Search results for "LBIC"

showing 10 items of 361 documents

Disruption of the Candida albicans ATC1 gene encoding a cell-linked acid trehalase decreases hypha formation and infectivity without affecting resist…

2007

In Candida albicans, the ATC1 gene, encoding a cell wall-associated acid trehalase, has been considered as a potentially interesting target in the search for new antifungal compounds. A phenotypic characterization of the double disruptant atc1Delta/atc1Delta mutant showed that it was unable to grow on exogenous trehalose as sole carbon source. Unlike actively growing cells from the parental strain (CAI4), the atc1Delta null mutant displayed higher resistance to environmental insults, such as heat shock (42 degrees C) or saline exposure (0.5 M NaCl), and to both mild and severe oxidative stress (5 and 50 mM H(2)O(2)), which are relevant during in vivo infections. Parallel measurements of int…

Antifungal AgentsHot TemperatureMutantGlutathione reductaseHyphaemedicine.disease_causeMicrobiologyMicrobiologySuperoxide dismutasechemistry.chemical_compoundMiceOsmotic PressureCandida albicansmedicineMorphogenesisAnimalsTrehalaseTrehalaseCandida albicansMicrobial ViabilitybiologyVirulenceSuperoxide DismutaseCandidiasisTrehaloseHydrogen Peroxidemedicine.diseasebiology.organism_classificationCatalaseTrehaloseSurvival AnalysisDisease Models AnimalOxidative StressGlutathione Reductasechemistrybiology.proteinFemaleSystemic candidiasisOxidative stressGene DeletionMicrobiology (Reading, England)
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A New Phenanthrene Glycoside and Other Constituents from Dioscorea opposita

2005

Phytochemical investigation of the rhizome of Dioscorea opposita has led to the isolation of a new phenanthrene glycoside, 3,4,6-trihydroxyphenanthrene-3-O-beta-D-glucopyranoside (1), and five known compounds, soyacerebroside I (2), adenosine (3), beta-sitosterol (4), palmitic acid (5) and palmitoyloleoylphosphatidylcholine (6). Their structures were determined by spectroscopic methods, including 1D- and 2D-NMR. Compounds 1-6 exhibited no antifungal activity against the human pathogenic yeasts Candida albicans, C. glabrata and C. tropicalis.

Antifungal AgentsMagnetic Resonance SpectroscopyDioscoreaceaeMicrobial Sensitivity TestsPalmitic acidchemistry.chemical_compoundDrug DiscoverymedicineGlycosidesCandida albicansCandidachemistry.chemical_classificationMolecular StructureTraditional medicinebiologyDioscoreaPlant ExtractsGlycosideGeneral ChemistryGeneral MedicinePhenanthrenesPhenanthrenebiology.organism_classificationAdenosineRhizomechemistryBiochemistryPhytochemicalDioscoreaRhizomemedicine.drugChemical and Pharmaceutical Bulletin
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Antifungal steroid saponins from Dioscorea cayenensis.

2004

From the rhizomes of Dioscorea cayenensis Lam.-Holl (Dioscoreaceae), the new 26- O- beta- D-glucopyranosyl-22-methoxy-3 beta,26-dihydroxy-25( R)-furost-5-en-3- O- alpha- L-rhamnopyranosyl-(1-->4)- alpha- L-rhamnopyranosyl-(1-->4)-[ alpha- L-rhamnopyranosyl-(1-->2)]- beta- D-glucopyranoside ( 1) was isolated together with the known dioscin ( 2) and diosgenin 3- O- alpha- L-rhamnopyranosyl-(1-->4)- alpha- L-rhamnopyranosyl-(1-->4)-[ alpha- L-rhamnopyranosyl-(1-->2)]- beta- D-glucopyranoside ( 3). Their structures were established on the basis of spectral data. Compound 2 exhibited antifungal activity against the human pathogenic yeasts Candida albicans, C. glabrata and C. tropicalis (MICs of …

Antifungal AgentsMagnetic Resonance SpectroscopyStereochemistryDioscoreaceaeSaponinPharmaceutical ScienceAlpha (ethology)Microbial Sensitivity TestsPharmacognosyPlant RootsAnalytical Chemistrychemistry.chemical_compoundDrug DiscoveryHumansBeta (finance)Candida albicansCandidaPharmacologychemistry.chemical_classificationbiologyTraditional medicineDioscoreaPlant ExtractsOrganic ChemistryDiosgeninbiology.organism_classificationComplementary and alternative medicinechemistryMolecular MedicineDioscoreaSteroidsPhytotherapyPlanta medica
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New antifungals selected by molecular topology.

