A synthetic cell-free pathway for biocatalytic upgrading of one-carbon substrates

Grant M. Landwehr(Northwestern University), Bastian Vögeli(Northwestern University), Cong Tian(Northwestern University), Bharti Singal(Stanford Medicine), Anika Gupta(Northwestern University), Rebeca Lion(Northwestern University), Edward H. Sargent(Northwestern University), Ashty S. Karim(Northwestern University), Michael C. Jewett(Northwestern University)
bioRxiv (Cold Spring Harbor Laboratory)
August 8, 2024
10.1101/2024.08.08.607227
Cited by 5Open Access
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Abstract

Abstract Biotechnological processes hold tremendous potential for the efficient and sustainable conversion of one-carbon (C1) substrates into complex multi-carbon products. However, the development of robust and versatile biocatalytic systems for this purpose remains a significant challenge. In this study, we report a hybrid electrochemical-biochemical cell-free system for the conversion of C1 substrates into the universal biological building block acetyl-CoA. The synthetic reductive formate pathway (ReForm) consists of five core enzymes catalyzing non-natural reactions that were established through a cell-free enzyme engineering platform. We demonstrate that ReForm works in a plug-and-play manner to accept diverse C1 substrates including CO 2 equivalents. We anticipate that ReForm will facilitate efforts to build and improve synthetic C1 utilization pathways for a formate-based bioeconomy.

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