Structure and conformation of peptides containing the sulphonamide junction. III. Synthesis, crystal and molecular structure of a taurine containing peptidic oxa-cyclol.

The insertion of the (S)-lactyl residue into the cyclodipeptide cyclo (-Tau-Pro-) 3 leads in good yields to the first example of a stable tetrahedral adduct (oxa-cyclol) 5 containing the sulphonamide junction. Compound 5 does not show a significant tendency towards tautomeric equilibria and possesses an unexpected syn-orientation involving the hydroxyl group and the Pro-Hα. The crystal structure and molecular conformation of 5 has been determined. Crystals are orthorhombic, s.g. P2 1 2 1 2 1 , with a=6.607, b=12.297, c=16.622A. The cisoidal conformation around the S-N bond is very similar to that found in the previously studied linear and cyclic peptides containing a sulphonamide junction. The taurine nitrogen is practically planar whereas the proline nitrogen, bound to the SO 2 group, is highly pyramidal. In the tricyclic system of 5 the seven-membered ring adopts a twist-chair conformation while the pyrrolidine and oxazolidinone rings show an envelope conformation. The crystal packing is characterized by three hydrogen bonds all formed by means of a water molecule