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Opportunistic Infections Citation List: November 21 - December 4, 2014

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

1. Identification of a Novel Antimicrobial Peptide, Scolopendin 1, derived from Centipede Scolopendra subspinipes Mutilans and its Antifungal Mechanism. Choi, H., J.S. Hwang, and D.G. Lee. Insect Molecular Biology, 2014. 23(6): p. 788-799. PMID[25209888].

[PubMed]. OI_1121-120414.


2. Pyrene Schiff Base: Photophysics, Aggregation Induced Emission, and Antimicrobial Properties. Kathiravan, A., K. Sundaravel, M. Jaccob, G. Dhinagaran, A. Rameshkumar, D. Arul Ananth, and T. Sivasudha. The Journal of Physical Chemistry B, 2014. 118(47): p. 13573-13581. PMID[25360825].

[PubMed]. OI_1121-120414.


3. Possible Mechanisms of the Antifungal Activity of Fluconazole in Combination with Terbinafine against Candida albicans. Khodavandi, A., F. Alizadeh, N.A. Vanda, G. Karimi, and P.P. Chong. Pharmaceutical Biology, 2014. 52(12): p. 1505-1509. PMID[24863276].

[PubMed]. OI_1121-120414.


4. Quinacrine Inhibits Candida albicans Growth and Filamentation at Neutral pH. Kulkarny, V.V., A. Chavez-Dozal, H.S. Rane, M. Jahng, S.M. Bernardo, K.J. Parra, and S.A. Lee. Antimicrobial Agents and Chemotherapy, 2014. 58(12): p. 7501-7509. PMID[25288082].

[PubMed]. OI_1121-120414.


5. Antioxidant and Antibacterial Activities of Exopolysaccharides from Bifidobacterium bifidum WBIN03 and Lactobacillus plantarum R315. Li, S., R. Huang, N.P. Shah, X. Tao, Y. Xiong, and H. Wei. Journal of Dairy Science, 2014. 97(12): p. 7334-7343. PMID[25282420].

[PubMed]. OI_1121-120414.


6. Deciphering the Role of the Chitin Synthase Families 1 and 2 in the in Vivo and in Vitro Growth of Aspergillus fumigatus by Multiple Gene Targeting Deletion. Muszkieta, L., V. Aimanianda, E. Mellado, S. Gribaldo, L. Alcazar-Fuoli, E. Szewczyk, M.C. Prevost, and J.P. Latge. Cellular Microbiology, 2014. 16(12): p. 1784-1805. PMID[24946720].

[PubMed]. OI_1121-120414.


7. Gamma-butyrolactone, Cytochalasin, Cyclic Carbonate, Eutypinic acid, and Phenalenone Derivatives from the Soil Fungus Aspergillus Sp. PSU-RSPG185. Rukachaisirikul, V., N. Rungsaiwattana, S. Klaiklay, S. Phongpaichit, K. Borwornwiriyapan, and J. Sakayaroj. Journal of Natural Products, 2014. 77(11): p. 2375-2382. PMID[25375978].

[PubMed]. OI_1121-120414.


8. Alginate Oligosaccharides Inhibit Fungal Cell Growth and Potentiate the Activity of Antifungals Against Candida and Aspergillus spp. Tondervik, A., H. Sletta, G. Klinkenberg, C. Emanuel, L.C. Powell, M.F. Pritchard, S. Khan, K.M. Craine, E. Onsoyen, P.D. Rye, C. Wright, D.W. Thomas, and K.E. Hill. PloS One, 2014. 9(11): p. e112518. PMID[25409186].

[PubMed]. OI_1121-120414.


9. Novel-porous-Ag(0) Nanocomposite Hydrogels via Green Process for Advanced Antibacterial Applications. Vimala, K., K. Kanny, K. Varaprasad, N.M. Kumar, and G.S. Reddy. Journal of Biomedical Materials Research Part A, 2014. 102(12): p. 4616-4624. PMID[24677385].

[PubMed]. OI_1121-120414.


10. From Antidiabetic to Antifungal: Discovery of Highly Potent Triazole-thiazolidinedione Hybrids as Novel Antifungal Agents. Wu, S., Y. Zhang, X. He, X. Che, S. Wang, Y. Liu, Y. Jiang, N. Liu, G. Dong, J. Yao, Z. Miao, Y. Wang, W. Zhang, and C. Sheng. ChemMedChem, 2014. 9(12): p. 2639-2646. PMID[25196996].

