Improving fatty acids production by engineering dynamic pathway regulation and metabolic control
Author(s)
Xu, Peng; Li, Lingyun; Zhang, Fuming; Stephanopoulos, Gregory; Koffas, Mattheos
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Global energy demand and environmental concerns have stimulated increasing efforts to produce carbon-neutral fuels directly from renewable resources. Microbially derived aliphatic hydrocarbons, the petroleum-replica fuels, have emerged as promising alternatives to meet this goal. However, engineering metabolic pathways with high productivity and yield requires dynamic redistribution of cellular resources and optimal control of pathway expression. Here we report a genetically encoded metabolic switch that enables dynamic regulation of fatty acids (FA) biosynthesis in Escherichia coli. The engineered strains were able to dynamically compensate the critical enzymes involved in the supply and consumption of malonyl-CoA and efficiently redirect carbon flux toward FA biosynthesis. Implementation of this metabolic control resulted in an oscillatory malonyl-CoA pattern and a balanced metabolism between cell growth and product formation, yielding 15.7- and 2.1-fold improvement in FA titer compared with the wild-type strain and the strain carrying the uncontrolled metabolic pathway. This study provides a new paradigm in metabolic engineering to control and optimize metabolic pathways facilitating the high-yield production of other malonyl-CoA–derived compounds.
Date issued
2014-07Department
Massachusetts Institute of Technology. Department of Chemical EngineeringJournal
Proceedings of the National Academy of Sciences of the United States of America
Publisher
National Academy of Sciences (U.S.)
Citation
Xu, P., L. Li, F. Zhang, G. Stephanopoulos, and M. Koffas. “Improving Fatty Acids Production by Engineering Dynamic Pathway Regulation and Metabolic Control.” Proceedings of the National Academy of Sciences 111, no. 31 (July 21, 2014): 11299–11304. © 2014 National Academy of Sciences
Version: Final published version
ISSN
0027-8424
1091-6490