Hubertus Schneiderbanger scite author profile

The synthesis of aroma compounds represents one of the most important parameters in beer production. Although it has been a historical topic of research, exactly how aroma components are formed has yet to be fully explained. Moreover, all of the research that has been published on yeast strains is focused on lagers and ales. Wheat beer yeast strains have not been the focus of aroma and flavour research. In this study, five different wheat beer yeasts were analysed to determine their capacity for producing acetate esters. In this study, the most commonly used wheat beer yeast strains for the production of German-style wheat beer were analysed. This involved measuring the level of expression of the alcohol acetyl transferase genes ATF1, ATF2 and IAH1 over a period of 4 days (during primary fermentation) and plotting the data to observe the development of expression of the genes over time. Results confirmed their capacity to form acetate esters and showed a distinct correlation with increasing expression of the gene ATF1. However, the findings also indicated that gene expression in different yeast strains can vary considerably during fermentation.

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Optimisation of yeast vitality measurement to better predict fermentation performance

Michel¹,

Meier-Dörnberg²,

Jacob³

et al. 2020

J. Inst. Brew.

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Brewers are increasingly aware of the importance of yeast health and need appropriate methods to measure its vitality. Many of the current methods are time consuming, expensive or impractical at an industrial scale. Here, the measurement of CO 2 production using the ANKOM RF Gas Production Measurement System was optimised. Using response surface methodology, the optimal temperature, yeast biomass and media composition were established. The performance of the method was assessed by measuring the vitality of yeast from laboratory (20 L) and brewery (400-600 hL) fermentations. The drop in pH in early fermentation, diacetyl reduction and fermentation rate were correlated to measurement of yeast vitality. It was shown that the method can be used to assess yeast health and to predict its performance in brewery fermentation. The measurement time was 20 minutes and a minimum vitality of approximately 200 mbar was found to be sufficient for brewery fermentations. The method can be used to optimise yeast propagation processes or to determine the optimal harvesting/cropping time to improve yeast quality, fermentation consistency and beer quality together with reducing cycle time and time in fermenter.

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Volatilization of Aroma Compounds Relevant for Wheat Beer in Water under Conditions Simulating Alcoholic Fermentation

Schneiderbanger

Hutzler

Müller-Auffermann

et al. 2011

Journal of the American Society of Brewing Chemists

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Alcohol-Free Wheat Beer with Maltose Negative Yeast Strain Saccharomycodes ludwigii

Meier-Dörnberg¹,

Schneiderbanger²,

Jacob³

et al. 2014

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