What question did this study set out to answer?

Investigate how Aer influences chemotaxis in E. coli toward redox conditions.

March 25, 2026Open Access

Aer is a bidirectional redox sensor mediating negative chemotaxis to antibiotic-induced ROS in Escherichia coli

Key Points

Investigate how Aer influences chemotaxis in E. coli toward redox conditions.
Conducted experiments on motile E. coli strains
Assessed chemotactic responses to varying redox environments
Analyzed the role of Aer in response to reactive oxygen species
Aer mediates positive chemotaxis toward reducing environments
Aer also enables negative chemotaxis away from oxidizing environments
Bacteria actively move away from ROS-generating antibiotics, enhancing survival under oxidative stress

Abstract

Motile bacteria rely on aerotaxis to seek environments that maximize energy production. We show that in Escherichia coli, Aer mediates not only positive chemotaxis toward favorable redox conditions but also negative chemotaxis in response to unfavorable ones, actively moving away from oxidizing environments, including reactive oxygen species (ROS)-generating antibiotics, a previously unrecognized behavioral mechanism for bacterial survival under oxidative stress. The ability of Aer to detect both oxidizing and reducing cellular environments reveals an unexpected sensory versatility, shared to varying degrees by other E. coli chemoreceptors.

Aer is a bidirectional redox sensor mediating negative chemotaxis to antibiotic-induced ROS in Escherichia coli

Key Points

Abstract

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