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SUMMARY Brewing beer involves microbial activity at every stage, from raw material production and malting to stability in the package. Most of these activities are desirable, as beer is the result of a traditional food fermentation, but others represent threats to the quality of the final product and must be controlled actively through careful management, the daily task of maltsters and brewers globally. This review collates current knowledge relevant to the biology of brewing yeast, fermentation management, and the microbial ecology of beer and brewing.

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Brewhouse-Resident Microbiota Are Responsible for Multi-Stage Fermentation of American Coolship Ale

Bokulich

2012

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American coolship ale (ACA) is a type of spontaneously fermented beer that employs production methods similar to traditional Belgian lambic. In spite of its growing popularity in the American craft-brewing sector, the fermentation microbiology of ACA has not been previously described, and thus the interface between production methodology and microbial community structure is unexplored. Using terminal restriction fragment length polymorphism (TRFLP), barcoded amplicon sequencing (BAS), quantitative PCR (qPCR) and culture-dependent analysis, ACA fermentations were shown to follow a consistent fermentation progression, initially dominated by Enterobacteriaceae and a range of oxidative yeasts in the first month, then ceding to Saccharomyces spp. and Lactobacillales for the following year. After one year of fermentation, Brettanomyces bruxellensis was the dominant yeast population (occasionally accompanied by minor populations of Candida spp., Pichia spp., and other yeasts) and Lactobacillales remained dominant, though various aerobic bacteria became more prevalent. This work demonstrates that ACA exhibits a conserved core microbial succession in absence of inoculation, supporting the role of a resident brewhouse microbiota. These findings establish this core microbial profile of spontaneous beer fermentations as a target for production control points and quality standards for these beers.

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The Foaming Properties of Beer

Bamforth¹

1985

184

103

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Industrial brewing yeast engineered for the production of primary flavor determinants in hopped beer

et al. 2018

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Flowers of the hop plant provide both bitterness and “hoppy” flavor to beer. Hops are, however, both a water and energy intensive crop and vary considerably in essential oil content, making it challenging to achieve a consistent hoppy taste in beer. Here, we report that brewer’s yeast can be engineered to biosynthesize aromatic monoterpene molecules that impart hoppy flavor to beer by incorporating recombinant DNA derived from yeast, mint, and basil. Whereas metabolic engineering of biosynthetic pathways is commonly enlisted to maximize product titers, tuning expression of pathway enzymes to affect target production levels of multiple commercially important metabolites without major collateral metabolic changes represents a unique challenge. By applying state-of-the-art engineering techniques and a framework to guide iterative improvement, strains are generated with target performance characteristics. Beers produced using these strains are perceived as hoppier than traditionally hopped beers by a sensory panel in a double-blind tasting.

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Lachancea thermotoleransas an alternative yeast for the production of beer^†

et al. 2016

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The ability of Lachancea thermotolerans strains to ferment brewer's wort has been investigated. Initial fermentations with three L. thermotolerans strains compared the use of maltose and maltotriose, as well as production of glycerol and lactic acid and pH evolution over the course of the fermentation. The most promising strain was subsequently tested for additional traits important for beer production, including pitching rate, generational capacity, foam stability, hop tolerance, vicinal diketone production, oxygen requirement and flocculation. These tests suggest that L. thermotolerans may be a good choice for producing sour beers in a single fermentation step without the use of lactic acid bacteria. Copyright © 2016 The Institute of Brewing & Distilling

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Nutritional aspects of beer—a review

Bamforth

2002

Nutrition Research

129

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Current perspectives on the role of enzymes in brewing

Bamforth

2009

Journal of Cereal Science

174

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Oxygen and Oxygen Radicals in Malting and Brewing: A Review

Bamforth

Müller

Walker

1993

Journal of the American Society of Brewing Chemists

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Charles W. Bamforth

The Microbiology of Malting and Brewing

Brewhouse-Resident Microbiota Are Responsible for Multi-Stage Fermentation of American Coolship Ale

The Foaming Properties of Beer

Industrial brewing yeast engineered for the production of primary flavor determinants in hopped beer

Lachancea thermotoleransas an alternative yeast for the production of beer^†

Nutritional aspects of beer—a review

Current perspectives on the role of enzymes in brewing

Oxygen and Oxygen Radicals in Malting and Brewing: A Review

Contact Info

Product

Resources

About

Charles W. Bamforth

The Microbiology of Malting and Brewing

Brewhouse-Resident Microbiota Are Responsible for Multi-Stage Fermentation of American Coolship Ale

The Foaming Properties of Beer

Industrial brewing yeast engineered for the production of primary flavor determinants in hopped beer

Lachancea thermotoleransas an alternative yeast for the production of beer†

Nutritional aspects of beer—a review

Current perspectives on the role of enzymes in brewing

Oxygen and Oxygen Radicals in Malting and Brewing: A Review

Contact Info

Product

Resources

About

Lachancea thermotoleransas an alternative yeast for the production of beer^†