The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
about
Candida albicans interactions with epithelial cells and mucosal immunityNADPH oxidase-driven phagocyte recruitment controls Candida albicans filamentous growth and prevents mortalityMicroevolution of Candida albicans in macrophages restores filamentation in a nonfilamentous mutantThe novel Candida albicans transporter Dur31 Is a multi-stage pathogenicity factor.Ppg1, a PP2A-type protein phosphatase, controls filament extension and virulence in Candida albicans.Anaerobic bacteria grow within Candida albicans biofilms and induce biofilm formation in suspension culturesA core filamentation response network in Candida albicans is restricted to eight genesCandida albicans hyphal initiation and elongationAnalysis of in planta Expressed Orphan Genes in the Rice Blast Fungus Magnaporthe oryzae.New signaling pathways govern the host response to C. albicans infection in various niches.Hypoxia and Temperature Regulated Morphogenesis in Candida albicansLipid Signaling via Pkh1/2 Regulates Fungal CO2 Sensing through the Kinase Sch9.Farnesol and cyclic AMP signaling effects on the hypha-to-yeast transition in Candida albicans.Reduced TOR signaling sustains hyphal development in Candida albicans by lowering Hog1 basal activity.A genome-wide transcriptional analysis of morphology determination in Candida albicansHyphae-specific genes HGC1, ALS3, HWP1, and ECE1 and relevant signaling pathways in Candida albicans.Epithelial invasion outcompetes hypha development during Candida albicans infection as revealed by an image-based systems biology approach.Candida albicans Induces Metabolic Reprogramming in Human NK Cells and Responds to Perforin with a Zinc Depletion Response.The two-component response regulator Skn7 belongs to a network of transcription factors regulating morphogenesis in Candida albicans and independently limits morphogenesis-induced ROS accumulation.Novel high-throughput screening method for identification of fungal dimorphism blockers.A functional link between hyphal maintenance and quorum sensing in Candida albicans.Comparative genome analysis and gene finding in Candida species using CGOB.Filamentation Involves Two Overlapping, but Distinct, Programs of Filamentation in the Pathogenic Fungus Candida albicans.The impact of farnesol in combination with fluconazole on Candida albicans biofilm: regulation of ERG20, ERG9, and ERG11 genes.Host-fungal interactions: key players of antifungal immunity.Deciphering fungal dimorphism: Farnesol's unanswered questions.Target specificity of the Candida albicans Efg1 regulator.
P2860
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P2860
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
description
2011 nî lūn-bûn
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2011 թուականին հրատարակուած գիտական յօդուած
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2011 թվականին հրատարակված գիտական հոդված
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2011年の論文
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2011年論文
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2011年論文
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2011年論文
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2011年論文
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2011年論文
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2011年论文
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name
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@ast
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@en
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@nl
type
label
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@ast
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@en
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@nl
prefLabel
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@ast
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@en
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@nl
P2093
P2860
P50
P3181
P1433
P1476
The Candida albicans-specific gene EED1 encodes a key regulator of hyphal extension
@en
P2093
Antje Heyken
Jenny Domey
Ronny Martin
P2860
P304
P3181
P356
10.1371/JOURNAL.PONE.0018394
P407
P577
2011-01-01T00:00:00Z