Literature Citations
1. B1CTcu5: A Frog-derived Brevinin-1 Peptide with Anti-tuberculosis Activity. Abraham, P., L. Jose, T.T. Maliekal, R.A. Kumar, and K.S. Kumar. Peptides, 2020. 132: 170373. PMID[32679168].
[PubMed]. TB_10_2020.
2. Bismuth(III) Complexes with Pyrazineformamide Thiosemicarbazones: Investigation on the Antimicrobial and Cytotoxic Effects. Almeida, J.C.L., R.S. Amim, C. Pessoa, M.C.S. Lourenco, I.C. Mendes, and J.A. Lessa. Polyhedron, 2020. 189: 114709. ISI[000577536800003].
[WOS]. TB_10_2020.
3. New Conjugated Compound T5 Epidioxy-sterol-ANB Inhibits the Growth of Mycobacterium tuberculosis Affecting the Cholesterol and Folate Pathways. Baena, A., E. Vasco, M. Pastrana, J.F. Alzate, L.F. Barrera, and A. Martínez. Frontiers in Microbiology, 2020. 11: 537935. PMID[33072006]. PMCID[PMC7533559].
[PubMed]. TB_10_2020.
4. Drug Repurposing Approach to Identify Novel Inhibitors for Targeting DNA Gyrase in Mycobacterium tuberculosis: Insights from Biophysical and Biochemical Studies. Balasubramani, G.L., R. Rajput, M. Gupta, R. Bhatnagar, and A. Grover. Genes & Diseases, 2020. 7(3): p. 478-478. ISI[000573245400083].
[WOS]. TB_10_2020.
5. Broad-spectrum Antimicrobial and Antibiofilm Activity of a Natural Clay Mineral from British Columbia, Canada. Behroozian, S., S.L. Svensson, L.Y. Li, and J.E. Davies. mBio, 2020. 11(5): e02350-20. PMID[33024043]. PMCID[PMC7542368].
[PubMed]. TB_10_2020.
6. [6]-Gingerol Exhibits Potent Anti-mycobacterial and Immunomodulatory Activity against Tuberculosis. Bhaskar, A., A. Kumari, M. Singh, S. Kumar, S. Kumar, A. Dabla, S. Chaturvedi, V. Yadav, D. Chattopadhyay, and V. Prakash Dwivedi. International Immunopharmacology, 2020. 87: 106809. PMID[32693356].
[PubMed]. TB_10_2020.
7. Microwave Assisted Synthesis, Biological Activities, and in Silico Investigation of Some Benzimidazole Derivatives. Bhavsar, Z.A., P.T. Acharya, D.J. Jethava, D.B. Patel, M.S. Vasava, D.P. Rajani, E. Pithawala, and H.D. Patel. Journal of Heterocyclic Chemistry, 2020. ISI[000569840100001].
[WOS]. TB_10_2020.
8. Flavanones from the Twigs and Barks of Artocarpus lakoocha Having Antiplasmodial and anti-TB Activities. Boonyaketgoson, S., Y. Du, A.L. Valenciano Murillo, M.B. Cassera, D.G.I. Kingston, and K. Trisuwan. Chemical and Pharmaceutical Bulletin, 2020. 68(7): p. 671-674. PMID[32612002].
[PubMed]. TB_10_2020.
9. Antibodies Targeting Mycobacterium tuberculosis Peptides Inhibit Mycobacterial Entry to Infection Target Cells. Carabali-Isajar, M.L., M. Ocampo, Y. Varela, D. Díaz-Arévalo, M.A. Patarroyo, and M.E. Patarroyo. International Journal of Biological Macromolecules, 2020. 161: p. 712-720. PMID[32522539].
[PubMed]. TB_10_2020.
10. Mutually Isomeric 2- and 4-(3-Nitro-1,2,4-triazol-1-yl)pyrimidines Inspired by an Antimycobacterial Screening Hit: Synthesis and Biological Activity against the ESKAPE Panel of Pathogens. Chuprun, S., D. Dar'in, E. Rogacheva, L. Kraeva, O. Levin, O. Manicheva, M. Dogonadze, T. Vinogradova, O. Bakulina, and M. Krasavin. Antibiotics, 2020. 9(10): p. 666. PMID[33019787]. PMCID[PMC7601023].
