Serine-cis-proline and Serine-trans-proline Isosteres:  Stereoselective Synthesis of (Z)- and (E)-Alkene Mimics by Still−Wittig and Ireland−Claisen Rearrangements

Xiaodong J. Wang; Scott A. Hart; Bailing Xu; Matthew D. Mason; John R. Goodell; Felicia A. Etzkorn

doi:10.1021/jo026663b

Serine-cis-proline and Serine-trans-proline Isosteres: Stereoselective Synthesis of (Z)- and (E)-Alkene Mimics by Still−Wittig and Ireland−Claisen Rearrangements

Xiaodong J. Wang(Virginia Tech), Scott A. Hart(Virginia Tech), Bailing Xu(University of Virginia), Matthew D. Mason(University of Virginia), John R. Goodell(Virginia Tech), Felicia A. Etzkorn(University of Virginia)

The Journal of Organic Chemistry

February 26, 2003

10.1021/jo026663b

Cited by 65

Abstract

Two new amide isosteres of Ser-cis-Pro and Ser-trans-Pro dipeptides were designed and stereoselectively synthesized to be incorporated into potential inhibitors of the phosphorylation-dependent peptidylprolyl isomerase Pin1, an essential regulator of the cell cycle. The cis mimic, the (Z)-alkene isomer, was formed through the use of a Still-Wittig [2,3]-sigmatropic rearrangement, while the trans mimic, the (E)-alkene, was synthesized through the use of an Ireland-Claisen [3,3]-sigmatropic rearrangement. Starting from N-Boc-Ser(OBn)-N(OMe)Me, both mimics were synthesized in Boc-protected form suitable for peptide synthesis with an overall yield of 20% in 10 steps for the cis mimic and 13% in eight steps for the trans mimic.

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Serine-<i>cis</i>-proline and Serine-<i>trans</i>-proline Isosteres: Stereoselective Synthesis of (<i>Z</i>)- and (<i>E</i>)-Alkene Mimics by Still−Wittig and Ireland−Claisen Rearrangements

Abstract

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