How bacteria change movement direction in response to oxygen: Molecular interactions unravelled

How single cell organisms like bacteria manage to react to their environment is not yet completely understood. Scientists have now gained new insights into the molecular interactions during aerotaxis of Bacillus subtilis, i.e., the dependence of the movement direction on the oxygen concentration in the environment. The research team investigated the conformational changes within the protein HemAT. Via a signal transduction chain, this protein sends a command to the flagellar motor which controls the movement direction.

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