Add to ORKGThe motility of microorganisms is influenced greatly by their hydrodynamic interactions with the fluidic environment they inhabit. We show by direct experimental observation of the bi-flagellated alga Chlamydomonas reinhardtii that fluid elasticity and viscosity strongly influence the beating pattern - the gait - and thereby control the propulsion speed. The beating frequency and the wave speed characterizing the cyclical bending are both enhanced by fluid elasticity. Despite these enhancements, the net swimming speed of the alga is hindered for fluids that are sufficiently elastic. The origin of this complex response lies in the interplay between the elasticity-induced changes in the spatial and temporal aspects of the flagellar cycle and ...
AbstractThe distributed propulsive forces exerted on the flagellum of the swimming alga Chlamydomona...
What is flagellar swimming? Cilia and flagella are whip-like cell appendages that can exhibit regula...
\u3cp\u3eAlthough the motility of the flagellated bacteria, Escherichia coli, has been widely studie...
Many important biological functions depend on microorganisms' ability to move in viscoelastic fluids...
Many important biological functions depend on microorganisms' ability to move in viscoelastic fluids...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
Considering the abundance of viscoelastic fluids in nature, growing attention has been received for ...
Many microscopic swimmers in nature navigate through complex fluids, such as worm type swimmers in ...
The behavior of flagellated bacteria swimming in non-Newtonian media remains an area with contradict...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
The effects of fluid elasticity on the swimming behavior of the nematode Caenorhabditis elegans are ...
Suspensions of motile cells are model systems for understanding the unique mechanical properties of ...
The Reynolds number is a useful dimensionless term which compares the ratio between inertial forces ...
From the bacteria living on a keyboard to algae surviving in snow, microorganisms can be found virtu...
The flow of complex fluids, especially those containing polymers, is ubiquitous in nature and indust...
AbstractThe distributed propulsive forces exerted on the flagellum of the swimming alga Chlamydomona...
What is flagellar swimming? Cilia and flagella are whip-like cell appendages that can exhibit regula...
\u3cp\u3eAlthough the motility of the flagellated bacteria, Escherichia coli, has been widely studie...
Many important biological functions depend on microorganisms' ability to move in viscoelastic fluids...
Many important biological functions depend on microorganisms' ability to move in viscoelastic fluids...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
Considering the abundance of viscoelastic fluids in nature, growing attention has been received for ...
Many microscopic swimmers in nature navigate through complex fluids, such as worm type swimmers in ...
The behavior of flagellated bacteria swimming in non-Newtonian media remains an area with contradict...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
The effects of fluid elasticity on the swimming behavior of the nematode Caenorhabditis elegans are ...
Suspensions of motile cells are model systems for understanding the unique mechanical properties of ...
The Reynolds number is a useful dimensionless term which compares the ratio between inertial forces ...
From the bacteria living on a keyboard to algae surviving in snow, microorganisms can be found virtu...
The flow of complex fluids, especially those containing polymers, is ubiquitous in nature and indust...
AbstractThe distributed propulsive forces exerted on the flagellum of the swimming alga Chlamydomona...
What is flagellar swimming? Cilia and flagella are whip-like cell appendages that can exhibit regula...
\u3cp\u3eAlthough the motility of the flagellated bacteria, Escherichia coli, has been widely studie...