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Harnessing DNA Motors for Sensing and Information Processing Applications
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Hemagglutinin Mediated Membrane Fusion: Exploring Fusion Peptide Insertion and Structural Variants
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Small-Molecule Tools to Probe and Modulate RNA Function
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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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Engineering Nanodiscoidal Nucleic Acids as the Next-Generation Platform to Deliver Oligonucleotide Therapeutics
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Functionally-Responsive Hydrogels: from Dynamic Coloration to Biosensing
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Force-dependent von Willebrand factor activation and allosteric modulation by single-domain antibodies
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Leveling Up DNA Hybridization Affinity and Specificity Using Heteromultivalent DNA-Functionalized Particles
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Molecular mechanisms of bacterial translation regulation
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All the small things: Utilizing a nanoparticle platform to examine apical integrin regulation of the epithelial barrier
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Beyond the central dogma: DNA assemblies programmed to function as nanoscale motors
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Investigating Protein and Peptide Mediated Membrane Bending Mechanisms
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α-helical peptide Self-assembly Structure Design and Characterization
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Development of methods for mechanical manipulation of biomolecules and super-resolution measurement of cellular forces
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Synthesis, Structure-Activity Relationship, and Biological Evaluation of Subunit-Selective NMDA Receptor Modulators
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Biophysics of Membrane Remodeling driven by Protein Crowding
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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
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Deoxyribozyme Nanoparticle Nanozymes: from Splicing to Mechanism
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The role of desmosome order, organization, and dynamics in adhesive function
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