How do the polyene macrolide antibiotics affect the cellular membrane properties?
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Penicillium nalgiovense Laxa isolated from Antarctica is a new source of the antifungal metabolite amphotericin B.The MAL proteolipid is a component of the detergent-insoluble membrane subdomains of human T-lymphocytesChemical basis of the synergism and antagonism in microbial communities in the nests of leaf-cutting antsCholesterol controls the clustering of the glycophospholipid-anchored membrane receptor for 5-methyltetrahydrofolateYeast osmosensor Sln1 and plant cytokinin receptor Cre1 respond to changes in turgor pressure.A functional variomics tool for discovering drug-resistance genes and drug targets.The fenpropimorph resistance gene FEN2 from Saccharomyces cerevisiae encodes a plasma membrane H+-pantothenate symporter.The pdr12 ABC transporter is required for the development of weak organic acid resistance in yeastTelomerase immortalization upregulates Rab9 expression and restores LDL cholesterol egress from Niemann-Pick C1 late endosomesEffect of fasting on temporal variation in the nephrotoxicity of amphotericin B in ratsInhibition of inositol phosphorylceramide synthase by aureobasidin A in Candida and Aspergillus speciesMolecular dynamics simulation of the structure of dimyristoylphosphatidylcholine bilayers with cholesterol, ergosterol, and lanosterolAmphotericin B derivative blocks human immunodeficiency virus type 1 entry after CD4 binding: effect on virus-cell fusion but not on cell-cell fusionAspergillus fumigatus and aspergillosisPolyuria in a Patient with Aspergillus Infection.Amphotericin B increases influenza A virus infection by preventing IFITM3-mediated restriction.A chemically modified tetracycline (CMT-3) is a new antifungal agent.A molecular barcoded yeast ORF library enables mode-of-action analysis of bioactive compounds.Hydraphile channels: models for transmembrane, cation-conducting transporters.Isolation and partial characterization of a cryptic polyene gene cluster in Pseudonocardia autotrophica.Limenin, a defensin-like peptide with multiple exploitable activities from shelf beans.The polyene antimycotics nystatin and filipin disrupt the plasma membrane, whereas natamycin inhibits endocytosis in germinating conidia of Penicillium discolor.Identification of functionally clustered nystatin-like biosynthetic genes in a rare actinomycetes, Pseudonocardia autotrophica.Channel-forming properties of cecropins and related model compounds incorporated into planar lipid membranes.Organism-dependent fungicidal activities of azoles.The 1998 Garrod lecture. Current and future antifungal therapy: new targets for antifungal agents.Effects of aggregation and solvent on the toxicity of amphotericin B to human erythrocytesThe endocytic process in CHO cells, a toxic pathway of the polyene antibiotic amphotericin B.Candida infections and their prevention.The cytomegalovirus-encoded chemokine receptor US28 can enhance cell-cell fusion mediated by different viral proteinsAssessment of the effect of amphotericin B on the vitality of Candida albicans.Molecular umbrella-amphotericin B conjugates.Rod-like cholesterol micelles in aqueous solution studied using polarized and depolarized dynamic light scattering.Functional microdomains in bacterial membranesNystatin-induced liposome fusion. A versatile approach to ion channel reconstitution into planar bilayers.A phospholipid-apolipoprotein A-I nanoparticle containing amphotericin B as a drug delivery platform with cell membrane protective propertiesFilipin-induced lesions in planar phospholipid bilayers imaged by atomic force microscopyIon channel behavior of amphotericin B in sterol-free and cholesterol- or ergosterol-containing supported phosphatidylcholine bilayer model membranes investigated by electrochemistry and spectroscopy.Amphotericin B and its new formulations: pharmacologic characteristics, clinical efficacy, and tolerability.Universal behavior of membranes with sterols.
P2860
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P2860
How do the polyene macrolide antibiotics affect the cellular membrane properties?
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年学术文章
@wuu
1986年学术文章
@zh-cn
1986年学术文章
@zh-hans
1986年学术文章
@zh-my
1986年学术文章
@zh-sg
1986年學術文章
@yue
1986年學術文章
@zh
1986年學術文章
@zh-hant
name
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@en
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@nl
type
label
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@en
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@nl
prefLabel
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@en
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@nl
P1476
How do the polyene macrolide antibiotics affect the cellular membrane properties?
@en
P2093
P304
P356
10.1016/0304-4157(86)90002-X
P577
1986-12-01T00:00:00Z