Haplotype sampling of AWRI1499 reve

Haplotype sampling of AWRI1499 revealed that the genome comprises a moderately heterozygous diploid genome, combined with a divergent haploid genome, a phenomenon later also described in AWRI1608 (but absent in CBS2499, AWRI1613 and ST05.12/22) (Curtin et al., 2012b). This suggests a hybridization event of two species or distinct subspecies of B/D bruxellensis, one diploid and one haploid. It was suggested that this extra haploid genome might confer a selective advantage in a winery environment, since this triploid genomic structure was detected in 92% of all Australian wine isolates (Borneman et al., 2014). Interestingly, it was shown that the haploid genome fractions of AWRI1608 and AWRI1499 were phylogenetically distant, hinting towards two independent hybridization events (Borneman et al., 2014). Interspecies hybridization events are not rare in fungi and are also observed in the Saccharomyces sensu stricto clade. For example, the lager beer yeast Saccharomyces pastorianus is an interspecies hybrid of S. cerevisiae and S. eubayanus (Libkind et al., 2011). Since newly formed hybrid genomes tend to be very unstable [as often shown for Saccharomyces hybrids (Antunovics et al., 2005)], mechanisms that drive genome stabilization could explain the extreme karyotype variability observed in B/D bruxellensis.