The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
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Short-Read Sequencing for Genomic Analysis of the Brown Rot Fungus Fibroporia radiculosaCellular multitasking: the dual role of human Cu-ATPases in cofactor delivery and intracellular copper balanceEssential metals at the host-pathogen interface: nutritional immunity and micronutrient assimilation by human fungal pathogensCopper at the Fungal Pathogen-Host AxisPho4 mediates phosphate acquisition in Candida albicans and is vital for stress resistance and metal homeostasisRole of a Candida albicans P1-type ATPase in resistance to copper and silver ion toxicity.Gene expression induced by copper stress in the diatom Thalassiosira pseudonana.Copper Resistance in Aspergillus nidulans Relies on the PI-Type ATPase CrpA, Regulated by the Transcription Factor AceA.Role for the SCFCDC4 ubiquitin ligase in Candida albicans morphogenesisYCF1-mediated cadmium resistance in yeast is dependent on copper metabolism and antioxidant enzymes.Genome-wide analysis of copper, iron and zinc transporters in the arbuscular mycorrhizal fungus Rhizophagus irregularis.Mechanisms of contact-mediated killing of yeast cells on dry metallic copper surfaces.Identification of a copper-inducible promoter for use in ectopic expression in the fungal pathogen Histoplasma capsulatumSur7 promotes plasma membrane organization and is needed for resistance to stressful conditions and to the invasive growth and virulence of Candida albicans.Evolution of copper transporting ATPases in eukaryotic organisms.Regulation of Cu(I)/Ag(I) efflux genes in Escherichia coli by the sensor kinase CusS.Host-Imposed Copper Poisoning Impacts Fungal Micronutrient Acquisition during Systemic Candida albicans InfectionsCandida albicans adapts to host copper during infection by swapping metal cofactors for superoxide dismutaseCryptococcus neoformans copper detoxification machinery is critical for fungal virulence.Expressional control of a cadmium-transporting P1B-type ATPase by a metal sensing degradation signal.Budding off: bringing functional genomics to Candida albicans.Iron and copper as virulence modulators in human fungal pathogens.A novel CPx-ATPase from the cadmium hyperaccumulator Thlaspi caerulescens.The Yin and Yang of copper during infection.A novel histidine-rich CPx-ATPase from the filamentous cyanobacterium Oscillatoria brevis related to multiple-heavy-metal cotoleranceCoevolution of cyclin Pcl5 and its substrate Gcn4.Antimicrobial Properties of Microparticles Based on Carmellose Cross-Linked by Cu(2+) Ions.Regulation of copper toxicity by Candida albicans GPA2The sensitivity of yeasts and yeasts-like fungi to copper and sulfur could explain lower yeast biodiversity in organic vineyards.Als1 and Als3 regulate the intracellular uptake of copper ions when Candida albicans biofilms are exposed to metallic copper surfaces.Clinical isolates of Candida albicans, Candida tropicalis, and Candida krusei have different susceptibilities to Co(II) and Cu(II) complexes of 1,10-phenanthroline.A metallothionein and CPx-ATPase handle heavy-metal tolerance in the filamentous cyanobacterium Oscillatoria brevis.Deletion of the copper transporter CaCCC2 reveals two distinct pathways for iron acquisition in Candida albicans.Candida albicans expresses an unusual cytoplasmic manganese-containing superoxide dismutase (SOD3 gene product) upon the entry and during the stationary phase.Metals in fungal virulence.Aspergillus fumigatus Copper Export Machinery and Reactive Oxygen Intermediate Defense Counter Host Copper-Mediated Oxidative Antimicrobial Offense.A copper-responsive transcription factor, CRF1, mediates copper and cadmium resistance in Yarrowia lipolytica.For Cryptococcus neoformans, responding to the copper status in a colonization niche is not just about copper.Heavy Metal-Induced Expression of PcaA Provides Cadmium Tolerance to Aspergillus fumigatus and Supports Its Virulence in the Galleria mellonella Model.Characterization of copABCD operon from a copper-sensitive Pseudomonas putida strain.
P2860
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P2860
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
description
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name
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@ast
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@en
type
label
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@ast
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@en
prefLabel
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@ast
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@en
P2093
P2860
P356
P1476
The high copper tolerance of Candida albicans is mediated by a P-type ATPase.
@en
P2093
Berdicevsky I
Kornitzer D
Weissman Z
P2860
P304
P356
10.1073/PNAS.97.7.3520
P407
P577
2000-03-01T00:00:00Z