Abstract
AbstractMany cellular functions depend on the physical properties of the cell’s environment. Many bacteria have different types of surface appendages to enable adhesion and motion on a variety of surfaces.Myxococcus xanthusis a social soil bacterium with two distinctly regulated modes of surface motility, termed the social motility mode driven by type iv pili and the adventurous motility mode based on focal adhesion complexes. How bacteria sense different surfaces and subsequently coordinate their collective motion remains largely unclear. Using polyacrylamide hydrogels of tunable stiffness, we found that wild-typeM. xanthusspreads faster on stiffer substrates. Here, we show using motility mutants that disrupt adventurous motility suppresses this substrate-stiffness response, suggesting focal-adhesion-based adventurous motility is substrate-stiffness dependent. We also show that modifying surface adhesion by the addition of adhesive ligands, chitosan, increases the amount ofM. xanthusflairs, a characteristic feature of adventurous motility. Taken together, we hypothesize a central role ofM. xanthusadventurous motility as a driving mechanism for surface and surface stiffness sensing.
Publisher
Cold Spring Harbor Laboratory