基于大肠杆菌的生物精炼工艺可从发酵的第二代原料中获得光学纯乳酸。

IF 4.5 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

New biotechnology Pub Date : 2024-08-10 DOI:10.1016/j.nbt.2024.08.498

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引用次数: 0

摘要

在循环生物经济中，从第二代原料中生产光学纯LA是最理想的，但这非常具有挑战性。本文创建了基因工程大肠杆菌菌株，以解决从有机废物或草料发酵中合成和生产的外消旋 LA 溶液问题。将外消旋LA混合物精制成D-或L-LA是通过细胞能够消耗一种LA异构体作为唯一的碳和能量来源，而不能消耗另一种异构体来实现的。D-LA 提炼菌株 JSP0005 生长在发酵的源分类有机生活垃圾和不同的青草青贮浸出物上，这些都是第二代原料，含有高达 33 克/升的乳酸消旋体。在所有生长实验中，L-LA 被完全去除，只剩下 D-LA 作为唯一的 LA 立体异构体，即产生光学纯 D-LA，其浓度也比初始浓度增加了 248.6%，相当于 38 克/升。这项研究产生的菌株是实现基于微生物的 LA 生物精炼工艺的第一步，前景广阔。

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Escherichia coli-based biorefining process yields optically pure lactic acid from fermented second-generation feedstocks

Within the circular bioeconomy the production of optically pure LA from 2nd generation feedstocks would be ideal but it is very challenging. In this paper genetically engineered Escherichia coli strains were created to resolve racemic LA solutions synthesised and produced from the fermentation of organic waste or ensiled grass. Refining LA racemic mixtures into either a D- or L-LA was achieved by cells being able to consume one LA isomer as a sole carbon and energy source while not being able to consume the other. A D-LA refining strain JSP0005 was grown on fermented source-sorted organic household waste and different grass silage leachates, which are 2nd generation feedstocks containing up to 33 g/L lactic acid racemate. In all growth experiments, L-LA was completely removed leaving D-LA as the only LA stereoisomer, i.e. resulting in optically pure D-LA, which also increased by as much as 248.6 % from its starting concentration, corresponding to 38 g/L. The strains resulting from this study are a promising first step towards a microbial based LA biorefining process.

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来源期刊

New biotechnology 生物-生化研究方法

CiteScore

11.40

自引率

1.90%

发文量

审稿时长

1 months

期刊介绍： New Biotechnology is the official journal of the European Federation of Biotechnology (EFB) and is published bimonthly. It covers both the science of biotechnology and its surrounding political, business and financial milieu. The journal publishes peer-reviewed basic research papers, authoritative reviews, feature articles and opinions in all areas of biotechnology. It reflects the full diversity of current biotechnology science, particularly those advances in research and practice that open opportunities for exploitation of knowledge, commercially or otherwise, together with news, discussion and comment on broader issues of general interest and concern. The outlook is fully international. The scope of the journal includes the research, industrial and commercial aspects of biotechnology, in areas such as: Healthcare and Pharmaceuticals; Food and Agriculture; Biofuels; Genetic Engineering and Molecular Biology; Genomics and Synthetic Biology; Nanotechnology; Environment and Biodiversity; Biocatalysis; Bioremediation; Process engineering.