Yeast Metabolites of Glycated Amino Acids in Beer.

Title
Yeast Metabolites of Glycated Amino Acids in Beer.
Publication type
Journal Article
Year of Publication
2018
Journal
Journal of Agricultural and Food Chemistry
Volume
66
Issue
28
Pagination
7451–7460
Date published
2018 May 10
ISSN
1520-5118
Abstract

Glycation reactions (Maillard reactions) during the malting and brewing processes are important for the development of the characteristic color and flavor of beer. Recently, free and protein-bound Maillard reaction products (MRPs) such as pyrraline, formyline, and maltosine were found in beer. Furthermore, these amino acid derivatives are metabolized by Saccharomyces cerevisiae via the Ehrlich pathway. In this study, a method was developed for quantitation of individual Ehrlich intermediates derived from pyrraline, formyline, and maltosine. Following synthesis of the corresponding reference material, the MRP-derived new Ehrlich alcohols pyrralinol (up to 207 µg/L), formylinol (up to 50 µg/L) and maltosinol (up to 6.9 µg/L) were quantitated for the first time in commercial beer samples by RP-HPLC-MS/MS in the MRM mode. This is equivalent to ca. 20-40% of the concentrations of the parent glycated amino acids. The metabolites were almost absent from alcohol-free beers and malt-based beverages. Two previously unknown valine-derived pyrrole derivatives were characterized and qualitatively identified in beer. The metabolites investigated represent new process-induced alkaloids that may influence brewing yeast performance due to structural similarities to quorum sensing and metal-binding molecules.