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Items: 1 to 20 of 175

1.

Robust Extracellular pH Modulation by Candida albicans during Growth in Carboxylic Acids.

Danhof HA, Vylkova S, Vesely EM, Ford AE, Gonzalez-Garay M, Lorenz MC.

MBio. 2016 Nov 15;7(6). pii: e01646-16. doi: 10.1128/mBio.01646-16.

2.

Zinc Cluster Transcription Factors Alter Virulence in Candida albicans.

Issi L, Farrer RA, Pastor K, Landry B, Delorey T, Bell GW, Thompson DA, Cuomo CA, Rao RP.

Genetics. 2017 Feb;205(2):559-576. doi: 10.1534/genetics.116.195024.

PMID:
27932543
3.

Phenotypic Profiling Reveals that Candida albicans Opaque Cells Represent a Metabolically Specialized Cell State Compared to Default White Cells.

Ene IV, Lohse MB, Vladu AV, Morschhäuser J, Johnson AD, Bennett RJ.

MBio. 2016 Nov 22;7(6). pii: e01269-16. doi: 10.1128/mBio.01269-16.

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5.

Recent advances on Candida albicans biology and virulence.

Sellam A, Whiteway M.

F1000Res. 2016 Oct 26;5:2582. Review.

6.

Glucosylceramide transferase in Giardia preferentially catalyzes the synthesis of galactosylceramide during encystation.

Robles-Martinez L, Mendez TL, Apodaca J, Das S.

Mol Biochem Parasitol. 2017 Jan;211:75-83. doi: 10.1016/j.molbiopara.2016.11.001.

PMID:
27840079
7.

Fungal KATs/KDACs: A New Highway to Better Antifungal Drugs?

Kuchler K, Jenull S, Shivarathri R, Chauhan N.

PLoS Pathog. 2016 Nov 10;12(11):e1005938. doi: 10.1371/journal.ppat.1005938. No abstract available.

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9.

Beauvericin Potentiates Azole Activity via Inhibition of Multidrug Efflux, Blocks Candida albicans Morphogenesis, and Is Effluxed via Yor1 and Circuitry Controlled by Zcf29.

Shekhar-Guturja T, Tebung WA, Mount H, Liu N, Köhler JR, Whiteway M, Cowen LE.

Antimicrob Agents Chemother. 2016 Nov 21;60(12):7468-7480.

PMID:
27736764
10.
11.
12.

Candida albicans Dbf4-dependent Cdc7 kinase plays a novel role in the inhibition of hyphal development.

Lai WC, Chang TW, Wu CH, Yang SY, Lee TL, Li WC, Chien T, Cheng YC, Shieh JC.

Sci Rep. 2016 Sep 20;6:33716. doi: 10.1038/srep33716.

13.

Global Identification of Biofilm-Specific Proteolysis in Candida albicans.

Winter MB, Salcedo EC, Lohse MB, Hartooni N, Gulati M, Sanchez H, Takagi J, Hube B, Andes DR, Johnson AD, Craik CS, Nobile CJ.

MBio. 2016 Sep 13;7(5). pii: e01514-16. doi: 10.1128/mBio.01514-16.

14.

Transcriptional rewiring over evolutionary timescales changes quantitative and qualitative properties of gene expression.

Dalal CK, Zuleta IA, Mitchell KF, Andes DR, El-Samad H, Johnson AD.

Elife. 2016 Sep 10;5. pii: e18981. doi: 10.7554/eLife.18981.

15.

Molecular Insights into the Fungus-Specific Serine/Threonine Protein Phosphatase Z1 in Candida albicans.

Chen E, Choy MS, Petrényi K, Kónya Z, Erdődi F, Dombrádi V, Peti W, Page R.

MBio. 2016 Aug 30;7(4). pii: e00872-16. doi: 10.1128/mBio.00872-16.

16.

MoDnm1 Dynamin Mediating Peroxisomal and Mitochondrial Fission in Complex with MoFis1 and MoMdv1 Is Important for Development of Functional Appressorium in Magnaporthe oryzae.

Zhong K, Li X, Le X, Kong X, Zhang H, Zheng X, Wang P, Zhang Z.

PLoS Pathog. 2016 Aug 24;12(8):e1005823. doi: 10.1371/journal.ppat.1005823.

17.

Endogenous nitric oxide accumulation is involved in the antifungal activity of Shikonin against Candida albicans.

Liao Z, Yan Y, Dong H, Zhu Z, Jiang Y, Cao Y.

Emerg Microbes Infect. 2016 Aug 17;5(8):e88. doi: 10.1038/emi.2016.87.

18.

Functional characterization of the Aspergillus nidulans glucosylceramide pathway reveals that LCB Δ8-desaturation and C9-methylation are relevant to filamentous growth, lipid raft localization and Psd1 defensin activity.

Fernandes CM, de Castro PA, Singh A, Fonseca FL, Pereira MD, Vila TV, Atella GC, Rozental S, Savoldi M, Del Poeta M, Goldman GH, Kurtenbach E.

Mol Microbiol. 2016 Nov;102(3):488-505. doi: 10.1111/mmi.13474.

PMID:
27479571
19.

Potential Roles of Fungal Extracellular Vesicles during Infection.

Joffe LS, Nimrichter L, Rodrigues ML, Del Poeta M.

mSphere. 2016 Jun 29;1(4). pii: e00099-16. doi: 10.1128/mSphere.00099-16. Review.

20.

Mapping the Hsp90 Genetic Network Reveals Ergosterol Biosynthesis and Phosphatidylinositol-4-Kinase Signaling as Core Circuitry Governing Cellular Stress.

O'Meara TR, Veri AO, Polvi EJ, Li X, Valaei SF, Diezmann S, Cowen LE.

PLoS Genet. 2016 Jun 24;12(6):e1006142. doi: 10.1371/journal.pgen.1006142.

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