scholarly article | Q13442814 |
P356 | DOI | 10.1074/JBC.M504779200 |
P698 | PubMed publication ID | 15961399 |
P2093 | author name string | Kazuaki Homma | |
Mitsuo Ikebe | |||
P2860 | cites work | Myosin-V is a processive actin-based motor | Q22003739 |
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Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 | Q25938983 | ||
Myosin superfamily evolutionary history | Q28207779 | ||
Kinetics of Nucleoside Triphosphate Cleavage and Phosphate Release Steps by Associated Rabbit Skeletal Actomyosin, Measured Using a Novel Fluorescent Probe for Phosphate † | Q29012678 | ||
Antagonism between Ena/VASP proteins and actin filament capping regulates fibroblast motility | Q29618423 | ||
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Myosins: a diverse superfamily | Q33866577 | ||
The tumor-sensitive calmodulin-like protein is a specific light chain of human unconventional myosin X. | Q33940427 | ||
Myosin-X provides a motor-based link between integrins and the cytoskeleton. | Q34322246 | ||
Higher plant myosin XI moves processively on actin with 35 nm steps at high velocity | Q34794210 | ||
Overlapping functions of myosin-I isoforms? | Q36236733 | ||
Brain myosin V is a synaptic vesicle-associated motor protein: evidence for a Ca2+-dependent interaction with the synaptobrevin-synaptophysin complex | Q36266918 | ||
Regulation of melanosome movement in the cell cycle by reversible association with myosin V. | Q36301417 | ||
Visualization of melanosome dynamics within wild-type and dilute melanocytes suggests a paradigm for myosin V function In vivo | Q36328552 | ||
The kinetic mechanism of myosin V. | Q36700327 | ||
Direct, real-time measurement of rapid inorganic phosphate release using a novel fluorescent probe and its application to actomyosin subfragment 1 ATPase | Q38306313 | ||
Mechanism of action of myosin X, a membrane-associated molecular motor. | Q40459823 | ||
Short-range axonal/dendritic transport by myosin-V: A model for vesicle delivery to the synapse | Q40540113 | ||
A monomeric myosin VI with a large working stroke | Q40573331 | ||
Class VI myosin moves processively along actin filaments backward with large steps | Q40758767 | ||
The core of the motor domain determines the direction of myosin movement | Q40784283 | ||
Functional significance of the conserved residues in the flexible hinge region of the myosin motor domain | Q42058592 | ||
Kinetic mechanism and regulation of myosin VI. | Q43651972 | ||
Motor function and regulation of myosin X. | Q43678692 | ||
The gated gait of the processive molecular motor, myosin V. | Q43820585 | ||
The motor domain determines the large step of myosin-V. | Q43863367 | ||
A hinge at the central helix of the regulatory light chain of myosin is critical for phosphorylation-dependent regulation of smooth muscle myosin motor activity | Q47891659 | ||
P433 | issue | 32 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 29381-29391 | |
P577 | publication date | 2005-06-16 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Myosin X is a high duty ratio motor | |
P478 | volume | 280 |
Q30482736 | A myosin motor that selects bundled actin for motility |
Q41978648 | A novel form of motility in filopodia revealed by imaging myosin-X at the single-molecule level |
Q24298446 | A unique ATP hydrolysis mechanism of single-headed processive myosin, myosin IX |
Q30841590 | Activated full-length myosin-X moves processively on filopodia with large steps toward diverse two-dimensional directions |
Q37178542 | DPP6 regulation of dendritic morphogenesis impacts hippocampal synaptic development. |
Q46895770 | Drosophila myosin VIIA is a high duty ratio motor with a unique kinetic mechanism |
Q43146291 | Effect of phosphorylation in the motor domain of human myosin IIIA on its ATP hydrolysis cycle |
Q34570448 | Human myosin III is a motor having an extremely high affinity for actin |
Q33310247 | Human myosin Vc is a low duty ratio nonprocessive motor |
Q38756098 | Kinetic Adaptations of Myosins for Their Diverse Cellular Functions |
Q41048804 | Kinetic adaptation of human Myo19 for active mitochondrial transport to growing filopodia tips |
Q30577417 | Molecular characterization and subcellular localization of Arabidopsis class VIII myosin, ATM1. |
Q39005661 | MyTH4-FERM myosins in the assembly and maintenance of actin-based protrusions |
Q39702350 | Myosin XI-I is Mechanically and Enzymatically Unique Among Class-XI Myosins in Arabidopsis |
Q34985570 | Myosin motor function: the ins and outs of actin-based membrane protrusions. |
Q30482632 | Myosin-10 and actin filaments are essential for mitotic spindle function |
Q33607079 | Myosin-10 produces its power-stroke in two phases and moves processively along a single actin filament under low load |
Q30494868 | Myosin-X induces filopodia by multiple elongation mechanism |
Q24299253 | Myosin-X is a molecular motor that functions in filopodia formation |
Q35576442 | Myosin-X: a MyTH-FERM myosin at the tips of filopodia |
Q51377017 | Myosins: Domain Organisation, Motor Properties, Physiological Roles and Cellular Functions. |
Q52612413 | Phospholipid-dependent regulation of the motor activity of myosin X. |
Q37946073 | Shaking the myosin family tree: biochemical kinetics defines four types of myosin motor |
Q30494681 | Single-molecule stepping and structural dynamics of myosin X. |
Q88202227 | The Antiparallel Dimerization of Myosin X Imparts Bundle Selectivity for Processive Motility |
Q30480576 | The motor activity of myosin-X promotes actin fiber convergence at the cell periphery to initiate filopodia formation. |
Q27333243 | The myosin X motor is optimized for movement on actin bundles |
Q37208900 | The tail binds to the head-neck domain, inhibiting ATPase activity of myosin VIIA |
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