The processive movement of the dimeric motor protein kinesin 1 along microtubules requires communication between the two motor domains. Yildiz et al. (2008) now show that tension between the motor domains not only is necessary for normal processivity but also may be sufficient for motor motility under some conditions
Cells are shaped by the cytoskeleton, a network of dynamic biopolymers and associated proteins. Amon...
Intracellular transport is supported by enzymes called motor proteins that are often coupled to the ...
Molecular motors often work collectively inside the cell. While the properties of individual motors ...
The processive movement of the dimeric motor protein kinesin 1 along microtubules requires communica...
A single kinesin molecule can move for hun-dreds of steps along a microtubule without dissociating. ...
Evidence is presented that the kinesin-related ncd protein is not as processive as kinesin. In low s...
Kinesin is a dimeric motor protein that can move along a microtubule for several microns without rel...
Conventional kinesin (kinesin-1) transports membrane-bounded cargos such as mitochondria and vesicle...
Kinesin is a dimeric motor protein that can move along a microtubule for several microns without rel...
Permeating throughout a eukaryotic cell is a lattice of filamentous tracks called microtubules, upon...
The protein family of kinesins contains processive motor proteins that move stepwise along microtubu...
SummaryKinesin advances 8 nm along a microtubule per ATP hydrolyzed, but the mechanism responsible f...
AbstractKinesin-1 is a dimeric motor protein that moves stepwise along microtubules. A two-stranded ...
AbstractSmall tension signals that pass between the two linked heads of kinesin allow the motor prot...
It has been thought that motile structures within the cell are driven toward the plus and minus ends...
Cells are shaped by the cytoskeleton, a network of dynamic biopolymers and associated proteins. Amon...
Intracellular transport is supported by enzymes called motor proteins that are often coupled to the ...
Molecular motors often work collectively inside the cell. While the properties of individual motors ...
The processive movement of the dimeric motor protein kinesin 1 along microtubules requires communica...
A single kinesin molecule can move for hun-dreds of steps along a microtubule without dissociating. ...
Evidence is presented that the kinesin-related ncd protein is not as processive as kinesin. In low s...
Kinesin is a dimeric motor protein that can move along a microtubule for several microns without rel...
Conventional kinesin (kinesin-1) transports membrane-bounded cargos such as mitochondria and vesicle...
Kinesin is a dimeric motor protein that can move along a microtubule for several microns without rel...
Permeating throughout a eukaryotic cell is a lattice of filamentous tracks called microtubules, upon...
The protein family of kinesins contains processive motor proteins that move stepwise along microtubu...
SummaryKinesin advances 8 nm along a microtubule per ATP hydrolyzed, but the mechanism responsible f...
AbstractKinesin-1 is a dimeric motor protein that moves stepwise along microtubules. A two-stranded ...
AbstractSmall tension signals that pass between the two linked heads of kinesin allow the motor prot...
It has been thought that motile structures within the cell are driven toward the plus and minus ends...
Cells are shaped by the cytoskeleton, a network of dynamic biopolymers and associated proteins. Amon...
Intracellular transport is supported by enzymes called motor proteins that are often coupled to the ...
Molecular motors often work collectively inside the cell. While the properties of individual motors ...
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