Coupling of ATPase activity and motility in smooth muscle myosin is mediated by the regulatory light chain.
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The On–Off Switch in Regulated Myosins: Different Triggers but Related MechanismsCryo-atomic force microscopy of unphosphorylated and thiophosphorylated single smooth muscle myosin molecules.Myosin essential light chain isoforms modulate the velocity of shortening propelled by nonphosphorylated cross-bridges.In vivo observations of myosin II dynamics support a role in rear retraction.Myosin conformational states determined by single fluorophore polarizationThe N-terminal lobes of both regulatory light chains interact with the tail domain in the 10 S-inhibited conformation of smooth muscle myosin.Role of essential light chain EF hand domains in calcium binding and regulation of scallop myosinCalmodulin signaling via the IQ motif.Role of skeletal and smooth muscle myosin light chains.A fluorescent protein biosensor of myosin II regulatory light chain phosphorylation reports a gradient of phosphorylated myosin II in migrating cells.Single myosin cross-bridge orientation in cardiac papillary muscle detects lever-arm shear strain in transduction.Modification of interface between regulatory and essential light chains hampers phosphorylation-dependent activation of smooth muscle myosinAn unusual transduction pathway in human tonic smooth muscle myosinCloning, expression, and characterization of a novel molecular motor, Leishmania myosin-XXI.Porcine myosin-VI: characterization of a new mammalian unconventional myosinTargeted disruption of the Dictyostelium RMLC gene produces cells defective in cytokinesis and development.Regulation of Dictyostelium myosin II by phosphorylation: what is essential and what is important?Expression of a myosin regulatory light chain phosphorylation site mutant complements the cytokinesis and developmental defects of Dictyostelium RMLC null cellsMyosin light chain-activating phosphorylation sites are required for oogenesis in Drosophila.Slow cycling of unphosphorylated myosin is inhibited by calponin, thus keeping smooth muscle relaxed.Kinetic and motor functions mediated by distinct regions of the regulatory light chain of smooth muscle myosin.Truncation of a mammalian myosin I results in loss of Ca2+-sensitive motility.Regulated conformation of myosin V.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.Subunit interactions within an expressed regulatory domain of chicken skeletal myosin. Location of the NH2 terminus of the regulatory light chain by fluorescence resonance energy transfer.Enzymatic characterization and functional domain mapping of brain myosin-V.Myosin cross-bridge kinetics in airway smooth muscle: a comparative study of humans, rats, and rabbits.Requirement of the two-headed structure for the phosphorylation dependent regulation of smooth muscle myosin.Locking regulatory myosin in the off-state with trifluoperazine.
P2860
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P2860
Coupling of ATPase activity and motility in smooth muscle myosin is mediated by the regulatory light chain.
description
1994 nî lūn-bûn
@nan
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
1994年论文
@zh
1994年论文
@zh-cn
name
Coupling of ATPase activity an ...... by the regulatory light chain.
@ast
Coupling of ATPase activity an ...... by the regulatory light chain.
@en
type
label
Coupling of ATPase activity an ...... by the regulatory light chain.
@ast
Coupling of ATPase activity an ...... by the regulatory light chain.
@en
prefLabel
Coupling of ATPase activity an ...... by the regulatory light chain.
@ast
Coupling of ATPase activity an ...... by the regulatory light chain.
@en
P2093
P2860
P356
P1476
Coupling of ATPase activity an ...... by the regulatory light chain.
@en
P2093
G S Waller
K M Trybus
T A Chatman
P2860
P304
P356
10.1083/JCB.124.6.963
P407
P577
1994-03-01T00:00:00Z