Literature Citations
1. Phytochemical Analysis and Antimicrobial Activity of Some Medicinal Plants against Selected Pathogenic Microorganisms. Arulmozhi, P., S. Vijayakumar, and T. Kumar. Microbial Pathogenesis, 2018. 123: p. 219-226. PMID[30009969].
[PubMed]. TB_10_2018.
2. Novel Screen to Assess Bactericidal Activity of Compounds against Non-replicating Mycobacterium abscessus.Berube, B.J., L. Castro, D. Russell, Y. Ovechkina, and T. Parish. Frontiers in Microbiology, 2018. 9(2417): 8pp. PMID[30364170]. PMCID[PMC6191478].
[PubMed]. TB_10_2018.
3. Acyloxybenzyl and Alkoxyalkyl Prodrugs of a Fosmidomycin Surrogate as Antimalarial and Antitubercular Agents. Courtens, C., M. Risseeuw, G. Caljon, P. Cos, and S. Van Calenbergh. ACS Medicinal Chemistry Letters, 2018. 9(10): p. 986-989. PMID[30344904]. PMCID[PMC6187408].
[PubMed]. TB_10_2018.
4. Lactic acid Bacteria Isolated from Brazilian Minas Artisanal Cheeses and Their in Vitro Antagonisms against Mycobacterium bovis BCG. de Oliveira, L., G. Silva, C. Barbosa, F. Sant'Anna, R. de Castro, N. Figueiredo, A. Nunes, A. Lage, and M. Souza. International Journal of Dairy Technology, 2018. 71(4): p. 879-886. ISI[000446835200006].
[WOS]. TB_10_2018.
5. Arylvinylpiperazine amides, a New Class of Potent Inhibitors Targeting QcrB of Mycobacterium tuberculosis. Foo, C.S., A. Lupien, M. Kienle, A. Vocat, A. Benjak, R. Sommer, D.A. Lamprecht, A.J.C. Steyn, K. Pethe, J. Piton, K.H. Altmann, and S.T. Cole. mBio, 2018. 9(5). 13pp. PMID[30301850]. PMCID[PMC6178619].
[PubMed]. TB_10_2018.
6. Discovery of Benzothiazole amides as Potent Antimycobacterial Agents. Graham, J., C.E. Wong, J. Day, E. McFaddin, U. Ochsner, T. Hoang, C.L. Young, W. Ribble, M.A. DeGroote, T. Jarvis, and X. Sun. Bioorganic & Medicinal Chemistry Letters, 2018. 28(19): p. 3177-3181. PMID[30172617].
[PubMed]. TB_10_2018.
7. In Vitro Activity of Aminoglycosides, Clofazimine, D-Cycloserine and Dapsone against 83 Mycobacterium avium Complex Clinical Isolates. Huang, C.C., M.F. Wu, H.C. Chen, and W.C. Huang. Journal of Microbiology, Immunology and Infection, 2018. 51(5): p. 636-643. PMID[28705770].
[PubMed]. TB_10_2018.
8. Enhancement in Anti-tubercular Activity of Indole Based Thiosemicarbazones on Complexation with Copper(I) and Silver(I) Halides: Structure Elucidation, Evaluation and Molecular Modelling. Khan, A., J.P. Jasinski, V.A. Smolenski, E.P. Hotchkiss, P.T. Kelley, Z.A. Shalit, M. Kaur, K. Paul, and R. Sharma. Bioorganic Chemistry, 2018. 80: p. 303-318. PMID[29986180].
[PubMed]. TB_10_2018.
9. Synthesis and Biological Evaluation of Dihydroquinoline carboxamide Derivatives as Anti-tubercular Agents.Kumar, G., A. Sathe, V.S. Krishna, D. Sriram, and S.M. Jachak. European Journal of Medicinal Chemistry, 2018. 157: p. 1-13. PMID[30064024].
[PubMed]. TB_10_2018.
