Total Synthesis of Sordaricin
Copyright policy )Total Synthesis of Sordaricin
An enantioconvergent total synthesis of sordaricin (3), the diterpene aglycon of an important class of antifungal compounds, is described. Two approaches were explored, the first of which utilized a possible biogenetic intramolecular [4 + 2] cycloaddition to form the complete carbon skeleton of the target molecule as a single regioisomer 30. A second approach employed a tandem cycloreversion/intramolecular [4 + 2] cycloaddition process to afford not only the desired product 30 but also significant quantities of the undesired regioisomer iso-30. An investigation into the reasons for the difference in regioselectivity between these two reactions revealed the intervention of a cycloreversion/cycloaddition pathway at elevated temperatures leading to the formation of iso-30. Experimental evidence supports the hypothesis that iso-30 is the more thermodynamically stable of the two regioisomers.
- Australian National University Australia
aldehyde derivative, Antifungal Agents, Molecular Conformation, Molecular dynamics, Thermodynamic stability, Sordaricin, diterpene, Thermal effects, Isomers, Diterpene aglycon, Organic compounds, antifungal agent, Keywords: antifungal agent, cycloaddition, Regioisomers, Antifungal compounds, article, 540, molecular dynamics, drug structure, Genes, Cyclization, Synthesis (chemical), drug synthesis, Keywords: Addition reactions, Diterpenes, sordarin derivative
aldehyde derivative, Antifungal Agents, Molecular Conformation, Molecular dynamics, Thermodynamic stability, Sordaricin, diterpene, Thermal effects, Isomers, Diterpene aglycon, Organic compounds, antifungal agent, Keywords: antifungal agent, cycloaddition, Regioisomers, Antifungal compounds, article, 540, molecular dynamics, drug structure, Genes, Cyclization, Synthesis (chemical), drug synthesis, Keywords: Addition reactions, Diterpenes, sordarin derivative
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