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Opportunistic Infections Citation List: November 23 - December 6, 2012

ANTIFUNGAL COMPOUNDS (includes Cryptococcus, Aspergillus, Candida, & Histoplasma)

1. Antitumor, Antibiotic and Antileishmanial Properties of the Pyranonaphthoquinone Psychorubrin from Mitracarpus frigidus. Fabri, R.L., R.M. Grazul, L.O. Carvalho, E.S. Coimbra, G.M. Cardoso, E.M. Souza-Fagundes, A.D. Silva, and E. Scio. Anais da Academia Brasileira de Ciencias, 2012. 84(4): p. 1081-1090. PMID[23037306].

[PubMed]. OI_1123-120612.

2. Antibacterial, Antifungal and Antioxidant Activities of the Ethanol Extract of the Stem Bark of Clausena heptaphylla. Fakruddin, M., K.S. Mannan, R.M. Mazumdar, and H. Afroz. BMC Complementary and Alternative Medicine, 2012. 12(1): p. 232. PMID[23181593].

[PubMed]. OI_1123-120612.

3. Effect of Corilagin on Membrane Permeability of Escherichia coli, Staphylococcus aureus and Candida albicans. Li, N., M. Luo, Y.J. Fu, Y.G. Zu, W. Wang, L. Zhang, L.P. Yao, C.J. Zhao, and Y. Sun. Phytotherapy Research, 2012. [Epub ahead of print]. PMID[23192753].

[PubMed]. OI_1123-120612.

4. Biochemical-, Biophysical-, and Microarray-based Antifungal Evaluation of the Buffer-mediated Synthesized Nano Zinc Oxide: An in Vivo and in Vitro Toxicity Study. Patra, P., S. Mitra, N. Debnath, and A. Goswami. Langmuir, 2012. [Epub ahead of print]. PMID[23163331].

[PubMed]. OI_1123-120612.

5. The Effect of Various Concentrations of Iodine potassium iodide on the Antimicrobial Properties of Mineral Trioxide Aggregate - A Pilot Study. Saatchi, M., H.S. Hosseini, A.R. Farhad, and T. Narimany. Dental Traumatology, 2012. 28(6): p. 474-477. PMID[22296180].

[PubMed]. OI_1123-120612.

6. Chemical and Biological Characterization of Novel Essential Oils from Eremophila bignoniiflora (F. Muell) (myoporaceae): A Traditional Aboriginal Australian Bush Medicine. Sadgrove, N.J., M. Hitchcock, K. Watson, and G.L. Jones. Phytotherapy Research, 2012. [Epub ahead of print]. PMID[23193085].

[PubMed]. OI_1123-120612.

7. Metal Based New Triazoles: Their Synthesis, Characterization and Antibacterial/Antifungal Activities. Sumrra, S.H. and Z.H. Chohan. Spectrochimica acta. Part A, Molecular and Biomolecular Spectroscopy, 2012. 98: p. 53-61. PMID[22982389].

[PubMed]. OI_1123-120612.

ANTIBACTERIAL COMPOUNDS (includes Mycobacterium spp., Drug Resistant, MAC, MDR)

8. Antimycobacterial Drugs Currently in Phase II Clinical Trials and Preclinical Phase for Tuberculosis Treatment. Engohang-Ndong, J. Expert Opinion on Investigational Drugs, 2012. 21(12): p. 1789-1800. PMID[22991970].
[PubMed]. OI_1123-120612.

9. Antibacterial Activities of the Extracts, Fractions and Compounds from Dioscorea bulbifera. Kuete, V., R. Betrandteponno, A.T. Mbaveng, L.A. Tapondjou, J.J. Meyer, L. Barboni, and N. Lall. BMC Complementary and Alternative Medicine, 2012. 12(1): p. 228. PMID[23176193].
[PubMed]. OI_1123-120612.

10. Screening of Antifungal Azole Drugs and Agrochemicals with an Adapted alamaBlue-based Assay Demonstrates Antibacterial Activity of Croconazole against Mycobacterium ulcerans. Scherr, N., K. Roltgen, M. Witschel, and G. Pluschke. Antimicrobial Agents and Chemotherapy, 2012. 56(12): p. 6410-6413. PMID[23006761].
[PubMed]. OI_1123-120612.