[PubMed]. TB_10_2020.
11. Furoxan Derivatives Demonstrated in Vivo Efficacy by Reducing Mycobacterium tuberculosis to Undetectable Levels in a Mouse Model of Infection. de Souza, P.C., G.F.S. Fernandes, L.B. Marino, C.M. Ribeiro, P.B.D. Silva, M. Chorilli, C.S.P. Silva, F.A. Resende, M.C. Solcia, R.A. de Grandis, C.A.S. Costa, S.H. Cho, Y. Wang, S.G. Franzblau, J.L. Dos Santos, and F.R. Pavan. Biomedicine and Pharmacotherapy, 2020. 130: 110592. PMID[32763822].
[PubMed]. TB_10_2020.
12. Insights into the L,D-Transpeptidases and D,D-Carboxypeptidase of Mycobacterium abscessus: Ceftaroline, Imipenem, and Novel Diazabicyclooctane Inhibitors. Dousa, K.M., S.G. Kurz, M.A. Taracila, T. Bonfield, C.R. Bethel, M.D. Barnes, S. Selvaraju, A.M. Abdelhamed, B.N. Kreiswirth, W.H. Boom, S.H. Kasperbauer, C.L. Daley, and R.A. Bonomo. Antimicrobial Agents and Chemotherapy, 2020. 64(8): e00098-20. PMID[32393499]. PMCID[PMC7526840].
[PubMed]. TB_10_2020.
13. Novel Antiviral and Antibacterial Activities of Hibiscus schizopetalus. El-Shiekh, R.A., U.R. Abdelmohsen, H.M. Ashour, and R.M. Ashour. Antibiotics, 2020. 9(11): E756. PMID[33142982].
[PubMed]. TB_10_2020.
14. Redox Homeostasis as a Target for New Antimycobacterial Agents. Fraternale, A., C. Zara, F. Pierigè, L. Rossi, D. Ligi, G. Amagliani, F. Mannello, M. Smietana, M. Magnani, G. Brandi, and G.F. Schiavano. International Journal of Antimicrobial Agents, 2020. 56(4): 106148. PMID[32853674].
[PubMed]. TB_10_2020.
15. Structural and Mechanistic Analysis of ATPase Inhibitors Targeting Mycobacterial DNA Gyrase. Henderson, S.R., C.E.M. Stevenson, B. Malone, Y. Zholnerovych, L.A. Mitchenall, M. Pichowicz, D.H. McGarry, I.R. Cooper, C. Charrier, A.M. Salisbury, D.M. Lawson, and A. Maxwell. Journal of Antimicrobial Chemotherapy, 2020. 75(10): p. 2835-2842. PMID[32728686]. PMCID[PMC7556816].
[PubMed]. TB_10_2020.
16. Design and Synthesis of Various 5'-Deoxy-5'-(4-substituted-1,2,3-triazol-1-yl)-uridine Analogues as Inhibitors of Mycobacterium tuberculosis Mur Ligases. Hervin, V., R. Arora, J. Rani, S. Ramchandran, U. Bajpai, L.A. Agrofoglio, and V. Roy. Molecules, 2020. 25(21): p. 4953. PMID[33114668].
[PubMed]. TB_10_2020.
17. Evaluation of Anti-mycobacterial Compounds in a Silkworm Infection Model with Mycobacteroides abscessus. Hosoda, K., N. Koyama, H. Hamamoto, A. Yagi, R. Uchida, A. Kanamoto, and H. Tomoda. Molecules, 2020. 25(21): E4971. PMID[33121091].
[PubMed]. TB_10_2020.
18. Oak-associated Negativicute Equipped with Ancestral Aromatic Polyketide Synthase Produces Antimycobacterial Dendrubins. Ishida, K., G. Shabuer, S. Schieferdecker, S.J. Pidot, T.P. Stinear, U. Knuepfer, M. Cyrulies, and C. Hertweck. Chemistry, 2020. 26(58): p. 13147-13151. PMID[32597507].
[PubMed]. TB_10_2020.
