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Hydroxyl-Assisted trans-Reduction of 1,3-Enynes: Application to the Formal Synthesis of (+)-Aspicilin
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2016
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EngineeringOrganic ChemistryChemistryOrganometallic CatalysisStereoselective SynthesisFormal SynthesisCross-coupling ReactionDiversity-oriented SynthesisLichen-derived Macrolide AspicilinCatalysisNatural Product SynthesisAsymmetric CatalysisEnantioselective SynthesisBiomolecular EngineeringOh GroupAlkene MetathesisNatural SciencesStandard Ruthenium CatalystsHydroxyl-assisted Trans-reductionSynthetic Chemistry
1,3-Enynes are hardly amenable to <i>trans</i>-hydrometalation reactions, because they tend to bind the standard ruthenium catalysts too tightly. However, catalysts comprising a [Cp*Ru–Cl] unit allow such compounds to be used, provided they contain an OH group next to the triple bond. This aspect is illustrated by a formal synthesis of the lichen-derived macrolide aspicilin. The required macrocyclic enyne precursor was formed by an efficient ring-closing alkyne metathesis reaction.