A thermophilic L-lactic acid producer of high optical purity: isolation and identification

IF 1.3 Q4 FOOD SCIENCE & TECHNOLOGY Foods and Raw Materials Pub Date : 2023-05-29 DOI:10.21603/2308-4057-2024-1-591
Maria Romanova, Anastasiia Dolbunova, Yulia Epishkina, S. Evdokimova, Mikhail Kozlovskiy, A. Kuznetsov, N. Khromova, A. Beloded
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Abstract

Biodegradable polymers, specifically polylactide, are an important part of food packaging and medical devices. Microbiological synthesis uses cheap renewable raw materials and industrial waste to produce a high yield of lactic acid, the monomer of polylactide. This method needs new effective lactic acid producing strains, e.g., thermophilic bacteria. The research involved thermophilic bacterial strains isolated from soil and compost samples. Their ability to produce organic acids and extracellular enzymes was tested using the method of high-performance liquid chromatography (HPLC) and microbiological tests respectively. The real-time polymerase chain reaction method (PCR) detected L-lactate dehydrogenase structural genes of L-lactate dehydrogenase of Bacillaceae. Strain T7.1 was fermented using glucose and yeast extract as carbon and nitrogen sources, respectively. The optical purity of lactic acid was evaluated using quantitative gas chromatography on a chiral column to separate lactate isomers. The molecular genetic analysis of the 16S rRNA gene sequence was applied to identify strain T7.1. The chromatographic analysis proved that 10 out of 13 isolated thermophilic strains were effective lactic acid producers. They demonstrated proteolytic, amylolytic, or cellulase activities. During the fermentation, strain T7.1 produced 81 g/L of lactic acid with a peak productivity at 1.58 g/(L·h). The optical purity of the product exceeded 99.9% L-lactate. The genetic analysis identified strain T7.1 as Weizmannia coagulans (Bacillus coagulans). The research revealed a promising thermophilic producer of optically pure L-lactic acid. Further research is needed to optimize the cultivation conditions, design an effective and cheap nutrient medium, and develop engineering and technological solutions to increase the yield.
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一种高光学纯度的嗜热l -乳酸产生物:分离与鉴定
可生物降解聚合物,特别是聚乳酸,是食品包装和医疗器械的重要组成部分。微生物合成利用廉价的可再生原料和工业废料生产高产率的乳酸,即聚乳酸的单体。这种方法需要新的有效的产乳酸菌株,如嗜热菌。这项研究涉及从土壤和堆肥样品中分离出的嗜热细菌菌株。分别用高效液相色谱法和微生物学方法检测了它们产生有机酸和细胞外酶的能力。实时聚合酶链反应法(real-time polymerase chain reaction, PCR)检测杆菌科l-乳酸脱氢酶结构基因。菌株T7.1分别以葡萄糖和酵母浸膏为碳源和氮源进行发酵。采用手性色谱柱分离乳酸异构体,定量气相色谱法测定乳酸的光学纯度。采用16S rRNA基因序列分子遗传学分析对菌株T7.1进行鉴定。色谱分析证实,13株分离的嗜热菌株中有10株是有效的产乳酸菌。它们具有蛋白水解、淀粉水解或纤维素酶活性。菌株T7.1在发酵过程中乳酸产量为81 g/L,最高产率为1.58 g/(L·h)。l -乳酸盐光学纯度超过99.9%。菌株T7.1为凝固芽孢杆菌(Weizmannia coagulans)。该研究揭示了一种有前途的光纯l -乳酸的嗜热生产者。需要进一步研究优化栽培条件,设计有效且廉价的营养培养基,开发提高产量的工程技术解决方案。
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来源期刊
Foods and Raw Materials
Foods and Raw Materials FOOD SCIENCE & TECHNOLOGY-
CiteScore
3.70
自引率
20.00%
发文量
39
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.
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