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Current Biology, 2023
Dyneins are a family of motor proteins that carry out motility and force generation functions towards the minus end of microtubule filaments. Cytoplasmic dynein (dynein-1) is responsible for transporting intracellular cargos in the retrograde direction in the cytoplasm, anchoring several organelles to the microtubule network, driving nuclear migration ...
Ahmet Yıldız, Yuanchang Zhao
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Dyneins are a family of motor proteins that carry out motility and force generation functions towards the minus end of microtubule filaments. Cytoplasmic dynein (dynein-1) is responsible for transporting intracellular cargos in the retrograde direction in the cytoplasm, anchoring several organelles to the microtubule network, driving nuclear migration ...
Ahmet Yıldız, Yuanchang Zhao
exaly +4 more sources
Journal of Cell Science, 2023
ABSTRACT The microtubule minus-end-directed motility of cytoplasmic dynein 1 (dynein), arguably the most complex and versatile cytoskeletal motor, is harnessed for diverse functions, such as long-range organelle transport in neuronal axons and spindle assembly in dividing cells.
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ABSTRACT The microtubule minus-end-directed motility of cytoplasmic dynein 1 (dynein), arguably the most complex and versatile cytoskeletal motor, is harnessed for diverse functions, such as long-range organelle transport in neuronal axons and spindle assembly in dividing cells.
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Nature Structural & Molecular Biology, 2012
Dyneins are the largest of the cytoskeletal motor proteins, and their mechanochemical behavior is complex. Recent high-resolution crystallographic structures have revealed new surprises regarding motor domain organization and new insights into how force and movement are achieved.
Peter, Höök, Richard, Vallee
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Dyneins are the largest of the cytoskeletal motor proteins, and their mechanochemical behavior is complex. Recent high-resolution crystallographic structures have revealed new surprises regarding motor domain organization and new insights into how force and movement are achieved.
Peter, Höök, Richard, Vallee
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Current Opinion in Cell Biology, 2002
Cytoplasmic dynein is a minus end directed microtubule motor protein with numerous functions during interphase and mitosis. Recent evidence has identified several roles mediated by a fraction of cytoplasmic dynein associated with the cell cortex. So far, these include nuclear migration, mitotic spindle orientation, and cytoskeletal reorientation during
Denis L, Dujardin, Richard B, Vallee
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Cytoplasmic dynein is a minus end directed microtubule motor protein with numerous functions during interphase and mitosis. Recent evidence has identified several roles mediated by a fraction of cytoplasmic dynein associated with the cell cortex. So far, these include nuclear migration, mitotic spindle orientation, and cytoskeletal reorientation during
Denis L, Dujardin, Richard B, Vallee
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Biochemical Society Transactions, 2011
The organization and function of eukaryotic cells rely on the action of many different molecular motor proteins. Cytoplasmic dynein drives the movement of a wide range of cargoes towards the minus ends of microtubules, and these events are needed, not just at the single-cell level, but are vital for correct development.
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The organization and function of eukaryotic cells rely on the action of many different molecular motor proteins. Cytoplasmic dynein drives the movement of a wide range of cargoes towards the minus ends of microtubules, and these events are needed, not just at the single-cell level, but are vital for correct development.
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Journal of Cell Science, 1986
ABSTRACT The structure of dynein isolated from several sources follows the pattern first observed with Tetrahymena 22 S dynein, which has three globular heads attached by three flexible strands to a root-like base. Recent biochemical data indicate that there is one ATPase site on each dynein head and that all three heads interact with ...
K A, Johnson +4 more
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ABSTRACT The structure of dynein isolated from several sources follows the pattern first observed with Tetrahymena 22 S dynein, which has three globular heads attached by three flexible strands to a root-like base. Recent biochemical data indicate that there is one ATPase site on each dynein head and that all three heads interact with ...
K A, Johnson +4 more
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Cytoskeleton, 1990 Journal of Cell Science, 2006
Three families of cytoskeletal motor protein – the myosins, kinesins and dyneins – have evolved to mediate transport of cells and of structures and materials within cells in eukaryotes.
Peter, Höök, Richard B, Vallee
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Three families of cytoskeletal motor protein – the myosins, kinesins and dyneins – have evolved to mediate transport of cells and of structures and materials within cells in eukaryotes.
Peter, Höök, Richard B, Vallee
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Trends in Cell Biology, 1998
Three classes of cytoskeletal motor protein have been identified--myosins, kinesins and dyneins. Together, these proteins are now thought to be responsible for the remarkable variety of movements that occur in eukaryotic cells and that are essential for reproduction and survival.
R B, Vallee, M A, Gee
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Three classes of cytoskeletal motor protein have been identified--myosins, kinesins and dyneins. Together, these proteins are now thought to be responsible for the remarkable variety of movements that occur in eukaryotic cells and that are essential for reproduction and survival.
R B, Vallee, M A, Gee
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Reconstitution of Dynein/Dynactin Transport Using Recombinant Dynein
2023Cytoplasmic dynein-1 is activated by dynactin and a cargo adaptor for processive transport along microtubules. Dynein's motility can be visualized at the single-molecule level using total internal reflection fluorescence microscopy. Our understanding of the motile behavior of the dynein/dynactin complex has been aided by advances in recombinant ...
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