Nanopatterning reveals an ECM area threshold for focal adhesion assembly and force transmission that is regulated by integrin activation and cytoskeleton tension. - Wikidata - wikimedia - TriplyDB

Nanopatterning reveals an ECM area threshold for focal adhesion assembly and force transmission that is regulated by integrin activation and cytoskeleton tension.

Nanopatterning reveals an ECM area threshold for focal adhesion assembly and force transmission that is regulated by integrin activation and cytoskeleton tension.

http://www.wikidata.org/entity/Q36497542

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Nanoscale optomechanical actuators for controlling mechanotransduction in living cells Osteopontin (OPN) is an important protein to mediate improvements in the biocompatibility of C ion-implanted silicone rubber Nanotopographic substrates of poly (methyl methacrylate) do not strongly influence the osteogenic phenotype of mesenchymal stem cells in vitro Integrated micro/nanoengineered functional biomaterials for cell mechanics and mechanobiology: a materials perspective.Matrix microarchitecture and myosin II determine adhesion in 3D matrices.Nanoporous Gold Biointerfaces: Modifying Nanostructure to Control Neural Cell Coverage and Enhance Electrophysiological Recording Performance.Microscale Bioadhesive Hydrogel Arrays for Cell Engineering Applications Topography design concept of a tissue engineering scaffold for controlling cell function and fate through actin cytoskeletal modulation Extracellular matrix elasticity and topography: material-based cues that affect cell function via conserved mechanisms Measurement systems for cell adhesive forces.Contributions of the integrin β1 tail to cell adhesive forces.Directing cell migration and organization via nanocrater-patterned cell-repellent interfaces.Integrin-specific hydrogels as adaptable tumor organoids for malignant B and T cells.How vinculin regulates force transmission.High fidelity nanopatterning of proteins onto well-defined surfaces through subtractive contact printing.Vinculin regulation of F-actin bundle formation: what does it mean for the cell?Stressing the limits of focal adhesion mechanosensitivity.Versatile multiple protein nanopatterning within a microfluidic channel for cell recruitment studies.YAP and TAZ in epithelial stem cells: A sensor for cell polarity, mechanical forces and tissue damage.Cell-ECM Interactions in Tumor Invasion.A review of decellurization methods caused by an urgent need for quality control of cell-free extracellular matrix' scaffolds and their role in regenerative medicine.New advances in probing cell-extracellular matrix interactions.Single and collective cell migration: the mechanics of adhesions.In vivo quantitative analysis of Talin turnover in response to force.Vascular smooth muscle cell functional contractility depends on extracellular mechanical properties.Effects of substrate stiffness and actomyosin contractility on coupling between force transmission and vinculin-paxillin recruitment at single focal adhesions.Osteoblasts Interaction with PLGA Membranes Functionalized with Titanium Film Nanolayer by PECVD. In vitro Assessment of Surface Influence on Cell Adhesion during Initial Cell to Material Interaction.Biophysical Regulation of Cell Behavior-Cross Talk between Substrate Stiffness and Nanotopography.Correlation of focal adhesion assembly and disassembly with cell migration on nanotopography.How Nucleus Mechanics and ECM Microstructure Influence the Invasion of Single Cells and Multicellular Aggregates.Award Winner in the Young Investigator Category, 2017 Society for Biomaterials Annual Meeting and Exposition, Minneapolis, MN, April 05-08, 2017: Lymph node stiffness-mimicking hydrogels regulate human B-cell lymphoma growth and cell surface recepto Nanoengineered materials to control cell fate.Vascular smooth muscle cells direct extracellular dysregulation in aortic stiffening of hypertensive rats.Multivalent Binding of a Ligand-Coated Particle: Role of Shape, Size, and Ligand Heterogeneity.Lamellipodium is a myosin-independent mechanosensor.

P2860

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P2860

Nanopatterning reveals an ECM area threshold for focal adhesion assembly and force transmission that is regulated by integrin activation and cytoskeleton tension.

http://www.wikidata.org/entity/Q36497542

description

2012 nî lūn-bûn

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年學術文章

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2012年學術文章

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Nanopatterning reveals an ECM ...... tion and cytoskeleton tension.

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Nanopatterning reveals an ECM ...... tion and cytoskeleton tension.

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Nanopatterning reveals an ECM ...... tion and cytoskeleton tension.

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Nanopatterning reveals an ECM ...... tion and cytoskeleton tension.

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Nanopatterning reveals an ECM ...... tion and cytoskeleton tension.

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Journal of Cell Science

P1476

Nanopatterning reveals an ECM ...... tion and cytoskeleton tension.

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P2093

Andrés J García

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

Ankur Singh

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David A Calderwood

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David W Dumbauld

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Emmanuel Delamarche

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Sean R Coyer

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Susan W Craig

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P2860

Analysis of the myosin-II-responsive focal adhesion proteome reveals a role for β-Pix in negative regulation of focal adhesion maturation

Recruitment of the Arp2/3 complex to vinculin: coupling membrane protrusion to matrix adhesion

Multivalent integrin-specific ligands enhance tissue healing and biomaterial integration

Rho-stimulated contractility drives the formation of stress fibers and focal adhesions

Focal contacts as mechanosensors: externally applied local mechanical force induces growth of focal contacts by an mDia1-dependent and ROCK-independent mechanism

Comparative dynamics of retrograde actin flow and focal adhesions: formation of nascent adhesions triggers transition from fast to slow flow

Structure of a double ubiquitin-like domain in the talin head: a role in integrin activation

Integrins: bidirectional, allosteric signaling machines

Matrix elasticity directs stem cell lineage specification

Nascent focal adhesions are responsible for the generation of strong propulsive forces in migrating fibroblasts

P304

5110-5123

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10.1242/JCS.108035

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P407

P433

Pt 21

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P478

125

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2012-08-16T00:00:00Z

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230686135

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22899715

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3533393

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