Use of environmentally safe micromycetes of the genus Rhodotorula to obtain fodder carotene‐containing concentrate

IF 0.3 Q4 ECOLOGY
V. Kolpakova, R. Ulanova, D. Kulikov, V. Gulakova, L. Vasilyeva, Y. Berestovskaya, E. G. Cheremnykh, A. Ashikhmin
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Abstract

Aim. The aim of the work was to study the possibility of using an environmentally friendly strain of yeast of the genus Rhodotorula for the bioconversion into fodder carotenoid‐containing biomass of the secondary product of processing pea flour into a protein concentrate (whey).Material and Methods. We used a new strain of Rhodotorula mucilaginosa 111 and by‐products of processing pea and chickpea flour into protein concentrates and potatoes into starch (whey). We used standard and special methods for the analysis of serum and microbial‐vegetable concentrate (FMVC) namely: chemical; biochemical; microbiological; and the determination of toxicity with ciliates.Results. Optimal conditions for growing R. mucilaginosa 111 on pea whey were determined (temperature 16.9°C, pH 7.8, amount of inoculum 1.85%). More biomass was synthesized on pea whey than on chickpea and potato whey – 81 g/dm3. The mass fraction of protein in the biomass is 58.90±3.03% on dry matter and the rate of essential amino acids is 119– 243%. Lipids included 20% saturated and 78% unsaturated fatty acids, linoleic acid – 45.26±0.70%, oleic – 24.04±0.76%, palmitoleic – 6.46±0.31%, palmitic – 13.70±0.81%. The yeast produced phytoin derivatives, torulene, β‐carotene, torularodin and phytoin. FMVC from pea whey stimulated the growth of ciliates Tetrahymena pyriformis by 29.1%, from chickpea whey (by 18.6% more intensively than distilled water), while potato whey reduced its growth rate.Conclusion. The dry biomass of the ecologically safe new yeast strain R. mucilaginosa 111 contained complete proteins, lipids, minerals, and carotenoids necessary for feeding animals. Thus liquid pea whey can be used for its biokonversions, while avoiding environmental pollution.
利用环境安全的红酵母属微菌获得饲料中含有胡萝卜素的浓缩物
的目标。这项工作的目的是研究利用一种环境友好的红酵母属酵母菌株,将豌豆粉加工成蛋白质浓缩物(乳清)的二次产物生物转化为含类胡萝卜素的饲料的可能性。材料和方法。我们使用了一株新的粘液红霉菌111,以及将豌豆和鹰嘴豆粉加工成浓缩蛋白和将土豆加工成淀粉(乳清)的副产品。我们使用标准的和特殊的方法来分析血清和微生物-蔬菜浓缩物(FMVC),即:化学;生物化学;微生物;对纤毛虫的毒性测定。确定了在豌豆乳清上培养黏液歧杆菌111的最佳条件(温度16.9℃,pH 7.8,接种量1.85%)。豌豆乳清比鹰嘴豆和马铃薯乳清合成的生物质多(81 g/dm3)。干物质中蛋白质质量分数为58.90±3.03%,必需氨基酸质量分数为119 ~ 243%。脂质中饱和脂肪酸占20%,不饱和脂肪酸占78%,亚油酸占45.26±0.70%,油酸占24.04±0.76%,棕榈油酸占6.46±0.31%,棕榈酸占13.70±0.81%。酵母产生植物素衍生物、托鲁烯、β -胡萝卜素、托鲁烷素和植物素。豌豆乳清中的FMVC对梨状四膜虫生长的促进作用为29.1%,鹰嘴豆乳清中的FMVC对梨状四膜虫生长的促进作用为18.6%,而马铃薯乳清则对其生长有抑制作用。生态安全的新酵母菌mucilaginosa 111的干生物量含有饲喂动物所需的完整蛋白质、脂质、矿物质和类胡萝卜素。因此,液体豌豆乳清可以用于其生物转化,同时避免环境污染。
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来源期刊
CiteScore
0.80
自引率
50.00%
发文量
73
审稿时长
8 weeks
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