1999

Abstract Molecular topology has been applied to find the new lead antimycotic compounds. Among the selected compounds stands out 3,3′-(4,4′ - Biphenylene)bis(2,5-diphenyl-2H-tetrazolium chloride), Benztropine mesylate and Dicyclopentamethylenethiuram disulphide, with minimum inhibitory concentrations between 1.6 and 2 μg / mL.

Antifungal AgentsMolecular modelStereochemistryClinical BiochemistryBiphenyl derivativesPharmaceutical ScienceMicrobial Sensitivity TestsSaccharomyces cerevisiaeBiochemistryChloridechemistry.chemical_compoundStructure-Activity RelationshipDrug DiscoveryCandida albicansmedicineMolecular BiologyTopology (chemistry)Organic ChemistryDiscriminant AnalysisBiphenylenechemistryDrug DesignMolecular MedicineBenztropine MesylateMolecular topologymedicine.drugBioorganicmedicinal chemistry letters
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Dosage-dependent roles of the Cwt1 transcription factor for cell wall architecture, morphogenesis, drug sensitivity and virulence in Candida albicans.

2009

The Cwt1 transcription factor is involved in cell wall architecture of the human fungal pathogen Candida albicans. We demonstrate here that deficiency of Cwt1 leads to decreased β1,6-glucan in the cell wall, while mannoproteins are increased in the cell wall of exponentially growing cells and are released into the medium of stationary phase cells. Hyphal morphogenesis of cwt1 mutants is reduced on the surfaces of some inducing media. Unexpectedly, the CWT1/cwt1 heterozygous strains shows some stronger in vitro phenotypes compared to the homozygous mutant. The heterozygous but not the homozygous strain is also strongly impaired for its virulence in a mouse model of systemic infection. We sug…

Antifungal AgentsMutantMorphogenesisGene DosageHyphaeVirulenceBioengineeringApplied Microbiology and BiotechnologyBiochemistryMicrobiologyCell wallFungal ProteinsMiceCell WallDrug Resistance FungalGene Expression Regulation FungalCandida albicansGeneticsMorphogenesisAnimalsHumansCandida albicansDNA FungalTranscription factorOligonucleotide Array Sequence AnalysisMembrane GlycoproteinsbiologyVirulenceHomozygoteCandidiasisbiology.organism_classificationPhenotypeCorpus albicansMutationBiotechnologyTranscription FactorsYeast (Chichester, England)
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Formation of a new cell wall by protoplasts of Candida albicans: effect of papulacandin B, tunicamycin and Nikkomycin.

1987

SUMMARY: Incorporation of polysaccharides into the walls of regenerating protoplasts of Candida albicans was followed in the presence of papulacandin B, tunicamycin and nikkomycin. With the first drug, chitin was incorporated normally whereas incorporation of glucans and mannoproteins was significantly decreased. Tunicamycin decreased incorporation of all wall polymers when added at the beginning of the regeneration process but blocked only mannan and alkali-insoluble glucan incorporation when added after 5 h. Nikkomycin inhibited chitin synthesis, and the walls formed by the protoplasts were enriched in alkali-soluble glucan. Pulse-chase experiments suggested that a precursor-product relat…

Antifungal AgentsPapulacandin Bmacromolecular substancesBiologyPolysaccharideMicrobiologyCell wallchemistry.chemical_compoundAgglutininChitinCell WallCandida albicansGlucanMannanchemistry.chemical_classificationProtoplastsTunicamycinfungiPolysaccharides BacterialTunicamycinAnti-Bacterial Agentscarbohydrates (lipids)Microscopy ElectronAminoglycosideschemistryBiochemistryJournal of general microbiology
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Inhibition of Filamentation Can Be Used To Treat Disseminated Candidiasis

