review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Alex Mogilner | Q18350998 |
P2093 | author name string | Kinneret Keren | |
P2860 | cites work | Regulation of cell movement is mediated by stretch-activated calcium channels | Q59054521 |
Principles of locomotion for simple-shaped cells | Q59067962 | ||
Persistent, directional motility of cells and cytoplasmic fragments in the absence of microtubules | Q59079016 | ||
Contact dynamics during keratocyte motility | Q63407310 | ||
Fibroblast contractility and actin organization are stimulated by microtubule inhibitors | Q69127112 | ||
Dynamics of fibroblast spreading | Q71921687 | ||
Analysis of actin dynamics at the leading edge of crawling cells: implications for the shape of keratocyte lamellipodia | Q73373431 | ||
How do microtubules guide migrating cells? | Q78599812 | ||
Myosin-X is a molecular motor that functions in filopodia formation | Q24299253 | ||
Coronin 1B antagonizes cortactin and remodels Arp2/3-containing actin branches in lamellipodia | Q24310847 | ||
The interaction of Arp2/3 complex with actin: nucleation, high affinity pointed end capping, and formation of branching networks of filaments | Q24653380 | ||
Comparative dynamics of retrograde actin flow and focal adhesions: formation of nascent adhesions triggers transition from fast to slow flow | Q27300187 | ||
Synthetic activation of endogenous PI3K and Rac identifies an AND-gate switch for cell polarization and migration | Q27300702 | ||
Emergence of large-scale cell morphology and movement from local actin filament growth dynamics | Q27334367 | ||
An actin-based wave generator organizes cell motility | Q27334396 | ||
Quantification of cell edge velocities and traction forces reveals distinct motility modules during cell spreading | Q27438144 | ||
Ordered patterns of cell shape and orientational correlation during spontaneous cell migration | Q27438146 | ||
Cell migration: integrating signals from front to back | Q27860670 | ||
Cellular motility driven by assembly and disassembly of actin filaments | Q27860676 | ||
Invadopodia: specialized cell structures for cancer invasion | Q28251084 | ||
A role for cytoplasmic dynein and LIS1 in directed cell movement | Q28591271 | ||
Cell shape provides global control of focal adhesion assembly | Q29041392 | ||
Rho GTPases control polarity, protrusion, and adhesion during cell movement | Q29614244 | ||
Migration of tumor cells in 3D matrices is governed by matrix stiffness along with cell-matrix adhesion and proteolysis | Q29615074 | ||
Compensation mechanism in tumor cell migration: mesenchymal-amoeboid transition after blocking of pericellular proteolysis | Q29615193 | ||
Conserved microtubule-actin interactions in cell movement and morphogenesis | Q29615212 | ||
Geometric control of cell life and death | Q29615213 | ||
Force and focal adhesion assembly: a close relationship studied using elastic micropatterned substrates | Q29616030 | ||
Mechanism of filopodia initiation by reorganization of a dendritic network | Q29616648 | ||
Two distinct actin networks drive the protrusion of migrating cells | Q29617078 | ||
Integrins in cell migration--the actin connection | Q30437361 | ||
Self-organization of actin filament orientation in the dendritic-nucleation/array-treadmilling model | Q30479338 | ||
Microtubules can bear enhanced compressive loads in living cells because of lateral reinforcement | Q30480404 | ||
Actin-myosin network reorganization breaks symmetry at the cell rear to spontaneously initiate polarized cell motility | Q30480556 | ||
Exploring the control circuit of cell migration by mathematical modeling | Q30481649 | ||
GEF-H1 couples nocodazole-induced microtubule disassembly to cell contractility via RhoA. | Q30481848 | ||
Performance of a population of independent filaments in lamellipodial protrusion | Q30482773 | ||
Dependence of invadopodia function on collagen fiber spacing and cross-linking: computational modeling and experimental evidence | Q30483094 | ||
