about
Myosin IXb is a single-headed minus-end-directed processive motorA novel microtubule-based motor protein (KIF4) for organelle transports, whose expression is regulated developmentallyThe two motor domains of KIF3A/B coordinate for processive motility and move at different speeds.Myosin VI is a processive motor with a large step sizeStepping, strain gating, and an unexpected force-velocity curve for multiple-motor-based transportCrystal structure of the kinesin motor domain reveals a structural similarity to myosinRANBP2 is an allosteric activator of the conventional kinesin-1 motor protein, KIF5B, in a minimal cell-free systemSwitches, latches, and amplifiers: common themes of G proteins and molecular motorsCalsyntenin-1 docks vesicular cargo to kinesin-1Artificial Molecular MachinesForce generation by kinesin and myosin cytoskeletal motor proteinsCoupling of kinesin ATP turnover to translocation and microtubule regulation: one engine, many machinesS. pombe kinesins-8 promote both nucleation and catastrophe of microtubulesNavigation Strategies of Motor Proteins on Decorated TracksTunable dynamics of microtubule-based active isotropic gelsTopographical pathways guide chemical microswimmers.A kinesin motor in a force-producing conformationThe yeast class V myosins, Myo2p and Myo4p, are nonprocessive actin-based motors.Kinesin, 30 years later: Recent insights from structural studiesMyosin-IXb is a single-headed and processive motorControlling the direction of kinesin-driven microtubule movements along microlithographic tracksMolecular motors: thermodynamics and the random walkMotility of single one-headed kinesin molecules along microtubules.Force measurements on single molecular contacts through evanescent wave microscopy.Dynamic imaging of cannabinoid receptor 1 vesicular trafficking in cultured astrocytesActivation of conventional kinesin motors in clusters by Shaw voltage-gated K+ channels.Effects of surface passivation on gliding motility assaysA structural change in the kinesin motor protein that drives motilityOptical traps to study properties of molecular motors.The reciprocal coordination and mechanics of molecular motors in living cells.Molecular motors are differentially distributed on Golgi membranes from polarized epithelial cells.Direct physical study of kinetochore-microtubule interactions by reconstitution and interrogation with an optical force clamp.The E-hook of tubulin interacts with kinesin's head to increase processivity and speed.Identification of a strong binding site for kinesin on the microtubule using mutant analysis of tubulin.Multiple-motor based transport and its regulation by Tau.Tracking single Kinesin molecules in the cytoplasm of mammalian cells.Autoinhibition regulates the motility of the C. elegans intraflagellar transport motor OSM-3Transport of beads by several kinesin motorsKinesin's processivity results from mechanical and chemical coordination between the ATP hydrolysis cycles of the two motor domains.Coordination of Kinesin motors pulling on fluid membranes.
P2860
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P2860
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年学术文章
@wuu
1989年学术文章
@zh
1989年学术文章
@zh-cn
1989年学术文章
@zh-hans
1989年学术文章
@zh-my
1989年学术文章
@zh-sg
1989年學術文章
@yue
1989年學術文章
@zh-hant
name
Movement of microtubules by single kinesin molecules.
@en
Movement of microtubules by single kinesin molecules.
@nl
type
label
Movement of microtubules by single kinesin molecules.
@en
Movement of microtubules by single kinesin molecules.
@nl
prefLabel
Movement of microtubules by single kinesin molecules.
@en
Movement of microtubules by single kinesin molecules.
@nl
P356
P1433
P1476
Movement of microtubules by single kinesin molecules.
@en
P2093
A J Hudspeth
P2888
P304
P356
10.1038/342154A0
P407
P577
1989-11-01T00:00:00Z
P6179
1013323497