2016
DOI: 10.1038/ncomms12814
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Confocal reference free traction force microscopy

Abstract: The mechanical wiring between cells and their surroundings is fundamental to the regulation of complex biological processes during tissue development, repair or pathology. Traction force microscopy (TFM) enables determination of the actuating forces. Despite progress, important limitations with intrusion effects in low resolution 2D pillar-based methods or disruptive intermediate steps of cell removal and substrate relaxation in high-resolution continuum TFM methods need to be overcome. Here we introduce a nov… Show more

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Cited by 125 publications
(180 citation statements)
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References 53 publications
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“…Challenges, such as the tracking of markers within three dimensions, and the consideration of anisotropic substrate properties, could be overcome with the implementation of improved computational algorithms. These can provide even greater resolution, and aid the development of reference‐free approaches by removing the need to detach cells to obtain the reference location of trackers . Increased accuracy is vital to look deeper at the subcellular level, to study the coordination of cytoskeletal structure and sites of mechanoreceptor activation and traction force generation …”
Section: Traction Force Microscopymentioning
confidence: 99%
“…Challenges, such as the tracking of markers within three dimensions, and the consideration of anisotropic substrate properties, could be overcome with the implementation of improved computational algorithms. These can provide even greater resolution, and aid the development of reference‐free approaches by removing the need to detach cells to obtain the reference location of trackers . Increased accuracy is vital to look deeper at the subcellular level, to study the coordination of cytoskeletal structure and sites of mechanoreceptor activation and traction force generation …”
Section: Traction Force Microscopymentioning
confidence: 99%
“…This simplifies experimental procedures, is less disruptive to the sample, and will allow larger throughput studies. 35 We have focused on immune cell-target interactions and demonstrated detailed quantification of surprising patterns of cellular force exertion during these processes.…”
Section: Live-cell Force Dynamics Within the Cytotoxic T Cell Immunolmentioning
confidence: 99%
“…YAP/TAZ subcellular localization is regulated by cell-cell interactions through the Hippo pathway 19 and by cell-matrix interactions through cytoskeletal tension associated with cell spreading 11,12,20 .…”
Section: Dynamic Control Of Yap and Taz Promote Migration And Cytoskementioning
confidence: 99%
“…C), had no effect on wound closure in either control or YAP/TAZ-depleted cells (p > .30; Supplementary Figure 2j). Intracellular mechanics dynamically respond to extracellular stimuli like contact inhibition release during migration [22][23][24] and drive YAP/TAZ nuclear localization 11,20 . Cellular resistance to perpendicular compressive forces at the cell apex is mediated by the tensile actomyosin network.…”
Section: Dynamic Control Of Yap and Taz Promote Migration And Cytoskementioning
confidence: 99%