[PubMed]. OI_1121-120414.

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

11. Synthesis, Anticancer and Antibacterial Activity of Salinomycin N-Benzyl Amides. Antoszczak, M., E. Maj, A. Napiorkowska, J. Stefanska, E. Augustynowicz-Kopec, J. Wietrzyk, J. Janczak, B. Brzezinski, and A. Huczynski. Molecules, 2014. 19(12): p. 19435-19459. PMID[25429565].

[PubMed]. OI_1121-120414.


12. Synthesis and in Vitro Evaluation of the Antitubercular and Antibacterial Activity of Novel Oxazolidinones Bearing Octahydrocyclopenta[c]pyrrol-2-yl Moieties. Bhattarai, D., J.H. Lee, S.H. Seo, G. Nam, H. Choo, S.B. Kang, J.H. Kwak, T. Oh, S.N. Cho, A.N. Pae, E.E. Kim, N. Jeong, and G. Keum. Chemical & Pharmaceutical Bulletin, 2014. 62(12): p. 1214-1224. PMID[25297523].

[PubMed]. OI_1121-120414.


13. Phosphorus-nitrogen Compounds. Part 29. Syntheses, Crystal Structures, Spectroscopic and Stereogenic Properties, Electrochemical Investigations, Antituberculosis, Antimicrobial and Cytotoxic Activities and DNA Interactions of Ansa-spiro-ansa Cyclotetraphosphazenes. Elmas, G., A. Okumus, L.Y. Koc, H. Soltanzade, Z. Kilic, T. Hokelek, H. Dal, L. Acik, Z. Ustundag, D. Dundar, and M. Yavuz. European Journal of Medicinal Chemistry, 2014. 87: p. 662-676. PMID[25305333].

[PubMed]. OI_1121-120414.


14. Thiol-modified Gold Nanoparticles for the Inhibition of Mycobacterium smegmatis. Gifford, J.C., J. Bresee, C.J. Carter, G. Wang, R.J. Melander, C. Melander, and D.L. Feldheim. Chemical Communications, 2014. 50(100): p. 15860-15863. PMID[25350535].

[PubMed]. OI_1121-120414.


15. Natural Cinnamic acids, Synthetic Derivatives and Hybrids with Antimicrobial Activity. Guzman, J.D. Molecules, 2014. 19(12): p. 19292-19349. PMID[25429559].

[PubMed]. OI_1121-120414.


16. 2-Butyl-4-chloroimidazole Based Substituted Piperazine-thiosemicarbazone Hybrids as Potent Inhibitors of Mycobacterium tuberculosis. Jallapally, A., D. Addla, P. Yogeeswari, D. Sriram, and S. Kantevari. Bioorganic & Medicinal Chemistry Letters, 2014. 24(23): p. 5520-5524. PMID[25451998].

[PubMed]. OI_1121-120414.


17. Membrane Active Phenylalanine Conjugated Lipophilic Norspermidine Derivatives with Selective Antibacterial Activity. Konai, M.M., C. Ghosh, V. Yarlagadda, S. Samaddar, and J. Haldar. Journal of Medicinal Chemistry, 2014. 57(22): p. 9409-9423. PMID[25335118].

[PubMed]. OI_1121-120414.


18. Bioactivity of Pyridine-2-thiolato-1-oxide Metal Complexes: Bi(III), Fe(III) and Ga(III) Complexes as Potent Anti-Mycobacterium tuberculosis Prospective Agents. Machado, I., L.B. Marino, B. Demoro, G.A. Echeverria, O.E. Piro, C.Q. Leite, F.R. Pavan, and D. Gambino. European Journal of Medicinal Chemistry, 2014. 87: p. 267-273. PMID[25261824].

[PubMed]. OI_1121-120414.


19. 2-Aminothiazole Derivatives as Antimycobacterial Agents: Synthesis, Characterization, in Vitro and in Silico Studies. Makam, P. and T. Kannan. European Journal of Medicinal Chemistry, 2014. 87: p. 643-656. PMID[25305331].

[PubMed]. OI_1121-120414.


20. Design, Synthesis and Antimycobacterial Activity of Various 3-(4(Substitutedsulfonyl)piperazin-1-yl)benzo[d]isoxazole Derivatives. Naidu, K.M., A. Suresh, J. Subbalakshmi, D. Sriram, P. Yogeeswari, P. Raghavaiah, and K.V. Chandra Sekhar. European Journal of Medicinal Chemistry, 2014. 87: p. 71-78. PMID[25240097].

