2025
P-788. Exploring β-Lactam Interactions with DacB1: Unraveling Optimal Therapies for Combating Drug-Resistant Mycobacterium tuberculosis
Nantongo M, Nguyen D, Shin E, Bethel C, Taracila M, Dousa K, Kurz S, Nguyen L, Kreiswirth B, Boom W, Bonomo R. P-788. Exploring β-Lactam Interactions with DacB1: Unraveling Optimal Therapies for Combating Drug-Resistant Mycobacterium tuberculosis. Open Forum Infectious Diseases 2025, 12: ofae631.982. PMCID: PMC11778675, DOI: 10.1093/ofid/ofae631.982.Peer-Reviewed Original ResearchMinimum inhibitory concentrationAcyl-enzyme adductOxyanion holeB-lactamB-lactamasePeptidoglycan synthesis pathwayCarbonyl groupHydrophobic interactionsElectrospray ionization mass spectrometryAcyl-enzyme formationB-lactam antibioticsMichaelis-Menten complexC1‐methyl groupProtein motifsPeptidoglycan biosynthesisDrug-resistant Mycobacterium tuberculosisIonization mass spectrometryPeptidoglycan synthesisD-carboxypeptidaseAnalysis of meropenemB-lactamase inhibitorsClinical isolatesBroth microdilutionClinically achievable concentrationsSynthesis pathway
2023
Efficient O -demethylation of lignin-derived aromatic compounds under moderate conditions
Wang Y, Chen M, Yang Y, Ralph J, Pan X. Efficient O -demethylation of lignin-derived aromatic compounds under moderate conditions. RSC Advances 2023, 13: 5925-5932. PMID: 36816077, PMCID: PMC9936356, DOI: 10.1039/d3ra00245d.Peer-Reviewed Original ResearchElectron-withdrawing substituentsCarbonyl groupAlkyl hydroxyl groupsModerate conditionsElectron-donatingMethoxy groupAlkyl hydroxylationHydroxyl groupsStable intermediateLithium bromideAromatic compoundsAromaticsSubstituentsLignin depolymerizationAromatic chemicalsO-demethylationCarbonylLignin-derived aromaticsAlkylationEfficient methodBromideLignin-derived aromatic compoundsHydroxylCompoundsIntermediate
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