Results
1 -
10 of
10Koul et al..
Diarylquinolines target mycobacterial ATPase subunit c, Nature Chemical Biology, 2007 Kalia Dimpy, K. S. Anil Kumar, Meena Gajanand, Sethi Kashmir Prasad, Sharma Rohit, Trivedi Priyanka, Khan Shaheb Raj, Verma Ajay Singh, Singh Shyam, Sharma Sandeep, Roy Kuldeep K., Kant Ruchir, Krishnan Manju Yasodha, Singh Bhupendra N., Sinha Sudhir, Chaturvedi Vinita, Saxena Anil K., Dikshit Dinesh K..
Synthesis and anti-tubercular activity of conformationally-constrained and bisquinoline analogs of TMC207, Med. Chem. Commun., 2015 Borate Hanumant B., Annadate Ritesh A., Vagh Sandip S., Pisal Mahesh M., Deokate Sagar B., Arkile Manisha A., Jadhav Nandadeep J., Nawale Laxman U., Sarkar Dhiman.
Synthesis and evaluation of thieno[2,3-d]pyrimidin-4(3H)-ones as potential antitubercular agents, Med. Chem. Commun., 2015 S. J. Tantry, V. Shinde, G. Balakrishnan, S. D. Markad, A. K. Gupta, J. Bhat, et al..
5 Rather Muzafar Ahmad, Lone Ali Mohd, Teli Bisma, Bhat Zubair Shanib, Singh Paramjeet, Maqbool Mubashir, Shairgojray Bashir Ahmad, Dar Mohd Jamal, Amin Shajrul, Yousuf Syed Khalid, Bhat Bilal A., Ahmad Zahoor.
The synthesis, biological evaluation and structure–activity relationship of 2-phenylaminomethylene-cyclohexane-1,3-diones as specific anti-tuberculosis agents, MedChemComm, 2017 S. M. Hopfner, B. S. Lee, N. P. Kalia, M. J. Miller, K. Pethe, G. C. Moraski.
1 A. Radhakrishnan, C. M. Brown, C. S. Guy, C. Cooper, R. Pacheco-Gomez, P. J. Stansfeld, E. Fullam.
10