Group by: Item Type | No Grouping Number of items: 7. Shukla , D. and Patidar, A. and Sarma , U. and Chauhan, P. and Pandey, SP. and Chandel, HS. and Bodhale, N. and Ghosh , SK. and Guzman, CA. and Ebensen , T. and Silvestre, R. and Sarkar, A. and Saha , B. and Bhattacharjee, S. (2021) Interdependencies between Toll-like receptors in Leishmania infection. Immunology, 164 (1). pp. 173-189. Jafarzadeh, A. and Nemati, M. and Sharifi, I. and Nair, A. and Shukla, D. and Chauhan, P. and Khorramdelaza, H. and Sarkar, A. and Saha, B. (2019) Leishmania species-dependent functional duality of toll-likereceptor 2. International Union of Biochemistry and Molecular Biology Life, 71 (1). Halder, A. and Shukla, D. and Das, S. and Roy, P. and Mukherjee, A. and Saha, B. (2018) Lactoferrin-modified Betulinic Acid-loaded PLGA nanoparticles are strong anti-leishmanials. Cytokine, 110. pp. 412-415. Shukla, D. and Chandel, H.S. and Srivastava, S. and Chauhan, P. and Pandey, S.P. and Patidar, A. and Banerjee, R. and Chattopadhyay, D. and Saha, B. (2018) TLR11 or TLR12 silencing reduces Leishmania majorinfection. Cytokine, 104. pp. 110-113. Shukla , D. and Chandel , H.S. and Srivastava , S. and Chauhan , P. and Pandey , S.P. and Patidar , A. and Banerjee , R. and Chattopadhyay , D. and Saha , B. (2017) TLR11 or TLR12 silencing reduces Leishmania majorinfection. Cytokine. 2017 Oct 7. pii: S1043-4666(17)30295-8, S1043 (4666(1). pp. 30295-30298. Chauhan , P. and Shukla , D. and Chattopadhyay , D. and Saha , B. (2017) Redundant and regulatory roles for TLRs in Leishmania infection. Clin Exp Immunol. . 10.1111/cei.13014. Pandey , S.P. and Chandel , H.S. and Srivastava , S. and Selvaraj , S. and Jha, M.K. and Shukla , D. and Ebensen , T. and Guzman , C.A. and Saha , B. (2014) Pegylated Bisacycloxypropylcysteine, a Diacylated Lipopeptide Ligand of TLR6, Plays a Host-Protective Role against Experimental Leishmania major Infection. Journal of Immunology , 193. pp. 3632-3643.
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