[PubMed]. OI_1121-120414.


21. Efficient Synthesis of Oligosaccharyl 1,2-O-Orthoesters from N-Pentenyl Glycosides and Application to the Pentaarabinofuranoside of the Mycobacterial Cell Surface. Thadke, S.A. and S. Hotha. Organic & Biomolecular Chemistry, 2014. 12(48): p. 9914-9920. PMID[25360691].

[PubMed]. OI_1121-120414.

ANTIMALARIAL COMPOUNDS (Plasmodium spp.)

22. Anti-malarial Activity of a Polyherbal Product (Nefang) During Early and Established Plasmodium Infection in Rodent Models. Arrey Tarkang, P., F.A. Okalebo, L.S. Ayong, G.A. Agbor, and A.N. Guantai. Malaria Journal, 2014. 13(1): p. 456. PMID[25421605].

[PubMed]. OI_1121-120414.


23. Structures and Bioactivities of Dihydrochalcones from Metrodorea stipularis. Burger, M.C., J.B. Fernandes, M.F. da Silva, A. Escalante, J. Prudhomme, K.G. Le Roch, M.A. Izidoro, and P.C. Vieira. Journal of Natural Products, 2014. 77(11): p. 2418-2422. PMID[25375026].

[PubMed]. OI_1121-120414.


24. Antiplasmodial Activity-aided Isolation and Identification of Quercetin-4'-methyl ether in Chromolaena odorata Leaf Fraction with High Activity against Chloroquine-resistant Plasmodium falciparum. Ezenyi, I.C., O.A. Salawu, R. Kulkarni, and M. Emeje. Parasitology Research, 2014. 113(12): p. 4415-4422. PMID[25199554].

[PubMed]. OI_1121-120414.


25. Assessment of the Induction of Dormant Ring Stages in Plasmodium falciparum Parasites by Artemisone and Artemisone Entrapped in Pheroid Vesicles in Vitro. Grobler, L., M. Chavchich, R.K. Haynes, M.D. Edstein, and A.F. Grobler. Antimicrobial Agents and Chemotherapy, 2014. 58(12): p. 7579-7582. PMID[25288088].

[PubMed]. OI_1121-120414.


26. Diastereoselective Synthesis of Potent Antimalarial cis-beta-Lactam Agents through a [2 + 2] Cycloaddition of Chiral Imines with a Chiral Ketene. Jarrahpour, A., E. Ebrahimi, V. Sinou, C. Latour, and J.M. Brunel. European Journal of Medicinal Chemistry, 2014. 87: p. 364-371. PMID[25282260].

[PubMed]. OI_1121-120414.


27.Pentacycloundecylamines and Conjugates Thereof as Chemosensitizers and Reversed Chloroquine Agents. Joubert, J., E.E. Fortuin, D. Taylor, P.J. Smith, and S.F. Malan. Bioorganic & Medicinal Chemistry Letters, 2014. 24(23): p. 5516-5519. PMID[25451997].

[PubMed]. OI_1121-120414.


28. New Series of Monoamidoxime Derivatives Displaying Versatile Antiparasitic Activity. Tabele, C., A. Cohen, C. Curti, A. Bouhlel, S. Hutter, V. Remusat, N. Primas, T. Terme, N. Azas, and P. Vanelle. European Journal of Medicinal Chemistry, 2014. 87: p. 440-453. PMID[25282267].

[PubMed]. OI_1121-120414.


29. Pyrazoleamide Compounds are Potent Antimalarials That Target Na(+) Homeostasis in Intraerythrocytic Plasmodium falciparum. Vaidya, A.B., J.M. Morrisey, Z. Zhang, S. Das, T.M. Daly, T.D. Otto, N.J. Spillman, M. Wyvratt, P. Siegl, J. Marfurt, G. Wirjanata, B.F. Sebayang, R.N. Price, A. Chatterjee, A. Nagle, M. Stasiak, S.A. Charman, I. Angulo-Barturen, S. Ferrer, M. Belen Jimenez-Diaz, M.S. Martinez, F.J. Gamo, V.M. Avery, A. Ruecker, M. Delves, K. Kirk, M. Berriman, S. Kortagere, J. Burrows, E. Fan, and L.W. Bergman. Nature Communications, 2014. 5: p. 5521. PMID[25422853].

[PubMed]. OI_1121-120414.


