Application of DNA typing methods to epidemiology and taxonomy of Candida species
about
Drug Resistance Is Not Directly Affected by Mating Type Locus Zygosity in Candida albicansOpaque-white phenotype transition: a programmed morphological transition in Candida albicansNumerical index of the discriminatory ability of typing systems: an application of Simpson's index of diversityAn investigation into the pathogenesis of vulvo-vaginal candidosisHistory of medical mycology in the united states.Cloning and characterization of a complex DNA fingerprinting probe for Candida parapsilosis.Rapid identification of Candida species by using nuclear magnetic resonance spectroscopy and a statistical classification strategy.Gene isolation by complementation in Candida albicans and applications to physical and genetic mapping.Candida orthopsilosis and Candida metapsilosis spp. nov. to replace Candida parapsilosis groups II and III.The ins and outs of DNA fingerprinting the infectious fungiA Candida albicans dispersed, repeated gene family and its epidemiologic applications.Nosocomial Candida glabrata colonization: an epidemiologic study.Epidemiological investigation of vaginal Saccharomyces cerevisiae isolates by a genotypic methodA nosocomial cluster of Candida inconspicua infections in patients with hematological malignancies.Intergenic transcribed spacer PCR ribotyping for differentiation of Saccharomyces species and interspecific hybrids.Hospital specificity, region specificity, and fluconazole resistance of Candida albicans bloodstream isolatesSpecies identification and virulence attributes of Saccharomyces boulardii (nom. inval.).A MADS box protein consensus binding site is necessary and sufficient for activation of the opaque-phase-specific gene OP4 of Candida albicans.Emergence of fluconazole resistance in a Candida parapsilosis strain that caused infections in a neonatal intensive care unit.Inactivation of the FCY2 gene encoding purine-cytosine permease promotes cross-resistance to flucytosine and fluconazole in Candida lusitaniae.Molecular and phenotypic characterization of genotypic Candida albicans subgroups and comparison with Candida dubliniensis and Candida stellatoidea.Postsurgical Candida albicans infections associated with an extrinsically contaminated intravenous anesthetic agent.Molecular and epidemiological characterization of vaginal Saccharomyces cerevisiae isolatesElevated phenotypic switching and drug resistance of Candida albicans from human immunodeficiency virus-positive individuals prior to first thrush episodeDistinguishing Candida species by beta-N-acetylhexosaminidase activity.Development and characterization of complex DNA fingerprinting probes for the infectious yeast Candida dubliniensis.Multilocus genotypes and DNA fingerprints Do not predict variation in azole resistance among clinical isolates of Candida albicans.Functional expression of Candida albicans drug efflux pump Cdr1p in a Saccharomyces cerevisiae strain deficient in membrane transporters.Evolution of drug resistance in experimental populations of Candida albicans.CAP1, an adenylate cyclase-associated protein gene, regulates bud-hypha transitions, filamentous growth, and cyclic AMP levels and is required for virulence of Candida albicans.Clade-specific flucytosine resistance is due to a single nucleotide change in the FUR1 gene of Candida albicans.Cell biology of mating in Candida albicans.In Candida albicans, white-opaque switchers are homozygous for mating typeA Fox2-dependent fatty acid ß-oxidation pathway coexists both in peroxisomes and mitochondria of the ascomycete yeast Candida lusitaniae.Candida guilliermondii fungemia in patients with hematologic malignanciesEvaluation of a method for identification of Candida dubliniensis bloodstream isolatesCarriage frequency, intensity of carriage, and strains of oral yeast species vary in the progression to oral candidiasis in human immunodeficiency virus-positive individuals.Identification of four distinct genotypes of Candida dubliniensis and detection of microevolution in vitro and in vivo.Correlation between the presence of a self-splicing intron in the 25S rDNA of C.albicans and strains susceptibility to 5-fluorocytosine.Multilocus sequence typing for Candida albicans isolates from candidemic patients: comparison with Southern blot hybridization and pulsed-field gel electrophoresis analysis.
