Crystal‐state structural analysis of two γ‐lactam‐restricted analogs of Pro‐Leu‐Gly‐NH2

Abstract

The crystal structures of two analogs of Pro‐Leu‐Gly‐NH, (1), containing a γ‐lactam conformational constraint in place of the ‐Leu‐Gly‐ sequences, are described. The highly biologically active (S,R)‐diastere‐omer 2a is semi‐extended at the C‐terminus, with the N‐terminal Pro residue in the unusual “C₅” conformation [ψ₁=– 0.8(15)°] stabilized by a (peptide)N‐H…N(amino) intramolecular H‐bond [the N(3)…N(4) separation is 2.687(11)Å]. Conversely, the N,N′‐isopropylidene aminal trihydrate of the (S,S)‐diastereomer 2b, compound 3, adopts a β‐bend conformation at the C‐terminus, as already reported for 1. However, the backbone torsion angles [φ= 57.4(4), ψ₂=– 129.9(3)°; ψ₃= ‐ 92.3(4), ψ₃= 6.4(5)°] lie close to the values expected for the corner residues of an ideal type‐II β‐bend. A weak intramolecular 4 → 1 H‐bond is seen between the Gly carboxyamide anti‐NH and Pro C=O groups. In the newly formed 2,2,3,4‐tetraalkyl‐5‐oxo‐imidazolidin‐1‐yl moiety the ψ₁ torsion angle is 12.9(4)° and the intramolecular N(3)…N(4) separation is 2.321(4)Å.