2014
Picomolar Inhibitors of HIV‑1 Reverse Transcriptase: Design and Crystallography of Naphthyl Phenyl Ethers
Lee WG, Frey KM, Gallardo-Macias R, Spasov KA, Bollini M, Anderson KS, Jorgensen WL. Picomolar Inhibitors of HIV‑1 Reverse Transcriptase: Design and Crystallography of Naphthyl Phenyl Ethers. ACS Medicinal Chemistry Letters 2014, 5: 1259-1262. PMID: 25408842, PMCID: PMC4233359, DOI: 10.1021/ml5003713.Peer-Reviewed Original ResearchStructure‐Based Evaluation of C5 Derivatives in the Catechol Diether Series Targeting HIV‐1 Reverse Transcriptase
Frey KM, Gray WT, Spasov KA, Bollini M, Gallardo‐Macias R, Jorgensen WL, Anderson KS. Structure‐Based Evaluation of C5 Derivatives in the Catechol Diether Series Targeting HIV‐1 Reverse Transcriptase. Chemical Biology & Drug Design 2014, 83: 541-549. PMID: 24289305, PMCID: PMC3999282, DOI: 10.1111/cbdd.12266.Peer-Reviewed Original ResearchConceptsHalogen-bonding interactionsCrystal structureHydrogen bondsAdditional hydrogen bond interactionC5 substitutionVan der Waals interactionsHydrogen-bonding interactionsAdditional crystal structuresDer Waals interactionsMore hydrogen bondsEffect of substituentsWaals interactionsClass of inhibitorsBackbone carbonylC5 substituentC5 positionComputational studyComparative structural analysisCatechol diethersStructure-based evaluationDerivativesSubstituentsHIV-1 reverse transcriptasePicomolar potencyBonds
2011
Computationally-Guided Optimization of a Docking Hit to Yield Catechol Diethers as Potent Anti-HIV Agents
Bollini M, Domaoal RA, Thakur VV, Gallardo-Macias R, Spasov KA, Anderson KS, Jorgensen WL. Computationally-Guided Optimization of a Docking Hit to Yield Catechol Diethers as Potent Anti-HIV Agents. Journal Of Medicinal Chemistry 2011, 54: 8582-8591. PMID: 22081993, PMCID: PMC3258498, DOI: 10.1021/jm201134m.Peer-Reviewed Original Research