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Promysalin and CD437: Compounds Investigating New Antibacterial Mechanisms
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The Development and Mechanistic Studies of Group(IX)Cp*-Catalyzed Allylic C–H Functionalization Reactions Proceeding via a π-allyl Intermediate
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Targeting Bacterial Tolerance and Resistance with Small Molecules
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Leveraging Organic Synthesis to Disrupt and Understand Essential Bacterial Processes
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C-H Functionalization Inspired Total Synthesis and New Donor/Acceptor Carbenes for Asymmetric C-H Functionalization
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Leveraging Chemical Tools to Target Bacterial Membranes and Combat Antimicrobial Resistance
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Synthesis and Biological Investigation of Membrane-targeting Antimicrobials
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Membranes & Metals: Bacterial Targets to Fight Antibiotic Resistance
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Building Nucleic Acid-Based Technologies for Biological Sensing and Modulation
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Design and Synthesis of Chemical Modulators for Altered Activity of Nuclear Receptor Liver Receptor Homolog-1 and Synthesis of Spirocyclic Piperidines via Radical Hydroarylation
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Overcoming Antibacterial Resistance through Synthesis of Small Molecules Targeting Efflux Mechanisms
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Natural Product Inspired Complementary Approaches to Counter Antimicrobial Resistance: Synthetic and Biological Investigations of Antibacterial Small Molecules
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The Fourth Wave of Biocatalysis: Biochemical and in silico Characterization of FeS Cluster Containing Metalloenzyme Superfamilies
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Development of New Diaryl Diazo Compounds and the Study of their application in C-H Functionalization Chemistry
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