scholarly article | Q13442814 |
P2093 | author name string | Joseph T Nickels | |
Caroline Giordano | |||
Josie E Parker | |||
Steven L Kelly | |||
Hsing-Yin Liu | |||
Christina Gallo-Ebert | |||
Melissa Donigan | |||
Adam Bata | |||
Paula McCourt | |||
P2860 | cites work | Plasma membrane aminoglycerolipid flippase function is required for signaling competence in the yeast mating pheromone response pathway | Q27932915 |
Yeast ARV1 is required for efficient delivery of an early GPI intermediate to the first mannosyltransferase during GPI assembly and controls lipid flow from the endoplasmic reticulum | Q27933944 | ||
Mutations in yeast ARV1 alter intracellular sterol distribution and are complemented by human ARV1. | Q27933964 | ||
Cell surface polarization during yeast mating | Q27934709 | ||
Genome-wide analysis of sterol-lipid storage and trafficking in Saccharomyces cerevisiae | Q27936292 | ||
Contribution of Are1p and Are2p to steryl ester synthesis in the yeast Saccharomyces cerevisiae | Q27937712 | ||
An assembly of proteins and lipid domains regulates transport of phosphatidylserine to phosphatidylserine decarboxylase 2 in Saccharomyces cerevisiae | Q27938737 | ||
Arv1 regulates PM and ER membrane structure and homeostasis but is dispensable for intracellular sterol transport. | Q27939674 | ||
Yeast cells lacking the ARV1 gene harbor defects in sphingolipid metabolism. Complementation by human ARV1. | Q27940092 | ||
Clinical perspectives on echinocandin resistance among Candida species | Q28082538 | ||
Lipid rafts and signal transduction | Q28131735 | ||
Sterol esterification in yeast: a two-gene process | Q28280662 | ||
Reverse genetics in Candida albicans predicts ARF cycling is essential for drug resistance and virulence | Q28472787 | ||
Novel insights into disseminated candidiasis: pathogenesis research and clinical experience converge | Q33320193 | ||
Amino acid substitutions in the cytochrome P-450 lanosterol 14alpha-demethylase (CYP51A1) from azole-resistant Candida albicans clinical isolates contribute to resistance to azole antifungal agents | Q33689421 | ||
The impact of Staphylococcus aureus-associated molecular patterns on staphylococcal superantigen-induced toxic shock syndrome and pneumonia | Q33850007 | ||
Hyphal guidance and invasive growth in Candida albicans require the Ras-like GTPase Rsr1p and its GTPase-activating protein Bud2p | Q33884544 | ||
Formation of azole-resistant Candida albicans by mutation of sterol 14-demethylase P450 | Q33976263 | ||
Rapid hypothesis testing with Candida albicans through gene disruption with short homology regions. | Q33991500 | ||
Growth of Candida albicans hyphae | Q34208335 | ||
Lipid raft polarization contributes to hyphal growth in Candida albicans | Q34361022 | ||
The putative lipid transporter, Arv1, is required for activating pheromone-induced MAP kinase signaling in Saccharomyces cerevisiae | Q34537552 | ||
Ergosterol promotes pheromone signaling and plasma membrane fusion in mating yeast | Q34588776 | ||
Candida albicans hyphal initiation and elongation | Q34633128 | ||
Loss of subcellular lipid transport due to ARV1 deficiency disrupts organelle homeostasis and activates the unfolded protein response | Q34752008 | ||
Strain-dependent differences in host response to Candida albicans infection in mice are related to organ susceptibility and infectious load. | Q35493257 | ||
Roles of Candida albicans Dfg5p and Dcw1p cell surface proteins in growth and hypha formation | Q35613161 | ||
Arv1 lipid transporter function is conserved between pathogenic and nonpathogenic fungi | Q35754204 | ||
Animal models in the analysis of Candida host-pathogen interactions | Q35853291 | ||
Function and regulation in MAPK signaling pathways: lessons learned from the yeast Saccharomyces cerevisiae | Q36076499 | ||
Sterol homeostasis in the budding yeast, Saccharomyces cerevisiae | Q36083618 | ||
Candida, still number one--what do we know and where are we going from there? | Q36123883 | ||
