Beneficial base substitutions in Escherichia coli fucO gene for enhancement of glycolic acid production

IF 2.3 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Mayu Nemoto , Wataru Muranushi , Chen Shuting , Yusuke Saito , Daisuke Sugimori , Miwa Yamada
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Abstract

Microbial production of glycolic acid (GA) from ethylene glycol is extensively used in a variety of industries because ethylene glycol is not only an inexpensive raw material but also the main component of industrial wastes. In this study, we produced GA from ethylene glycol using Escherichia coli overexpressing the endogenous 1,2-propanediol oxidoreductase (fucO) and lactaldehyde dehydrogenase (aldA) genes. To increase GA productivity, we screened a random mutant library generated using an error-prone polymerase chain reaction of fucO and obtained FucO mutants MF2-9 and MF6-9 with enhanced GA production in Lysogeny Broth medium containing 800 mM ethylene glycol. MF2-9 contained three amino acid substitutions (D23E, E222K, and G363S) and two synonymous mutations (coding DNA [c.] 93G > A and c.1131T > C) in fucO. MF6-9 contained one amino acid substitution (L377H) in FucO. An amino acid substitution (L377H) and a single synonymous mutation (c.1131T > C) in fucO contributed to the enhancement in GA production. Notably, cell lysates from E. coli harboring a synonymous mutation (c.1131T > C) or amino acid substitution (L377H) in fucO showed that only AldA activity was 1.3-fold higher than that of the cell lysate from E. coli harboring the wild-type fucO. We confirmed that c.1131T > C and L377H mutations increased aldA expression in E. coli. Analysis of mRNA levels and simulation of mRNA stabilization indicated that base substitutions at positions c.1130T, which corresponds to L377H amino acid substitution, and c.1131T increased aldA expression due to partial destabilization of the mRNA. These findings will be useful for the large-scale microbial production of GA from industrial waste.

在大肠杆菌 fucO 基因中进行有益的碱基替换,以提高乙醇酸的产量。
微生物利用乙二醇生产乙醇酸(GA)被广泛应用于各行各业,因为乙二醇不仅是一种廉价的原材料,也是工业废料的主要成分。在本研究中,我们利用过表达内源 1,2-丙二醇氧化还原酶(fucO)和乳醛脱氢酶(aldA)基因的大肠杆菌从乙二醇中生产 GA。为了提高 GA 的产量,我们筛选了利用 fucO 的易错聚合酶链反应生成的随机突变体文库,并获得了 FucO 突变体 MF2-9 和 MF6-9,它们在含有 800 mM 乙二醇的溶菌培养基中的 GA 产量得到了提高。MF2-9 含有三个氨基酸替换(D23E、E222K 和 G363S)和两个同义突变(编码 DNA [c.] 93G > A 和 c.1131T > C)。MF6-9 在 FucO 中含有一个氨基酸替换(L377H)。FucO 中的一个氨基酸取代(L377H)和一个同义突变(c.1131T > C)导致了 GA 产量的增加。值得注意的是,fucO 中携带同义突变(c.1131T > C)或氨基酸替换(L377H)的大肠杆菌细胞裂解液显示,只有 AldA 活性比携带野生型 fucO 的大肠杆菌细胞裂解液高 1.3 倍。我们证实,c.1131T > C 和 L377H 突变增加了大肠杆菌中 aldA 的表达。对 mRNA 水平的分析和 mRNA 稳定性的模拟表明,c.1130T(相当于 L377H 氨基酸置换)和 c.1131T 位置的碱基置换会增加 aldA 的表达,这是由于 mRNA 的部分不稳定所致。这些发现将有助于从工业废物中大规模微生物生产 GA。
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
Journal of bioscience and bioengineering
Journal of bioscience and bioengineering 生物-生物工程与应用微生物
CiteScore
5.90
自引率
3.60%
发文量
144
审稿时长
51 days
期刊介绍: The Journal of Bioscience and Bioengineering is a research journal publishing original full-length research papers, reviews, and Letters to the Editor. The Journal is devoted to the advancement and dissemination of knowledge concerning fermentation technology, biochemical engineering, food technology and microbiology.
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