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Cyclo(D-Pro-L-Pro-D-Pro-L-Pro): Structural properties and cis/trans isomerization of the cyclotetrapeptide backbone

✍ Scribed by Werner Mästle; Thomas Weber; Ulf Thewalt; Manfred Rothe

Publisher: Wiley (John Wiley & Sons)
Year: 1989
Tongue: English
Weight: 845 KB
Volume: 28
Category: Article
ISSN: 0006-3525
DOI: 10.1002/bip.360280118

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✦ Synopsis

Ulm, Federal Republic of Gennany

Synopsis

Combinations of L-and D-proline residues are useful compounds for finding new structures and properties of cyclic peptides. This is demonstrated with one striking example, the cyclic tetrapeptide ~(D-P~o-L-P~o-D-P~o-L-P~o). For this molecule composed of strictly alternating D-and L-configurated residues, a highly symmetrical structure is expected, which should be an optically inactive meso-form. Cyclization of the enantiomeric pure linear precursor D-P~o-L-P~o-D-P~o-L-P~o, however, yields a racemic mixture of two enantiomeric cyclotetrapeptides, both with twofold symmetry and a cis-trans-cis-trans sequence of the peptide bonds. Remarkably, this formation of a racemate was not caused by racemization, but by &/trans isomerization of all peptide bonds in the ring. This procans may occur in the,linear precursor during the ring formation (cyclization of conformers with trans-cis-trans or cis-trans-cis arrangement of the amide bonds) as well as in the enantiomeric pure cyclic tetrapeptide at higher temperature. In the latter case, an all& structure should exist as the intermediate, which can form a cis-truns-cis-truns sequence in two equivalent ways, leading finally to two enantiomeric cyclotetrapeptides. In the first one, the cis peptide bonds are attributed to the L-residues and the trans peptide bonds to the &residues; in the second one, the cis bonds belong to the D and the trans bonds to the bresidues. The mixture of these two enantiomers does not crystallize in the racemic form, but in enantiomeric pure separate crystals. The structural properties could be proved by 'Hand 13C-nmr spectroscopy and x-ray analysis. The cis/truns isomerization process was confirmed by optical rotation measurements and CD spectroscopy, as well as DREIDING model studies. Calorimetric measurements in the solid state suggest the existence of the expected all-cis intermediate. The backbone conformation of the 12-membered medium-sized ring shows only slight deviations-up to 6"-from the planarity of the peptide bonds. On the other hand, the four pyrrolidine rings show different types of puckering of the C, or the C, atoms.

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