The Correlation between Amino Acids and Biogenic Amines in Wines without Added Sulfur Dioxide

Fermentation Pub Date : 2024-06-06 DOI:10.3390/fermentation10060302

Sorin Macoviciuc, M. Niculaua, Constantin-Bogdan Nechita, Bogdan-Ionel Cioroiu, V. Cotea

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Abstract

In classical methods of wine production, amino acids play a critical role, as they are fundamental to all types of fermentation. Beyond their consumption in fermentative processes, amino acids undergo several transformations, such as decarboxylation, which produces biogenic amines. These biogenic amines can increase under certain conditions, such as the presence of spoilage bacteria or during malolactic fermentation. Alternative methods of vinification were applied, using sulfur dioxide as a preservative (+SO2) and methods without added sulfites. Alternative methods of vinification were applied using sulfur dioxide as a preservative (+SO2) and methods without added sulfite (−SO2). Monitoring was conducted for Cabernet Sauvignon red (CS), Cabernet Sauvignon rosé (CSR), Fetească regală still (FR), and Fetească regală frizzante (FRF). Alternative procedures employed the use of Pichia kluyveri for its ability to block the oxidation reactions of grapes, malolactic fermentation for all wines without sulfur dioxide (−SO2) to ensure superior stability, and the use of several tannin mixtures to avoid oxidation reactions. Correlations were considered between the amino acids and biogenic amines that have a direct relation through decarboxylation or deamination. The pH of the wines, total acidity, and volatile acidity as principal factors of microbiological wine evolution remained constant. The highest mean concentrations of the detected biogenic amines were putrescine at 23.71 ± 4.82 mg/L (CSRSO2), tyramine at 14.62 ± 1.50 mg/L (FR-SO2), cadaverine at 4.36 ± 1.19 mg/L (CS-SO2), histamine at 2.66 ± 2.19 mg/L (FR + SO2), and spermidine at 9.78 ± 7.19 mg/L (FR + SO2). The wine conditions ensured the inhibition of decarboxylases, but some correlations were found with the corresponding amino acids such as glutamine (r = −0.885, p < 0.05) (CSR-SO2), tyrosine (r = −0,858, p < 0.05) (FR-SO2), lysine (r = −0.906, p < 0.05) (FR-SO2), and histamine (r = −0.987, p < 0.05) (CSR-SO2). Multivariate analysis was performed, and no statistical differences were found between samples with (+SO2) and without added sulfur dioxide (−SO2). The vinification conditions ensured the wines’ stability and preservation and the conditions of producing biogenic amines at the lowest levels in order to not interfere with the olfactive and gustative characteristics.

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不添加二氧化硫的葡萄酒中氨基酸与生物胺之间的相关性

在传统的葡萄酒酿造方法中，氨基酸起着至关重要的作用，因为它们是所有类型发酵的基础。氨基酸除了在发酵过程中消耗外，还会发生几种转化，如脱羧，从而产生生物胺。在某些条件下，如存在腐败菌或在苹乳发酵过程中，这些生物胺会增加。使用二氧化硫作为防腐剂（+SO2）和不添加亚硫酸盐的其他酿造方法。使用二氧化硫作为防腐剂（+SO2）和不添加亚硫酸盐（-SO2）的其他酿造方法。对赤霞珠红葡萄酒（CS）、赤霞珠桃红葡萄酒（CSR）、雷公藤红葡萄酒（FR）和雷公藤红葡萄酒泡沫酒（FRF）进行了监测。其他程序包括使用 Pichia kluyveri 来阻止葡萄的氧化反应，对所有葡萄酒进行不含二氧化硫 (-SO2) 的苹果酸乳酸发酵以确保其卓越的稳定性，以及使用几种单宁混合物来避免氧化反应。考虑了氨基酸和生物胺之间的相关性，它们通过脱羧或脱氨基作用有着直接的联系。葡萄酒的 pH 值、总酸度和挥发性酸度作为葡萄酒微生物演变的主要因素保持不变。检测到的生物胺平均浓度最高的是腐胺（23.71 ± 4.82 mg/L）（CSRSO2）、酪胺（14.62 ± 1.50 mg/L）（FR-SO2）、尸胺（4.36 ± 1.19 mg/L）（CS-SO2）、组胺（2.66 ± 2.19 mg/L）（FR + SO2）和亚精胺（9.78 ± 7.19 mg/L）（FR + SO2）。葡萄酒条件确保了对脱羧酶的抑制，但也发现了一些与相应氨基酸的相关性，如谷氨酰胺（r = -0.885，p < 0.05）（CSR-SO2）、酪氨酸（r = -0,858，p < 0.05）（FR-SO2）、赖氨酸（r = -0.906，p < 0.05）（FR-SO2）和组胺（r = -0.987，p < 0.05）（CSR-SO2）。进行多变量分析后发现，添加二氧化硫（+SO2）和不添加二氧化硫（-SO2）的样品之间没有统计学差异。酿造条件确保了葡萄酒的稳定性和保存性，以及在最低水平下产生生物胺的条件，从而不影响葡萄酒的嗅觉和味觉特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fermentation

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