The role of vinculin in the regulation of the mechanical properties of cells.
about
Rap1 can bypass the FAK-Src-Paxillin cascade to induce cell spreading and focal adhesion formationAFAP1L1, a novel associating partner with vinculin, modulates cellular morphology and motility, and promotes the progression of colorectal cancersSerum response factor is required for cell contact maintenance but dispensable for proliferation in visceral yolk sac endotheliumMesenchymal stem cell adhesion but not plasticity is affected by high substrate stiffnessChanges in integrin αv, vinculin and connexin43 in the medial prefrontal cortex in rats under single-prolonged stress.What is vinculin needed for in platelets?Ureaplasma parvum infection alters filamin A dynamics in host cells.Integrating comparative expression profiling data and association of SNPs with Salmonella shedding for improved food safety and porcine disease resistance.Elevated pressure downregulates ZO-1 expression and disrupts cytoskeleton and focal adhesion in human trabecular meshwork cellsRho-associated protein kinase modulates neurite extension by regulating microtubule remodeling and vinculin distribution.Effect of RhoA on transforming growth factor β1-induced rat hepatic stellate cell migration.Non-metastatic 2 (NME2)-mediated suppression of lung cancer metastasis involves transcriptional regulation of key cell adhesion factor vinculinMolecular characterization of circulating tumor cells in human metastatic colorectal cancerImproving the diffraction of full-length human selenomethionyl metavinculin crystals by streak-seeding.Middle infrared radiation induces G2/M cell cycle arrest in A549 lung cancer cellsPMP22 is critical for actin-mediated cellular functions and for establishing lipid rafts.The focal adhesion: a regulated component of aortic stiffness.The interaction of vinculin with actin.The β1-integrin-p-FAK-p130Cas-DOCK180-RhoA-vinculin is a novel regulatory protein complex at the apical ectoplasmic specialization in adult rat testes.Changes in astrocyte shape induced by sublytic concentrations of the cholesterol-dependent cytolysin pneumolysin still require pore-forming capacity.Characterization of in vitro endothelial linings grown within microfluidic channels.Smad2/3-Regulated Expression of DLX2 Is Associated with Radiation-Induced Epithelial-Mesenchymal Transition and Radioresistance of A549 and MDA-MB-231 Human Cancer Cell Lines.LPA-mediated migration of ovarian cancer cells involves translocalization of Gαi2 to invadopodia and association with Src and β-pixVinculin Regulates Directionality and Cell Polarity in 2D, 3D Matrix and 3D Microtrack Migration.Vasoconstrictor-induced endocytic recycling regulates focal adhesion protein localization and function in vascular smooth muscle.MTBP suppresses cell migration and filopodia formation by inhibiting ACTN4Targeted inactivation of β1 integrin induces β3 integrin switching, which drives breast cancer metastasis by TGF-βp38 mitogen-activated protein kinase interacts with vinculin at focal adhesions during fatty acid-stimulated cell adhesion.Regulation of the actin cytoskeleton-plasma membrane interplay by phosphoinositides.The biomechanical properties of 3d extracellular matrices and embedded cells regulate the invasiveness of cancer cells.MDM2 binding protein, a novel metastasis suppressor.Advances in techniques for probing mechanoregulation of tissue morphogenesis.Deregulation of focal adhesion formation and cytoskeletal tension due to loss of A-type lamins.Phosphorylation and turnover of paxillin in focal contacts is controlled by force and defines the dynamic state of the adhesion site.Association of Nox1 and vinculin with colon cancer progression.Amplification and overexpression of vinculin are associated with increased tumour cell proliferation and progression in advanced prostate cancer.Plasma membrane expression of ZNF185 is a prognostic factor in pancreatic ductal carcinomaVirus Nanoparticles Mediated Osteogenic Differentiation of Bone Derived Mesenchymal Stem Cells.Directing integrin-linked endocytosis of recombinant AAV enhances productive FAK-dependent transduction.The pH-sensing receptor OGR1 improves barrier function of epithelial cells and inhibits migration in an acidic environment.
