The peptide Boc-Val-Val-Aib-Pro-Val-Val-Val-OMe has been synthesized to investigate the effect of introduction of a strong beta-turn promoting guest segment into an oligopeptide with a tendency to form extended structures. 1H-nmr studies in solution using analysis of NH group solvent accessibility and nuclear Overhauser effects suggest an appreciable solvent dependence of conformations. In chloroform a 3(10)-helical structure is favored, while in dimethylsulfoxide an Aib-Pro beta-turn with extended arms on either side is suggested. In the crystal, the backbone forms a somewhat distorted 3(10)-helix despite the presence of a Pro residue in the middle. Among the four possible intrahelical hydrogen bonds three are of the 4----1 type and one 5----1. Head-to-tail NH...O = C hydrogen bonds link the helical molecules into continuous columns. The space group is P2(1)2(1)2(1) a = 11.320(2), b = 19.889(3), and c = 21.247(3) A.