Explores enzyme activity modulation and small-molecule drug mechanisms, focusing on reversible and irreversible inhibition, progress curves, and covalent bond formation.
Covers the design and analysis of inhibitors for next-generation covalent drugs, focusing on target engagement and the importance of cysteine targeting.
Explores kinase inhibitors, enzyme inhibition methods, transition state analog drugs, and the significance of covalent drugs in pharmaceutical research.
Discusses the inclusion of fermented foods in global food guides, exploring their benefits and risks, enzyme kinetics, and the history of food enzymes.
Explores kinase inhibitors, their types, mechanisms, and experimental evaluation, emphasizing the significance of covalent drugs in modern pharmaceutical research.
Analyzes a mutant DDX3 enzyme's ATPase activity and inhibitor development, covering RNA chaperones, crystal structures, and mass spectrometry-based protein profiling.
Covers enzyme inhibition mechanisms, drug modes of action, targeted protein degradation using PROTACs, and the bump-hole method for protein-ligand engineering.
Explores Chemical Biology's interdisciplinary nature, enzyme inhibition, genetic methods, and metabolic regulation, highlighting its real-world relevance through recent Nobel Prize contributions.
Covers enzyme structure, function, and classification in environmental microbiology, highlighting their catalytic roles and significance in biochemical processes.
Explores the importance of protein-ligand interactions, focusing on binding affinities and energetic landscapes, with implications for drug development and specificity.
