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Biophysics of Membrane Remodeling driven by Protein Crowding
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Engineering the Stereospecificity and Regioselectivity of Flavoenzymes
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Enzyme Dynamics Elucidated via Temperature Jump Fluorescence Spectroscopy
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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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Covalent Labeling of Protein and RNA Using Fluorescent Dyes
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Amplification of amyloid-beta strains and their connection to tau in Alzheimer’s Disease
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Exploring the Role of Cofactor and Protein Sequence Variability Across the Old Yellow Enzyme Superfamily
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Rational and Computational Design of Superhelical Protein Nanotubes
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Molecular mechanisms of bacterial translation regulation
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Metal-Amyloid Networks: Structure and Dynamics Across Reduced and Oxidized States
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Molecular mechanisms governing regulation of toxin-antitoxin systems in bacteria
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Design and Synthesis of New Liver Receptor Homolog-1 Modulators and Probes
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Leveling Up DNA Hybridization Affinity and Specificity Using Heteromultivalent DNA-Functionalized Particles
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Leveraging Chemical Tools to Target Bacterial Membranes and Combat Antimicrobial Resistance
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Harnessing the Dual Nature of Peptide Nucleic Acids
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Development of Chemical Methods for Labeling Monomethyl Lysine Post-Translational Modification and Serine and their Applications.
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Cryo-EM as a tool to understand cross-alpha and beta nanotubes peptide systems
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Structures and Functions of Peptide-metal Co-assemblies
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Engineering Nanodiscoidal Nucleic Acids as the Next-Generation Platform to Deliver Oligonucleotide Therapeutics
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Developing Chemical Tools for Selective Peptide Modification
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