Add to ORKGThe movement trajectories of organisms serve as dynamic read-outs of their behaviour and physiology. For microorganisms this can be difficult to resolve due to their small size and fast movement. Here, we devise a novel droplet microfluidics assay to encapsulate single micron-sized algae inside closed arenas, enabling ultralong high-speed tracking of the same cell. Comparing two model species - Chlamydomonas reinhardtii (freshwater, 2 cilia), and Pyramimonas octopus (marine, 8 cilia), we detail their highly-stereotyped yet contrasting swimming behaviours and environmental interactions. By measuring the rates and probabilities with which cells transition between a trio of motility states (smooth-forward swimming, quiescence, tumbling or exci...
The coordination of eukaryotic flagella is essential for many of the most basic processes of life (m...
Microbial life pervades our planet, and many species evolved the ability to propel themselves in the...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...
The movement trajectories of organisms serve as dynamic read-outs of their behaviour and physiology....
Microorganisms, such as bacteria and microalgae, often live in habitats consisting of a liquid phase...
In evolutionary biology, choanoflagellates are broadly investigated as the closest animal ancestors....
Algae cells can be considered as microrobots from the perspective of engineering. These organisms no...
Unicellular Chlamydomonas reinhardtii micro-algae cells were inserted into a quasi-2D Hele-Shaw cham...
Cellular appendages such as cilia and flagella represent universal tools enabling cells and microbes...
International audienceSwimming at a micrometer scale demands particular strategies. Indeed when iner...
We used microfluidic tools and high-speed time-lapse microscopy to record trajectories of the soil b...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
The accumulation of motile cells at solid interfaces increases the rate of surface encounters and th...
Understanding the motility behavior of bacteria in confining microenvironments, in which they search...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
The coordination of eukaryotic flagella is essential for many of the most basic processes of life (m...
Microbial life pervades our planet, and many species evolved the ability to propel themselves in the...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...
The movement trajectories of organisms serve as dynamic read-outs of their behaviour and physiology....
Microorganisms, such as bacteria and microalgae, often live in habitats consisting of a liquid phase...
In evolutionary biology, choanoflagellates are broadly investigated as the closest animal ancestors....
Algae cells can be considered as microrobots from the perspective of engineering. These organisms no...
Unicellular Chlamydomonas reinhardtii micro-algae cells were inserted into a quasi-2D Hele-Shaw cham...
Cellular appendages such as cilia and flagella represent universal tools enabling cells and microbes...
International audienceSwimming at a micrometer scale demands particular strategies. Indeed when iner...
We used microfluidic tools and high-speed time-lapse microscopy to record trajectories of the soil b...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
The accumulation of motile cells at solid interfaces increases the rate of surface encounters and th...
Understanding the motility behavior of bacteria in confining microenvironments, in which they search...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
The coordination of eukaryotic flagella is essential for many of the most basic processes of life (m...
Microbial life pervades our planet, and many species evolved the ability to propel themselves in the...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...