Self-organization of actin filament orientation in the dendritic-nucleation/array-treadmilling model. - Wikidata - awgldk - TriplyDB

Self-organization of actin filament orientation in the dendritic-nucleation/array-treadmilling model.

Self-organization of actin filament orientation in the dendritic-nucleation/array-treadmilling model.

http://www.wikidata.org/entity/Q30479338

about

Cytoskeleton in motion: the dynamics of keratin intermediate filaments in epithelia Geometrical and mechanical properties control actin filament organization An order of magnitude faster AIP1-associated actin disruption than nucleation by the Arp2/3 complex in lamellipodia Emergent complexity of the cytoskeleton: from single filaments to tissue There is more than one way to model an elephant. Experiment-driven modeling of the actin cytoskeleton Robust organizational principles of protrusive biopolymer networks in migrating living cells Actin, a central player in cell shape and movement Performance of a population of independent filaments in lamellipodial protrusion.Growing actin networks form lamellipodium and lamellum by self-assembly.How tropomyosin regulates lamellipodial actin-based motility: a combined biochemical and reconstituted motility approach.Two competing orientation patterns explain experimentally observed anomalies in growing actin networks.Simulation of cell motility that reproduces the force-velocity relationship Cytoskeletal actin networks in motile cells are critically self-organized systems synchronized by mechanical interactions.How actin network dynamics control the onset of actin-based motility.Reaction-diffusion systems in intracellular molecular transport and control The availability of filament ends modulates actin stochastic dynamics in live plant cells.Reconstructing the orientation distribution of actin filaments in the lamellipodium of migrating keratocytes from electron microscopy tomography data.A generative model of microtubule distributions, and indirect estimation of its parameters from fluorescence microscopy images Single-molecule studies of actin assembly and disassembly factors.Protrusion of a Virtual Model Lamellipodium by Actin Polymerization: A Coarse-grained Langevin Dynamics Model.Mechano-chemical feedbacks regulate actin mesh growth in lamellipodial protrusions.Effects of molecular-scale processes on observable growth properties of actin networks.Mechanisms controlling cell size and shape during isotropic cell spreading Signaling network triggers and membrane physical properties control the actin cytoskeleton-driven isotropic phase of cell spreading.Tuning myosin-driven sorting on cellular actin networks.Excitable actin dynamics in lamellipodial protrusion and retraction The Arp2/3 complex is required for lamellipodia extension and directional fibroblast cell migration.Use of virtual cell in studies of cellular dynamics.Branching and capping determine the force-velocity relationships of branching actin networks.New proposed mechanism of actin-polymerization-driven motility.Chemotaxis, chemokine receptors and human disease.Mathematics of cell motility: have we got its number?An open model of actin dendritic nucleation.Force Feedback Controls Motor Activity and Mechanical Properties of Self-Assembling Branched Actin Networks.Mathematical models and simulations of cellular processes based on actin filaments.Modeling of the actin-cytoskeleton in symmetric lamellipodial fragments.Promoting convergence: The integrated graduate program in physical and engineering biology at Yale University, a new model for graduate education.The shape of motile cells.Manipulation of the Host Cell Cytoskeleton by Chlamydia.A review of models of fluctuating protrusion and retraction patterns at the leading edge of motile cells.

P2860

Q26861792-1EF3A58B-0BFC-49F3-B4D5-2C3227FAB008 Q27319264-D63ECB13-F67F-4E33-8B22-678F7B5AF50A Q27350224-EA788048-F61E-408B-9F21-682F13CE6DD1 Q28238533-C36530CD-343A-4AEC-8919-A1CD9F1EC687 Q28394155-56EC581B-49F7-4952-8FC4-E2F03D3D19CA Q28476752-15951D91-1C6E-4970-9C8B-B98B5DA8F1AB Q29616426-FEC993C4-9BF0-4839-A0B5-595F58913119 Q30482773-20AA8E56-4D38-4F8A-9EC9-10C2D8B2A3CD Q30484992-E30D14E6-73A1-4052-BF90-07F563B38862 Q30492836-64BCC21A-8A58-4A60-8633-3E9C733790D0 Q30494029-8035BCD6-B035-4652-8FB5-A497E085ACF6 Q30494972-BDCB7A0E-E156-44FE-B3CF-E859AA6FD809 Q30503763-CF83B266-928B-4B54-AAE4-3DAAB7DAF00E Q30524853-9AB54C07-014A-46BB-B157-C015E6308488 Q30541066-D1B1B3C8-20EE-4AE9-A5AE-6562C19C8AF4 Q30575884-6127EF02-500C-4768-9B57-7F1441812EBC Q31054741-1F7C37CD-9F4C-4A1C-AA63-223BBE1D76EE Q33526792-C939BAE7-25F8-44F4-BD6E-FDE47102A825 Q33681638-CF4B65C4-9F56-4048-B298-F111D69034BA Q33756732-7ADA1283-82B5-4228-826E-3C4FF2271B77 Q33795507-F020D9D9-AAB5-4C98-8D75-4C63B590660F Q33817441-55F42B27-8A07-470A-A531-EA17DE9DBD8D Q33858720-1661739A-C57C-45C7-85FD-B0ADB0417628 Q34164488-B2B2DD33-DB7A-4C28-8381-E465FE784ACA Q35227173-DACEFC87-9CF2-4EC5-A880-0588B5307121 Q35866829-DA48A71F-32DE-4CC6-AEA9-258C91C72232 Q35894249-71FC5A49-EA82-43CF-8EE0-B23A9E55B70C Q36458860-6462F59D-4C88-4A0F-9D6C-C1E29A814A03 Q36645018-7A629518-2D80-4A85-ABDE-A206DB403687 Q36957347-5B3A0EEE-6749-43E0-B542-94C3FCDCB78C Q37034783-F9E6781E-D696-42FF-B36F-753FCD308913 Q37156524-E470A3E6-60F5-41FA-B4CE-63117CA5CE81 Q37263564-25DB0B77-000F-47F9-BAF1-42797D26FB04 Q37276803-88944A18-6F5E-49DC-9613-3D1E61E278CA Q37305072-3DC5A3F8-F703-42F4-BFB2-DF645C01986E Q37409375-C7289B52-933A-4C60-97A3-CC4CED1807A0 Q37462166-65BAA567-C3CF-48C9-A17A-E1C5F502CD89 Q37631263-A5687287-FDE1-42E7-AB34-C0EFC942B197 Q37836349-6169C1F7-791D-420C-9805-53776B324E69 Q37987096-12CB6AAD-F77B-43CF-80C2-34A775163267