Myosin II activity facilitates microtubule bundling in the neuronal growth cone neck | Q30483711 | ||
Coordination of actin filament and microtubule dynamics during neurite outgrowth | Q30484871 | ||
Cell shape and negative links in regulatory motifs together control spatial information flow in signaling networks | Q30489597 | ||
Talin depletion reveals independence of initial cell spreading from integrin activation and traction | Q30490335 | ||
Cell migration as a five-step cycle. | Q30697427 | ||
The actin-based nanomachine at the leading edge of migrating cells | Q30761122 | ||
Lamellipodial actin mechanically links myosin activity with adhesion-site formation | Q30834196 | ||
The influence of cell mechanics, cell-cell interactions, and proliferation on epithelial packing | Q33310528 | ||
Arp2/3 branched actin network mediates filopodia-like bundles formation in vitro. | Q33372331 | ||
Actin machinery: pushing the envelope. | Q33840347 | ||
Mechanism of shape determination in motile cells | Q33882327 | ||
Self-organization of a propulsive actin network as an evolutionary process | Q33944495 | ||
Pattern formation by local self-activation and lateral inhibition | Q33986085 | ||
Regulation of actin dynamics in rapidly moving cells: a quantitative analysis | Q34178584 | ||
Eukaryotic chemotaxis: distinctions between directional sensing and polarization | Q34188022 | ||
Morphology of the lamellipodium and organization of actin filaments at the leading edge of crawling cells | Q34351900 | ||
Dynamics of membranes driven by actin polymerization | Q34352973 | ||
Self-polarization and directional motility of cytoplasm | Q34487647 | ||
Adaptation of core mechanisms to generate cell polarity | Q35109711 | ||
Pearling in cells: a clue to understanding cell shape | Q35617177 | ||
Crawling toward a unified model of cell mobility: spatial and temporal regulation of actin dynamics. | Q35799956 | ||
Cytoskeletal mechanisms responsible for invasive migration of neoplastic cells | Q35878892 | ||
Foot and mouth: podosomes, invadopodia and circular dorsal ruffles | Q35887297 | ||
Spatio-temporal analysis of eukaryotic cell motility by improved force cytometry | Q35925606 | ||
Model of polarization and bistability of cell fragments | Q36156503 | ||
Mechanics of crawling cells | Q36166800 | ||
Mechanism and role of localized activation of Rho-family GTPases in growth factor-stimulated fibroblasts and neuronal cells. | Q36206370 | ||
Cell migration in tumors | Q36228553 | ||
The comings and goings of actin: coupling protrusion and retraction in cell motility | Q36228793 | ||
Cell migration in 3D matrix | Q36236442 | ||
Multinucleation-induced improvement of the spreading of transformed cells on the substratum. | Q36261156 | ||
Analysis of the actin-myosin II system in fish epidermal keratocytes: mechanism of cell body translocation | Q36273905 | ||
Cell shape and cell division | Q36625784 | ||
The stochastic dynamics of filopodial growth | Q36632087 | ||
Asymmetric focal adhesion disassembly in motile cells. | Q37033437 | ||
One-dimensional topography underlies three-dimensional fibrillar cell migration | Q37124347 | ||
Implications of a poroelastic cytoplasm for the dynamics of animal cell shape | Q37131643 | ||
Visualizing and quantifying adhesive signals | Q37202389 | ||
On the shape of migrating cells--a 'front-to-back' model | Q37236783 | ||
Controlling cell length | Q37244842 | ||
The mechanical integrin cycle. | Q37360851 | ||
Proteolytic interstitial cell migration: a five-step process. | Q37372558 | ||
The relationship of fibroblast translocations to cell morphology and stress fibre density. | Q38537063 | ||
Subcellular curvature at the perimeter of micropatterned cells influences lamellipodial distribution and cell polarity. | Q39954251 | ||
Filamentous network mechanics and active contractility determine cell and tissue shape | Q39965431 | ||
