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Multilayer Engineering of an <i>Escherichia coli</i>-Based Biotransformation System to Exclusively Produce Glycolic Acid from Formaldehyde

Hye‐Jin Jo, Han-na Yu, Huijin Cheon, Jun‐Hong Kim, Jun‐Hong Kim, Ga Young Kim, Byoung Sik Kim, Jeong-Sun Kim, Jeong-Sun Kim, Jin‐Byung Park

2023ACS Sustainable Chemistry & Engineering25 citationsDOI

Abstract

A whole-cell biocatalysis was investigated for the selective synthesis of the industrially relevant C2 chemicals (e.g., glycolic acid ( 3 )) from formaldehyde ( 1 ). Escherichia coli cells were engineered to overexpress a carboligase and an aldehyde dehydrogenase from E. coli K-12. Moreover, the side reactions, which dissipate formaldehyde and glycolic acid, were removed to produce glycolic acid to a high conversion. Host cell engineering to apply relatively chemical tolerant E. coli strains as well as substrate engineering to avoid the toxic effects of formaldehyde to the host cells allowed production of glycolic acid up to 27 mM in the reaction medium with a conversion of 85%. This study will contribute to valorization of C1 gas (e.g., CH 4, CO 2, and CO) to industrially relevant C2 chemicals in a sustainable way.

Topics & Concepts

Glycolic acidFormaldehydeBiotransformationBiocatalysisEscherichia coliChemistryMetabolic engineeringBiochemistryOrganic chemistryBacteriaEnzymeReaction mechanismCatalysisLactic acidBiologyGeneGeneticsMicrobial Metabolic Engineering and BioproductionMicrobial metabolism and enzyme functionBiofuel production and bioconversion
Multilayer Engineering of an <i>Escherichia coli</i>-Based Biotransformation System to Exclusively Produce Glycolic Acid from Formaldehyde | Litcius