11. Discovery of Schaeffer's Acid Analogues as Lead Structures of Mycobacterium tuberculosis Type II Dehydroquinase Using a Rational Drug Design Approach. Schmidt, M.F., O. Korb, N.I. Howard, M.V. Dias, T.L. Blundell, and C. Abell. ChemMedChem, 2012. [Epub ahead of print]. PMID[23169689].
[PubMed]. OI_1123-120612.

12. Noninvasive Determination of 2-[18F]-Fluoroisonicotinic acid hydrazide Pharmacokinetics by Positron Emission Tomography in Mycobacterium tuberculosis-infected Mice. Weinstein, E.A., L. Liu, A.A. Ordonez, H. Wang, J.M. Hooker, P.J. Tonge, and S.K. Jain. Antimicrobial Agents and Chemotherapy, 2012. 56(12): p. 6284-6290. PMID[23006755].
[PubMed]. OI_1123-120612.

13. Recent Advances in the Research of Heterocyclic Compounds as Antitubercular Agents. Yan, M. and S. Ma. ChemMedChem, 2012. 7(12): p. 2063-2075. PMID[23042656].
[PubMed]. OI_1123-120612.

ANTIMALARIAL COMPOUNDS (Plasmodium spp.)

14. Antimalaria Action of Antiretroviral Drugs on Plasmodium berghei in Mice. Akinyede, A., A. Akintonwa, O. Awodele, S. Olayemi, I. Oreagba, O. Aina, S. Akindele, and C. Okany. The American Journal of Tropical Medicine and Hygiene, 2012. [Epub ahead of print]. PMID[23208888].

[PubMed]. OI_1123-120612.

15. Watsonianone a-C, Anti-plasmodial beta-Triketones from the Australian Tree, Corymbia watsoniana. Carroll, A.R., V.M. Avery, S. Duffy, P.I. Forster, and G.P. Guymer. Organic & Biomolecular Chemistry, 2012. [Epub ahead of print]. PMID[23197075].

[PubMed]. OI_1123-120612.

16. In Vitro Antimalarial Activity of Six Aspidosperma Species from the State of Minas Gerais (Brazil). Dolabela, M.F., S.G. Oliveira, J.M. Peres, J.M. Nascimento, M.M. Povoa, and A.B. Oliveira. Anais da Academia Brasileira de Ciencias, 2012. 84(4): p. 899-910. PMID[23207699].

[PubMed]. OI_1123-120612.

17. 8,8-Dialkyldihydroberberines with Potent Antiprotozoal Activity. Endeshaw, M., X. Zhu, S. He, T. Pandharkar, E. Cason, K.V. Mahasenan, H. Agarwal, C. Li, M. Munde, W.D. Wilson, M. Bahar, R.W. Doskotch, A.D. Kinghorn, M. Kaiser, R. Brun, M.E. Drew, and K.A. Werbovetz. Journal of Natural Products, 2012. [Epub ahead of print]. PMID[23167812].

[PubMed]. OI_1123-120612.

18. Mimicking the Intramolecular Hydrogen Bond: Synthesis, Biological Evaluation, and Molecular Modeling of Benzoxazines and Quinazolines as Potential Antimalarial Agents. Gemma, S., C. Camodeca, M. Brindisi, S. Brogi, G. Kukreja, S. Kunjir, E. Gabellieri, L. Lucantoni, A. Habluetzel, D. Taramelli, N. Basilico, R. Gualdani, F. Tadini-Buoninsegni, G. Bartolommei, M.R. Moncelli, R.E. Martin, R.L. Summers, S. Lamponi, L. Savini, I. Fiorini, M. Valoti, E. Novellino, G. Campiani, and S. Butini. Journal of Medicinal Chemistry, 2012. [Epub ahead of print]. PMID[23145816].

[PubMed]. OI_1123-120612.