P2860
Q22337052-1E09710D-96C4-4D7A-86EF-5E24510EA191Q24682767-E392C24D-E546-4BE6-A612-CF440AEB1A7EQ28289683-C9DD6271-E804-4522-AECD-172562096359Q28366704-CE90286C-C786-4522-B47C-A93B9A1F80BCQ30452877-96B2EA68-D5CC-4904-A382-DE96AD98EABFQ31850229-D9784324-4C89-49E7-845E-3ADE582551AAQ33188024-6DB285F6-D9F4-4EFA-900D-4D98056C1778Q33207252-17878888-9707-442E-A4B3-37696CF8A69FQ33210615-4D5C8B0B-E8F5-467D-BD67-A97C635BAC56Q33555593-88A0A5A5-0AC6-4478-BB5F-3E77C018222EQ33556333-B444165D-965B-413B-B87F-A508AB832F42Q33656028-1937E8C2-1DA6-4778-AB86-374BF97C1A92Q33657453-2982458C-33CC-4039-AFDA-95C1DF5B1503Q33659899-2112544B-0B5C-40DC-915B-95FDC1FA51DBQ33661799-E9D81F31-FC71-4576-AD5C-81D3271BE8D1Q33668650-5924F129-DEBF-4A75-8307-14FBA97312EAQ33682695-FA67A60E-B0BF-4477-A74E-B7289758C9A5Q33744146-935C289B-92DD-44C6-87CA-F5CD2B5010B0Q33856434-2C3CD276-F0CE-4768-A53C-6AF40A4B32AEQ33938023-E459C30D-A069-421E-ABF5-492991312653Q33958755-66AAD06B-7176-46B0-B980-2855798A56A0Q33960156-C960D3FF-4B52-4E49-92C5-8B350BB73458Q33961452-BF8AF403-5846-4FFE-9480-4D5A931F0AD1Q33969896-4616BACC-8864-4A3D-8118-90412832152EQ33972482-E4F87188-B259-4AD4-844B-C4A9791282AAQ33974582-7BC5EF85-4490-458A-A82E-EAFD66C6F535Q33978280-C5F7A76F-62D1-4D55-9BCD-AEDE2E7757FDQ33983544-EE65CD56-1004-4AB8-A89C-C1A114136514Q33994006-B5FD6C71-6F4D-4D97-9C40-989BA0543E3EQ33996222-6EE55EF1-351D-4BA9-B205-72CD017DA678Q34142006-04248424-C67F-431A-AA61-FC28134DCA1EQ34473611-64B5CD8B-1815-4879-BFEE-834B4EA5C43DQ34616123-944666AF-D3EA-4FF5-8C58-B88402DDB69CQ34653957-C5B79767-6262-4F74-8EB3-0FB79AC5ACE4Q34719843-A361F9CB-462C-4FB4-B7E0-0D68EB66B26FQ34746715-58F3E7B3-E68F-4C33-9945-245B0D170A02Q34943566-E267D7F1-E10D-4F27-9FCB-272FD49D1CEBQ34947163-36E96CE1-1F70-4D35-A191-7FE00749B866Q35016175-5916DD07-28F7-413D-A508-783E86DEC51CQ35048016-A798840E-CF35-425E-86AC-5B3AD8752B9A
P2860
Application of DNA typing methods to epidemiology and taxonomy of Candida species
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 1987
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Application of DNA typing methods to epidemiology and taxonomy of Candida species
@en
Application of DNA typing methods to epidemiology and taxonomy of Candida species.
@nl
type
label
Application of DNA typing methods to epidemiology and taxonomy of Candida species
@en
Application of DNA typing methods to epidemiology and taxonomy of Candida species.
@nl
prefLabel
Application of DNA typing methods to epidemiology and taxonomy of Candida species
@en
Application of DNA typing methods to epidemiology and taxonomy of Candida species.
@nl
P2860
P1476
Application of DNA typing methods to epidemiology and taxonomy of Candida species
@en
P2093
D A Stevens
P2860
P304
P407
P577
1987-04-01T00:00:00Z