Distribution of mutations distinguishing the most prevalent disease-causing Candida albicans genotype from other genotypes.

Candida albicans is a major opportunistic pathogen of humans. Previous work has demonstrated the existence of a general-purpose genotype (GPG; equivalent to clade 1 as defined by multi-locus sequence typing data) that is more frequent than other genotypes as an agent of human disease and commensal colonization. We undertook a genomic screen which indicated that a large number of mutations differentiate GPG strains from other strains and that such mutations are scattered throughout the genome. GPG-specific mutations are non-synonymous more frequently than expected by chance, and are not randomly distributed across functional and structural gene categories. Our analysis has identified three categories of genes in which GPG-specific mutations are over-represented, namely genes for which expression changes during the yeast-hyphal transition, genes for which expression changes as a result of exposure to antifungal agents and repeat-containing ORFs. Although we have no direct evidence that the individual polymorphisms identified confer selective advantages to GPG strains, the results support our contention that the high prevalence of GPG strains is not merely due to genetic drift but that GPG strains have reached a high prevalence because they possess a multitude of fitness-enhancing traits. They also indicate that the distribution of genes marked by GPG-specific mutations across functional and structural categories could identify physiological traits that are of particular importance to the success of GPG strains in their interactions with the human host.

Sixty alleles of the ALS7 open reading frame in Candida albicans: ALS7 is a hypermutable contingency locus.

The ALS (agglutinin-like sequence) gene family encodes proteins that play a role in adherence of the yeast Candida albicans to endothelial and epithelial cells. The proteins are proposed as virulence factors for this important fungal pathogen of humans. We analyzed 66 C. albicans strains, representing a worldwide collection of 266 infection-causing isolates, and discovered 60 alleles of the ALS7 open reading frame (ORF). Differences between alleles were largely caused by rearrangements of repeat elements in the so-called tandem repeat domain (21 different types occurred) and the VASES region (19 different types). C. albicans is diploid, and combinations of ALS7 alleles generated 49 different genotypes. ALS7 expression was detected in samples isolated directly from five oral candidosis patients. ORFs in the opposite direction contained within the ALS7 ORF were also transcribed in all strains tested. Isolates representing a more pathogenic general-purpose genotype (GPG) cluster of strains tended to have more tandem repeats than other strains. Two types of VASES regions were largely exclusive to GPG strains; the remaining types were largely exclusive to noncluster strains. Our results provide evidence that ALS7 is a hypermutable contingency locus and important for the success of C. albicans as an opportunistic pathogen of humans.