P2860

Self-organization of actin filament orientation in the dendritic-nucleation/array-treadmilling model.

http://www.wikidata.org/entity/Q30479338

description

2007 nî lūn-bûn

@nan

2007 թուականի Ապրիլին հրատարակուած գիտական յօդուած

@hyw

2007 թվականի ապրիլին հրատարակված գիտական հոդված

@hy

2007年の論文

@ja

2007年論文

@yue

2007年論文

@zh-hant

2007年論文

@zh-hk

2007年論文

@zh-mo

2007年論文

@zh-tw

2007年论文

@wuu

name

Self-organization of actin fil ...... tion/array-treadmilling model.

@ast

Self-organization of actin fil ...... tion/array-treadmilling model.

@en

type

label

Self-organization of actin fil ...... tion/array-treadmilling model.

@ast

Self-organization of actin fil ...... tion/array-treadmilling model.

@en

prefLabel

Self-organization of actin fil ...... tion/array-treadmilling model.

@ast

Self-organization of actin fil ...... tion/array-treadmilling model.

@en

P1433

Q30479338-4BF333AC-3F0A-482E-80F2-9EE52FC487F6

P1476

Q30479338-AF46B71F-67AC-407F-A8E5-707F0C72108A

P2093

Q30479338-B28FCE3D-684D-4E2A-8BB2-9FE34A571D25

Q30479338-E602FC37-511C-42EB-B552-908A2B239656

P2860

Q30479338-00002242-7440-4BA7-A46E-7903992B2E59

Q30479338-03735810-0212-4C30-BF71-F294232D6456

Q30479338-04FC5B91-F0E1-4942-BCB0-6CF21CD8ECCD

Q30479338-14550836-17AE-4526-8EF1-0469286DF4B3

Q30479338-1779EAB7-AAE4-4034-A5F6-D4BCA94E85C8

Q30479338-21809BF1-614B-4482-920C-07596C680A37

Q30479338-244A03E3-BE26-4C3F-8B84-5D3E90F832D6

Q30479338-260B8595-178C-4C16-9799-46F7048DD7E7

Q30479338-2EB9131E-A986-44EC-BCFB-6E735BC792A6

Q30479338-2F95CAB0-9A35-4E42-8B4F-5ED21F1A82BF

P304

Q30479338-6CBE76DD-11AC-4839-AB9E-EC50AECF672B

P31

Q30479338-B95FBFA0-A6C2-45C7-9E42-5722DB03FFDE

P356

Q30479338-0107A109-22DD-4B00-904C-D5D0C8F18DB1

P407

Q30479338-EC09E3E7-A4F1-4EFE-B1A7-4D5D682058D1

P433

Q30479338-47E15DE0-740E-47E4-ABEC-8BDB99484EEC

P478

Q30479338-B5821DB4-DDD8-4806-855B-48F097AA2DB9

P50

Q30479338-685F43BE-E2E5-4063-9ECC-43DF1365BF04

P577

Q30479338-3A457409-8D55-4D74-ACDE-4CB5ADCA7915

P5875

Q30479338-D4561284-35F8-457C-AA4A-6265AFB205C2

P698

Q30479338-D2D327B1-176D-4300-B7B3-79E1F26529BE

P921

Q30479338-1D84715F-4D43-45B0-B87D-95A0841D9BFD

P932

Q30479338-C882D2C0-DFA3-4AEE-A6A3-2AD0259C33EE

P356

PNAS.0701943104

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Self-organization of actin fil ...... tion/array-treadmilling model.

@en

P2093

Edwin W Taylor

http://www.w3.org/2001/XMLSchema#string

Thomas E Schaus

http://www.w3.org/2001/XMLSchema#string

P2860

The interaction of Arp2/3 complex with actin: nucleation, high affinity pointed end capping, and formation of branching networks of filaments

Actin depolymerizing factor (ADF/cofilin) enhances the rate of filament turnover: implication in actin-based motility

Cellular motility driven by assembly and disassembly of actin filaments

Lamellipodial versus filopodial mode of the actin nanomachinery: pivotal role of the filament barbed end

Reconstitution of actin-based motility of Listeria and Shigella using pure proteins

Antagonism between Ena/VASP proteins and actin filament capping regulates fibroblast motility

Orientational order of the lamellipodial actin network as demonstrated in living motile cells.

The actin-based nanomachine at the leading edge of migrating cells.

Self-organization of a propulsive actin network as an evolutionary process.

Cell motility driven by actin polymerization.

P304

7086-7091

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.0701943104

http://www.w3.org/2001/XMLSchema#string

P407

P433

17

http://www.w3.org/2001/XMLSchema#string

P478

104

http://www.w3.org/2001/XMLSchema#string

P50

P577

2007-04-17T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6388679

http://www.w3.org/2001/XMLSchema#string

P698

17440042

http://www.w3.org/2001/XMLSchema#string

P921

P932

1855413

http://www.w3.org/2001/XMLSchema#string