Publications by authors named "Mia Chung"
Gram-negative bacteria pose a major challenge in antibiotic drug discovery because their cell envelope presents a permeability barrier that affords high intrinsic resistance to small-molecule drugs. The identification of correlations between chemical structure and Gram-negative permeability would thus enable development of predictive tools to facilitate antibiotic discovery. Toward this end, have advanced a library design paradigm in which various chemical scaffolds are functionalized at different regioisomeric positions using a uniform reagent set.
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- * Limited knowledge about how to create drugs that effectively penetrate these bacteria is a significant barrier for new antibiotic development.
- * Researchers created a diverse library of sulfamidoadenosines and tested their ability to accumulate in E. coli, using advanced chemical methods to improve drug design and synthesis.
The LC3/GABARAP family of proteins is involved in nearly every stage of autophagy. Inhibition of LC3/GABARAP proteins is a promising approach to blocking autophagy, which sensitizes advanced cancers to DNA-damaging chemotherapy. Here, we report the structure-based design of stapled peptides that inhibit GABARAP with nanomolar affinities.
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