Generality-oriented optimization of enantioselective aminoxyl radical catalysis
Copyright policy )NIH| Site-Selective Catalysis for Bioactive Scaffold Diversification ,
NIH| Radical redox catalysis by Ti complexes ,
NSF| MRI: Acquisition of a Cryogenic Probe and Modern Console for Outstanding NMR Sensitivity to Benefit Research and Education at Cornell University ,
NIH| Data Science Guided Organic Reaction Development
Jonas Rein; Soren D. Rozema; Olivia C. Langner; Samson B. Zacate; Melissa A. Hardy; Juno C. Siu; Brandon Q. Mercado; +3 Authors
Jonas Rein; Soren D. Rozema; Olivia C. Langner; Samson B. Zacate; Melissa A. Hardy; Juno C. Siu; Brandon Q. Mercado; Matthew S. Sigman; Scott J. Miller; Song Lin;
Generality-oriented optimization of enantioselective aminoxyl radical catalysis
Catalytic enantioselective methods that are generally applicable to a broad range of substrates are rare. We report a strategy for the oxidative desymmetrization of meso -diols predicated on a nontraditional catalyst optimization protocol by using a panel of screening substrates rather than a singular model substrate. Critical to this approach was rational modulation of a peptide sequence in the catalyst incorporating a distinct aminoxyl-based active residue. A general catalyst emerged, providing high selectivity in the delivery of enantioenriched lactones across a broad range of diols, while also achieving up to ~100,000 turnovers.
- Yale University United States
- Department of Chemistry Yale University United States
- Cornell University United States
- Department of Chemistry and Chemical Biology United States
- CORNELL UNIVERSITY
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selected citations
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These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
Citations provided by BIP!popularityPopularity provided by BIP!
This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
Popularity provided by BIP! 68
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NIH| Site-Selective Catalysis for Bioactive Scaffold Diversification, NIH| Radical redox catalysis by Ti complexes, NSF| MRI: Acquisition of a Cryogenic Probe and Modern Console for Outstanding NMR Sensitivity to Benefit Research and Education at Cornell University, NIH| Data Science Guided Organic Reaction Development