评价捣碎对无麸质麦芽生产的麦芽汁氨基酸谱的作用

IF 3 Q2 FOOD SCIENCE & TECHNOLOGY Beverages Pub Date : 2023-01-28 DOI:10.3390/beverages9010010

Andrew J. Ledley, R. Elias, D. Cockburn

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引用次数: 0

摘要

麦汁发酵的成功取决于麦汁中的糖和游离氨基氮（FAN）含量。糖化步骤的主要目标是产生可发酵糖，因为FAN被认为主要由麦芽质量决定；然而，糖化在改性FAN中的作用尚未得到广泛研究，尤其是对于非大麦酿造材料。在这项研究中，无麸质（GF）谷物的FAN含量与大麦差异很大（分别为73–490 mg/L和201 mg/L），并产生不同的氨基酸谱，包括较低的脯氨酸和较高的γ-氨基丁酸浓度。虽然大多数氨基酸存在于麦芽中或在糖化早期的短暂窗口内产生，但在低于55°C的温度下糖化可能会产生氨基酸浓度的显著增加。总的来说，GF麦芽是一种很有前途的酿造原料，如果采用适当的糖化条件，可以生产出高质量的麦芽。

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Evaluating the Role of Mashing in the Amino Acid Profiles of Worts Produced from Gluten-Free Malts

A successful wort fermentation depends on both the sugar and the free amino nitrogen (FAN) content of a wort. The primary goal of the mashing step is to generate fermentable sugars, as FAN is regarded as being primarily determined by malt quality; however, the role of mashing in modifying FAN has not been extensively studied, especially with respect to non-barley brewing materials. In this study, the FAN content of gluten-free (GF) worts varied greatly from barley (73–490 mg/L vs. 201 mg/L, respectively) and yielded different amino acid profiles, including lower proline and higher γ-aminobutyric acid concentrations. While most of the amino acids were present in the malt or generated in a brief window early in the mashing, significant increases in amino acid concentrations could be generated by mashing at temperatures below 55 °C. Overall, GF malts are promising brewing ingredients that can produce quality worts if appropriate mashing conditions are implemented.

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来源期刊

Beverages FOOD SCIENCE & TECHNOLOGY-

CiteScore

6.10

自引率

8.60%

发文量

审稿时长

11 weeks