Add to ORKGWe study the surface diffusion of the model cyanobacterium Synechocystis sp. PCC6803 during the incipient stages of cell contact with a glass surface in the dilute regime. We observe a twitching motility with alternating immobile tumble and mobile run periods, resulting in a normal diffusion described by a continuous-time random walk with a coefficient of diffusion D. Surprisingly, D is found to decrease with time down to a plateau. This is observed only when the cyanobacterial cells are able to produce released extracellular polysaccharides, as shown by a comparative study between the wild-type strain and various polysaccharides-depleted mutants. The analysis of the trajectories taken by the bacterial cells shows that the temporal characte...
International audienceIn nature, bacteria form biofilms in very diverse environments, involving a ra...
AbstractBackground: Whereas most bacteria move by means of flagella, some prokaryotes move by glidin...
Flagellated bacteria can swim across moist surfaces within a thin layer of fluid, a means for surfac...
Dans cette thèse, nous nous intéressons aux mécanismes précurseurs de la formation d'un biofilm dans...
In this work, we focus on the early stages of biofilm formation, using the cyanobacterium Synechocys...
Cyanobacteria are photosynthetic micro-organisms colonizing all aquatic and terrestrial environments...
Motile bacteria are known to accumulate at surfaces, eventually leading to changes in bacterial moti...
AbstractBacteria inoculated on surfaces create colonies that spread out, forming patterns shaped by ...
Bacteria commonly live attached to surfaces in dense collectives containing billions of cells1. Whil...
International audienceThe motility behavior of suspended microorganisms plays an essential role in t...
In response to environmental changes, the photosynthetic bacterium Rubrivivax gelatinosus (Rvx.) can...
Myxococcus xanthus, a model organism for studies of multicellular behavior in bacteria, moves exclus...
The colonization of surfaces by bacteria is a widespread phenomenon with consequences on environment...
Bacteria form surface-attached communities, known as biofilms, which are central to bacterial biolog...
Microbes routinely face the challenge of acquiring territory and resources on wet surfaces. Cells mo...
International audienceIn nature, bacteria form biofilms in very diverse environments, involving a ra...
AbstractBackground: Whereas most bacteria move by means of flagella, some prokaryotes move by glidin...
Flagellated bacteria can swim across moist surfaces within a thin layer of fluid, a means for surfac...
Dans cette thèse, nous nous intéressons aux mécanismes précurseurs de la formation d'un biofilm dans...
In this work, we focus on the early stages of biofilm formation, using the cyanobacterium Synechocys...
Cyanobacteria are photosynthetic micro-organisms colonizing all aquatic and terrestrial environments...
Motile bacteria are known to accumulate at surfaces, eventually leading to changes in bacterial moti...
AbstractBacteria inoculated on surfaces create colonies that spread out, forming patterns shaped by ...
Bacteria commonly live attached to surfaces in dense collectives containing billions of cells1. Whil...
International audienceThe motility behavior of suspended microorganisms plays an essential role in t...
In response to environmental changes, the photosynthetic bacterium Rubrivivax gelatinosus (Rvx.) can...
Myxococcus xanthus, a model organism for studies of multicellular behavior in bacteria, moves exclus...
The colonization of surfaces by bacteria is a widespread phenomenon with consequences on environment...
Bacteria form surface-attached communities, known as biofilms, which are central to bacterial biolog...
Microbes routinely face the challenge of acquiring territory and resources on wet surfaces. Cells mo...
International audienceIn nature, bacteria form biofilms in very diverse environments, involving a ra...
AbstractBackground: Whereas most bacteria move by means of flagella, some prokaryotes move by glidin...
Flagellated bacteria can swim across moist surfaces within a thin layer of fluid, a means for surfac...