Enzyme complexes for activating yeast generation and ethanol fermentation

IF 1.3 Q4 FOOD SCIENCE & TECHNOLOGY

Foods and Raw Materials Pub Date : 2022-01-31 DOI:10.21603/2308-4057-2022-1-127-136

L. Rimareva, E. Serba, M. Overchenko, N. Shelekhova, N. Ignatova, A. Pavlova

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引用次数: 6

Abstract

Introduction. Recent studies have shown the benefits of phytolytic enzymes to prepare grain wort in ethanol production. However, there is a lack of data on the effect of phytases and their amount on the conversion of grain polymers, the ionic composition of wort and mash, and the efficiency of yeast generation and ethanol fermentation. Study objects and methods. Wheat and corn wort samples were treated with a complex of hydrolases, including phytases. Capillary electrophoresis determined the ionic composition of wort and mash. Gas chromatography measured the content of volatile metabolites. Results and discussion. The key enzymes were phytases and proteases. They improved the conversion of grain polymers and stimulated the growth and metabolism of yeast cells. Their synergism enriched the wort with assimilable nitrogen, phosphorus, and other valuable minerals. In addition, it intensified the growth of the Saccharomyces cerevisiae yeast, increased the rate of carbohydrate consumption, and reduced the formation of side metabolites 1.7–1.9 times, mainly due to higher and aromatic alcohols. The concentration of phosphates remained practically unchanged during the fermentation of grain wort treated with phytases. However, by the end of fermentation, it was 2.4–5.1 times higher than in the mash samples without phytolytic treatment. Finally, we identified a complex of enzymes and optimal amounts of phytases that have a stimulating effect on ethanol fermentation. Conclusion. Phytases, whether used individually or together with proteases, enriched grain wort with soluble macro- and microelements, improved yeast metabolism, directed ethanol synthesis, and decreased the formation of fermentation by-products.

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激活酵母菌生成和乙醇发酵的酶复合物

介绍。最近的研究表明，植物分解酶在乙醇生产中制备谷物麦芽汁的好处。然而，关于植酸酶及其用量对谷物聚合物转化、麦芽汁和麦芽醪的离子组成、酵母生成和乙醇发酵效率的影响，目前还缺乏相关数据。研究对象和方法。小麦和玉米麦芽汁样品用包括植酸酶在内的复合水解酶处理。毛细管电泳测定了麦芽汁和麦芽醪的离子组成。气相色谱法测定挥发性代谢物的含量。结果和讨论。关键酶是植酸酶和蛋白酶。它们改善了谷物聚合物的转化，刺激了酵母细胞的生长和代谢。它们的协同作用丰富了麦汁中可吸收的氮、磷和其他有价值的矿物质。此外，它还增强了酿酒酵母的生长，提高了碳水化合物的消耗速度，并减少了1.7-1.9倍的副代谢产物的形成，主要是由于高级和芳香醇。植酸酶处理谷物麦汁发酵过程中，磷酸盐浓度基本保持不变。然而，在发酵结束时，它比未经植物分解处理的醪样品高2.4-5.1倍。最后，我们确定了对乙醇发酵具有刺激作用的酶和植酸酶的最佳量的复合物。结论。植酸酶，无论是单独使用还是与蛋白酶一起使用，都能丰富麦汁中可溶性宏量和微量元素，改善酵母代谢，指导乙醇合成，减少发酵副产物的形成。

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来源期刊

Foods and Raw Materials FOOD SCIENCE & TECHNOLOGY-

CiteScore

3.70

自引率

20.00%

发文量

审稿时长

24 weeks

期刊介绍： The journal «Foods and Raw Materials» is published from 2013. It is published in the English and German languages with periodicity of two volumes a year. The main concern of the journal «Foods and Raw Materials» is informing the scientific community on the works by the researchers from Russia and the CIS, strengthening the world position of the science they represent, showing the results of perspective scientific researches in the food industry and related branches. The main tasks of the Journal consist the publication of scientific research results and theoretical and experimental studies, carried out in the Russian and foreign organizations, as well as on the authors'' personal initiative; bringing together different categories of researchers, university and scientific intelligentsia; to create and maintain a common space of scientific communication, bridging the gap between the publications of regional, federal and international level.