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Engineering Self-Assembling Peptide Systems
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Rational and Computational Design of Superhelical Protein Nanotubes
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Effect of Site-Specific Heating on Enzyme Catalysis
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α-helical peptide Self-assembly Structure Design and Characterization
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A Chemical Biology Toolbox for Studying A-to-I RNA Editing
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Metal-Amyloid Networks: Structure and Dynamics Across Reduced and Oxidized States
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Molecular mechanisms of bacterial translation regulation
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Structures and Functions of Peptide-metal Co-assemblies
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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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Engineering Nanodiscoidal Nucleic Acids as the Next-Generation Platform to Deliver Oligonucleotide Therapeutics
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Building Nucleic Acid-Based Technologies for Biological Sensing and Modulation
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DNA Origami in Protein Oligomer Assembly & Mesoscale Self-assembly of DNA Origami Nanorod with Polynucleotide Brush
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The Fourth Wave of Biocatalysis: Biochemical and in silico Characterization of FeS Cluster Containing Metalloenzyme Superfamilies
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Hierarchical Self-assembly of Novel DNA Nanostructures for Biomedical and Biomimetic Research
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Systems Chemistry of Self-Replicating Networks: From Nature to Nanomaterials
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Self-assemblies of electrostatically self-complementary peptides derived from different structural motifs
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