Protein micropatterns: A direct printing protocol using deep UVs.
about
Mechanical confinement triggers glioma linear migration dependent on formin FHOD3.Easy fabrication of thin membranes with through holes. Application to protein patterningSpatial organization of the extracellular matrix regulates cell-cell junction positioning.Oncogene-like induction of cellular invasion from centrosome amplification.Polarity Reversal by Centrosome Repositioning Primes Cell Scattering during Epithelial-to-Mesenchymal Transition.Fabrication of three-dimensional electrical connections by means of directed actin self-organization.Cell Microharpooning to Study Nucleo-Cytoskeletal Coupling.Geometry and network connectivity govern the mechanics of stress fibersRegulation of adipose oestrogen output by mechanical stress.Monitoring in vitro thrombus formation with novel microfluidic devices.Sustained α-catenin Activation at E-cadherin Junctions in the Absence of Mechanical Force.Structured illumination microscopy reveals focal adhesions are composed of linear subunits.β1- and αv-class integrins cooperate to regulate myosin II during rigidity sensing of fibronectin-based microenvironments.Kank2 activates talin, reduces force transduction across integrins and induces central adhesion formation.Stretching micropatterned cells on a PDMS membrane.Microfluidic cell trap array for controlled positioning of single cells on adhesive micropatterns.Micropatterned substrates coated with neuronal adhesion molecules for high-content study of synapse formation.Quantification of MAP and molecular motor activities on geometrically controlled microtubule networks.Controlling cell shape on hydrogels using lift-off protein patterning.Enucleated cells reveal differential roles of the nucleus in cell migration, polarity, and mechanotransduction.Synaptogenic Assays Using Neurons Cultured on Micropatterned Substrates.Adhesion forces and cortical tension couple cell proliferation and differentiation to drive epidermal stratification.Opposing Kinesin and Myosin-I Motors Drive Membrane Deformation and Tubulation along Engineered Cytoskeletal Networks.A simple microfluidic device to study cell-scale endothelial mechanotransduction.Exploring the formation of focal adhesions on patterned surfaces using super-resolution imaging.Methods of Micropatterning and Manipulation of Cells for Biomedical Applications
P2860
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P2860
Protein micropatterns: A direct printing protocol using deep UVs.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Protein micropatterns: A direct printing protocol using deep UVs.
@en
Protein micropatterns: A direct printing protocol using deep UVs.
@nl
type
label
Protein micropatterns: A direct printing protocol using deep UVs.
@en
Protein micropatterns: A direct printing protocol using deep UVs.
@nl
prefLabel
Protein micropatterns: A direct printing protocol using deep UVs.
@en
Protein micropatterns: A direct printing protocol using deep UVs.
@nl
P2093
P1476
Protein micropatterns: A direct printing protocol using deep UVs
@en
P2093
Manuel Théry
Matthieu Piel
Qingzong Tseng
P304
P356
10.1016/S0091-679X(10)97008-8
P577
2010-01-01T00:00:00Z