Add to ORKGRecent observations of flagellar counterbend in sea urchin sperm show that the mechanical induction of curvature in one part of a passive flagellum induces a compensatory countercurvature elsewhere. This apparent paradoxical effect cannot be explained using the standard elastic rod theory of Euler and Bernoulli, or even the more general Cosserat theory of rods. Here, we develop a geometrically exact mechanical model to describe the statics of microtubule bundles that is capable of predicting the curvature reversal events observed in eukaryotic flagella. This is achieved by allowing the interaction of deformations in different material directions, by accounting not only for structural bending, but also for the elastic forces originating from...
AbstractThe 9+2 configuration of axonemes is one of the most conserved structures of eukaryotic orga...
The motile structure within eukaryotic cilia and flagella is the axoneme. This structure typically c...
Eukaryotic cell swimming is frequently actuated via the flagellum, which is a slender flexible appen...
Recent observations of flagellar counterbend in sea urchin sperm show that the mechanical induction ...
Cross-linked filament bundles, such as in cilia and flagella, are ubiquitous in biology. They are co...
Cross-linked filament bundles, such as in cilia and flagella, are ubiquitous in biology. They are co...
In this study we used Triton X-100 extracted sea urchin spermatozoa to investigate the mechanical be...
AbstractRat sperm that have been rendered passive by disabling the dynein motors with 50μM sodium me...
AbstractThe movement of eukaryotic flagella is characterized by its oscillatory nature [1]. In sea u...
The propulsion mechanics driving the movement of living cells constitutes one of the most incredible...
The flagellum is one of the most critical biological compenents in nature; it is a ba-sic feature co...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2012.Cataloge...
AbstractThe mechanism of oscillation in cilia and flagella has been a long-standing mystery. This ar...
Eukaryotic flagellar swimming is driven by a slender motile unit, the axoneme, which possesses an in...
AbstractIn the axoneme of eukaryotic flagella the dynein motor proteins form crossbridges between th...
AbstractThe 9+2 configuration of axonemes is one of the most conserved structures of eukaryotic orga...
The motile structure within eukaryotic cilia and flagella is the axoneme. This structure typically c...
Eukaryotic cell swimming is frequently actuated via the flagellum, which is a slender flexible appen...
Recent observations of flagellar counterbend in sea urchin sperm show that the mechanical induction ...
Cross-linked filament bundles, such as in cilia and flagella, are ubiquitous in biology. They are co...
Cross-linked filament bundles, such as in cilia and flagella, are ubiquitous in biology. They are co...
In this study we used Triton X-100 extracted sea urchin spermatozoa to investigate the mechanical be...
AbstractRat sperm that have been rendered passive by disabling the dynein motors with 50μM sodium me...
AbstractThe movement of eukaryotic flagella is characterized by its oscillatory nature [1]. In sea u...
The propulsion mechanics driving the movement of living cells constitutes one of the most incredible...
The flagellum is one of the most critical biological compenents in nature; it is a ba-sic feature co...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2012.Cataloge...
AbstractThe mechanism of oscillation in cilia and flagella has been a long-standing mystery. This ar...
Eukaryotic flagellar swimming is driven by a slender motile unit, the axoneme, which possesses an in...
AbstractIn the axoneme of eukaryotic flagella the dynein motor proteins form crossbridges between th...
AbstractThe 9+2 configuration of axonemes is one of the most conserved structures of eukaryotic orga...
The motile structure within eukaryotic cilia and flagella is the axoneme. This structure typically c...
Eukaryotic cell swimming is frequently actuated via the flagellum, which is a slender flexible appen...