Serba E M, Sokolova E N, Rimareva L V, Fursova N A, Volkova G S, Kurbatova E I, Yuraskina T V, Abramova I M
Russian Research Institute of Food Biotechnology - Branch of Federal Research Centre of Food, Biotechnology and Food Safety, 111033, Moscow, Russian Federation.
Vopr Pitan. 2020;89(6):48-57. doi: 10.24411/0042-8833-2020-10078. Epub 2020 Nov 20.
It is known, that Saccharomycetes can accumulate mineral substances with targeted enrichment of the growth medium. However, the influence of the genetic affiliation of the culture and the technological factors of yeast strains, the composition of growth media on the efficiency of essential trace elements incorporation into the biomass and on the change of theirs intracellular components content have hardly been investigated. In this regard, of this work was to select promising races of yeast Saccharomyces cerevisiae, develop a biotechnological method for obtaining food ingredients enriched with selenium and chromium on their basis, and study their trace element composition. . Industrial strains of baker's yeast (Saccharomyces cerevisiae) were used: RCAM 01137, Y-3439 and Y-581. Yeast were grown on malt wort (pH 4.6) with a dry matter content of 12% with the addition of mineral salts in stationary conditions at a temperature of 30 °C for 18 h, after which the yeast biomass was separated by centrifugation. A method for enriching yeast with trace elements has been selected, which consists in the process of culturing cells on malt growth media containing chromium chloride or selenium dioxide in various concentrations. The total protein content was determined by the Kjeldahl method, polysaccharides and ergosterol - by spectrofluorometric method, selenium - by fluorimetric method. The content of trace elements in yeast biomass enriched with chromium was studied by mass spectrometric method with inductively coupled plasma. . It was shown that the highest specific growth rate was demonstrated by the yeast strains RCAM 01137 and Y-3439, and the highest level of maltase activity was in the Y-581 strain. It was found that the amount of biomass after cultivation of the yeast S. cerevisiae RCAM 01137 and Y-3439 was 6.00 и 5.42 g/100 cm, respectively. It was noted, that the yeast S. cerevisiae Y-581 had capability of high synthesis of ergosterol (1.08±0.04%), the level of which was 2 fold higher than other strains. S. cerevisiae RCAM 01137 yeast showed the greatest ability to selenium enrichment, its content in biomass increased 137 fold and amounted to 2740 μg% when cultivated on a medium containing 800 μg/dm. S. cerevisiae Y-581 yeast strain showed the highest capability to chromium sorption. The chromium concentration in its biomass was 8340 μg% in case of cultivating on a medium containing 750 μg/dm. The usage of about 2.7 g of selenium enriched yeast biomass, or 1.0 g chromium enriched one, satisfies the daily requirement for these trace elements. . Cultivation of S. cerevisiae cells on growth media containing trace elements makes it possible to obtain yeast biomass samples that can be used to obtain food ingredients for creating food products that contribute to the maintaining human health and improve the quality and duration of life.
众所周知,酵母菌能够通过对生长培养基进行定向富集来积累矿物质。然而,关于培养物的遗传归属、酵母菌株的工艺因素、生长培养基的组成对必需微量元素掺入生物量的效率及其细胞内成分含量变化的影响,几乎未作研究。鉴于此,本工作的目的是筛选出有前景的酿酒酵母菌株,在此基础上开发一种获得富含硒和铬的食品成分的生物技术方法,并研究其微量元素组成。使用了面包酵母(酿酒酵母)的工业菌株:RCAM 01137、Y - 3439和Y - 581。酵母在干物质含量为12%、pH值为4.6的麦芽汁中,添加矿物盐,于30℃恒温条件下培养18小时,之后通过离心分离酵母生物量。选择了一种用微量元素富集酵母的方法,该方法包括在含有不同浓度氯化铬或二氧化硒的麦芽生长培养基上培养细胞的过程。总蛋白含量采用凯氏定氮法测定,多糖和麦角固醇采用荧光分光光度法测定,硒采用荧光法测定。用电感耦合等离子体质谱法研究了富含铬的酵母生物量中的微量元素含量。结果表明,酵母菌株RCAM 01137和Y - 3439表现出最高的比生长速率,而Y - 581菌株的麦芽糖酶活性水平最高。发现酿酒酵母RCAM 01137和Y - 3439培养后的生物量分别为6.00和5.42 g/100 cm。值得注意的是,酿酒酵母Y - 581具有高合成麦角固醇的能力(1.08±0.04%),其水平比其他菌株高2倍。酿酒酵母RCAM 01137在含800 μg/dm的培养基上培养时显示出最大的硒富集能力,其生物量中的含量增加了137倍,达到2740 μg%。酿酒酵母Y - 581菌株对铬的吸附能力最强。在含750 μg/dm的培养基上培养时,其生物量中的铬浓度为8340 μg%。食用约2.7 g富含硒的酵母生物量或1.0 g富含铬的酵母生物量可满足这些微量元素的每日需求量。在含有微量元素的生长培养基上培养酿酒酵母细胞,能够获得可用于获取食品成分的酵母生物量样品,这些食品成分有助于维持人类健康,提高生活质量和延长寿命。