19. Structure-based de Novo Design of Mycobacterium tuberculosis VapC-Activating Stapled Peptides. Kang, S.M., H. Moon, S.W. Han, D.H. Kim, B.M. Kim, and B.J. Lee. ACS Chemical Biology, 2020. 15(9): p. 2493-2498. PMID[32840352].
[PubMed]. TB_10_2020.
20. Structure-guided Designing and Evaluation of Peptides Targeting Bacterial Transcription. Kaur, G., S. Kapoor, S. Kaundal, D. Dutta, and K.G. Thakur. Frontiers in Bioengineering and Biotechnology, 2020. 8: 797. PMID[33014990]. PMCID[PMC7505949].
[PubMed]. TB_10_2020.
21. A Preliminary Study on the Synergistic Effect of Nano Ag and Anti-tuberculosis Drugs on Drug-resistant Mycobacterium tuberculosis. Li, X., L. Sheng, J. Tu, and L. Lou. Journal of Nanoscience and Nanotechnology, 2020. 20(10): p. 6155-6160. PMID[32384965].
[PubMed]. TB_10_2020.
22. Chemoenzymatic Synthesis of Arabinomannan (AM) Glycoconjugates as Potential Vaccines for Tuberculosis. Li, Z., T. Bavaro, S. Tengattini, R. Bernardini, M. Mattei, F. Annunziata, R.B. Cole, C. Zheng, M. Sollogoub, L. Tamborini, M. Terreni, and Y. Zhang. European Journal of Medicinal Chemistry, 2020. 204: 112578. PMID[32717482].
[PubMed]. TB_10_2020.
23. Novel Kinase Platform for the Validation of the Anti-tubercular Activities of Pelargonium sidoides (Geraniaceae). Lukman, V., S.W. Odeyemi, R.L. Roth, L. Mbabala, N. Tshililo, N.M. Vlok, M.J.B. Dewar, and C.P. Kenyon. BMC Biotechnology, 2020. 20(1): p. 50. PMID[32993619]. PMCID[PMC7523293].
[PubMed]. TB_10_2020.
24. Dissecting the Antibacterial Activity of Oxadiazolone-core Derivatives against Mycobacterium abscessus. Madani, A., I. Mallick, A. Guy, C. Crauste, T. Durand, P. Fourquet, S. Audebert, L. Camoin, S. Canaan, and J.F. Cavalier. Plos One, 2020. 15(9): e0238178. PMID[32946441]. PMCID[PMC7500638].
[PubMed]. TB_10_2020.
25. Unfortunately, in the article Synthesis of Novel 4,5-Dihydropyrrolo[1,2-a]quinoxalines, pyrrolo[1,2-a]quinoxalin]-2-ones and their Antituberculosis and Anticancer Activity. Makane, V.B., E.V. Krishna, U.B. Karale, D.A. Babar, S. Kalari, E.M. Rekha, M. Shukla, G. Kaul, D. Sriram, S. Chopra, S. Misra, and H.B. Rode. Archiv der Pharmazie, 2020. 353(10): e2070019. PMID[33001474].
[PubMed]. TB_10_2020.
26. Antimicrobial Activity, Phytochemical Characterization and Gas Chromatography-mass Spectrometry Analysis of Aspilia pluriseta Schweinf. Extracts. Njeru, S.N. and J.M. Muema. Heliyon, 2020. 6(10): e05195. PMID[33083626]. PMCID[PMC7551365].
[PubMed]. TB_10_2020.
27. Novel Isoniazid Embedded Triazole Derivatives: Synthesis, Antitubercular and Antimicrobial Activity Evaluation. Patil, P.S., S.L. Kasare, N.B. Haval, V.M. Khedkar, P.P. Dixit, E.M. Rekha, D. Sriram, and K.P. Haval. Bioorganic and Medicinal Chemistry Letters, 2020. 30(19): 127434. PMID[32717369].
[PubMed]. TB_10_2020.
28. Design, Synthesis and Biomedical Evaluation of Mostotrin, a New Water Soluble Tryptanthrin Derivative. Popov, A., A. Klimovich, O. Styshova, T. Moskovkina, A. Shchekotikhin, N. Grammatikova, L. Dezhenkova, D. Kaluzhny, P. Deriabin, A. Gerasimenko, A. Udovenko, and V. Stonik. International Journal of Molecular Medicine, 2020. 46(4): p. 1335-1346. PMID[32945360]. PMCID[PMC7447309].