10. Antitubercular Activity and Isolation of Chemical Constituents from Plant Vitex negundo linn. Ladda, P.L., and C.S. Magdum. Iranian Journal of Pharmaceutical Research, 2018. 17(4): p. 1353-1360. ISI[000446083200020].
[WOS]. TB_10_2018.
11. An Antimycobacterial Pleuromutilin Analogue Effective against Dormant Bacilli. Lemieux, M.R., S. Siricilla, K. Mitachi, S. Eslamimehr, Y. Wang, D. Yang, J.D. Pressly, Y. Kong, F. Park, S.G. Franzblau, and M. Kurosu. Bioorganic & Medicinal Chemistry, 2018. 26(17): p. 4787-4796. PMID[30145051]. PMCID[PMC6154393].
[PubMed]. TB_10_2018.
12. Antimycobacterial 1,4-Napthoquinone Natural Products from Moneses uniflora. Li, H., A. Bos, S. Jean, D. Webster, G.A. Robichaud, J.A. Johnson, and C.A. Gray. Phytochemistry Letters, 2018. 27: p. 229-233. ISI[000445267500045].
[WOS]. TB_10_2018.
13. Synthesis and Antimicrobial Evaluation of 4H-Pyrans and Schiff Bases Fused 4H-Pyran Derivatives as Inhibitors of Mycobacterium bovis (BCG). Mandavi, S.M., A. Habibi, H. Dolati, S.M. Shahcheragh, S. Sardari, and P. Azerang. Iranian Journal of Pharmaceutical Research, 2018. 17(4): p. 1229-1239. ISI[000446083200009].
[WOS]. TB_10_2018.
14. Synthesis, Biological Evaluation and Molecular Dynamics Studies of 1,2,4-Triazole Clubbed Mannich Bases.Patel, V.M., N.B. Patel, M.J. Chan-Bacab, and G. Rivera. Computational Biology and Chemistry, 2018. 76: p. 264-274. PMID[30092449].
[PubMed]. TB_10_2018.
15. New Heterobimetallic Ferrocenyl Derivatives: Evaluation of Their Potential as Prospective Agents against Trypanosomatid Parasites and Mycobacterium tuberculosis. Rivas, F., A. Medeiros, E. Rodriguez Arce, M. Comini, C.M. Ribeiro, F.R. Pavan, and D. Gambino. Journal of Inorganic Biochemistry, 2018. 187: p. 73-84. PMID[30055398].
[PubMed]. TB_10_2018.
16. Terminalia laxiflora and Terminalia brownii contain a Broad Spectrum of Antimycobacterial Compounds Including Ellagitannins, Ellagic Acid Derivatives, Triterpenes, Fatty Acids and Fatty Alcohols.Salih, E.Y.A., R. Julkunen-Tiitto, A.M. Lampi, M. Kanninen, O. Luukkanen, M. Sipi, M. Lehtonen, H. Vuorela, and P. Fyhrquist. Journal of Ethnopharmacology, 2018. 227: p. 82-96. PMID[29733942].
[PubMed]. TB_10_2018.
17. Antimycobacterial Potentials of Quercetin and Rutin against Mycobacterium tuberculosis H37Rv. Sasikumar, K., A.R. Ghosh, and A. Dusthackeer. 3 Biotech, 2018. 8(10). 427. PMID[30305996]. PMCID[PMC6162196].
[PubMed]. TB_10_2018.
18. In Vitro Activity of PBTZ169 against Multiple Mycobacterium Species. Shi, J., J. Lu, S. Wen, Z. Zong, F. Huo, J. Luo, Q. Liang, Y. Li, H. Huang, and Y. Pang. Antimicrobial Agents Chemotherapy, 2018. 62(11). e01314-01318. PMID[30150479].
[PubMed]. TB_10_2018.
Patent Citations
This month, no relevant Mycobacterium patents were identified.