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Items: 1 to 20 of 131

1.

Wild-type Drosophila melanogaster as a model host to analyze nitrogen source dependent virulence of Candida albicans.

Davis MM, Alvarez FJ, Ryman K, Holm ÅA, Ljungdahl PO, Engström Y.

PLoS One. 2011;6(11):e27434. doi: 10.1371/journal.pone.0027434. Epub 2011 Nov 14.

3.

The SPS amino acid sensor mediates nutrient acquisition and immune evasion in Candida albicans.

Miramón P, Lorenz MC.

Cell Microbiol. 2016 Nov;18(11):1611-1624. doi: 10.1111/cmi.12600. Epub 2016 May 27.

4.

A transcription factor regulatory cascade controls secreted aspartic protease expression in Candida albicans.

Dabas N, Morschhäuser J.

Mol Microbiol. 2008 Aug;69(3):586-602. doi: 10.1111/j.1365-2958.2008.06297.x. Epub 2008 Jun 28.

5.

Overexpression of Candida albicans secretory aspartyl proteinase 2 and its expression in Saccharomyces cerevisiae do not augment virulence in mice.

Dubois N, Colina AR, Aumont F, Belhumeur P, de Repentigny L.

Microbiology. 1998 Aug;144 ( Pt 8):2299-310.

PMID:
9720053
6.

The Drosophila Toll pathway controls but does not clear Candida glabrata infections.

Quintin J, Asmar J, Matskevich AA, Lafarge MC, Ferrandon D.

J Immunol. 2013 Mar 15;190(6):2818-27. doi: 10.4049/jimmunol.1201861. Epub 2013 Feb 11.

7.

Immune-deficient Drosophila melanogaster: a model for the innate immune response to human fungal pathogens.

Alarco AM, Marcil A, Chen J, Suter B, Thomas D, Whiteway M.

J Immunol. 2004 May 1;172(9):5622-8.

8.

Candida albicans Cas5, a regulator of cell wall integrity, is required for virulence in murine and toll mutant fly models.

Chamilos G, Nobile CJ, Bruno VM, Lewis RE, Mitchell AP, Kontoyiannis DP.

J Infect Dis. 2009 Jul 1;200(1):152-7. doi: 10.1086/599363.

9.
10.

Nitrogen regulation of morphogenesis and protease secretion in Candida albicans.

Morschhäuser J.

Int J Med Microbiol. 2011 Jun;301(5):390-4. doi: 10.1016/j.ijmm.2011.04.005. Epub 2011 May 8. Review.

PMID:
21555241
11.
12.

Rhb1 regulates the expression of secreted aspartic protease 2 through the TOR signaling pathway in Candida albicans.

Chen YT, Lin CY, Tsai PW, Yang CY, Hsieh WP, Lan CY.

Eukaryot Cell. 2012 Feb;11(2):168-82. doi: 10.1128/EC.05200-11. Epub 2011 Dec 22.

13.

Host versus in vitro signals and intrastrain allelic differences in the expression of a Candida albicans virulence gene.

Staib P, Kretschmar M, Nichterlein T, Hof H, Morschhäuser J.

Mol Microbiol. 2002 Jun;44(5):1351-66.

14.

The fungal pathogen Candida albicans autoinduces hyphal morphogenesis by raising extracellular pH.

Vylkova S, Carman AJ, Danhof HA, Collette JR, Zhou H, Lorenz MC.

MBio. 2011 May 17;2(3):e00055-11. doi: 10.1128/mBio.00055-11. Print 2011.

15.

Drosophila melanogaster as a facile model for large-scale studies of virulence mechanisms and antifungal drug efficacy in Candida species.

Chamilos G, Lionakis MS, Lewis RE, Lopez-Ribot JL, Saville SP, Albert ND, Halder G, Kontoyiannis DP.

J Infect Dis. 2006 Apr 1;193(7):1014-22. Epub 2006 Feb 28. Erratum in: J Infect Dis. 2006 Nov 1;194(9):1342.

PMID:
16518764
16.
17.

Drosophila melanogaster Thor and response to Candida albicans infection.

Levitin A, Marcil A, Tettweiler G, Laforest MJ, Oberholzer U, Alarco AM, Thomas DY, Lasko P, Whiteway M.

Eukaryot Cell. 2007 Apr;6(4):658-63. Epub 2007 Feb 2.

18.

Limited role of secreted aspartyl proteinases Sap1 to Sap6 in Candida albicans virulence and host immune response in murine hematogenously disseminated candidiasis.

Correia A, Lermann U, Teixeira L, Cerca F, Botelho S, da Costa RM, Sampaio P, Gärtner F, Morschhäuser J, Vilanova M, Pais C.

Infect Immun. 2010 Nov;78(11):4839-49. doi: 10.1128/IAI.00248-10. Epub 2010 Aug 2.

19.
20.

CRZ1, a target of the calcineurin pathway in Candida albicans.

Karababa M, Valentino E, Pardini G, Coste AT, Bille J, Sanglard D.

Mol Microbiol. 2006 Mar;59(5):1429-51.

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