interact. 258:297-304.
Thakur R, Kini S, Kurkalang S, Banerjee A, Chatterjee P, Chanda A, Chatterjee A, Panda D, Mukherjee AK.  2016.  Mechanism of apoptosis induction in human breast cancer MCF-7 cell by Ruviprase, a small peptide from Daboia russelii russelii venom.[Mass Spectrometry]. Chem Biol Interact. 258:297-304.
Mukherjee AK, Kalita B, Mackessy SP.  2016.  A proteomic analysis of Pakistan Daboia russelii russelii venom and assessment of potency of Indian polyvalent and monovalent antivenom.[Mass Spectrometry]. J Proteomics. 144:73-86.
Mukherjee AK, Dutta S, Kalita B, Jha DK, Deb P, Mackessy SP.  2016.  Structural and functional characterization of complex formation between two Kunitz-type serine protease inhibitors from Russell's Viper venom.[Mass Spectrometry]. Biochimie. 128-129:138-47.
Kalita B, Patra A, Mukherjee AK.  2016.  Unraveling the Proteome Composition and Immuno-profiling of Western India Russell's Viper Venom for In-Depth Understanding of Its Pharmacological Properties, Clinical Manifestations, and Effective Antivenom Treatment.[Mass Spectrometry]. J Proteome Res.
2015
Kuravadi NA, Yenagi V, Rangiah K, Mahesh HB, Rajamani A, Shirke MD, Russiachand H, Loganathan RMalarini, Lingu CShankara, Siddappa S et al..  2015.  Comprehensive analyses of genomes, transcriptomes and metabolites of neem tree. [Mass spectrometry - Metabolomics]. PeerJ. 3:e1066.
Chakrabarti P, Kolay S, Yadav S, Kumari K, Nair A, Trivedi D, Raghu P.  2015.  A dPIP5K dependent pool of phosphatidylinositol 4,5 bisphosphate (PIP2) is required for G-protein coupled signal transduction in Drosophila photoreceptors.[Drosophila facility]. PLoS Genet. 11(1):e1004948.
Chakrabarti P, Kolay S, Yadav S, Kumari K, Nair A, Trivedi D, Raghu P.  2015.  A dPIP5K dependent pool of phosphatidylinositol 4,5 bisphosphate (PIP2) is required for G-protein coupled signal transduction in Drosophila photoreceptors.[Drosophila facility]. PLoS Genet. 11(1):e1004948.
Agrawal Y, Khatri I, Subramanian S, Shenoy BDamodara.  2015.  Genome Sequence, Comparative Analysis, and Evolutionary Insights into Chitinases of Entomopathogenic Fungus Hirsutella thompsonii [Next Gen Genomics Facility]. Genome Biology and Evolution. 7:916-930.
Upadhyay AK, Chacko AR, Gandhimathi A, Ghosh P, Harini K, Joseph AP, Joshi AG, Karpe SD, Kaushik S, Kuravadi N et al..  2015.  Genome sequencing of herb Tulsi (Ocimum tenuiflorum) unravels key genes behind its strong medicinal properties.[Mass spectrometry - Metabolomics]. BMC Plant Biol. 15:212.
Upadhyay AK, Chacko AR, Gandhimathi A, Ghosh P, Harini K, Joseph AP, Joshi AG, Karpe SD, Kaushik S, Kuravadi N et al..  2015.  Genome sequencing of herb Tulsi (Ocimum tenuiflorum) unravels key genes behind its strong medicinal properties.[Mass spectrometry - Metabolomics]. BMC Plant Biol. 15:212.
Upadhyay AK, Chacko AR, Gandhimathi A, Ghosh P, Harini K, Joseph AP, Joshi AG, Karpe SD, Kaushik S, Kuravadi N et al..  2015.  Genome sequencing of herb Tulsi (Ocimum tenuiflorum) unravels key genes behind its strong medicinal properties.[Mass spectrometry - Metabolomics]. BMC Plant Biol. 15:212.

Pages