Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions

Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions

Traction force microscopy is an effective method for measuring cellular forces but it is limited by planar geometry. Here the authors develop a facile method to produce deformable hydrogel particles and a reference-free computational method to resolve surface traction forces from particle shape defo...

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Autores principales: Daan Vorselen, Yifan Wang, Miguel M. de Jesus, Pavak K. Shah, Matthew J. Footer, Morgan Huse, Wei Cai, Julie A. Theriot
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/fbc3f6afb17f46f49e6de46d02f86e78
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spelling oai:doaj.org-article:fbc3f6afb17f46f49e6de46d02f86e782021-12-02T15:33:52ZMicroparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions10.1038/s41467-019-13804-z2041-1723https://doaj.org/article/fbc3f6afb17f46f49e6de46d02f86e782020-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-13804-zhttps://doaj.org/toc/2041-1723Traction force microscopy is an effective method for measuring cellular forces but it is limited by planar geometry. Here the authors develop a facile method to produce deformable hydrogel particles and a reference-free computational method to resolve surface traction forces from particle shape deformation.Daan VorselenYifan WangMiguel M. de JesusPavak K. ShahMatthew J. FooterMorgan HuseWei CaiJulie A. TheriotNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-14 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Daan Vorselen
Yifan Wang
Miguel M. de Jesus
Pavak K. Shah
Matthew J. Footer
Morgan Huse
Wei Cai
Julie A. Theriot
Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
description Traction force microscopy is an effective method for measuring cellular forces but it is limited by planar geometry. Here the authors develop a facile method to produce deformable hydrogel particles and a reference-free computational method to resolve surface traction forces from particle shape deformation.
format article
author Daan Vorselen
Yifan Wang
Miguel M. de Jesus
Pavak K. Shah
Matthew J. Footer
Morgan Huse
Wei Cai
Julie A. Theriot
author_facet Daan Vorselen
Yifan Wang
Miguel M. de Jesus
Pavak K. Shah
Matthew J. Footer
Morgan Huse
Wei Cai
Julie A. Theriot
author_sort Daan Vorselen
title Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
title_short Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
title_full Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
title_fullStr Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
title_full_unstemmed Microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
title_sort microparticle traction force microscopy reveals subcellular force exertion patterns in immune cell–target interactions
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/fbc3f6afb17f46f49e6de46d02f86e78
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AT miguelmdejesus microparticletractionforcemicroscopyrevealssubcellularforceexertionpatternsinimmunecelltargetinteractions
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AT morganhuse microparticletractionforcemicroscopyrevealssubcellularforceexertionpatternsinimmunecelltargetinteractions
AT weicai microparticletractionforcemicroscopyrevealssubcellularforceexertionpatternsinimmunecelltargetinteractions
AT julieatheriot microparticletractionforcemicroscopyrevealssubcellularforceexertionpatternsinimmunecelltargetinteractions
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