A Comprehensive Evaluation of Flavor Instability of Beer (Part 2): The Influence of <i>De Novo</i> Formation of Aging Aldehydes
Flavor instability of beer is affected by the rise of aroma-active aldehydes during aging. Aldehydes can be either released from bound-state forms or formed <i>de novo</i>. This second part of our study focused on the <i>de novo</i> formation of aldehydes during the Maillard...
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Autores principales: | , , , , , , |
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Formato: | article |
Lenguaje: | EN |
Publicado: |
MDPI AG
2021
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Materias: | |
Acceso en línea: | https://doaj.org/article/39465828253a4bb59f3551976c6a4bf9 |
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Sumario: | Flavor instability of beer is affected by the rise of aroma-active aldehydes during aging. Aldehydes can be either released from bound-state forms or formed <i>de novo</i>. This second part of our study focused on the <i>de novo</i> formation of aldehydes during the Maillard reaction, Strecker degradation, and oxidation reactions. Key precursor compounds for <i>de novo</i> pathways are free amino acids. This study varied the potential for reactions by varying free amino acid content in fresh beer using different proteolytic malt modification levels (569–731 mg/100 g d. m. of soluble nitrogen) of the used malt in brewing trials. Overall, six pale lager beers were produced from three malts (different malt modification levels), each was made from two different barley varieties and was naturally and forcibly aged. It was found that higher malt modification levels in fresh beer and during beer aging increased amino acid and dicarbonyl concentrations as aging precursors and Strecker aldehyde contents as aging indicators. Dicarbonyls were degraded during aging. Advanced glycation end products as possible degradation products showed no consistent formation during aging. Therefore, Strecker reactions were favored during beer aging. No alternative oxidative formation of Strecker aldehydes from their corresponding alcohols could be confirmed. Along with the preceding part one of our investigation, the results of this study showed that <i>de novo</i> formation and release occur simultaneously. After 4 months of natural aging, aldehyde rise is mainly accounted for by <i>de novo</i> formation. |
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