Growing actin networks form lamellipodium and lamellum by self-assembly.
about
Loss of cofilin 1 disturbs actin dynamics, adhesion between enveloping and deep cell layers and cell movements during gastrulation in zebrafishThe More the Tubular: Dynamic Bundling of Actin Filaments for Membrane Tube FormationEmergent complexity of the cytoskeleton: from single filaments to tissueThere is more than one way to model an elephant. Experiment-driven modeling of the actin cytoskeletonRobust organizational principles of protrusive biopolymer networks in migrating living cellsHow tropomyosin regulates lamellipodial actin-based motility: a combined biochemical and reconstituted motility approach.Simulation of cell motility that reproduces the force-velocity relationshipMechano-chemical feedbacks regulate actin mesh growth in lamellipodial protrusions.Form and function in cell motility: from fibroblasts to keratocytes.Effects of molecular-scale processes on observable growth properties of actin networks.The effects of filament aging and annealing on a model lamellipodium undergoing disassembly by severing.Actin dynamics: from nanoscale to microscale.Formation of transient lamellipodia.Membrane related dynamics and the formation of actin in cells growing on micro-topographies: a spatial computational modelMembrane tension, myosin force, and actin turnover maintain actin treadmill in the nerve growth cone.Excitable actin dynamics in lamellipodial protrusion and retractionPhysical model for self-organization of actin cytoskeleton and adhesion complexes at the cell front.Myo1c facilitates G-actin transport to the leading edge of migrating endothelial cellsDistributed actin turnover in the lamellipodium and FRAP kinetics.Active gels as a description of the actin-myosin cytoskeleton.Self-regulative organization of the cytoskeleton.A review of models of fluctuating protrusion and retraction patterns at the leading edge of motile cells.Multiscale modeling of cell shape from the actin cytoskeleton.Model of turnover kinetics in the lamellipodium: implications of slow- and fast- diffusing capping protein and Arp2/3 complex.Role of focal adhesions and mechanical stresses in the formation and progression of the lamellipodium-lamellum interface [corrected]Actin Turnover in Lamellipodial Fragments.Nano-scale actin-network characterization of fibroblast cells lacking functional Arp2/3 complex.A model of NMDA receptor control of F-actin treadmilling in synaptic spines and their growth.
P2860
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P2860
Growing actin networks form lamellipodium and lamellum by self-assembly.
description
2008 nî lūn-bûn
@nan
2008 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Growing actin networks form lamellipodium and lamellum by self-assembly.
@ast
Growing actin networks form lamellipodium and lamellum by self-assembly.
@en
type
label
Growing actin networks form lamellipodium and lamellum by self-assembly.
@ast
Growing actin networks form lamellipodium and lamellum by self-assembly.
@en
prefLabel
Growing actin networks form lamellipodium and lamellum by self-assembly.
@ast
Growing actin networks form lamellipodium and lamellum by self-assembly.
@en
P2860
P1433
P1476
Growing actin networks form lamellipodium and lamellum by self-assembly
@en
P2093
Björn Stuhrmann
P2860
P304
P356
10.1529/BIOPHYSJ.108.134817
P407
P577
2008-08-15T00:00:00Z