Abstract
Methylorubrum extorquens AM1 is the attractive platform for the production of value-added products from methanol. We previously demonstrated that M. extorquens equipped with PHA synthase with broad substrate specificity synthesized polyhydroxyalkanoates (PHAs) composed of (R)-3-hydroxybutyrate and small fraction of (R)-3-hydroxyvalerate (3HV) and (R)-3-hydroxyhexanoate (3HHx) units on methanol. This study further engineered M. extorquens for biosynthesis of PHAs with higher 3HV and 3HHx composition focusing on the EMC pathway involved in C1 assimilation. The introduction of ethylmalonyl-CoA decarboxylase, catalyzing a backward reaction in the EMC pathway, aiming to increase intracellular propionyl/butyryl-CoA precursors did not affect PHA composition. Reverse β-oxidation pathway and subsequent (R)-specific hydration of 2-enoyl-CoA were then enhanced by heterologous expression of four genes derived from Ralstonia eutropha for the conversion of propionyl/butyryl-CoAs to the corresponding (R)-3-hydroxyacyl-CoA monomers. The resulting strains produced PHAs with higher 3HV and 3HHx compositions, while the methylotrophic growth was severely impaired. This growth impairment was interestingly restored by the addition of La3+ without a negative impact on PHA biosynthesis, suggesting the activation of the EMC pathway by La3+. The engineered M. extorquens synthesized PHA terpolymer composed of 5.4 mol% 3HV and 0.9% of 3HHx with 41% content from methanol as a sole carbon source in the presence of La3+.
Highlights
Considering the higher 3HHx composition in PHA produced by PhaCNSDG -equipped strains of R. eutropha and E. coli in the previous studies [17,19,23], the little effect of PhaCNSDG on PHA composition strongly implied insufficient provision of the 3HV and 3HHx monomer units from methanol in M. extorquens
Given the much larger metabolic flux of methanol oxidation than C1 assimilation for and essential extorquens and the conservation of energy andpathway, reducingspecific equivalents required for formethylotrophy the growth [28],ofitM
Was asrelated methylotrophs, is an attractive pathway for the production of value-added c sumed that the repression of methanol oxidation may have some relation to the poor methypounds from methanol because this pathway contains
Summary
It is estimated that microplastics formed from plastic waste will stay in natural environments for hundreds of years due to low degradability of petroleum-based polymers. Polyhydroxyalkanoates (PHAs), which are natural polyesters accumulated within various kinds of microbial cells as a carbon and energy storage, are eco-friendly alternatives to the usual plastics because they show biodegradable properties in soil and compost and in fresh water and sea water. Methanol has received increasing attention as a promising feedstock for the bioindustry based on its sustainability and handleability. Renewable methanol produced from sustainable biomass or CO2 and green hydrogen should offer future development of a methanol-based bioeconomy [4]. PHA production from methanol feedstock has the potential to establish a sustainable plastic industry
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