Crash landing ofVibrio choleraeby MSHA pili-assisted braking and anchoring in a viscoelastic environment

Abstract: AbstractMannose-sensitive hemagglutinin (MSHA) pili and flagellum are critical for the surface attachment of Vibrio cholerae. However, the cell landing mechanism remains largely unknown. Here, combining the cysteine-substitution-based labelling method with single-cell tracking techniques, we quantitatively characterized the landing of V. cholerae by directly observing both pili and flagellum of cells in viscous solutions. MS… Show more