Practical synthesis of enantiomerically pure β2-amino acids via proline-catalyzed diastereoselective aminomethylation of aldehydes

Yonggui Chi; Emily P. English; William C. Pomerantz; W. Seth Horne; Leo A. Joyce; Lane R. Alexander; William S. Fleming; Elizabeth A. Hopkins; Samuel H. Gellman

doi:10.1021/ja070063i

Practical synthesis of enantiomerically pure β²-amino acids via proline-catalyzed diastereoselective aminomethylation of aldehydes

Yonggui Chi, Emily P. English, William C. Pomerantz, W. Seth Horne, Leo A. Joyce, Lane R. Alexander, William S. Fleming, Elizabeth A. Hopkins, Samuel H. Gellman^*

^*Corresponding author for this work

University of Wisconsin-Madison

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

69 Citations (Scopus)

Abstract

Proline-catalyzed diastereoselective aminomethylation of aldehydes using a chiral iminium ion, generated from a readily prepared precursor, provides α-substituted-β-amino aldehydes with 85:15 to 90: 10 dr. The α-substituted-β-amino aldehydes can be reduced to β-substituted-γ-amino alcohols, the major diastereomer of which can be isolated via crystallization or column chromatography. The amino alcohols are efficiently transformed to protected β²-amino acids, which are valuable building blocks for β-peptides, natural products, and other interesting molecules. Because conditions for the aminomethylation and subsequent reactions are mild, β²-amino acid derivatives with protected functional groups in the side chain, such as β²- homoglutamic acid, β²-homotyrosine, and β²- homolysine, can be prepared in this way. The synthetic route is short, and purifications are simple; therefore, this method enables the preparation of protected β²-amino acids in useful quantities.

Original language	English
Pages (from-to)	6050-6055
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	129
Issue number	18
DOIs	https://doi.org/10.1021/ja070063i
Publication status	Published - May 9 2007
Externally published	Yes

ASJC Scopus Subject Areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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10.1021/ja070063i

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Chi, Y., English, E. P., Pomerantz, W. C., Horne, W. S., Joyce, L. A., Alexander, L. R., Fleming, W. S., Hopkins, E. A., & Gellman, S. H. (2007). Practical synthesis of enantiomerically pure β²-amino acids via proline-catalyzed diastereoselective aminomethylation of aldehydes. Journal of the American Chemical Society, 129(18), 6050-6055. https://doi.org/10.1021/ja070063i

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abstract = "Proline-catalyzed diastereoselective aminomethylation of aldehydes using a chiral iminium ion, generated from a readily prepared precursor, provides α-substituted-β-amino aldehydes with 85:15 to 90: 10 dr. The α-substituted-β-amino aldehydes can be reduced to β-substituted-γ-amino alcohols, the major diastereomer of which can be isolated via crystallization or column chromatography. The amino alcohols are efficiently transformed to protected β2-amino acids, which are valuable building blocks for β-peptides, natural products, and other interesting molecules. Because conditions for the aminomethylation and subsequent reactions are mild, β2-amino acid derivatives with protected functional groups in the side chain, such as β2- homoglutamic acid, β2-homotyrosine, and β2- homolysine, can be prepared in this way. The synthetic route is short, and purifications are simple; therefore, this method enables the preparation of protected β2-amino acids in useful quantities.",

author = "Yonggui Chi and English, {Emily P.} and Pomerantz, {William C.} and Horne, {W. Seth} and Joyce, {Leo A.} and Alexander, {Lane R.} and Fleming, {William S.} and Hopkins, {Elizabeth A.} and Gellman, {Samuel H.}",

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AU - Chi, Yonggui

AU - English, Emily P.

AU - Pomerantz, William C.

AU - Horne, W. Seth

AU - Joyce, Leo A.

AU - Alexander, Lane R.

AU - Fleming, William S.

AU - Hopkins, Elizabeth A.

AU - Gellman, Samuel H.

PY - 2007/5/9

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N2 - Proline-catalyzed diastereoselective aminomethylation of aldehydes using a chiral iminium ion, generated from a readily prepared precursor, provides α-substituted-β-amino aldehydes with 85:15 to 90: 10 dr. The α-substituted-β-amino aldehydes can be reduced to β-substituted-γ-amino alcohols, the major diastereomer of which can be isolated via crystallization or column chromatography. The amino alcohols are efficiently transformed to protected β2-amino acids, which are valuable building blocks for β-peptides, natural products, and other interesting molecules. Because conditions for the aminomethylation and subsequent reactions are mild, β2-amino acid derivatives with protected functional groups in the side chain, such as β2- homoglutamic acid, β2-homotyrosine, and β2- homolysine, can be prepared in this way. The synthetic route is short, and purifications are simple; therefore, this method enables the preparation of protected β2-amino acids in useful quantities.

AB - Proline-catalyzed diastereoselective aminomethylation of aldehydes using a chiral iminium ion, generated from a readily prepared precursor, provides α-substituted-β-amino aldehydes with 85:15 to 90: 10 dr. The α-substituted-β-amino aldehydes can be reduced to β-substituted-γ-amino alcohols, the major diastereomer of which can be isolated via crystallization or column chromatography. The amino alcohols are efficiently transformed to protected β2-amino acids, which are valuable building blocks for β-peptides, natural products, and other interesting molecules. Because conditions for the aminomethylation and subsequent reactions are mild, β2-amino acid derivatives with protected functional groups in the side chain, such as β2- homoglutamic acid, β2-homotyrosine, and β2- homolysine, can be prepared in this way. The synthetic route is short, and purifications are simple; therefore, this method enables the preparation of protected β2-amino acids in useful quantities.

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Practical synthesis of enantiomerically pure β²-amino acids via proline-catalyzed diastereoselective aminomethylation of aldehydes

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