Public release date: 10-Sep-2008[
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Close Window ]Contact: Peggy Calicchiacalicchi@cshl.edu516-422-4012Cold Spring Harbor Laboratory
Brewing better beer: Scientists determine the genomic origins of lager yeasts
Yeast, the essential microorganism for fermentation in the brewing of beer, converts carbohydrates into alcohol and other products that influence appearance, aroma, and taste. In a study published online today in Genome Research (www.genome.org), researchers have identified the genomic origins of the lager yeast Saccharomyces pastorianus, which could help brewers to better control the brewing process.
For thousands of years, ale-type beers have been brewed with Saccharomyces cerevisiae (brewer's or baker's yeast). In contrast, lager beer, which utilizes fermentations carried out at much lower temperature than for ale, is a more recently developed alcoholic beverage, appearing in Bavaria near the end of the Middle Ages. Lager beer gained worldwide popularity starting in the late 1800s, when the advent of refrigeration made year-round low-temperature fermentations possible. Saccharomyces pastorianus, the yeast used in lager brewing, is a "hybrid" organism of two yeast species, Saccharomyces bayanus and S. cerevisiae. It is thought that the contributions of both parent species resulted in an organism able to out-compete other yeasts during the cold lager fermentations.
Though early brewers understood that different brewing conditions would produce a unique beer, scientists are now unlocking the genetic differences between yeast strains that produce variation in flavor, color, and aroma. By comparing the genomic properties of yeast strains sampled from breweries around the world, Drs. Barbara Dunn and Gavin Sherlock of Stanford University have measured the genetic contribution of the parent yeasts to strains of S. pastorianus and revealed new insights into the events that brought about the evolution of lager yeast.
Surprisingly, the researchers found evidence that S. pastorianus strains used by brewers today may not have arisen from a single hybridization event, as was previously believed. "There were two independent origins of today's extant S. pastorianus strains," said Sherlock. "It is likely that each of these groups derived the S. cerevisiae portions of their genomes from distinct but related ale yeasts, and that these natural hybrids were then selected by brewers due to their abilities to ferment at cold temperatures."
While this work identified two distinct groups of S. pastorianus, Sherlock noted that they observed significant genetic variation and flexibility within the groups as well. Dunn and Sherlock speculated this genomic flexibility could have implications for the unique properties of each brewer's beer. "The fact that lager yeasts isolated from different breweries each seem to have a unique genomic make-up may indicate that the yeasts are adapting to the conditions specific to each brewery," explained Dunn.
Furthermore, this work paves the way for the characterization of specific genetic features of each strain that could aid in the brewing process. "Our discovery that unique genomic structures may be characteristic to each brewery and/or beer type could lead to insights on how to directly control flavor and aroma in beer," said Dunn.
Scientists from Stanford University (Stanford, CA) contributed to this study.
This work was supported by the National Science Foundation and the National Institutes of Health.
Gavin Sherlock, Ph.D. (firstname.lastname@example.org; +1-650-498-6012) has agreed to be contacted for more information.
Interested reporters may obtain copies of the manuscript from Peggy Calicchia, Editorial Secretary, Genome Research (email@example.com; +1-516-422-4012).
About the article:
The manuscript will be published online ahead of print on September 11, 2008. Its full citation is as follows: Dunn, B., and Sherlock, G. Reconstruction of the genome origins and evolution of the hybrid lager yeast Saccharomyces pastorianus. Genome Res. doi:10.1101/gr.076075.108.
About Genome Research:
Genome Research (www.genome.org) is an international, continuously published, peer-reviewed journal published by Cold Spring Harbor Laboratory Press. Launched in 1995, it is one of the five most highly cited primary research journals in genetics and genomics.
About Cold Spring Harbor Laboratory Press:
Cold Spring Harbor Laboratory Press is an internationally renowned publisher of books, journals, and electronic media, located on Long Island, New York. It is a division of Cold Spring Harbor Laboratory, an innovator in life science research and the education of scientists, students, and the public. For more information, visit www.cshlpress.com.
Genome Research issues press releases to highlight significant research studies that are published in the journal.
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