DNA mechanocapsules: Force responsive tetrahedral DNA nanostructures with modular cargo delivery for targeting mechanical phenotypes of diseases
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Utilizing DNA Nanotechnology to Unveil the Effects of Receptor Forces on Cell Maturation and Function
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The Role of Shear-Sensitive Protein Heart of Glass Homolog 1 (HEG1) in Endothelial Biology and Atherosclerosis
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EXPANDING THE MOLECULAR TOOLKIT TO MEASURE CELL FORCE: FROM SCAFFOLD SYNTHESIS TO MEASURING MECHANOTRANSDUTION
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Ultrasensitive Tension Sensors with Catalytic Amplification Reactions: From Fundamental Development to Clinical Applications
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The Role of Mechanosensitive KLK10 in Endothelial Biology and Atherosclerosis
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Development of methods for mechanical manipulation of biomolecules and super-resolution measurement of cellular forces
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DNA Nanotechnology as an Emerging Tool to Investigate Cell Mechanics: From Studying T Cell Mechanotransduction to Development of Catalytic Amplification Assay for Readout of Cellular Forces