2006

ABSTRACT Candida albicans remains the leading causative agent of invasive fungal infection. Although the importance of filamentation in C. albicans pathogenesis has been extensively investigated, in vivo studies to date have been unable to dissect the role of this developmental process in the establishment of infection versus the development of active disease as characterized by damage to the host leading to mortality. To address this issue, we genetically engineered a C. albicans tet-NRG1 strain in which filamentation and virulence can be modulated both in vitro and in vivo simply by the presence or absence of doxycycline (DOX): this strain enabled us, in a prior study, to demonstrate that…

Antifungal AgentsSaccharomyces cerevisiae ProteinsHyphaeAntifungal drugVirulenceKidneyMicrobiologyMiceFilamentationIn vivoGene Expression Regulation FungalCandida albicansmedicineAnimalsExperimental TherapeuticsPharmacology (medical)Candida albicansPharmacologyDoxycyclineMice Inbred BALB CVirulencebiologyCandidiasisDisseminated Candidiasisbiology.organism_classificationCorpus albicansDNA-Binding ProteinsRepressor ProteinsInfectious DiseasesDoxycyclineFemaleGenetic Engineeringmedicine.drugAntimicrobial Agents and Chemotherapy
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Steroidal saponins from Asparagus acutifolius.

2007

Abstract Six new steroidal saponins ( 1 – 6 ) were isolated from the roots of A. acutifolius L., together with a known spirostanol glycoside ( 7 ). Their structures were elucidated mainly by extensive spectroscopic analysis (1D and 2D NMR, FABMS and HRESIMS). Compounds 4 – 7 demonstrated antifungal activity against the human pathogenic yeasts C. albicans , C. glabrata and C. tropicalis with MICs values between 12.5 and 100 μg/ml.

Antifungal AgentsStereochemistryAsparagus acutifoliusSaponinPlant ScienceHorticulturePharmacognosyBiochemistryPlant RootsSteroids HeterocyclicMolecular BiologyCandidachemistry.chemical_classificationbiologyMolecular StructureLiliaceaeHydrolysisGlycosideBiological activityGeneral MedicineSaponinsAntimicrobialbiology.organism_classificationCorpus albicanschemistryAsparagus PlantPhytochemistry
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Steroidal saponins from Smilax medica and their antifungal activity.

2005

Three new steroidal saponins (1-3) were isolated from the roots of Smilax medica, together with the known disporoside A (4). The structures of the new compounds were elucidated mainly by extensive spectroscopic analysis (1D and 2D NMR, FABMS, and HRESIMS). Compounds 1, 2, and 4 demonstrated weak antifungal activity against the human pathogenic yeasts Candida albicans, C. glabrata, and C.tropicalis, with MIC values between 12.5 and 50 microg/mL.

Antifungal AgentsStereochemistrySaponinPharmaceutical ScienceMicrobial Sensitivity TestsPharmacognosyAnalytical ChemistryDrug DiscoveryHumansCandida albicansMexicoNuclear Magnetic Resonance BiomolecularCandidaPharmacologychemistry.chemical_classificationPlants MedicinalbiologyTraditional medicineCandida glabrataMolecular StructureLiliaceaeOrganic ChemistrySmilaxGlycosideBiological activitySaponinsbiology.organism_classificationComplementary and alternative medicinechemistrySmilaxMolecular MedicineSteroidsJournal of natural products
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Synthesis and Influence of 3-Amino Benzoxaboroles Structure on Their Activity against Candida albicans

2020

Benzoxaboroles emerged recently as molecules of high medicinal potential with Kerydin&reg

Antifungal AgentsStereochemistrySubstituentPharmaceutical Sciencechemistry.chemical_elementMicrobial Sensitivity Tests01 natural sciencesArticleAnalytical Chemistrylcsh:QD241-441030207 dermatology & venereal diseases03 medical and health sciencesMinimum inhibitory concentrationchemistry.chemical_compound0302 clinical medicinebenzoxaboroleslcsh:Organic chemistryDrug DiscoveryCandida albicansformylPhysical and Theoretical ChemistryCandida albicanschemistry.chemical_classificationTavaboroleKerydinMolecular Structurebiology010405 organic chemistryChemistryOrganic Chemistrybiology.organism_classificationpiperazine0104 chemical sciences<i>Candida albicans</i>PiperazineChemistry (miscellaneous)Heterocyclic amineFluorineMolecular MedicineAmine gas treatingantifungalMolecules
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