Title: A balanced ATP driving force module for enhancing photosynthetic biosynthesis of 3-hydroxybutyrate from CO2
Authors: Ku, Jason T.
Lan, Ethan I.
Department of Biological Science and Technology
Institute of Molecular Medicine and Bioengineering
Keywords: Metabolic engineering;Cyanobacteria;3-hydroxybutyric acid;Hydroxyalkanoate;Driving force;Acetoacetyl-CoA synthase
Issue Date: 1-Mar-2018
Abstract: Using engineered photoautotrophic microorganisms for the direct chemical synthesis from CO2 is an attractive direction for both sustainability and CO2 mitigation. However, the behaviors of non-native metabolic pathways may be difficult to control due to the different intracellular contexts between natural and heterologous hosts. While most metabolic engineering efforts focus on strengthening driving forces in pathway design to favor biochemical production in these organisms, excessive driving force may be detrimental to product biosynthesis due to imbalanced cellular intermediate distribution. In this study, an ATP-hydrolysis based driving force module was engineered into cyanobacterium Synechococcus elongatus PCC 7942 to produce 3-hydroxybutyrate (3HB), a valuable chemical feedstock for the synthesis of biodegradable plastics and antibiotics. However, while the ATP driving force module is effective for increasing product formation, uncontrolled accumulation of intermediate metabolites likely led to metabolic imbalance and thus to cell growth inhibition. Therefore, the ATP driving force module was reengineered by providing a reversible outlet for excessive carbon flux. Upon expression of this balanced ATP driving force module with 3HB biosynthesis, engineered strain produced 3HB with a cumulative titer of 1.2 g/L, a significant increase over the initial strain. This result highlighted the importance of pathway reversibility as an effective design strategy for balancing driving force and intermediate accumulation, thereby achieving a self-regulated control for increased net flux towards product biosynthesis.
URI: http://dx.doi.org/10.1016/j.ymben.2018.02.004
ISSN: 1096-7176
DOI: 10.1016/j.ymben.2018.02.004
Volume: 46
Begin Page: 35
End Page: 42
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