Direct measurement of the aerotactic response in a bacterial suspension

Aerotaxis is the ability of motile cells to navigate toward oxygen. A key question is the dependence of the aerotactic velocity with the local oxygen concentration c. Here we combine simultaneous bacteria tracking and local oxygen concentration measurements using Ruthenium encapsulated in micelles to characterize the aerotactic response of Burkholderia contaminans, a motile bacterium ubiquitous in the environment. In our experiments, an oxygen gradient is produced by the bacterial respiration in a sealed glass capillary permeable to oxygen at one end, producing a bacterial band traveling toward the oxygen source. We compute the aerotactic response x(c) both at the population scale, from the drift velocity in the bacterial band, and at the bacterial scale, from the angular modulation of the run times. Both methods are consistent with a power-law x proportional to c(-2), in good agreement with existing models based on the biochemistry of bacterial membrane receptors.

Automated summary

In this study, the aerotactic response of Burkholderia contaminans bacteria was investigated by tracking bacteria and measuring local oxygen concentration. The findings indicate that the aerotactic velocity is proportional to the local oxygen concentration raised to the power of -2, consistent with existing models.