Decreased polarity and increased random motility in PtK1 epithelial cells correlate with inhibition of endosomal recycling | Q40239771 | ||
Arp2/3 complex-mediated actin polymerisation occurs on specific pre-existing networks in cells and requires spatial restriction to sustain functional lamellipod extension | Q40291374 | ||
Cell distribution of stress fibres in response to the geometry of the adhesive environment | Q40301712 | ||
The three-dimensional dynamics of actin waves, a model of cytoskeletal self-organization. | Q41832167 | ||
Cell spreading and lamellipodial extension rate is regulated by membrane tension | Q41931161 | ||
A novel form of motility in filopodia revealed by imaging myosin-X at the single-molecule level | Q41978648 | ||
Geometric determinants of directional cell motility revealed using microcontact printing | Q42833133 | ||
Cell behaviour on micropatterned substrata: limits of extracellular matrix geometry for spreading and adhesion | Q42833375 | ||
Regulation of mechanical interactions between fibroblasts and the substratum by stretch-activated Ca2+ entry | Q42833886 | ||
Propagation of mechanical stress through the actin cytoskeleton toward focal adhesions: model and experiment | Q42972011 | ||
Divergent signals and cytoskeletal assemblies regulate self-organizing polarity in neutrophils | Q44530451 | ||
Potential for control of signaling pathways via cell size and shape | Q47323029 | ||
Rho GTPases | Q47724821 | ||
Relationships between actin regulatory mechanisms and measurable state variables. | Q51040333 | ||
Contractility and retrograde flow in lamellipodium motion. | Q51938141 | ||
Polarization and movement of keratocytes: a multiscale modelling approach. | Q51939254 | ||
Endothelial cell protrusion and migration in three-dimensional collagen matrices. | Q53641844 | ||
The locomotion of fibroblasts in culture I. Movements of the leading edge | Q53755605 | ||
The composition and dynamics of cell-substratum adhesions in locomoting fish keratocytes. | Q55067331 | ||
Limits of filopodium stability. | Q55514892 | ||
Cooperativity between Cell Contractility and Adhesion | Q57581639 | ||
P433 | issue | 17 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | R762-71 | |
P577 | publication date | 2009-09-01 | |
P1433 | published in | Current Biology | Q1144851 |
P1476 | title | The shape of motile cells | |
P478 | volume | 19 |
Q36528371 | A chemically-defined screening platform reveals behavioral similarities between primary human mesenchymal stem cells and endothelial cells. |
Q30576118 | A contractile and counterbalancing adhesion system controls the 3D shape of crawling cells |
Q27001708 | A growing family: the expanding universe of the bacterial cytoskeleton |
Q27315159 | A lateral signalling pathway coordinates shape volatility during cell migration |
Q37987096 | A review of models of fluctuating protrusion and retraction patterns at the leading edge of motile cells |
Q30539600 | A role for actin arcs in the leading-edge advance of migrating cells |
Q41876426 | A screen for morphological complexity identifies regulators of switch-like transitions between discrete cell shapes |
Q35827505 | A secreted MMP is required for reepithelialization during wound healing |
Q41900901 | A simple force-motion relation for migrating cells revealed by multipole analysis of traction stress |
Q39066584 | Active contractions in single suspended epithelial cells. |
Q27313955 | Advancing Edge Speeds of Epithelial Monolayers Depend on Their Initial Confining Geometry |
Q27321445 | An adhesion-dependent switch between mechanisms that determine motile cell shape |
Q27312428 | An intact centrosome is required for the maintenance of polarization during directional cell migration |
Q39179468 | Analysis of multiple physical parameters for mechanical phenotyping of living cells |
Q30547708 | Analysis of the local organization and dynamics of cellular actin networks |
Q51109919 | Analytical solutions of actin-retrograde-flow in a circular stationary cell: a mechanical point of view. |
