Motility of ActA protein-coated microspheres driven by actin polymerization.
about
Motility determinants in WASP family proteins.MSP dynamics drives nematode sperm locomotion.Mechanism of polarization of Listeria monocytogenes surface protein ActAActin-based motility of intracellular microbial pathogensThe art of cellular communication: tunneling nanotubes bridge the divideListeria monocytogenes exploits normal host cell processes to spread from cell to cellProbing polymerization forces by using actin-propelled lipid vesiclesPivotal role of VASP in Arp2/3 complex-mediated actin nucleation, actin branch-formation, and Listeria monocytogenes motilityIn silico reconstitution of Listeria propulsion exhibits nano-saltationModeling cellular processes in 3DIn silico reconstitution of actin-based symmetry breaking and motilityMesoscopic model of actin-based propulsionReconstitution and protein composition analysis of endocytic actin patches.Emergent complexity of the cytoskeleton: from single filaments to tissueActivation by Cdc42 and PIP(2) of Wiskott-Aldrich syndrome protein (WASp) stimulates actin nucleation by Arp2/3 complexMembrane-deforming proteins play distinct roles in actin pedestal biogenesis by enterohemorrhagic Escherichia coli.Formation of filopodia-like bundles in vitro from a dendritic network.Differential force microscope for long time-scale biophysical measurements.Stress release drives symmetry breaking for actin-based movement.The large GTPase dynamin regulates actin comet formation and movement in living cells.Large-scale quantitative analysis of sources of variation in the actin polymerization-based movement of Listeria monocytogenes.Bacterial shape and ActA distribution affect initiation of Listeria monocytogenes actin-based motility.Deformations in actin comets from rocketing beads.Compression forces generated by actin comet tails on lipid vesicles.A kinematic description of the trajectories of Listeria monocytogenes propelled by actin comet tails.ARF1-mediated actin polymerization produces movement of artificial vesicles.Performance of a population of independent filaments in lamellipodial protrusion.Two competing orientation patterns explain experimentally observed anomalies in growing actin networks.Cell-cycle regulation of formin-mediated actin cable assembly.Arp2/3-mediated actin-based motility: a tail of pathogen abuse.Forces generated during actin-based propulsion: a direct measurement by micromanipulationQuantitative analysis of actin patch movement in yeast.Repeated cycles of rapid actin assembly and disassembly on epithelial cell phagosomes.Reversible stress softening of actin networks.Load fluctuations drive actin network growthBiophysical parameters influence actin-based movement, trajectory, and initiation in a cell-free systemForce generation of curved actin gels characterized by combined AFM-epifluorescence measurements.Actin polymerization is essential for pollen tube growth.Listeria pathogenesis and molecular virulence determinantsA microscopic formulation for the actin-driven motion of listeria in curved paths.
P2860
Q24537166-B6080327-F8A4-49C5-B47D-A01E3EBB0FB0Q24538390-AAB8F2D3-E05A-4D3A-ABFB-6B1CDA0E1DC1Q24541433-F3551137-7DB4-4325-BA4C-B3543B73DCBFQ24548463-5C5DD0E5-A478-4276-A275-56EE128DE595Q24645586-2F846116-AA0A-44D4-ACE6-96E0A176FF63Q24680571-36B1C8A8-D9DC-4F8E-83EE-D9674187415AQ24681521-0BA7477E-EAD4-4CC7-962D-FA62A5EE6F57Q24685522-A32D83B6-B165-44D0-AC85-CF572BC1EB93Q24798093-D09880D9-0911-47A7-8674-C479486E71D6Q27003807-1ED2A935-5A60-407E-8606-B071D9ABF22DQ27329014-A23815EE-54B0-491C-8093-CFE256032554Q27329414-29128CAD-5D3A-4D47-A886-237F30B95384Q27935564-5647CA7C-4C99-47CF-8678-89D60F25AA19Q28238533-F7CCDAD8-4D05-4DBA-83B4-29C055E8DA89Q28609852-1B5F9DCD-7355-42E9-A757-F50B19483327Q30010120-11772B7E-3552-4DEC-BF1B-1350FDA2562BQ30441890-0F9D2867-1F91-477B-9F4D-D92A2A238BF9Q30472134-B4C60922-B7C6-4FE5-BE7C-BCE640323395Q30475926-3BF1B793-5F01-4998-8651-0784CDB46652Q30476026-17346086-7894-4C4B-8153-91FC02A815D4Q30476740-DA66EBE3-ADD1-4BCB-98A5-48DDB5B11782Q30476772-583AD0E9-CA24-415A-93B7-3ABDAA75873EQ30478019-9AC59F90-FD30-46EA-B05F-0EC7BC53C072Q30478303-30BDD27A-350D-4CB7-B84E-BEC47AA2B1B7Q30479656-A7AB7E1D-B7BC-4C64-8FCB-BCE634F78698Q30480259-E3A04C38-7A80-4F30-83F7-0672A35C4FBAQ30482773-3383C657-B59E-4E39-B10D-A612545A509CQ30494029-48D2B2D6-5E93-4B70-A26F-3ABB55B1F172Q30557768-22B4DC7D-E794-4CBC-9D99-1D18AF6C0B1EQ30572619-091E12B5-799C-4CFD-AA72-5D5100562FFFQ30574359-10D9913F-A2B2-40BA-B83A-5735127A31FAQ30832994-50978CD4-5EAF-4695-957A-85BD522E7A6EQ30839512-0BC2D7FF-ED5C-492D-A9FF-029E73FE4F9CQ33269519-68EC2C39-8D7F-4087-98D4-7BB4CFBA540EQ33300313-84856C2B-C86B-41DF-95E0-D249E435FB2EQ33692962-272FED26-A2F3-4A21-8565-55E731E94A6DQ33858569-665358EF-F89E-4CC2-ABCD-C35A444E9DD9Q33944118-BFD0BDC2-633D-4952-9D73-A171F8583F82Q33975740-9587CA50-BB08-443F-AAD8-AE50525901F4Q34062466-CDFE2ABB-BFB1-4411-B433-1A40740A0637
P2860
Motility of ActA protein-coated microspheres driven by actin polymerization.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年学术文章
@wuu
1999年学术文章
@zh-cn
1999年学术文章
@zh-hans
1999年学术文章
@zh-my
1999年学术文章
@zh-sg
1999年學術文章
@yue
1999年學術文章
@zh
1999年學術文章
@zh-hant
name
Motility of ActA protein-coated microspheres driven by actin polymerization.
@ast
Motility of ActA protein-coated microspheres driven by actin polymerization.
@en
type
label
Motility of ActA protein-coated microspheres driven by actin polymerization.
@ast
Motility of ActA protein-coated microspheres driven by actin polymerization.
@en
prefLabel
Motility of ActA protein-coated microspheres driven by actin polymerization.
@ast
Motility of ActA protein-coated microspheres driven by actin polymerization.
@en
P2093
P2860
P356
P1476
Motility of ActA protein-coated microspheres driven by actin polymerization.
@en
P2093
A van Oudenaarden
J A Theriot
L A Cameron
M J Footer
P2860
P304
P356
10.1073/PNAS.96.9.4908
P407
P577
1999-04-01T00:00:00Z