Intramolecular CH···O Hydrogen‐bond mediated stabilization of a Cis‐DPro imide‐bond in a stereocontrolled heterochiral model peptide

Abstract

The X-ray diffraction analysis of a stereocontrolled heterochiral designed model peptide Boc-(D) Pro-Thr-OMe (1) revealed the existence of an unusual folded molecular structure, stabilized via an effective unconventional C---H…O type intramolecular hydrogen-bond, encompassing a noncovalent 12-membered ring-motif. Together with an uncommon type a disposition of the urethane moiety, the tightly folded topology is compounded with a cis-(D) Pro imide-bond. The overall conformation is suggested to be the reminiscent of specific type VI β-turn structures, hitherto, characterized across the Aaa-cis-Pro peptide-bonds in globular proteins and polypeptides. The (13) C NMR spectrum of 1 in an apolar CDCl(3) environment revealed the presence of approximately an equal population of cis and trans isomers unexpectedly, analogous to Pro side-chain, the (13) C NMR chemical-shifts of Thr C(β) -resonance is observed to be sensitive toward cis-trans isomerization. In conjunction with solid-state FT-IR spectral data, we established that a network of complex intermolecular hydrogen-bonds stabilize a self-complementary noncovalent helical hexagonal self-assembly and crystallographic supramolecular aggregate. The results incline us to highlight that the stabilization of cis-(D) Pro peptide-bond in crystalline state may be driven by the favorable energy of formation of an unconventional weak C---H…O intramolecular hydrogen-bond.