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Tension sensing nanoparticles for mechano-imaging at the living/nonliving interface.


ABSTRACT: Studying chemomechanical coupling at interfaces is important for fields ranging from lubrication and tribology to microfluidics and cell biology. Several polymeric macro- and microscopic systems and cantilevers have been developed to image forces at interfaces, but few materials are amenable for molecular tension sensing. To address this issue, we have developed a gold nanoparticle sensor for molecular tension-based fluorescence microscopy. As a proof of concept, we imaged the tension exerted by integrin receptors at the interface between living cells and a substrate with high spatial (<1 ?m) resolution, at 100 ms acquisition times and with molecular specificity. We report integrin tension values ranging from 1 to 15 pN and a mean of ~1 pN within focal adhesions. Through the use of a conventional fluorescence microscope, this method demonstrates a force sensitivity that is 3 orders of magnitude greater than is achievable by traction force microscopy or polydimethylsiloxane micropost arrays, which are the standard in cellular biomechanics.

SUBMITTER: Liu Y 

PROVIDER: S-EPMC3630457 | biostudies-literature | 2013 Apr

REPOSITORIES: biostudies-literature

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Tension sensing nanoparticles for mechano-imaging at the living/nonliving interface.

Liu Yang Y   Yehl Kevin K   Narui Yoshie Y   Salaita Khalid K  

Journal of the American Chemical Society 20130326 14


Studying chemomechanical coupling at interfaces is important for fields ranging from lubrication and tribology to microfluidics and cell biology. Several polymeric macro- and microscopic systems and cantilevers have been developed to image forces at interfaces, but few materials are amenable for molecular tension sensing. To address this issue, we have developed a gold nanoparticle sensor for molecular tension-based fluorescence microscopy. As a proof of concept, we imaged the tension exerted by  ...[more]

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2024-02-02 | GSE246066 | GEO