A novel post‐ligation thioesterification device enables peptide ligation in the N to C direction: synthetic study of human glycodelin |
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Authors: | Takaomi Takenouchi Hidekazu Katayama Yuko Nakahara Yoshiaki Nakahara Hironobu Hojo |
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Institution: | Department of Applied Biochemistry, Faculty of Engineering, Tokai University, , Hiratsuka, Kanagawa, 259‐1292 Japan |
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Abstract: | Human glycodelin consists of 162 amino acid residues and two N‐linked glycans at Asn28 and Asn63. In this study, we synthesized it by a fully convergent strategy using native chemical ligation (NCL) in N to C direction. The four peptide segments corresponding to 1–31, 32–65, 66–105 and 106–162 sequences were synthesized by 9‐fluorenylmethoxycarbonyl based solid‐phase peptide synthesis. At the C‐terminus of the second segment, N‐ethyl‐S‐acetamidomethyl‐cysteine was attached as a post‐ligation thioesterification device. The N‐terminal two segments were condensed by the homocysteine‐mediated NCL at Leu‐Met site, and the product was methylated to convert homocysteine to methionine. After deprotection of acetamidomethyl group on the N‐ethylcysteine residue, the peptide was thioesterified by N‐alkylcysteine‐assisted method. The product was then ligated with the C‐terminal half, which was obtained by the NCL of third and fourth segments, to give the full‐length glycodelin. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd. |
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Keywords: | glycodelin native chemical ligation thioesterification N‐alkylcysteine peptide thioester |
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