[PubMed]. TB_10_2020.
29. Antimycobacterial Potential of Novel Hydrazone Derivatives. Rohane, S.H. and A.J. Chauhan. Indian Journal of Chemistry Section B-Organic Chemistry Including Medicinal Chemistry, 2020. 59(5): p. 700-709. ISI[000569929600005].
[WOS]. TB_10_2020.
30. Organic Salts Based on Isoniazid Drug: Synthesis, Bioavailability and Cytotoxicity Studies. Santos, F., L.C. Branco, and A.R.C. Duarte. Pharmaceutics, 2020. 12(10): p. 952. PMID[33050373]. PMCID[PMC7600673].
[PubMed]. TB_10_2020.
31. Tetrazoloquinoline-1,2,3-triazole Derivatives as Antimicrobial Agents: Synthesis, Biological Evaluation and Molecular Docking Study. Shaikh, M.H., D.D. Subhedar, S.V. Akolkar, A.A. Nagargoje, V.M. Khedkar, D. Sarkar, and B.B. Shingate. Polycyclic Aromatic Compounds, 2020. 2020: p. 1-22. ISI[000569998500001].
[WOS]. TB_10_2020.
32. High-content Screening of Eukaryotic Kinase Inhibitors Identify CHK2 Inhibitor Activity against Mycobacterium tuberculosis. Shapira, T., L. Rankine-Wilson, J.D. Chao, V. Pichler, C. Rens, T. Pfeifer, and Y. Av-Gay. Frontiers in Microbiology, 2020. 11: 553962. PMID[33042061]. PMCID[PMC7530171].
[PubMed]. TB_10_2020.
33. High-throughput Screening of Compounds Library to Identify Novel Inhibitors against Latent Mycobacterium tuberculosis Using Streptomycin-dependent Mycobacterium tuberculosis 18b Strain as a Model. Sharma, S., R. Bhat, R. Singh, S. Sharma, P. Wazir, P.P. Singh, R.A. Vishwakarma, and I.A. Khan. Tuberculosis, 2020. 124: 101958. PMID[32791471].
[PubMed]. TB_10_2020.
34. Antibacterial Cyclic Tripeptides from Antarctica-sponge-derived Fungus Aspergillus insulicola HDN151418. Sun, C., Z. Zhang, Z. Ren, L. Yu, H. Zhou, Y. Han, M. Shah, Q. Che, G. Zhang, D. Li, and T. Zhu. Marine Drugs, 2020. 18(11): p. 532. PMID[33114712].
[PubMed]. TB_10_2020.
35. Lanthanide Complexes of the Tridentate Schiff Base Ligand Salicylaldehyde-2-picolinoylhydrazone: Synthesis, Characterization, Photophysical Properties, Biological Activities and Catalytic Oxidation of Aniline. Taha, Z.A., A.K. Hijazi, and W.M. Al Momani. Journal of Molecular Structure, 2020. 1220: 128712. ISI[000573638600001].
[WOS]. TB_10_2020.
36. Fragment-based Discovery of a New Class of Inhibitors Targeting Mycobacterial tRNA Modification. Thomas, S.E., A.J. Whitehouse, K. Brown, S. Burbaud, J.M. Belardinelli, J. Sangen, R. Lahiri, M.D.J. Libardo, P. Gupta, S. Malhotra, H.I.M. Boshoff, M. Jackson, C. Abell, A.G. Coyne, T.L. Blundell, R.A. Floto, and V. Mendes. Nucleic Acids Research, 2020. 48(14): p. 8099-8112. PMID[32602532]. PMCID[PMC764132].
[PubMed]. TB_10_2020.
37. Three Promising Antimycobacterial Medicinal Plants Reviewed as Potential Sources of Drug Hit Candidates against Multidrug-resistant Tuberculosis. Tuyiringire, N., S. Deyno, A. Weisheit, C.U. Tolo, D. Tusubira, J.P. Munyampundu, P.E. Ogwang, C.M. Muvunyi, and Y.V. Heyden. Tuberculosis, 2020. 124: 101987. PMID[32841928].
