Synthesis of resveratrol tetramers via a stereoconvergent radical equilibrium

Synthesis of resveratrol tetramers via a stereoconvergent radical equilibrium

Persistent free radicals have become indispensable in the synthesis of organic materials through living radical polymerization. However, examples of their use in the synthesis of small molecules are rare. Here, we report the application of persistent radical and quinone methide intermediates to the...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2016-12, Vol.354 (6317), p.1260-1265
Hauptverfasser: Keylor, Mitchell H., Matsuura, Bryan S., Griesser, Markus, Chauvin, Jean-Philippe R., Harding, Ryan A., Kirillova, Mariia S., Zhu, Xu, Fischer, Oliver J., Pratt, Derek A., Stephenson, Corey R. J.
Format: Artikel
Sprache:eng
Schlagworte:
Benzofurans - chemical synthesis
Biological Products - chemical synthesis
Bonding strength
Carbon
Carbon - chemistry
Carbon-carbon composites
Chemistry
Dimerization
Fragments
Free radicals
Indolequinones - chemistry
Organic chemicals
Oxidation-Reduction
Polymerization
Polyphenols
Radicals
Resorcinols - chemical synthesis
Stilbenes - chemical synthesis
Synthesis
Synthesis (chemistry)
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Zusammenfassung:Persistent free radicals have become indispensable in the synthesis of organic materials through living radical polymerization. However, examples of their use in the synthesis of small molecules are rare. Here, we report the application of persistent radical and quinone methide intermediates to the synthesis of the resveratrol tetramers nepalensinol B and vateriaphenol C. The spontaneous cleavage and reconstitution of exceptionally weak carbon-carbon bonds has enabled a stereoconvergent oxidative dimerization of racemic materials in a transformation that likely coincides with the biogenesis of these natural products. The efficient synthesis of higher-order oligomers of resveratrol will facilitate the biological studies necessary to elucidate their mechanism(s) of action.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaj1597