19. Chemobiosynthesis of New Antimalarial Macrolides. Goodman, C.D., M. Useglio, S. Peiru, G.R. Labadie, G.I. McFadden, E. Rodriguez, and H. Gramajo. Antimicrobial Agents and Chemotherapy, 2012. [Epub ahead of print]. PMID[23208707].

[PubMed]. OI_1123-120612.

20. Compounds from Sorindeia juglandifolia (Anacardiaceae) Exhibit Potent Anti-plasmodial Activities in Vitro and in Vivo. Kamkumo, R.G., A.M. Ngoutane, L.R. Tchokouaha, P.V. Fokou, E.A. Madiesse, J. Legac, J.J. Kezetas, B.N. Lenta, F.F. Boyom, T. Dimo, W.F. Mbacham, J. Gut, and P.J. Rosenthal. Malaria Journal, 2012. 11(1): p. 382. PMID[23171238].

[PubMed]. OI_1123-120612.

21. Antimalarial Activity of Isoquine against Kenyan Plasmodium falciparum Clinical Isolates and Association with Polymorphisms in pfcrt and pfmdr1 Genes. Okombo, J., S.M. Kiara, A. Abdirahman, L. Mwai, E. Ohuma, S. Borrmann, A. Nzila, and S. Ward. The Journal of Antimicrobial Chemotherapy, 2012. [Epub ahead of print]. PMID[23169890].

[PubMed]. OI_1123-120612.

22. Antimalarial and Safety Evaluation of Extracts from Toddalia asiatica (L) lam. (Rutaceae). Orwa, J.A., L. Ngeny, N.M. Mwikwabe, J. Ondicho, and I.J. Jondiko. Journal of Ethnopharmacology, 2012. [Epub ahead of print]. PMID[23207061].

[PubMed]. OI_1123-120612.

23. Linear and Cyclic Dipeptides with Antimalarial Activity. Perez-Picaso, L., H.F. Olivo, R. Argotte-Ramos, M. Rodriguez-Gutierrez, and M.Y. Rios. Bioorganic & Medicinal Chemistry Letters, 2012. 22(23): p. 7048-7051. PMID[23084276].

[PubMed]. OI_1123-120612.

24. Discovery of Novel and Ligand-efficient Inhibitors of Plasmodium falciparum and Plasmodium vivax N-myristoyltransferase. Rackham, M.D., J.A. Brannigan, D.K. Moss, Z. Yu, A.J. Wilkinson, A.A. Holder, E.W. Tate, and R.J. Leatherbarrow. Journal of Medicinal Chemistry, 2012. [Epub ahead of print]. PMID[23170970].

[PubMed]. OI_1123-120612.

25. Bile acid-based 1,2,4-Trioxanes: Synthesis and Antimalarial Assessment (1). Singh, C., M. Hassam, V.P. Verma, A.S. Singh, N.K. Naikade, S.K. Puri, P.R. Maulik, and R. Kant. Journal of Medicinal Chemistry, 2012. [Epub ahead of print]. PMID[23163291].

[PubMed]. OI_1123-120612.

26. Dehydroepiandrosterone Effect on Plasmod48. ium falciparum and Its Interaction with Antimalarial Drugs. Zuluaga, L., S. Parra, E. Garrido, R. Lopez-Munoz, J.D. Maya, and S. Blair. Experimental Parasitology, 2012. [Epub ahead of print]. PMID[23178659].

[PubMed]. OI_1123-120612.

27. Synthesis and Antiplasmodial Activity of Highly Active Reverse Analogues of the Antimalarial Drug Candidate Fosmidomycin. Behrendt, C.T., A. Kunfermann, V. Illarionova, A. Matheeussen, T. Grawert, M. Groll, F. Rohdich, A. Bacher, W. Eisenreich, M. Fischer, L. Maes, and T. Kurz. ChemMedChem, 2010. 5(10): p. 1673-1676. PMID[20718073].
[PubMed]. OI_1123-120612.

28. Reverse Fosmidomycin Derivatives against the Antimalarial Drug Target Ispc (Dxr). Behrendt, C.T., A. Kunfermann, V. Illarionova, A. Matheeussen, M.K. Pein, T. Grawert, J. Kaiser, A. Bacher, W. Eisenreich, B. Illarionov, M. Fischer, L. Maes, M. Groll, and T. Kurz. Journal of Medicinal Chemistry, 2011. 54(19): p. 6796-6802. PMID[21866890].
[PubMed]. OI_1123-120612.

