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Journal Abstract Search

802 related items for PubMed ID: 21615543

  • 21. Nisin Z inhibits the growth of Candida albicans and its transition from blastospore to hyphal form.
    Le Lay C, Akerey B, Fliss I, Subirade M, Rouabhia M.
    J Appl Microbiol; 2008 Nov; 105(5):1630-9. PubMed ID: 19146497
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  • 25. Inhibition of Candida albicans yeast-hyphal transition and biofilm formation by Solidago virgaurea water extracts.
    Chevalier M, Medioni E, Prêcheur I.
    J Med Microbiol; 2012 Jul; 61(Pt 7):1016-1022. PubMed ID: 22422572
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  • 26. Inhibition of adhesion-specific genes by Solidago virgaurea extract causes loss of Candida albicans biofilm integrity.
    Chevalier M, Doglio A, Rajendran R, Ramage G, Prêcheur I, Ranque S.
    J Appl Microbiol; 2019 Jul; 127(1):68-77. PubMed ID: 31013388
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  • 28. Antifungal activity of azole compounds CPA18 and CPA109 against azole-susceptible and -resistant strains of Candida albicans.
    Calabrese EC, Castellano S, Santoriello M, Sgherri C, Quartacci MF, Calucci L, Warrilow AG, Lamb DC, Kelly SL, Milite C, Granata I, Sbardella G, Stefancich G, Maresca B, Porta A.
    J Antimicrob Chemother; 2013 May; 68(5):1111-9. PubMed ID: 23292344
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  • 31. Usnic acid inhibits biofilm formation and virulent morphological traits of Candida albicans.
    Nithyanand P, Beema Shafreen RM, Muthamil S, Karutha Pandian S.
    Microbiol Res; 2015 Oct; 179():20-8. PubMed ID: 26411891
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  • 32. In vitro efficacy of nisin Z against Candida albicans adhesion and transition following contact with normal human gingival cells.
    Akerey B, Le-Lay C, Fliss I, Subirade M, Rouabhia M.
    J Appl Microbiol; 2009 Oct; 107(4):1298-307. PubMed ID: 19486401
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  • 33. In vitro activity of 2-cyclohexylidenhydrazo-4-phenyl-thiazole compared with those of amphotericin B and fluconazole against clinical isolates of Candida spp. and fluconazole-resistant Candida albicans.
    De Logu A, Saddi M, Cardia MC, Borgna R, Sanna C, Saddi B, Maccioni E.
    J Antimicrob Chemother; 2005 May; 55(5):692-8. PubMed ID: 15772140
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  • 34. Techniques for antifungal susceptibility testing of Candida albicans biofilms.
    Ramage G, López-Ribot JL.
    Methods Mol Med; 2005 May; 118():71-9. PubMed ID: 15888936
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  • 35. Phenylpropanoids of plant origin as inhibitors of biofilm formation by Candida albicans.
    Raut JS, Shinde RB, Chauhan NM, Karuppayil SM.
    J Microbiol Biotechnol; 2014 Sep; 24(9):1216-25. PubMed ID: 24851813
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  • 36. Anti-Candida albicans biofilm effect of novel heterocyclic compounds.
    Kagan S, Jabbour A, Sionov E, Alquntar AA, Steinberg D, Srebnik M, Nir-Paz R, Weiss A, Polacheck I.
    J Antimicrob Chemother; 2014 Feb; 69(2):416-27. PubMed ID: 24078467
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  • 37. In Vitro Characterization of a Biaryl Amide Anti-virulence Compound Targeting Candida albicans Filamentation and Biofilm Formation.
    Romo JA, Pierce CG, Esqueda M, Hung CY, Saville SP, Lopez-Ribot JL.
    Front Cell Infect Microbiol; 2018 Feb; 8():227. PubMed ID: 30042929
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  • 38. Antifungal activity and influence of propolis against germ tube formation as a critical virulence attribute by clinical isolates of Candida albicans.
    Haghdoost NS, Salehi TZ, Khosravi A, Sharifzadeh A.
    J Mycol Med; 2016 Dec; 26(4):298-305. PubMed ID: 27789229
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  • 39. Activity of Allyl Isothiocyanate and Its Synergy with Fluconazole against Candida albicans Biofilms.
    Raut JS, Bansode BS, Jadhav AK, Karuppayil SM.
    J Microbiol Biotechnol; 2017 Apr 28; 27(4):685-693. PubMed ID: 28138121
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  • 40. The effects of tea polyphenols on Candida albicans: inhibition of biofilm formation and proteasome inactivation.
    Evensen NA, Braun PC.
    Can J Microbiol; 2009 Sep 28; 55(9):1033-9. PubMed ID: 19898545
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