SummaryThe beating of cilia and flagella depends on microtubule sliding generated by dynein motors, but the interaction of these motors with their tracks is still under investigation. New evidence suggests that some dynein motors will not function properly unless their track has been modified by a specific post-translational modification
Long-range intracellular transport is facilitated by motor proteins, such as kinesin-1 and cytoplasm...
In vitro gliding assays, in which microtubules are observed to glide over surfaces coated with motor...
Cytoplasmic dynein is a highly complex motor protein that generates forces toward the minus end of m...
SummaryThe beating of cilia and flagella depends on microtubule sliding generated by dynein motors, ...
SummaryHow microtubule-associated motor proteins are regulated is not well understood. A potential m...
The motile structure within eukaryotic cilia and flagella is the axoneme. This structure typically c...
AbstractMicrotubule diversity, arising from the utilization of different tubulin genes and from post...
Dynein, the force-generating enzyme that powers the movement of cilia and flagella, has been charact...
Abstract Dynein is a minus-end-directed motor that generates oscillatory motion in eukaryotic flagel...
A new optical trapping study shows that the stepsize of cytoplasmic dynein varies according to the a...
Abstract: Eukaryotic flagella and cilia have attracted the attention of many researchers over the la...
SummaryTubulin polyglutamylation is a modification that adds multiple glutamates to the γ-carboxyl g...
Cilia and eukaryotic flagella are slender cellular appendages whose regular beating propels cells an...
AbstractInner-arm dynein-f of Chlamydomonas flagella is a heterodimeric dynein. We performed convent...
Motor proteins take part in the organization and division of eukaryotic cells by using their ability...
Long-range intracellular transport is facilitated by motor proteins, such as kinesin-1 and cytoplasm...
In vitro gliding assays, in which microtubules are observed to glide over surfaces coated with motor...
Cytoplasmic dynein is a highly complex motor protein that generates forces toward the minus end of m...
SummaryThe beating of cilia and flagella depends on microtubule sliding generated by dynein motors, ...
SummaryHow microtubule-associated motor proteins are regulated is not well understood. A potential m...
The motile structure within eukaryotic cilia and flagella is the axoneme. This structure typically c...
AbstractMicrotubule diversity, arising from the utilization of different tubulin genes and from post...
Dynein, the force-generating enzyme that powers the movement of cilia and flagella, has been charact...
Abstract Dynein is a minus-end-directed motor that generates oscillatory motion in eukaryotic flagel...
A new optical trapping study shows that the stepsize of cytoplasmic dynein varies according to the a...
Abstract: Eukaryotic flagella and cilia have attracted the attention of many researchers over the la...
SummaryTubulin polyglutamylation is a modification that adds multiple glutamates to the γ-carboxyl g...
Cilia and eukaryotic flagella are slender cellular appendages whose regular beating propels cells an...
AbstractInner-arm dynein-f of Chlamydomonas flagella is a heterodimeric dynein. We performed convent...
Motor proteins take part in the organization and division of eukaryotic cells by using their ability...
Long-range intracellular transport is facilitated by motor proteins, such as kinesin-1 and cytoplasm...
In vitro gliding assays, in which microtubules are observed to glide over surfaces coated with motor...
Cytoplasmic dynein is a highly complex motor protein that generates forces toward the minus end of m...
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