Asymmetric 1,4-Addition Reactions Catalyzed by N-Terminal Thiourea-Modified Helical l-Leu Peptide with Cyclic Amino Acids.
Kazuki SatoTomohiro UmenoAtsushi UedaTakuma KatoMitsunobu DoiMasakazu TanakaPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2021)
N-terminal thiourea-modified l-Leu-based peptide {(3,5-diCF3 Ph)NHC(=S)-(l-Leu-l-Leu-Ac5 c)2 -OMe} with five-membered ring α,α-disubstituted α-amino acids (Ac5 c) catalyzed a highly enantioselective 1,4-addition reaction between β-nitrostyrene and dimethyl malonate. The enantioselective reaction required only 0.5 mol % chiral peptide-catalyst in the presence of i Pr2 EtN (2.5 equiv.), and gave a 1,4-adduct with 93 % ee of an 85 % yield. As Michael acceptors, various β-nitrostyrene derivatives such as methyl, p-fluoro, p-bromo, and p-methoxy substituents on the phenyl group, 2-furyl, 2-thiophenyl, and naphthyl β-nitroethylenes could be applied. Furthermore, various alkyl malonates and cyclic β-keto-esters could be used as Michael donors. It became clear that the length of the peptide chain, a right-handed helical structure, amide N-Hs, and the N-terminal thiourea moiety play crucial roles in asymmetric induction.