P2860
Q27334787-219FB1DF-2251-42C9-A846-A7F0CE2A33D0Q28386237-4A88316F-D737-4FEB-93AA-EBE57AC37D52Q28589319-1B03054F-A20A-4551-A264-4FF15ADF1F97Q28821922-82F6406C-1E3E-4F45-9FAF-9B772606BBB8Q30417173-67B0E52D-5357-4113-8717-5558AD79C85DQ33644890-521A57E5-96F8-4ED5-9C62-AE9A00659CFAQ33877935-711524D7-C40C-4B13-A99A-77A07672FA46Q34015145-1A7F221D-DA0D-41FC-AD15-608F9EAD41D9Q34086499-6098AE86-A8F4-47AE-9A4F-CBEB9F1BE2E8Q34095908-45A72D06-6843-4F24-9F6B-C04D5BD07877Q34231374-1DD00EE9-C3ED-41A7-839B-90C86CA0F487Q34313101-5D9EFE1D-FF51-4D0F-A66D-E18B1FA85349Q34343518-73185E82-A346-4DE3-8838-33BD0B7CA0DEQ34387240-275BD18C-4260-40DC-8B25-CD3B9DC8A346Q34555818-D9EC2DDB-6E7E-47BF-9FAA-DFB24AA8C021Q34573445-0EEF4A89-9542-40FF-A63C-4EF76DB989F7Q34693155-D18F5379-C6AD-4223-B839-BD63678B341FQ34697750-00AEBCBA-C215-4429-8EAA-84D6AF4234F9Q35172313-19659850-C6D8-47D0-8F89-707383F9C1C3Q35534472-96B9ED61-322C-42B7-8A3A-222D95113B08Q35578817-621EF298-9B6E-44EC-BE48-AB91AF617E2AQ35901168-4D3F093F-4F24-434B-9A8F-265FEC80BB58Q36767090-75C18455-C0A4-4610-9531-78AC495609EAQ36849435-F66434D2-13ED-4DFD-BD69-ED9D86BBB7F5Q37051292-5C4D89F4-BAC5-4E03-9458-271F3B8175E8Q37092231-1AF44653-B0F0-48F3-88AE-574702BC2F77Q37270591-6124E676-5869-452D-A8A9-E5E1E04A6722Q37604084-EF4F07CA-7661-4DFE-BAA8-8E0A12503353Q37677924-E358EDBE-1B65-4E62-952E-DF9F2910292CQ37868444-8DFDBDBB-F48F-4656-BE1E-34BF190C0E91Q38017588-86EDE646-1E78-4B1B-AC01-D9C60A3F8226Q38261549-5F9C71AB-B5B2-4F52-B5DF-C4A1020F2A02Q38441084-5B8038DE-65BB-46D0-A5CB-78F8B8E52A76Q38916519-0E90239B-DB5F-4BD5-8347-E3EF6B667AA4Q39158742-E4602A2B-7E0F-41E3-99BF-7BE2406EF3E0Q39597950-1E1DB192-829B-4C00-9B35-28B1C65014A9Q41620442-A176C57D-4046-483A-8D1D-1C98ED3CF661Q41647568-43A71445-4CE6-4B41-88D6-A9A863463486Q42150625-E437B897-5120-4C39-8599-D451D6C29D27Q42480153-ACBFC8F1-AE3C-4D4B-9399-31AB1CE4A229
P2860
The role of vinculin in the regulation of the mechanical properties of cells.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The role of vinculin in the regulation of the mechanical properties of cells.
@en
The role of vinculin in the regulation of the mechanical properties of cells.
@nl
type
label
The role of vinculin in the regulation of the mechanical properties of cells.
@en
The role of vinculin in the regulation of the mechanical properties of cells.
@nl
prefLabel
The role of vinculin in the regulation of the mechanical properties of cells.
@en
The role of vinculin in the regulation of the mechanical properties of cells.
@nl
P2860
P1476
The role of vinculin in the regulation of the mechanical properties of cells.
@en
P2093
Claudia Tanja Mierke
P2860
P2888
P304
P356
10.1007/S12013-009-9047-6
P577
2009-01-01T00:00:00Z