Multilocus Microsatellite Markers for Molecular Typing of Candida glabrata : Application to Analysis of Genetic Relationships between Bloodstream and Digestive System Isolates
Author(s) -
Adela Enache-Angoulvant,
M. Bourget,
Sylvain Brisse,
C. Stockman-Pannier,
Laure Diancourt,
François Nosten,
Dagmar Rimek,
Cécile Fairhead,
Daniel Poulain,
Christophe Hennequin
Publication year - 2010
Publication title -
journal of clinical microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.349
H-Index - 255
eISSN - 1070-633X
pISSN - 0095-1137
DOI - 10.1128/jcm.02140-09
Subject(s) - biology , typing , multilocus sequence typing , genotype , candida albicans , microbiology and biotechnology , candida glabrata , microsatellite , microevolution , allele , genetics , population , gene , medicine , environmental health
Candida glabrata has emerged as the second most common etiologic agent, afterCandida albicans , of superficial and invasive candidiasis in adults. Strain typing is essential for epidemiological investigation, but easy-to-use and reliable typing methods are still lacking. We report the use of a multilocus microsatellite typing method with a set of eight markers on a panel of 180 strains, including 136 blood isolates from hospitalized patients and 34 digestive tract isolates from nonhospitalized patients. A total of 44 different alleles were observed, generating 87 distinct genotypes. In addition to perfect reproducibility, typing ability, and stability, the method had a discriminatory power calculated at 0.97 when all 8 markers were associated, making it suitable for tracing strains. In addition, it is shown that digestive tract isolates differed from blood culture isolates by exhibiting a higher genotypic diversity associated with different allelic frequencies and preferentially did not group in clonal complexes (CCs). The demonstration of the occurrence of microevolution in digestive strains supports the idea thatC. glabrata can be a persistent commensal of the human gut.
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