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Natural and synthetic β-carboline as a privileged antifungal scaffolds Review article
2022
Authors:  Dai, Jiang Kun;  Dan, Wen Jia;  Wan, Jian Bo
Favorite | TC[WOS]:24 TC[Scopus]:26  IF:6.0/6.1 | Submit date:2022/03/04
Antifungal  Mechanism  Structure-activity Relationships  Β-carboline  
Genetic Analysis of Candida auris Implicates Hsp90 in Morphogenesis and Azole Tolerance and Cdr1 in Azole Resistance Journal article
Sang Hu Kim, Kali R. Iyer, Lakhansing Pardeshi, José F. Muñoz, Nicole Robbins, Christina A. Cuomo, Koon Ho Wong, Leah E. Cowen. Genetic Analysis of Candida auris Implicates Hsp90 in Morphogenesis and Azole Tolerance and Cdr1 in Azole Resistance[J]. MBIO, 2019, 10(1).
Authors:  Sang Hu Kim;  Kali R. Iyer;  Lakhansing Pardeshi;  José F. Muñoz;  Nicole Robbins; et al.
Favorite | TC[WOS]:90 TC[Scopus]:98  IF:5.1/5.9 | Submit date:2020/06/12
Antifungal Drug Resistance  Candida Albicans  Candida Auris  Cdr1  Developmental Program  Emerging Pathogen  Fungal Morphogenesis  Fungal Pathogen  Hsp90  Transcriptional Program  
Recent advances on topical antimicrobials for skin and soft tissue infections and their safety concerns Journal article
Lam, P. L., Lee, K. K. H., Wong, R. S. M., Cheng, G. Y. M., Bian, Z. X., Chui, C. H., Gambari, R.. Recent advances on topical antimicrobials for skin and soft tissue infections and their safety concerns[J]. CRITICAL REVIEWS IN MICROBIOLOGY, 2018, 44(1), 40-78.
Authors:  Lam, P. L.;  Lee, K. K. H.;  Wong, R. S. M.;  Cheng, G. Y. M.;  Bian, Z. X.; et al.
Favorite | TC[WOS]:41 TC[Scopus]:45  IF:6.0/8.0 | Submit date:2018/10/30
Antibacterial  Antifungal  Clinical Efficacy  Cutaneous Diseases  Transdermal  
Quinazolinone azolyl ethanols: Potential lead antimicrobial agents with dual action modes targeting methicillin-resistant Staphylococcus aureus DNA Journal article
Peng X.-M., Peng L.-P., Li S., Avula S.R., Kannekanti V.K., Zhang S.-L., Tam K.Y., Zhou C.-H.. Quinazolinone azolyl ethanols: Potential lead antimicrobial agents with dual action modes targeting methicillin-resistant Staphylococcus aureus DNA[J]. Future Medicinal Chemistry, 2016, 8(16), 1927-1940.
Authors:  Peng X.-M.;  Peng L.-P.;  Li S.;  Avula S.R.;  Kannekanti V.K.; et al.
Favorite | TC[WOS]:59 TC[Scopus]:59 | Submit date:2018/12/18
Antibacterial  Antifungal  Dna Cleavage  Dna Intercalation  Imidazole  Quinazolinone  Triazole  
'Quinazolinone azolyl ethanols: Potential lead antimicrobial agents with dual action modes targeting MRSA DNA Journal article
Peng, X, Peng, L, Li, S, Avula, S, Kannekanti, V, Zhang, S, Tam, K. Y., Zhou, C. 'Quinazolinone azolyl ethanols: Potential lead antimicrobial agents with dual action modes targeting MRSA DNA[J]. Future Medicinal Chemistry, 2016, 1927-1940.
Authors:  Peng, X;  Peng, L;  Li, S;  Avula, S;  Kannekanti, V; et al.
Favorite | TC[WOS]:59 TC[Scopus]:59  IF:3.2/3.7 | Submit date:2022/07/28
Antibacterial  Antifungal  Dna Cleavage  Dna Intercalation  Imidazole  Quinazolinone  Triazole  
Evaluating the potential of cubosomal nanoparticles for oral delivery of amphotericin B in treating fungal infection Journal article
Yang Z., Chen M., Yang M., Chen J., Fang W., Xu P.. Evaluating the potential of cubosomal nanoparticles for oral delivery of amphotericin B in treating fungal infection[J]. International Journal of Nanomedicine, 2014, 9(1), 327.
Authors:  Yang Z.;  Chen M.;  Yang M.;  Chen J.;  Fang W.; et al.
Favorite | TC[WOS]:73 TC[Scopus]:82 | Submit date:2018/10/30
Absorption Mechanism  Amphotericin b  Antifungal Activity  Glyceryl Monoolein Cubosomes  Oral Delivery