30. Role of Pfmdr1 in in Vitro Plasmodium falciparum Susceptibility to Chloroquine, Quinine, Monodesethylamodiaquine, Mefloquine, Lumefantrine, and Dihydroartemisinin. Wurtz, N., B. Fall, A. Pascual, M. Fall, E. Baret, C. Camara, A. Nakoulima, B. Diatta, K.B. Fall, P.S. Mbaye, Y. Dieme, R. Bercion, B. Wade, and B. Pradines. Antimicrobial Agents and Chemotherapy, 2014. 58(12): p. 7032-7040. PMID[25199781].

[PubMed]. OI_1121-120414.


31. Influence of Amodiaquine on the Antimalarial Activity of Ellagic acid: Crystallographic and Biological Studies. Zeslawska, E., B. Oleksyn, A. Fabre, and F. Benoit-Vical. Chemical Biology & Drug Design, 2014. 84(6): p. 669-675. PMID[24890222].

[PubMed]. OI_1121-120414.

ANTIPROTOZOAL COMPOUNDS

32. Triazole-based Compound as a Candidate to Develop Novel Medicines to Treat Toxoplasmosis. Dzitko, K., A. Paneth, T. Plech, J. Pawelczyk, L. Weglinska, and P. Paneth. Antimicrobial Agents and Chemotherapy, 2014. 58(12): p. 7583-7585. PMID[25288090].

[PubMed]. OI_1121-120414.

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

33. Antimicrobial Pyrimidinones II: Synthesis and Antimicrobial Evaluation of Certain Novel 5,6-Disubstituted 2-(substituted amino)alkylthiopyrimidin-4(3H)-ones. Attia, M.I., A.L. Kansoh, and N.R. El-Brollosy. Monatshefte für Chemie, 2014. 145(11): p. 1825-1837. ISI[000343882400014].

[WOS]. OI_1121-120414.


34. Synthesis, Spectroscopic, Anticancer, Antibacterial and Antifungal Studies of Ni(II) and Cu(II) Complexes with Hydrazine Carboxamide, 2-[3-methy1-2-thienyl methylene]. Chandra, S., Vandana, and S. Kumar. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2015. 135: p. 356-363. ISI[000343337700045].

[WOS]. OI_1121-120414.


35. Synthesis, Characterization, Crystal Structure and Antimicrobial Activity of Copper(II) Complexes with a Thiosemicarbazone Derived from 3-Formyl-6-methylchromone. Hies, D.C., E. Pahontu, S. Shova, R. Georgescu, N. Stanica, R. Olar, A. Gulea, and T. Rosu. Polyhedron, 2014. 81: p. 123-131. ISI[000343339600017].

[WOS]. OI_1121-120414.


36. Antifungal Potential of Fenugreek Coriander, Mint, Spinach Herbs Extracts against Aspergillus niger and Pseudomonas aeruginosa Phyto-pathogenic Fungi. Jha, Y., R.B. Subramanian, and S. Sahoo. Allelopathy Journal, 2014. 34(2): p. 325-334. ISI[000343880700014].

[WOS]. OI_1121-120414.


37. Design, Synthesis and Molecular Docking of Substituted 3-Hydrazinyl-3-oxo-propanamides as Anti-tubercular Agents. Naqvi, A., R. Malasoni, A. Srivastava, R.R. Pandey, and A.K. Dwivedi. Bioorganic & Medicinal Chemistry Letters, 2014. 24(22): p. 5181-5184. ISI[000343901400008].

[WOS]. OI_1121-120414.


38. Synthesis Aspects, Structural, Spectroscopic, Antimicrobial and Room Temperature Ferromagnetism of Zinc Iodide Complex with Schiff Based Ligand. Shakila, K. and S. Kalainathan. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2015. 135: p. 1059-1065. ISI[000343337700126].

[WOS]. OI_1121-120414.


39. A Tyrosinase Inhibitor from Aspergillus niger. Vasantha, K.Y., C.S. Murugesh, and A.P. Sattur. Journal of Food Science and Technology-Mysore, 2014. 51(10): p. 2877-2880. ISI[000343660800074].

[WOS]. OI_1121-120414.


40. Novel Silicon(IV) Phthalocyanines Containing Piperidinyl Moieties: Synthesis and in Vitro Antifungal Photodynamic Activities. Zheng, B.Y., X.J. Jiang, T. Lin, M.R. Ke, and J.D. Huang. Dyes and Pigments, 2015. 112: p. 311-316. ISI[000343687300042].

[WOS]. OI_1121-120414.

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