Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters

Wolfgang Kroutil; M. Elena Lasterra-Sánchez; Samuel J. Maddrell; Patrick Mayon; Phillip Morgan; Stanley M. Roberts; Steven R. Thornton; Christine J. Todd; Melek Tüter

doi:10.1039/P19960002837

Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters

Wolfgang Kroutil^*, M. Elena Lasterra-Sánchez, Samuel J. Maddrell, Patrick Mayon, Phillip Morgan, Stanley M. Roberts, Steven R. Thornton, Christine J. Todd, Melek Tüter

^*Corresponding author for this work

University of Liverpool

Research output: Contribution to journal › Article › peer-review

47 Citations (Scopus)

Abstract

Polyleucine-based systems have been used to catalyse the asymmetric oxidation of a variety of alkyl enones 1-4, 9-14, an enynone 16 and a dienone 17 to afford the corresponding epoxides 5-8, 18-26 in good to excellent yield and optical purity. A range of enediones 30-32, 34 and one unsaturated keto ester 33 have also been epoxidised stereoselectively to afford optically active epoxides 35-39. The epoxidations were carried out with basic peroxide as the oxidant; the polyleucine catalyst was prepared from leucine N-carboxyanhydride using 1,3-diaminopropane, water (employing a humidity cabinet) or a polystyrene immobilised amine as the initiator. Preliminary mass spectral data on material derived from L-leucine and 1,3-diaminopropane (DAP-PLL) suggest that the catalyst consists of material that contains 22 ± 10 leucine residues.

Original language	English
Pages (from-to)	2837-2844
Number of pages	8
Journal	Journal of the Chemical Society, Perkin Transactions 1
Issue number	23
DOIs	https://doi.org/10.1039/P19960002837
Publication status	Published - 7 Dec 1996
Externally published	Yes

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Kroutil, W., Lasterra-Sánchez, M. E., Maddrell, S. J., Mayon, P., Morgan, P., Roberts, S. M., Thornton, S. R., Todd, C. J., & Tüter, M. (1996). Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters. Journal of the Chemical Society, Perkin Transactions 1, (23), 2837-2844. https://doi.org/10.1039/P19960002837

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title = "Development of the Juli{\'a} asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters",

abstract = "Polyleucine-based systems have been used to catalyse the asymmetric oxidation of a variety of alkyl enones 1-4, 9-14, an enynone 16 and a dienone 17 to afford the corresponding epoxides 5-8, 18-26 in good to excellent yield and optical purity. A range of enediones 30-32, 34 and one unsaturated keto ester 33 have also been epoxidised stereoselectively to afford optically active epoxides 35-39. The epoxidations were carried out with basic peroxide as the oxidant; the polyleucine catalyst was prepared from leucine N-carboxyanhydride using 1,3-diaminopropane, water (employing a humidity cabinet) or a polystyrene immobilised amine as the initiator. Preliminary mass spectral data on material derived from L-leucine and 1,3-diaminopropane (DAP-PLL) suggest that the catalyst consists of material that contains 22 ± 10 leucine residues.",

author = "Wolfgang Kroutil and Lasterra-S{\'a}nchez, {M. Elena} and Maddrell, {Samuel J.} and Patrick Mayon and Phillip Morgan and Roberts, {Stanley M.} and Thornton, {Steven R.} and Todd, {Christine J.} and Melek T{\"u}ter",

year = "1996",

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doi = "10.1039/P19960002837",

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Kroutil, W, Lasterra-Sánchez, ME, Maddrell, SJ, Mayon, P, Morgan, P, Roberts, SM, Thornton, SR, Todd, CJ & Tüter, M 1996, 'Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters', Journal of the Chemical Society, Perkin Transactions 1, no. 23, pp. 2837-2844. https://doi.org/10.1039/P19960002837

Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters. / Kroutil, Wolfgang; Lasterra-Sánchez, M. Elena; Maddrell, Samuel J. et al.
In: Journal of the Chemical Society, Perkin Transactions 1, No. 23, 07.12.1996, p. 2837-2844.

Research output: Contribution to journal › Article › peer-review

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T1 - Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters

AU - Kroutil, Wolfgang

AU - Lasterra-Sánchez, M. Elena

AU - Maddrell, Samuel J.

AU - Mayon, Patrick

AU - Morgan, Phillip

AU - Roberts, Stanley M.

AU - Thornton, Steven R.

AU - Todd, Christine J.

AU - Tüter, Melek

PY - 1996/12/7

Y1 - 1996/12/7

N2 - Polyleucine-based systems have been used to catalyse the asymmetric oxidation of a variety of alkyl enones 1-4, 9-14, an enynone 16 and a dienone 17 to afford the corresponding epoxides 5-8, 18-26 in good to excellent yield and optical purity. A range of enediones 30-32, 34 and one unsaturated keto ester 33 have also been epoxidised stereoselectively to afford optically active epoxides 35-39. The epoxidations were carried out with basic peroxide as the oxidant; the polyleucine catalyst was prepared from leucine N-carboxyanhydride using 1,3-diaminopropane, water (employing a humidity cabinet) or a polystyrene immobilised amine as the initiator. Preliminary mass spectral data on material derived from L-leucine and 1,3-diaminopropane (DAP-PLL) suggest that the catalyst consists of material that contains 22 ± 10 leucine residues.

AB - Polyleucine-based systems have been used to catalyse the asymmetric oxidation of a variety of alkyl enones 1-4, 9-14, an enynone 16 and a dienone 17 to afford the corresponding epoxides 5-8, 18-26 in good to excellent yield and optical purity. A range of enediones 30-32, 34 and one unsaturated keto ester 33 have also been epoxidised stereoselectively to afford optically active epoxides 35-39. The epoxidations were carried out with basic peroxide as the oxidant; the polyleucine catalyst was prepared from leucine N-carboxyanhydride using 1,3-diaminopropane, water (employing a humidity cabinet) or a polystyrene immobilised amine as the initiator. Preliminary mass spectral data on material derived from L-leucine and 1,3-diaminopropane (DAP-PLL) suggest that the catalyst consists of material that contains 22 ± 10 leucine residues.

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Development of the Juliá asymmetric epoxidation reaction. Part 2. Application of the oxidation to alkyl enones, enediones and unsaturated keto esters

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