Abstract
Hanseniaspora species can be isolated from grapes and grape musts, but after the initiation of spontaneous fermentation, they are displaced by Saccharomyces cerevisiae. Hanseniaspora vineae is particularly valuable since this species improves the flavour of wines and has an increased capacity to ferment relative to other apiculate yeasts. Genomic, transcriptomic, and metabolomic studies in H. vineae have enhanced our understanding of its potential utility within the wine industry. Here, we compared gene sequences of 12 glycolytic and fermentation pathway enzymes from five sequenced Hanseniaspora species and S. cerevisiae with the corresponding enzymes encoded within the two sequenced H. vineae genomes. Increased levels of protein similarity were observed for enzymes of H. vineae and S. cerevisiae, relative to the remaining Hanseniaspora species. Key differences between H. vineae and H. uvarum pyruvate kinase enzymes might explain observed differences in fermentative capacity. Further, the presence of eight putative alcohol dehydrogenases, invertase activity, and sulfite tolerance are distinctive characteristics of H. vineae, compared to other Hanseniaspora species. The definition of two clear technological groups within the Hanseniaspora genus is discussed within the slow and fast evolution concept framework previously discovered in these apiculate yeasts.
Highlights
One of the main characteristics of yeast affecting their oenological use is their capacity to ferment sugars
The results suggest that H. vineae is clearly better adapted to the fermentation niche compared to what we named as the Hanseniaspora fruit clade
Phenotypic behavior of H. vineae growth, ethanol tolerance, and fermentation kinetics are in agreement with the genetic and transcriptomic data provided
Summary
One of the main characteristics of yeast affecting their oenological use is their capacity to ferment sugars. Non-Saccharomyces yeasts have traditionally been considered bad fermenters. For that reason, selected strains of S. cerevisiae have been used in the oenological industry to ensure that complete fermentation occurs [1,2]. Wineries have been encouraged to apply new, non-Saccharomyces species in winemaking processes to provide distinguishable flavours within wines [3,4,5,6]. Non-Saccharomyces species have been used to produce different aromas and flavours, compared with Saccharomyces strains [7,8]. Many efforts have been made to identify non-conventional yeast strains for oenological purposes [4,8,9]
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