Conformational investigations of the tetrapeptide Pro-D-Phe-Pro-Gly in water solution were carried out by 1H and 13C NMR spectroscopy. The internal proline residue allows for the possibility of cis/trans isomerization about the D-Phe-Pro peptide bond resulting in two conformational isomers. The major isomer was identified as the trans isomer. The pH-dependence of the cis/trans equilibrium supports an additional stabilisation of the trans isomer by an intramolecular ionic interaction between the amino- and carboxy-terminus in the zwitterionic state. Based on 13C spin-lattice relaxation times (T1), different pyrrolidine ring conformations of Pro1 and Pro3 could be determined. By combination of several NMR data (vicinal coupling constants 3JN alpha, temperature dependence of the NH chemical shifts, differences in the chemical shifts between the beta and gamma carbons of the proline residues) and energy minimization calculations, a type II' beta-turn should contribute considerably to the overall structure of the trans isomer.