[PubMed]. TB_10_2020.
38. Synthesis, Anti-tuberculosis and Anti-bacterial Activities of Sulfonamide Bearing 4-((2-(5-Bromo-1H-pyrazolo[3,4-b]pyridin-1-yl)-2-oxoethyl)amino)-N-(various substitutions)benzenesulfonamide. Variya, H.H., V. Panchal, and G.R. Patel. Indian Journal of Chemistry Section B-Organic Chemistry Including Medicinal Chemistry, 2020. 59(5): p. 682-689. ISI[000569929600003].
[WOS]. TB_10_2020.
39. 2-Aryl benzazole Derived New Class of Anti-tubercular Compounds: Endowed to Eradicate Mycobacterium tuberculosis in Replicating and Non-replicating Forms. Velappan, A.B., D. Datta, R. Ma, S. Rana, K.S. Ghosh, N. Hari, S.G. Franzblau, and J. Debnath. Bioorganic Chemistry, 2020. 103: 104170. PMID[32890990].
[PubMed]. TB_10_2020.
40. Synthesis, Characterization, and Biological Activity of Cu(II) and Co(II) Complexes of Novel (N,N2)-N-1-bis(4-Methyl quinolin-2-yl)benzene-1,2-diamine: CuO and CoO Nanoparticles Derived from their Metal Complexes for Photocatalytic Activity. Venugopal, N., G. Krishnamurthy, H.S. Bhojyanaik, M.M. Naik, and N. Sunilkumar. Inorganic and Nano-Metal Chemistry, 2020. 2020: p. 1-11. ISI[000574683500001].
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41. Synthesis and Biological Evaluation of Novel Indolyl-dihydropyridin-3-carboxylate, dihydro 1,2,4 triazol 1,5 pyridin-3-carboxylate and Carbohydrazide Derivatives. Walmik, P. Indian Journal of Chemistry Section B-Organic Chemistry Including Medicinal Chemistry, 2020. 59(8): p. 1191-1198. ISI[000576002100003].
[WOS]. TB_10_2020.
42. Synthesis of Pyrazinamide Analogues and their Antitubercular Bioactivity. Wati, F.A., P.U. Adyarini, S. Fatmawati, and M. Santoso. Medicinal Chemistry Research, 2020. 29(12): p. 2157-2163. ISI[000572339800002].
[WOS]. TB_10_2020.
43. Inhibition Studies of Ketol-acid Reductoisomerases from Pathogenic Microorganisms. Wun, S.J., L.A. Johnson, L. You, R.P. McGeary, T. Brueck, G. Schenk, and L.W. Guddat. Archives of Biochemistry and Biophysics, 2020. 692: 108516. PMID[32745463].
[PubMed]. TB_10_2020.
44. Characterization of anti-BCG Benz[a]anthraquinones and New Siderophores from a Xinjiang Desert-isolated Rare Actinomycete Nocardia Sp. XJ31. Zhang, L., J. Zhang, B. Ren, W. Lu, C. Hou, J. Wang, X. Ma, R. Ma, M. Liu, Z. Liu, J.P. Li, K. Ding, H. Dai, L. Zhang, and X. Liu. Applied Microbiology and Biotechnology, 2020. 104(19): p. 8267-8278. PMID[32830291]. PMCID[PMC7443361].
[PubMed]. TB_10_2020.
45. Three New p-Coumaroylated Sesquiterpenoids from Pilea cavaleriei. Zhou, Y., H.C. Ren, Q.Y. Zhang, H. Liang, and P.F. Tu. Natural Product Research, 2020: p. 1-7. PMID[32993365].
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Patent Citations
46. Preparation of Antibacterial Compounds. Neagoie, C.D., X. Peng, M.D. Tortorella, J.S. Fossey, L.J. Alderwick, A. Feula, and A. Yoshizawa. Patent. 2020. 2019-CN81767 2020206594: 48pp.
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47. Process for the Preparation of Derivatives of 1,1-Dialkylethane-1,2-diols as Useful Intermediates.Sharma, S., R. Ahmed, S. Raina, R.A. Vishwakarma, and P.P. Singh. Patent. 2020. 2020-IN50309 2020202205: 61pp.
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