about
The forces behind cell movementReconstitution of DNA segregation driven by assembly of a prokaryotic actin homologPointed-end capping by tropomodulin3 negatively regulates endothelial cell motilityFilming biomolecular processes by high-speed atomic force microscopyCompare and contrast the reaction coordinate diagrams for chemical reactions and cytoskeletal force generatorsWhy are bacteria different from eukaryotes?Interplay of magnetic interactions and active movements in the formation of magnetosome chainsForce production by depolymerizing microtubules: a theoretical studyCompression forces generated by actin comet tails on lipid vesicles.Direct measurement of force generation by actin filament polymerization using an optical trapPerformance of a population of independent filaments in lamellipodial protrusion.Cell wall synthesis is necessary for membrane dynamics during sporulation of Bacillus subtilis.Glioblastoma motility occurs in the absence of actin polymer.Measuring forces at the leading edge: a force assay for cell motilityQuantification of cellular penetrative forces using lab-on-a-chip technology and finite element modeling.Kinetic behaviour of the cells touching substrate: the interfacial stiffness guides cell spreading.Toxoplasma gondii myosin A and its light chain: a fast, single-headed, plus-end-directed motorProtrusion of a Virtual Model Lamellipodium by Actin Polymerization: A Coarse-grained Langevin Dynamics Model.Cytoskeletal regulation of epithelial barrier function during inflammation.Force generation by cytoskeletal filament end-tracking proteinsComputational approaches for modeling regulatory cellular networks.Shaping the intestinal brush borderBending a membrane: how clathrin affects budding.Myosin motor function: the ins and outs of actin-based membrane protrusions.Active biological materials.Polyinosinic:polycytidylic acid induces protein kinase D-dependent disassembly of apical junctions and barrier dysfunction in airway epithelial cells.Cytosolic pressure provides a propulsive force comparable to actin polymerization during lamellipod protrusion.Effects of solution crowding on actin polymerization reveal the energetic basis for nucleotide-dependent filament stabilityPatterned two-photon photoactivation illuminates spatial reorganization in live cells.Experimentalist meets theoretician: a tale of two scientific cultures.From water and ions to crowded biomacromolecules: in vivo structuring of a prokaryotic cell.Actin cytoskeleton remodelling by sex steroids in neurones.Microfluidic platforms for plant cells studies.Redefining the roles of the FtsZ-ring in bacterial cytokinesis.Effects of the polymeric niche on neural stem cell characteristics during primary culturing.Useful scars: Physics of the capsids of archaeal viruses.Cytoskeletal actin dynamics shape a ramifying actin network underpinning immunological synapse formation.Pollen tube growth oscillations and intracellular calcium levels are reversibly modulated by actin polymerization.Evolution of polymer formation within the actin superfamily.Antagonistic Behaviors of NMY-1 and NMY-2 Maintain Ring Channels in the C. elegans Gonad.
P2860
Q22305351-B30E23D5-A205-4F6B-94A7-4C555440773DQ24601170-238BC7B6-E699-4FBE-89D8-809940D369ABQ24675095-2DD32414-4FA0-4C65-AD36-D39B792EEC5CQ27021717-5C2F6650-1E51-4664-8DC3-DFE126B249E5Q27027878-980AB7D1-A693-4977-8FE9-7299017439FAQ28660946-948D7DA6-EBE1-48A9-BEB3-5DB4BEE3C143Q28731226-8C088E60-BD9E-459C-A868-B2F90AF20B13Q28769994-8C90E594-D8B3-486C-8A1B-2398F39B23F5Q30478303-FFC1FF8B-1BBC-4677-9E3C-B0D1B904C378Q30479598-7A6E9D4D-55A8-4673-A700-D49C8B59BFD1Q30482773-94A1D717-2081-46F2-9A01-939748DF6E18Q30495162-738F13E6-A74B-4559-AC05-1D3949C3C7D9Q30502001-48E84CE6-97FE-4A98-8D58-405C6AD71BBBQ30530546-EE0CAF37-52F6-40A9-BC17-38EED51D7BA9Q30539944-3D4518AB-96C1-4A09-9D82-52742D9510D9Q30843888-D5CDE27B-8FBB-4467-B588-86542C5644D8Q31050066-BC769DC7-AD2F-48B7-B85A-271E24E12D2BQ33756732-C563C9AB-6707-4C27-B4DE-EECDE3843859Q34033538-64F0B9F3-F0A1-4CED-95ED-D1ECDB9AAD64Q34187449-197594F9-AFA2-4219-9595-F2355C69851EQ34371218-7F1467C9-2388-4358-8279-5E4623F3FC33Q34566715-F414C67C-A5C0-44C9-A599-CA64EFE2AC59Q34695375-17CAE04C-99AF-4967-924D-B2B26814459EQ34985570-EC5E127D-D0B8-484A-BD5F-D101084AFA07Q35609809-6DA37470-C131-43B1-8E4A-9EB9C86E72ECQ35739433-043A499A-3F0E-4041-95C6-8C388107A116Q36293671-3251C4C0-AA23-4B98-B592-C1F7F452B5A9Q36713707-E3FF7568-5CDA-48A2-A197-7EAA2BC48A41Q36765585-3F9FDFC9-72D9-4D82-9FEB-336C3A889A5EQ37742999-7A4DA440-E7E6-4235-9841-B82AAF88B130Q37925360-C1607C5E-5F26-4C9D-8D7F-42C373F712A5Q37958919-3147894F-E8A4-4DE1-B44C-C3AAC7643F2AQ38225280-9B0E19C8-2D16-471E-BBF3-8DB05A90C4A3Q38821984-03853003-25F3-4F55-8EAA-8FA2E9B8E499Q39020141-3D8ADE55-E170-440F-B349-CBE3C01E8019Q40602230-AABF19EE-FF2D-41CE-AC25-253C8BB78300Q41074693-9DB789BD-074E-4656-9D16-64430B7BD1A2Q42524594-BEAF25C1-53A8-42D6-9B7C-B08FEBFFB0BDQ47131840-1061420B-17EE-4833-8A9D-1092493AEE1CQ50547684-D4191A6D-12C3-4F76-A2F5-44B68BEC018F
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
The polymerization motor.
@ast
The polymerization motor.
@en
The polymerization motor.
@nl
type
label
The polymerization motor.
@ast
The polymerization motor.
@en
The polymerization motor.
@nl
prefLabel
The polymerization motor.
@ast
The polymerization motor.
@en
The polymerization motor.
@nl
P2860
P1433
P1476
The polymerization motor.
@en
P2093
J A Theriot
P2860
P356
10.1034/J.1600-0854.2000.010104.X
P577
2000-01-01T00:00:00Z