A DNA-based molecular probe for optically reporting cellular traction forces
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Extracellular rigidity sensing by talin isoform-specific mechanical linkagesModel-based traction force microscopy reveals differential tension in cellular actin bundlesDNA-based nanoparticle tension sensors reveal that T-cell receptors transmit defined pN forces to their antigens for enhanced fidelity.Germinal center B cells recognize antigen through a specialized immune synapse architecture.Confocal reference free traction force microscopy.Measuring cell-generated forces: a guide to the available toolsDNA orientation-specific adhesion and patterning of living mammalian cells on self-assembled DNA monolayers.Instructing cells with programmable peptide DNA hybrids.Fluid shear, intercellular stress, and endothelial cell alignmentA General Approach for Generating Fluorescent Probes to Visualize Piconewton Forces at the Cell SurfaceTalin determines the nanoscale architecture of focal adhesions.Dissection of mechanical force in living cells by super-resolved traction force microscopy.Integrin Molecular Tension within Motile Focal Adhesions.Constructing modular and universal single molecule tension sensor using protein G to study mechano-sensitive receptors.Observation of long-range tertiary interactions during ligand binding by the TPP riboswitch aptamerDefining Single Molecular Forces Required for Notch Activation Using Nano Yoyo.Integrins outside focal adhesions transmit tensions during stable cell adhesion.How to Measure Molecular Forces in Cells: A Guide to Evaluating Genetically-Encoded FRET-Based Tension Sensors.Mechanochemical Sensing: A Biomimetic Sensing Strategy.Lighting Up the Force: Investigating Mechanisms of Mechanotransduction Using Fluorescent Tension Probes.Single molecular force across single integrins dictates cell spreadingIntegrin-mediated mechanotransduction.Mechanical Communication at the Immunological Synapse.Microfabricated tissues for investigating traction forces involved in cell migration and tissue morphogenesis.Protein unfolding under isometric tension-what force can integrins generate, and can it unfold FNIII domains?Recent Advances in the Analysis of Single Cells.New advances in probing cell-extracellular matrix interactions.Single Molecule Force Measurements in Living Cells Reveal a Minimally Tensioned Integrin State.Quantifying forces in cell biology.Titin-Based Nanoparticle Tension Sensors Map High-Magnitude Integrin Forces within Focal Adhesions.Mechanically Induced Catalytic Amplification Reaction for Readout of Receptor-Mediated Cellular Forces.Biophysical Tools to Study Cellular Mechanotransduction.Visualizing the interior architecture of focal adhesions with high-resolution traction maps.Platelet integrins exhibit anisotropic mechanosensing and harness piconewton forces to mediate platelet aggregation.Molecular Tension Probes for Imaging Forces at the Cell Surface.Mechanically switching single-molecule fluorescence of GFP by unfolding and refolding.Receptor-mediated cell mechanosensing.Ratiometric Tension Probes for Mapping Receptor Forces and Clustering at Intermembrane Junctions.Tunable molecular tension sensors reveal extension-based control of vinculin loadingMolecular Force Sensors: From Fundamental Concepts toward Applications in Cell Biology
P2860
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P2860
A DNA-based molecular probe for optically reporting cellular traction forces
description
2014 nî lūn-bûn
@nan
2014 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
A DNA-based molecular probe for optically reporting cellular traction forces
@ast
A DNA-based molecular probe for optically reporting cellular traction forces
@en
A DNA-based molecular probe for optically reporting cellular traction forces
@nl
type
label
A DNA-based molecular probe for optically reporting cellular traction forces
@ast
A DNA-based molecular probe for optically reporting cellular traction forces
@en
A DNA-based molecular probe for optically reporting cellular traction forces
@nl
prefLabel
A DNA-based molecular probe for optically reporting cellular traction forces
@ast
A DNA-based molecular probe for optically reporting cellular traction forces
@en
A DNA-based molecular probe for optically reporting cellular traction forces
@nl
P2093
P2860
P50
P356
P1433
P1476
A DNA-based molecular probe for optically reporting cellular traction forces
@en
P2093
Brandon L Blakely
Britta Trappmann
Christoph E Dumelin
Colin K Choi
David R Liu
Peter C Anthony
Van K Duesterberg
P2860
P2888
P304
P356
10.1038/NMETH.3145
P577
2014-10-12T00:00:00Z
P5875
P6179
1004087205