Abstract
Galactomyces candidus (orthographic variant: Galactomyces candidum) is a heterogeneous species of Saccharomycetales that comprises dimorphic yeasts described previously under various names (e.g. Geotrichum, Dipodascus). Its strains are common components of the cheese surface mycobiota. This study identified genetically and physiologically heterogeneous G. candidus strains in the complex mycobiota of artisanal cow-milk bryndza samples. The traditional Slovak bryndza is a cheese produced from ewe's milk in cooler mountainous regions and from cow's milk in warmer low-land regions. The taxonomic analysis of the culturable yeasts of the latter version carried out in this study revealed considerable differences from the yeast biota previously described for ovine bryndza. However, the conventional D1/D2- and ITS-based barcode analyses could not assign unanimously all isolates to species because of the intragenomic barcode diversity in certain groups and the discordance between the D1/D2 and ITS results in other groups. The identified species and groups of isolates had different abilities to utilise the carbon and energy sources (lactose, lactate, lipids and proteins) available in milk and ripening cheese. The G. candidus strains did not metabolise lactose and lactate, hydrolysed milk proteins with diverse, usually moderate efficiency and only could grow on certain amino acids as only energy sources. Their preferred substrate was lipid. Under aerobic conditions, its hyphae penetrated the lipid droplets and degraded their content from inside by developing a dense internal mycelium. Sporulation and different MLST (multilocus sequence typing) patterns indicated that the Galactomyces strains could sexually interact and their genomes could recombine. The Galactomyces and Kluyveromyces isolates had antagonistic effects against other members of the mycobiota.
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