Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling. - Wikidata - awgldk - TriplyDB

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

http://www.wikidata.org/entity/Q37300621

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Physical, Spatial, and Molecular Aspects of Extracellular Matrix of In Vivo Niches and Artificial Scaffolds Relevant to Stem Cells Research Dynamic Force Generation by Neural Stem Cells.Actomyosin contractility controls cell surface area of oligodendrocytes.Collagen gel three-dimensional matrices combined with adhesive proteins stimulate neuronal differentiation of mesenchymal stem cells Integrin activation and internalization on soft ECM as a mechanism of induction of stem cell differentiation by ECM elasticity.Conversion of mechanical force into TGF-β-mediated biochemical signals.Cells as liquid motors: mechanosensitivity emerges from collective dynamics of actomyosin cortex.Mechanical tension drives cell membrane fusion.Analytical theory of polymer-network-mediated interaction between colloidal particles Decoupling polymer properties to elucidate mechanisms governing cell behavior Cell durotaxis on polyelectrolyte multilayers with photogenerated gradients of modulus The Mechanobiology of Aging The contribution of cellular mechanotransduction to cardiomyocyte form and function.Impact of local versus global ligand density on cellular adhesion.Mechanotransduction: a major regulator of homeostasis and development.Adipose tissue as a stem cell source for musculoskeletal regeneration.New insights into the plasticity of the endothelial phenotype.Potential of engineering methodologies for the application to pharmaceutical research.Nanomechanics of Cells and Biomaterials Studied by Atomic Force Microscopy.Tensile forces applied on a cell-embedded three-dimensional scaffold can direct early differentiation of embryonic stem cells toward the mesoderm germ layer.Cell-cycle control by physiological matrix elasticity and in vivo tissue stiffening.Mechanical integrin stress and magnetic forces induce biological responses in mesenchymal stem cells which depend on environmental factors.Interface biology of implants.Effects of Matrix Stiffness on the Morphology, Adhesion, Proliferation and Osteogenic Differentiation of Mesenchymal Stem Cells.Orthopaedic regenerative tissue engineering en route to the holy grail: disequilibrium between the demand and the supply in the operating room.Nanomechanics controls neuronal precursors adhesion and differentiation Neural differentiation on synthetic scaffold materials Application of a mechanobiological algorithm to investigate mechanical mediation of heterotopic bone in trans-femoral amputees

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Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

http://www.wikidata.org/entity/Q37300621

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 25 October 2008

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

@en

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

@nl

type

label

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

@en

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

@nl

prefLabel

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

@en

Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

@nl

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J.CEB.2008.09.006

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Current Opinion in Cell Biology

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Cell differentiation through tissue elasticity-coupled, myosin-driven remodeling.

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Allison L Zajac

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P2860

Matrices with compliance comparable to that of brain tissue select neuronal over glial growth in mixed cortical cultures.

Myofibroblast contraction activates latent TGF-beta1 from the extracellular matrix

Multilineage potential of adult human mesenchymal stem cells

Matrix elasticity directs stem cell lineage specification

Tensional homeostasis and the malignant phenotype

Defects in cell adhesion and the visceral endoderm following ablation of nonmuscle myosin heavy chain II-A in mice

Force Sensing by Mechanical Extension of the Src Family Kinase Substrate p130Cas

Tissue cells feel and respond to the stiffness of their substrate

Taking cell-matrix adhesions to the third dimension

Cell locomotion and focal adhesions are regulated by substrate flexibility

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609-615

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scholarly article

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10.1016/J.CEB.2008.09.006

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6

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20

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2008-10-25T00:00:00Z

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18926907

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3967913

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