Nerve growth cone lamellipodia contain two populations of actin filaments that differ in organization and polarity.
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Intrinsic dynamic behavior of fascin in filopodiaSpecific features of neuronal size and shape are regulated by tropomyosin isoforms.Intracellular actin-based transport: how far you go depends on how often you switchArp2/3 complex is required for actin polymerization during platelet shape changeFilamin A, the Arp2/3 complex, and the morphology and function of cortical actin filaments in human melanoma cellsLow Density Lipoprotein Receptor Related Proteins as Regulators of Neural Stem and Progenitor Cell FunctionSrc and cortactin promote lamellipodia protrusion and filopodia formation and stability in growth conesThe role of actin turnover in retrograde actin network flow in neuronal growth conesPhosphorylation of collapsin response mediator protein-2 by Rho-kinase. Evidence for two separate signaling pathways for growth cone collapseInteraction of SAP97 with minus-end-directed actin motor myosin VI. Implications for AMPA receptor traffickingExpression and subcellular localization of WAVE isoforms in the megakaryocyte/platelet lineageAn essential role of the aPKC-Aurora A-NDEL1 pathway in neurite elongation by modulation of microtubule dynamicsIdentification of Novel Graded Polarity Actin Filament Bundles in Locomoting Heart Fibroblasts: Implications for the Generation of Motile ForceMechanism of filopodia initiation by reorganization of a dendritic network.Capping protein is essential for cell migration in vivo and for filopodial morphology and dynamics.Formation of filopodia-like bundles in vitro from a dendritic network.Energetics and dynamics of constrained actin filament bundlingAsymmetrical beta-actin mRNA translation in growth cones mediates attractive turning to netrin-1.The motor activity of myosin-X promotes actin fiber convergence at the cell periphery to initiate filopodia formation.Birefringence imaging directly reveals architectural dynamics of filamentous actin in living growth cones.Keratocytes generate traction forces in two phases.Retrograde flow and myosin II activity within the leading cell edge deliver F-actin to the lamella to seed the formation of graded polarity actomyosin II filament bundles in migrating fibroblasts.Coordination of actin filament and microtubule dynamics during neurite outgrowth.Orientational order of the lamellipodial actin network as demonstrated in living motile cells.Myosin-X induces filopodia by multiple elongation mechanism.Reactive oxygen species regulate F-actin dynamics in neuronal growth cones and neurite outgrowth.Filopodial initiation and a novel filament-organizing center, the focal ringProtein kinase C activation decreases peripheral actin network density and increases central nonmuscle myosin II contractility in neuronal growth conesDynamic peripheral traction forces balance stable neurite tension in regenerating Aplysia bag cell neurons.A mechanism of leading-edge protrusion in the absence of Arp2/3 complex.Real-time monitoring of cell protrusion dynamics by impedance responses.Arp2/3 branched actin network mediates filopodia-like bundles formation in vitro.Coordination of membrane and actin cytoskeleton dynamics during filopodia protrusion.Autonomous right-screw rotation of growth cone filopodia drives neurite turning.Particles move along actin filament bundles in nerve growth cones.Vesicle transport: the role of actin filaments and myosin motors.Polyisoprenylated cysteinyl amide inhibitors disrupt actin cytoskeleton organization, induce cell rounding and block migration of non-small cell lung cancer.Acidic calponin immunoreactivity in postnatal rat brain and cultures: subcellular localization in growth cones, under the plasma membrane and along actin and glial filaments.Signaling between the actin cytoskeleton and the postsynaptic density of dendritic spines.Filopodia and actin arcs guide the assembly and transport of two populations of microtubules with unique dynamic parameters in neuronal growth cones.
P2860
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P2860
Nerve growth cone lamellipodia contain two populations of actin filaments that differ in organization and polarity.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh-hant
name
Nerve growth cone lamellipodia ...... in organization and polarity.
@en
Nerve growth cone lamellipodia ...... in organization and polarity.
@nl
type
label
Nerve growth cone lamellipodia ...... in organization and polarity.
@en
Nerve growth cone lamellipodia ...... in organization and polarity.
@nl
prefLabel
Nerve growth cone lamellipodia ...... in organization and polarity.
@en
Nerve growth cone lamellipodia ...... in organization and polarity.
@nl
P2860
P356
P1476
Nerve growth cone lamellipodia ...... in organization and polarity.
@en
P2093
P C Bridgman
P2860
P304
P356
10.1083/JCB.119.5.1219
P407
P577
1992-12-01T00:00:00Z