Requirement for Candida albicans Sun41 in biofilm formation and virulence. | Q36314193 | ||
The evolution of fungal drug resistance: modulating the trajectory from genotype to phenotype. | Q37075845 | ||
BAR domain proteins Rvs161 and Rvs167 contribute to Candida albicans endocytosis, morphogenesis, and virulence | Q37333447 | ||
CERT-mediated trafficking of ceramide | Q37470995 | ||
Azole resistance in Candida glabrata: coordinate upregulation of multidrug transporters and evidence for a Pdr1-like transcription factor | Q37568906 | ||
A functional, genome-wide evaluation of liposensitive yeast identifies the "ARE2 required for viability" (ARV1) gene product as a major component of eukaryotic fatty acid resistance | Q37583600 | ||
Staphylococcal superantigen super-domains in immune evasion | Q37724915 | ||
Beyond ergosterol: linking pH to antifungal mechanisms | Q37823114 | ||
Importance of the Candida albicans cell wall during commensalism and infection. | Q38011517 | ||
Candida glabrata: a review of its features and resistance | Q38163927 | ||
Echinocandin resistance, susceptibility testing and prophylaxis: implications for patient management | Q38254290 | ||
Cysteine Mutational Studies Provide Insight into a Thiol-Based Redox Switch Mechanism of Metal and DNA Binding in FurA from Anabaena sp. PCC 7120. | Q38279993 | ||
Azole resistance in Candida | Q38970335 | ||
Plasma membrane polarization during mating in yeast cells | Q39730581 | ||
Contribution of cysteine residue to the properties of Listeria monocytogenes listeriolysin O. | Q39771081 | ||
Multi-organ failure in a previously healthy 10-year-old boy: streptococcal toxic shock syndrome (STSS) - a rare differential diagnosis | Q40356207 | ||
Nosocomial candidiasis: emerging species, reservoirs, and modes of transmission | Q41044976 | ||
Phosphatidylserine synthase and phosphatidylserine decarboxylase are essential for cell wall integrity and virulence in Candida albicans | Q43173427 | ||
The vacuole-targeting fungicidal activity of amphotericin B against the pathogenic fungus Candida albicans and its enhancement by allicin | Q43252106 | ||
Sterol-dependent regulation of sphingolipid metabolism in Saccharomyces cerevisiae | Q43990141 | ||
The yeast Saccharomyces cerevisiae Pdr16p restricts changes in ergosterol biosynthesis caused by the presence of azole antifungals. | Q45978051 | ||
Susceptibility of clinical isolates of Candida species to fluconazole and detection of Candida albicans ERG11 mutations | Q46792595 | ||
Arabidopsis thaliana expresses two functional isoforms of Arvp, a protein involved in the regulation of cellular lipid homeostasis | Q48087371 | ||
Mode of action and resistance to azole antifungals associated with the formation of 14 alpha-methylergosta-8,24(28)-dien-3 beta,6 alpha-diol. | Q54179857 | ||
Immunomodulation by Candida albicans: crucial role of organ colonization and chronic infection with an attenuated agerminative strain of C. albicans for establishment of anti-infectious protection. | Q54377722 | ||
Candida Urinary Tract Infection: Pathogenesis | Q58838308 | ||
Determination of the membrane topology of Arv1 and the requirement of the ER luminal region for Arv1 function in Saccharomyces cerevisiae | Q84025753 | ||
Toxic shock syndrome toxin | Q93619137 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | Candida albicans | Q310443 |
P577 | publication date | 2016-08-31 | |
P1433 | published in | G3 | Q5512701 |
P1476 | title | Proper Sterol Distribution Is Required for Candida albicans Hyphal Formation and Virulence |
Q58799783 | Localization and functional characterization of the pathogenesis-related proteins Rbe1p and Rbt4p in Candida albicans |
Q62896818 | The influence of N and S poles of static magnetic field (SMF) on Candida albicans hyphal formation and antifungal activity of amphotericin B |
Q28818537 | Widespread Genetic Incompatibilities between First-Step Mutations during Parallel Adaptation of Saccharomyces cerevisiae to a Common Environment |
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