2016
Aspartyl Oxidation Catalysts That Dial In Functional Group Selectivity, along with Regio- and Stereoselectivity
Alford JS, Abascal NC, Shugrue CR, Colvin SM, Romney DK, Miller SJ. Aspartyl Oxidation Catalysts That Dial In Functional Group Selectivity, along with Regio- and Stereoselectivity. ACS Central Science 2016, 2: 733-739. PMID: 27800556, PMCID: PMC5084076, DOI: 10.1021/acscentsci.6b00237.Peer-Reviewed Original ResearchBaeyer-Villiger oxidationAlkene epoxidationSmall-molecule catalystsModes of reactivityOrthogonal chemical reactivityFunctional group selectivityCarboxylic acid groupsCatalytic functional groupsLate-stage diversificationDifferent chemical reactionsActive site carboxylatesMacromolecular architecturesPolyfunctional moleculesChemical reactivityChemical selectivityElectrophilic oxidantSelective reactionGroup selectivityAmide bondAcid groupsFunctional groupsActive siteCatalytic mechanismChemical reactionsCatalyst
2013
Chemical Tailoring of Teicoplanin with Site-Selective Reactions
Pathak TP, Miller SJ. Chemical Tailoring of Teicoplanin with Site-Selective Reactions. Journal Of The American Chemical Society 2013, 135: 8415-8422. PMID: 23692563, PMCID: PMC3800266, DOI: 10.1021/ja4038998.Peer-Reviewed Original ResearchConceptsNew compoundsSelective cross-coupling reactionsChemical reactionsOrthogonal chemical reactionsSite-selective reactionsTotal chemical synthesisCross-coupling reactionsNatural product derivativesTwo-step accessChemical tailoringChemical synthesisProduct derivativesChemical modificationPoor selectivityAntibacterial propertiesAntibiotic teicoplaninReactionChemical alterationImproved analoguesCompoundsUnmet challengeAnaloguesSelectivitySemisynthesisComplex structure