Publications and Presentations

  1. Libardo, M.D.J., de la Fuente-Nuñez, C., Anand, K., Krishnamoorthy, G., Kaiser, P., Pringle, S.C., Dietz, C., Pierce, S., Smith, M.B., Barczak, A., Kaufmann, S.H.E., Singh, A., Angeles-Boza, A.M. (2018) Phagosomal Copper-Promoted Oxidative Attack on Intracellular Mycobacterium tuberculosis.ACS Infectious Disease. 2018 Nov 9;4(11):1623-1634. doi: 10.1021/acsinfecdis.8b00171.

  2. Chawla,M*., Mishra,S*., Anand,K*., Parikh, P., Mehta, M., Vij, M., Verma, T., Singh, P., Jakkala, K., Verma, H.N., AjitKumar, P., Ganguli, M., Narain, S.A.S., Singh, A. (2018) Redox-dependent condensation of the mycobacterial nucleoid by WhiB4. Redox Biol. 2018 Aug; 19:116-133. doi: 10.1016/j.redox.2018.08.006. (equal first author).

  3. Mishra S., Shukla P., Bhaskar A., Anand K., Baloni P., Jha RK.,Mohan A., Rajmani RS., Nagaraja V., Chandra N., Singh A. (2017). Efficacy of β-lactam/β-lactamase inhibitor combination is linked to WhiB4-mediated changes in redox physiology of Mycobacterium tuberculosis. Elife. 2017 May 26;6. pii: e25624. doi: 10.7554/eLife.25624

  4. Padiadpu, J*., Baloni, P*., Anand, K*., Munshi, M., Thakur, C., Mohan Abhilash., Singh, A. and Chandra, N. (2016). Identifying and tackling emergent vulnerability in drug resistant mycobacteria. ACS Infectious Diseases. 2016 Sep 9;2(9):592-607. (*equal first author).

  5. Sudhakar N., George PDC., Thirumal KD., Chakraborty C., Anand K., Suresh M. (2016). Deciphering the impact of somatic mutations in exon 20 and exon 9 of PIK3CA gene in breast tumors among Indian women through molecular dynamics approach. J Biomol Struct Dyn., 34(1):29-41.

  6. Das K. , Panda U., Datta A., Roy S., Mondal S., Massera C., Askun T., Celikboyun P., Garribba E., Sinha C., Anand K., Akitsu T., Kobayashi K. (2015). An enolato-bridged dinuclear Cu(II) complex with a coumarin-assisted precursor: a spectral, magnetic and biological study. New J. Chem., 39:7309-7321.

  7. Angeline MS., Sarkar A., Anand K., Ambasta RK., Kumar P. (2013). Sesamol and naringenin reverse the effect of rotenone-induced PD rat model. Neuroscience, 254:379-394.

  8. Sarkar A., Angeline MS., Anand K., Ambasta RK, Kumar P. (2012). Naringenin and quercetin reverse the effect of hypobaric hypoxia and elicit neuroprotective response in the murine model. Brain Research.,1481:59-70.

  9. Angeline MS., Chaterjee P., Anand K., Ambasta RK., Kumar P. (2012). Rotenone induced rodent model of Parkinson’s disease with debilitating phenotype and differential expression of heat shock protein. Neuroscience, 220:291-301.

  10. Anand K., Sarkar A., Kumar A., Ambasta RK., Kumar P. (2012). Combinatorial anti-tumour effect of naringenin and curcumin elicit angio-inhibitory activities in vivo. Nutr Cancer, 64 (5):714-24.

  11. Anand K., Asthana P., Kumar A., Ambasta RK., Kumar P. (2011). Quercetin mediated reduction of angiogenic markers and chaperones in DLA induced solid tumour, Asian Pacifc J. Cancer Prev., 12(11):2829-35.


Peer Reviewed Chapters:


  1. Kumar P., Ambasta RK., Sarkar A., Kohli A., Anand K., “Combinatorial Effect Of Heat Shock Proteins And Ubiquitin Proteasome System In Neurooncology” (ISBN: 978-1-61942-088-5, Nova publishers, New York, USA, 2011).