Biotransformation of hop derived compounds by Brettanomycesyeast strains

Autor: Serra Colomer, Marc, Funch, Birgitte, Solodovnikova, Natalia, Hobley, Timothy John, Förster, Jochen
Zdroj: Journal of the Institute of Brewing; 2020, Vol. 126 Issue: 3 p280-288, 9p
Abstrakt: Several hop derived compounds in wort are known to be converted by yeast during fermentation, influencing the overall perception of the beer. A deeper understanding of such metabolic processes during fermentation is needed to achieve better control of the outcome. Here, the interaction between hop derived compounds and the yeast genera Brettanomyceswas studied. Several Brettanomycesstrains with different genomic backgrounds were selected, focusing on two traits: beta‐glucosidase activity and nitrate assimilation. The role of three beta‐glucosidases present in Brettanomyces bruxellensisand Brettanomyces anomalusand their impact on the final monoterpene alcohol profile was analysed. The beta‐glucosidase activity was highly strain dependent, with B. anomalusCRL‐49 exhibiting the highest conversion. Such activity could not be related to the release of aglycones from hops during fermentation, as a substantial part of such activity was intracellular. Nevertheless, the reduction of geraniol to β‐citronellol was remarkably efficient for all Brettanomycesstrains during fermentation, and it is suggested that two oxidoreductases BbHye2 and BbHye3 may have an influence. Moreover, the transfer of nitrate from hops to wort and its further assimilation by Brettanomycesspecies was analysed. The amount of nitrate in wort proved to be linearly proportional to the contact time of the hops with the wort. The level of nitrate assimilation by yeast was shown to be dependent on the nitrate assimilation cluster (YNR, YNI, YNT). Hence, the desired yeast strains may be selected according to the genetic make‐up. © 2020 The Authors. Journal of the Institute of Brewing published by John Wiley & Sons Ltd on behalf of The Institute of Brewing & Distilling
Databáze: Supplemental Index