Apr 2, 2020

Precise electronic control of redox reactions inside Escherichia coli using a genetic module

BioRxiv : the Preprint Server for Biology
M. BaruchCaroline M. Ajo-Franklin

Abstract

Microorganisms regulate the redox state of different biomolecules to precisely control biological processes. These processes can be modulated by electrochemically coupling intracellular biomolecules to an external electrode, but current approaches afford only limited control and specificity. Here we describe specific electrochemical control of the reduction of intracellular biomolecules in Escherichia coli through introduction of a heterologous electron transfer pathway. E. coli expressing mtrCAB from Shewanella oneidensis MR-1 consumed electrons directly from a cathode when fumarate or nitrate, both intracellular electron acceptors, were present. The fumarate-triggered current consumption occurred only when fumarate reductase was present, indicating all the electrons passed through this enzyme. Moreover, MtrCAB-expressing E. coli used current to stoichiometrically produce ammonia. Thus, our work introduces a modular genetic tool to reduce a specific intracellular redox molecule with an electrode, opening the possibility of electronically controlling biological processes such as biosynthesis and growth in any microorganism.

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Mentioned in this Paper

Study
Muscle Rigidity
In Vivo
Pseudomonas aeruginosa (antigen)
Cell Motility
Flagellum Motility
Motility
Anatomical Space Structure
Ion Channel
Pseudomonas aeruginosa

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