Q28483947 | Arhgef15 promotes retinal angiogenesis by mediating VEGF-induced Cdc42 activation and potentiating RhoJ inactivation in endothelial cells |
Q39113265 | Atomic force microscopy imaging of live mammalian cells |
Q57286198 | Atomic force microscopy reveals new biophysical markers for monitoring subcellular changes in oxidative injury: Neuroprotective effects of quercetin at the nanoscale |
Q37345613 | Boundaries steer the contraction of active gels |
Q35497542 | Boyden chamber-based method for characterizing the distribution of adhesions and cytoskeletal structure in HT1080 fibrosarcoma cells |
Q39627627 | Calmodulin-kinases regulate basal and estrogen stimulated medulloblastoma migration via Rac1. |
Q37915388 | Cell motility: the integrating role of the plasma membrane. |
Q44575020 | Closing the loop: lamellipodia dynamics from the perspective of front propagation |
Q40998713 | Collective motion of cells crawling on a substrate: roles of cell shape and contact inhibition |
Q53369051 | Comparative Assessment of Oral Mesenchymal Stem Cells Isolated from Healthy and Diseased Tissues. |
Q52552970 | Complex self-propelled rings: a minimal model for cell motility. |
Q47294328 | Computational modeling of single-cell mechanics and cytoskeletal mechanobiology. |
Q90795283 | Condensed desmin and actin cytoskeletal communication in lipid droplets |
Q33563348 | Contact guidance requires spatial control of leading-edge protrusion. |
Q46084373 | Continuum modeling and numerical simulation of cell motility |
Q27318856 | Crawling and Gliding: A Computational Model for Shape-Driven Cell Migration |
Q30528218 | Crawling from soft to stiff matrix polarizes the cytoskeleton and phosphoregulates myosin-II heavy chain |
Q30570343 | Cross-talk between Rho and Rac GTPases drives deterministic exploration of cellular shape space and morphological heterogeneity. |
Q36468648 | Current concepts of the podocyte in nephrotic syndrome |
Q37778594 | Cytoskeletal Cross-linking and Bundling in Motor-Independent Contraction |
Q42773442 | Decoding information in cell shape |
Q27300787 | Disentangling Membrane Dynamics and Cell Migration; Differential Influences of F-actin and Cell-Matrix Adhesions |
Q37867601 | Dynamic lineage analysis of embryonic morphogenesis using transgenic quail and 4D multispectral imaging |
Q91739157 | Dynamic spherical harmonics approach for shape classification of migrating cells |
Q27316501 | Dynamics of Cell Ensembles on Adhesive Micropatterns: Bridging the Gap between Single Cell Spreading and Collective Cell Migration |
Q42090243 | Effects of 3D geometries on cellular gradient sensing and polarization |
Q27318582 | Effects of adhesion dynamics and substrate compliance on the shape and motility of crawling cells |
Q28238533 | Emergent complexity of the cytoskeleton: from single filaments to tissue |
Q40052473 | Epithelial-mesenchymal transition transcription factors control pluripotent adult stem cell migration in vivo in planarians. |
Q47813317 | Excitable Signal Transduction Networks in Directed Cell Migration. |
Q35866829 | Excitable actin dynamics in lamellipodial protrusion and retraction |
Q40533195 | Existence of and decay to equilibrium of the filament end density along the leading edge of the lamellipodium. |
Q30539211 | Extracellular matrix proteins and displacement of cultured fibroblasts from duodenal biopsies in celiac patients and controls |
Q35201641 | Growth on poly(L-lactic acid) porous scaffold preserves CD73 and CD90 immunophenotype markers of rat bone marrow mesenchymal stromal cells |
Q27004734 | Heading off with the herd: how cancer cells might maneuver supernumerary centrosomes for directional migration |
Q35217492 | High-speed force mapping on living cells with a small cantilever atomic force microscope. |
Q90220716 | Hydroxyapatite mineral enhances malignant potential in a tissue-engineered model of ductal carcinoma in situ (DCIS) |
Q27345333 | In vivo imaging reveals a pioneer wave of monocyte recruitment into mouse skin wounds |
