Development of a Novel D-Lactic Acid Production Platform Based on Lactobacillus saerimneri TBRC 5746.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2023-09-01 Epub Date: 2023-09-14 DOI:10.1007/s12275-023-00077-x
Kitisak Sansatchanon, Pipat Sudying, Peerada Promdonkoy, Yutthana Kingcha, Wonnop Visessanguan, Sutipa Tanapongpipat, Weerawat Runguphan, Kanokarn Kocharin
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Abstract

D-Lactic acid is a chiral, three-carbon organic acid, that bolsters the thermostability of polylactic acid. In this study, we developed a microbial production platform for the high-titer production of D-lactic acid. We screened 600 isolates of lactic acid bacteria (LAB) and identified twelve strains that exclusively produced D-lactic acid in high titers. Of these strains, Lactobacillus saerimneri TBRC 5746 was selected for further development because of its homofermentative metabolism. We investigated the effects of high temperature and the use of cheap, renewable carbon sources on lactic acid production and observed a titer of 99.4 g/L and a yield of 0.90 g/g glucose (90% of the theoretical yield). However, we also observed L-lactic acid production, which reduced the product's optical purity. We then used CRISPR/dCas9-assisted transcriptional repression to repress the two Lldh genes in the genome of L. saerimneri TBRC 5746, resulting in a 38% increase in D-lactic acid production and an improvement in optical purity. This is the first demonstration of CRISPR/dCas9-assisted transcriptional repression in this microbial host and represents progress toward efficient microbial production of D-lactic acid.

Abstract Image

基于saerimneri乳杆菌TBRC 5746的新型d -乳酸生产平台的开发
D-乳酸是一种手性三碳有机酸,可增强聚乳酸的热稳定性。在本研究中,我们开发了一个用于高滴度生产D-乳酸的微生物生产平台。我们筛选了600株乳酸菌(LAB),并鉴定了12株仅产生高滴度D-乳酸的菌株。在这些菌株中,萨氏乳杆菌TBRC 5746因其同源发酵代谢而被选择用于进一步开发。我们研究了高温和使用廉价可再生碳源对乳酸生产的影响,并观察到滴定度为99.4 g/L,葡萄糖产量为0.90 g/g(理论产量的90%)。然而,我们也观察到L-乳酸的产生,这降低了产品的光学纯度。然后,我们使用CRISPR/dCas9辅助的转录抑制来抑制L.saerimneri TBRC 5746基因组中的两个Lldh基因,导致D-乳酸产量增加38%,光学纯度提高。这是CRISPR/dCas9在该微生物宿主中辅助转录抑制的首次证明,代表了微生物高效生产D-乳酸的进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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