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Cell shape controls rheotaxis in small parasitic bacteria

Daisuke Nakane, Yoshiki Kabata, Takayuki Nishizaka

2022PLoS Pathogens14 citationsDOIOpen Access PDF

Abstract

Mycoplasmas, a group of small parasitic bacteria, adhere to and move across host cell surfaces. The role of motility across host cell surfaces in pathogenesis remains unclear. Here, we used optical microscopy to visualize rheotactic behavior in three phylogenetically distant species of Mycoplasma using a microfluidic chamber that enabled the application of precisely controlled fluid flow. We show that directional movements against fluid flow occur synchronously with the polarized cell orienting itself to be parallel against the direction of flow. Analysis of depolarized cells revealed that morphology itself functions as a sensor to recognize rheological properties that mimic those found on host-cell surfaces. These results demonstrate the vital role of cell morphology and motility in responding to mechanical forces encountered in the native environment.

Topics & Concepts

MotilityCell biologyCellBiologyMicrofluidicsMycoplasmaPathogenesisBacteriaMorphology (biology)BiophysicsMicrobiologyNanotechnologyImmunologyMaterials scienceZoologyGeneticsMicrobial infections and disease researchBacteriophages and microbial interactionsMicrofluidic and Bio-sensing Technologies
Cell shape controls rheotaxis in small parasitic bacteria | Litcius