29. Novel Peptidomimetics Containing a Vinyl Ester Moiety as Highly Potent and Selective Falcipain-2 Inhibitors. Ettari, R., N. Micale, T. Schirmeister, C. Gelhaus, M. Leippe, E. Nizi, M.E. Di Francesco, S. Grasso, and M. Zappala. Journal of Medicinal Chemistry, 2009. 52(7): p. 2157-2160. PMID[19296600].
[PubMed]. OI_1123-120612.

30. Identification of a Metabolically Stable Triazolopyrimidine-based Dihydroorotate Dehydrogenase Inhibitor with Antimalarial Activity in Mice. Gujjar, R., A. Marwaha, F. El Mazouni, J. White, K.L. White, S. Creason, D.M. Shackleford, J. Baldwin, W.N. Charman, F.S. Buckner, S. Charman, P.K. Rathod, and M.A. Phillips. Journal of Medicinal Chemistry, 2009. 52(7): p. 1864-1872. PMID[19296651].
[PubMed]. OI_1123-120612.

31. Triazolopyrimidine-based Dihydroorotate Dehydrogenase Inhibitors with Potent and Selective Activity against the Malaria Parasite Plasmodium falciparum. Phillips, M.A., R. Gujjar, N.A. Malmquist, J. White, F. El Mazouni, J. Baldwin, and P.K. Rathod. Journal of Medicinal Chemistry, 2008. 51(12): p. 3649-3653. PMID[18522386].
[PubMed]. OI_1123-120612.

ANTIPROTOZOAL COMPOUNDS

32. New Naphthoquinones and an Alkaloid with in Vitro Activity against Toxoplasma gondii RH and EGS Strains. Ferreira, R.A., A.B. de Oliveira, S.A. Gualberto, J.M. Miguel Del Corral, R.T. Fujiwara, P.H. Gazzinelli Guimaraes, and R.W. de Almeida Vitor. Experimental Parasitology, 2012. 132(4): p. 450-457. PMID[23000485].
[PubMed]. OI_1123-120612.

Citations from the ISI Web of Knowledge Listings for O.I.

33. Laurene-type Sesquiterpenes from the Red Sea Red Alga Laurencia obtusa as Potential Antitumor-Antimicrobial Agents. Alarif, W.M., S.S. Al-Lihaibi, S.E.N. Ayyad, M.H. Abdel-Rhman, and F.A. Badria. European Journal of Medicinal Chemistry, 2012. 55: p. 462-466. ISI[000309494100047].

[WOS]. OI_1123-120612.

34. Antimycobacterial Agents: Synthesis and Biological Evaluation of Novel 4-(Substituted-phenyl)-6-methyl-2-oxo-N-(pyridin-2-yl)-1,2,3,4-tetrahydr opyrimidine-5-carboxamide derivatives by Using One-Pot Multicomponent Method. Almansour, A.I., M.A. Ali, S. Ali, A.C. Wei, Y.K. Yoon, R. Ismail, T.S. Choon, S. Pandian, R.S. Kumar, N. Arumugam, and H. Osman. Letters in Drug Design & Discovery, 2012. 9(10): p. 953-957. ISI[000310532400008].

[WOS]. OI_1123-120612.

35. Anti-Candida albicans Action of the Glyco-protein Complex Purified from Metabolites of Gut Bacterium Raoultella ornithinolytica Isolated from Earthworms Dendrobaena veneta. Fiolka, M.J., K. Grzywnowicz, K. Chlebiej, E. Szczuka, E. Mendyk, R. Keller, and J. Rzymowska. Journal of Applied Microbiology, 2012. 113(5): p. 1106-1119. ISI[000310281100010].

[WOS]. OI_1123-120612.

