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Engineering DNA as a molecular tool to investigate T cell mechanical signaling
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Establishing kinetic activity of Exonuclease III on surface-immobilized substrates used in novel DNA rolling motors
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Ultrasensitive Tension Sensors with Catalytic Amplification Reactions: From Fundamental Development to Clinical Applications
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Optimizing the performance efficiency of highly polyvalent DNA-based motors
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Developing and Understanding Nucleic Acid Tension Sensors to Dissect Cellular Mechanosensing
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A toolbox based on DNA nanotechnology to investigate cell receptor mechanics
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Protein-based Tension Probes: From Mapping Integrin Adhesion
Forces to the Mechanopharmacology of Smooth Muscle Cells
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Fundamental properties and applications of surface confined enzymes in gene regulation and molecular motors
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An Approach to Generate Ultra-Robust and Highly Modular Molecular
Tension Probes and Thermo-Responsive Enzymatic Nanoreactors to
Regulate Reaction Rate
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Conditional Deoxyribozyme Gene Knockdown: Investigating DNA
Displacement Reactions on Gold Nanoparticles
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