13C- and 1H-nmr studies of cis-trans conformers of oligoprolines

In aqueous solutions, ¹³C- and ¹H-nmr studies show that the percentage of trans conformation of proline oligomers ⁺H₂H Pro-(Pro)_n-CO increases substantially from n = 1 (65% trans) to n = 2 (90% trans). The relatively low percentage of trans structure for the dimer (n = 1) very likely is caused by the extra stability acquired by the end-to-end intramolecular H-bonding of the cis dimer. As n increase from 2 to 3 (or 5) in ⁺H₂N-Pro-(Pro)_n-CO, the percentage of trans conformation stays more or less constant (～0.9). A high salt concentration (4M CaCl₂) causes a conformation randomization, so that the short-chain oligomer (n = 1, 3, 5) and the long-chain poly (L -proline) all show about the same frantion of trans conformation (0.7-0.8).