Q27342988 | Investigating biomechanical noise in neuroblastoma cells using the quartz crystal microbalance |
Q27302286 | Lipopolysaccharide O-antigen prevents phagocytosis of Vibrio anguillarum by rainbow trout (Oncorhynchus mykiss) skin epithelial cells |
Q57255908 | Mapping the mechanical stiffness of live cells with the scanning ion conductance microscope |
Q93012660 | Mechanical stress alters protein O-GlcNAc in human periodontal ligament cells |
Q33858720 | Mechanisms controlling cell size and shape during isotropic cell spreading |
Q47262581 | Mechanoreciprocity in cell migration. |
Q35746819 | Medicinal Plants: A Potential Source of Compounds for Targeting Cell Division. |
Q39126929 | Model of turnover kinetics in the lamellipodium: implications of slow- and fast- diffusing capping protein and Arp2/3 complex |
Q52878261 | Modeling crawling cell movement on soft engineered substrates. |
Q38190238 | Multiscale modeling of cell shape from the actin cytoskeleton |
Q30009514 | Myosin 1E localizes to actin polymerization sites in lamellipodia, affecting actin dynamics and adhesion formation |
Q30385390 | Myosin II Activity Softens Cells in Suspension. |
Q28564307 | Myosin IIb regulates actin dynamics during synaptic plasticity and memory formation |
Q52381977 | Persistent random deformation model of cells crawling on a gel surface. |
Q30538190 | Phase geometries of two-dimensional excitable waves govern self-organized morphodynamics of amoeboid cells. |
Q28581438 | Phospho-NHE3 forms membrane patches and interacts with beta-actin to sense and maintain constant direction during cell migration |
Q35895070 | Physical model for self-organization of actin cytoskeleton and adhesion complexes at the cell front |
Q30656470 | Physical principles of membrane remodelling during cell mechanoadaptation |
Q27317392 | Plasticity in the macromolecular-scale causal networks of cell migration |
Q93099566 | Predicting the future direction of cell movement with convolutional neural networks |
Q91861078 | Quasi-periodic migration of single cells on short microlanes |
Q35534799 | Reconstitution of amoeboid motility in vitro identifies a motor-independent mechanism for cell body retraction |
Q35132831 | Redundant mechanisms for stable cell locomotion revealed by minimal models |
Q37682275 | RhoA knockout fibroblasts lose tumor-inhibitory capacity in vitro and promote tumor growth in vivo |
Q50895731 | Runx3 inhibits melanoma cell migration through regulation of cell shape change. |
Q47708196 | Sequential inactivation of Rho GTPases and Lim kinase by Pseudomonas aeruginosa toxins ExoS and ExoT leads to endothelial monolayer breakdown |
Q64981806 | Shape and Size Control of Artificial Cells for Bottom-Up Biology. |
Q28508939 | Silencing of OSBP-related protein 8 (ORP8) modifies the macrophage transcriptome, nucleoporin p62 distribution, and migration capacity |
Q36319424 | Single Cell Transcriptomics, Mega-Phylogeny, and the Genetic Basis of Morphological Innovations in Rhizaria |
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Q38811650 | Specific Myosins Control Actin Organization, Cell Morphology, and Migration in Prostate Cancer Cells |
Q47671850 | Swinging motion of active deformable particles in Poiseuille flow. |
Q30499358 | The COPI vesicle complex binds and moves with survival motor neuron within axons |
Q35899018 | The Role of Stress Fibers in the Shape Determination Mechanism of Fish Keratocytes |
Q39094458 | The assembly and function of perinuclear actin cap in migrating cells |
Q53557742 | The c-Rel subunit of NF-κB is a crucial regulator of phenotype and motility of HaCaT keratinocytes. |
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Q37949258 | The podocyte cytoskeleton--key to a functioning glomerulus in health and disease |
Q30536181 | The role of microtubules in neutrophil polarity and migration in live zebrafish. |
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