Boron Enolate Chemistry toward the Syntheses of Polyketide Stereotetrads

Koskinen, Ari M. P.

doi:10.1002/tcr.201300033

Cited by 9 publications

References 49 publications

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The Chemistry of Boron Enolate: Synthesis and Reactivity

Abiko

2020

Patai's Chemistry of Functional Groups

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Fifty years have passed since the first boron enolate appeared in the literature. Important paradigm shifting achievements were frequent in this subject. In the 1970s, Mukaiyama demonstrated the applicability of boron enolates in directed aldol reactions. In the 1980s, Masamune and Evans independently developed highly efficient and practical asymmetric aldol reactions to provide powerful tools in organic synthesis. Significance of these achievements includes the establishment of the new concept of double asymmetric synthesis as a reliable tool for controlling stereochemistry. Since the 1990s, transition metals are introduced to organoboron chemistry, and the scope of the boron enolate chemistry has been expanded. The feasibility of using boron compounds in transition metal chemistry has been widely demonstrated, including in the isolation of C ‐bound boron enolates. The C ‐bound boron enolates, which used to be considered as transient species, are now recognized as important players in the boron enolate chemistry. Advances of the preparation of boron enolates and their applications to organic synthesis are reviewed.

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The Chemistry of Boron Enolate: Synthesis and Reactivity

Abiko

2020

Patai's Chemistry of Functional Groups

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ChemInform Abstract: Boron Enolate Chemistry Toward the Syntheses of Polyketide Stereotetrads

Koskinen

2014

ChemInform

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Stereoselective Construction of Entire Diastereomeric Stereotetrads Based on an Asymmetric Morita–Baylis–Hillman Reaction

2017

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A method for the enantio‐ and diastereoselective construction of all possible stereoisomers of a polypropionate stereotetrad having four contiguous stereogenic centers has been developed. The approach features an iterative sequence of cinchona‐alkaloid‐catalyzed Morita–Baylis–Hillman reaction and subsequent diastereoselective hydrogenation. By this method, benzaldehyde was successfully converted into eight diastereoisomeric 3,5‐dihydroxy‐2,4‐dimethyl‐5‐phenylpentanoic acid ester derivatives with high enantiomeric purities (99 % ee) in 25–67 % overall yield (eight steps) in a reagent‐controlled manner.

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Boron Enolate Chemistry toward the Syntheses of Polyketide Stereotetrads

Cited by 9 publications

References 49 publications

The Chemistry of Boron Enolate: Synthesis and Reactivity

The Chemistry of Boron Enolate: Synthesis and Reactivity

ChemInform Abstract: Boron Enolate Chemistry Toward the Syntheses of Polyketide Stereotetrads

Stereoselective Construction of Entire Diastereomeric Stereotetrads Based on an Asymmetric Morita–Baylis–Hillman Reaction

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