Metabolic engineering of Escherichia coli for direct production of 4-hydroxybutyrate from glucose
Abstract: Growing concerns of the negative effects on the environment and dependency of fossil fuelsare major driving forces for finding novel sustainable production pathways for plastic.Metabolic engineering has emerged as a powerful tool to enable microorganisms to producenon-native metabolites. The aim of this project was recombinant production of 4-hydroxybutyrate (4-HB) by expressing two enzymes in the model organism Escherichia coli.α-ketoglutarate decarboxylase (SucA) from Mycobacterium smegmatis followed by 4-hydroxybutyrate dehydrogenase (4-HBd) from Clostridium kluyveri was expressed inEscherichia coli. Results showed that the genes were successfully transformed and expressedin E. coli and after protein purification a concentration of 0.9 g/L SucA and 9.8 g/L 4-HBdwas achieved. Furthermore, some protein activity was detected by a coupled reaction withSucA and 4-HBd. When the enzymes got coupled together a change in NADH concentrationcould be detected spectrophotometrically. The enzymes were also tested for substratespecificity by using substrates with various carbon chain lengths and a decrease in NADHconcentration was seen. However, a decrease in the negative control for the experiments wasalso seen indicating a breakdown of NADH over time rather than consumption. Therefore, noconclusion could be drawn about the promiscuity of the enzymes. Lastly a single plasmidssystem was tested where both the genes were ligated on the same plasmid (pCDF duet) andexpressed successfully in E. coli Bl21DE3.
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