36. Synthesis and Antituberculosis Activity of Novel Unfolded and Macrocyclic Derivatives of Ent-Kaurane steviol. Khaybullin, R.N., I.Y. Strobykina, A.B. Dobrynin, A.T. Gubaydullin, R.V. Chestnova, V.M. Babaev, and V.E. Kataev. Bioorganic & Medicinal Chemistry Letters, 2012. 22(22): p. 6909-6913. ISI[000310353700024].

[WOS]. OI_1123-120612.

37. Design and Synthesis of 1H-1,2,3-Triazoles Derived from Econazole as Antitubercular Agents. Kim, S., S.N. Cho, T. Ohc, and P. Kim. Bioorganic & Medicinal Chemistry Letters, 2012. 22(22): p. 6844-6847. ISI[000310353700012].

[WOS]. OI_1123-120612.

38. Synthesis and Antimicrobial Activity of Some Novel Terephthaloyl thiourea Cross-linked Carboxymethyl chitosan Hydrogels. Mohamed, N.A. and N.A. Abd El-Ghany. Cellulose, 2012. 19(6): p. 1879-1891. ISI[000310538300007].

[WOS]. OI_1123-120612.

39. Synthesis, Characterization and Biological Evaluation of Some Pyridine and Quinoline Fused Chromenone Derivatives. Patel, M.A., V.G. Bhila, N.H. Patel, A.K. Patel, and D.I. Brahmbhatt. Medicinal Chemistry Research, 2012. 21(12): p. 4381-4388. ISI[000310030200047].

[WOS]. OI_1123-120612.

40. Discovery of 2-(4-Cyano-3-trifluoromethylphenyl amino)-4-(4-quinazolinyloxy)-6-piperazinyl(piperidinyl)-S-triazines as Potential Antibacterial Agents. Patel, R.V., P. Kumari, D.P. Rajani, and K.H. Chikhalia. Medicinal Chemistry Research, 2012. 21(12): p. 4177-4192. ISI[000310030200027].

[WOS]. OI_1123-120612.

41. In Vitro Antibacterial, Antifungal, and DNA Cleavage Studies of Coumarin Schiff Bases and Their Metal Complexes: Synthesis and Spectral Characterization. Patil, S.A., S.N. Unki, and P.S. Badami. Medicinal Chemistry Research, 2012. 21(12): p. 4017-4027. ISI[000310030200010].

[WOS]. OI_1123-120612.

42. Microwave-assisted Synthesis of Novel 4H-Chromene Derivatives Bearing Phenoxypyrazole and Their Antimicrobial Activity Assessment. Sangani, C.B., N.M. Shah, M.P. Patel, and R.G. Patel. Journal of the Serbian Chemical Society, 2012. 77(9): p. 1165-1174. ISI[000310413600003].

[WOS]. OI_1123-120612.

43. Anti-microbial Benzimidazole Derivatives: Synthesis and in Vitro Biological Evaluation. Soni, L.K., T. Narsinghani, and A. Sethi. Medicinal Chemistry Research, 2012. 21(12): p. 4330-4334. ISI[000310030200041].

[WOS]. OI_1123-120612.

44. MmPPOX Inhibits Mycobacterium tuberculosis Lipolytic Enzymes Belonging to the Hormone-sensitive Lipase Family and Alters Mycobacterial Growth. Delorme, V., S.V. Diomande, L. Dedieu, J.F. Cavalier, F. Carriere, L. Kremer, J. Leclaire, F. Fotiadu, and S. Canaan. Plos One, 2012. 7(9). ISI[000309973900174].
[WOS]. OI_1123-120612.

45. Antioxidant, Antimicrobial and Cytotoxicity Studies of Russelia equisetiformis. Riaz, M., N. Rasool, I.H. Bukhari, M. Shahid, A.F. Zahoor, M.A. Gilani, and M. Zubair. African Journal of Microbiology Research, 2012. 6(27): p. 5700-5707. ISI[000307508800025].
[WOS]. OI_1123-120612.

46. Endophytic Fungi Occurring in Ipomoea carnea Tissues and Their Antimicrobial Potentials. Tayung, K., M. Sarkar, and P. Baruah. Brazilian Archives of Biology and Technology, 2012. 55(5): p. 653-660. ISI[000309719800003].
[WOS]. OI_1123-120612.

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