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Defining the mechanism of substrate recognition by the tRNA methyltransferase Trm10
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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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Substrate-dependent effects of myeloperoxidase-derived oxidants on the metabolome and transcriptome of human airway epithelial cells
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Proteomic profiling of neuronal and microglial cells using TurboID in inflammatory and homeostatic states for extension into in vivo systems.
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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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The Fourth Wave of Biocatalysis: Biochemical and in silico Characterization of FeS Cluster Containing Metalloenzyme Superfamilies
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(Frame)shifty Business: Disruption of Ribosome Fidelity to Subvert the Genetic Code
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Nucleation Pathways of Peptide Assemblies and Their Context in Alzheimer’s Disease
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Utilizing DNA Nanotechnology to Unveil the Effects of Receptor Forces on Cell Maturation and Function
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Overcoming Antibacterial Resistance through Synthesis of Small Molecules Targeting Efflux Mechanisms
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Characterizing Human-Disease Mutations in the Essential RNA Exosome with the Budding Yeast Model System
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DNA Origami in Protein Oligomer Assembly & Mesoscale Self-assembly of DNA Origami Nanorod with Polynucleotide Brush
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Unraveling Autoinhibition and Activation Mechanisms of the von Willebrand Factor A1 Domain
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Chemo and Site Selective Modification of Proteins and Chemical Tools for Studying Mono-Methyl Lysine (Kme)
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Redox Enzymes for Biocatalysis: From Asymmetric Hydrogenation to CO2 Reduction
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Building Nucleic Acid-Based Technologies for Biological Sensing and Modulation
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Developing Chemical Tools for Selective Peptide Modification
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Engineering Nanodiscoidal Nucleic Acids as the Next-Generation Platform to Deliver Oligonucleotide Therapeutics
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Cryo-EM as a tool to understand cross-alpha and beta nanotubes peptide systems
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