Abstract
Brewer's wort is a challenging environment for yeast as it contains predominantly α-glucoside sugars. There exist two subgroups of the lager yeast Saccharomyces pastorianus which differ in sugar utilisation. We performed wort fermentations and compared representative strains from both groups with respect to their ability to transport and ferment maltose and maltotriose. Additionally, we mapped the transporters MALx1, AGT1, MPHx and MTT1 by Southern blotting. Contrary to previous observations, group I comprises a diverse set of strains, with varying ability to transport and ferment maltotriose. Of the eight group I strains, three efficiently utilised maltotriose, a property enabled by the presence of transmembrane transporters SeAGT1 and MTT1. A58, a variant of the group I type strain (CBS1513) performed particularly well, taking up maltotriose at a higher rate than maltose and retaining significant transport activity at temperatures as low as 0°C. Analysis of transporter distribution in this strain revealed an increased copy number of the MTT1 gene, which encodes the only permease known with higher affinity for maltotriose than maltose and low temperature dependence for transport. We propose that much of the variation in lager yeast fermentation behaviour is determined by the presence or absence of specific transmembrane transporters.
Highlights
Brewing yeasts are divided into two classes, ale yeast and lager yeast, according to their industrial use
Thirteen strains including the Saccharomyces eubayanus type strain, two ale strains, two group II lager strains and eight group I lager strains were selected for investigation
The two group II strains efficiently fermented the wort to 6.9%– 7% alcohol by volume (ABV) after 215 h (Fig. 1A) corresponding to 81%–83% apparent attenuation
Summary
Brewing yeasts are divided into two classes, ale yeast and lager yeast, according to their industrial use. Ale beer is brewed by domesticated strains of Saccharomyces cerevisiae at relatively high temperatures (15◦C–26◦C), while lager beer is traditionally brewed by the yeast S. pastorianus at lower temperatures (5◦C– 15◦C). Saccharomyces pastorianus is known to be a hybrid yeast resulting from a cross between S. cerevisiae (probably an ale strain) and the cold-tolerant yeast S. eubayanus (Dunn and Sherlock 2008; Libkind et al 2011). Two genetically distinct lineages exist within the S. pastorianus taxon, group I (or Saaz) and group II (or Frohberg) (Liti et al 2005; Dunn and Sherlock 2008).
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