A study of the effect of the tetrazole moiety, a cis-amide bond surrogate, on the Cu(II) coordinating properties of oligopeptides is reported. The insertion of the tetrazole moiety ?(CN4) into the peptide sequence of [Leu5]enkephalin considerably changes the coordination ability of the ligand. Potentiometric and spectroscopic results indicate that if the tetrazole moiety is in a suitable position in the peptide chain, i.e. if it follows the third residue, an unusual stable CuH-1L species involving 4N coordination is formed in the physiological pH region. The tetrazole ?(CN4) ring provides one of these nitrogens. The data indicate that Cu(II) ions are strongly trapped inside a bent peptide backbone. However, the coordination mode involving the tetrazole ring nitrogen does not prevent the hydrolysis process under strongly basic conditions.
Effect of the tetrazole cis-amide bond surrogate on the complexing ability of some enkephalin analogues toward Cu(II) ions.
Daniele Sanna;
1999
Abstract
A study of the effect of the tetrazole moiety, a cis-amide bond surrogate, on the Cu(II) coordinating properties of oligopeptides is reported. The insertion of the tetrazole moiety ?(CN4) into the peptide sequence of [Leu5]enkephalin considerably changes the coordination ability of the ligand. Potentiometric and spectroscopic results indicate that if the tetrazole moiety is in a suitable position in the peptide chain, i.e. if it follows the third residue, an unusual stable CuH-1L species involving 4N coordination is formed in the physiological pH region. The tetrazole ?(CN4) ring provides one of these nitrogens. The data indicate that Cu(II) ions are strongly trapped inside a bent peptide backbone. However, the coordination mode involving the tetrazole ring nitrogen does not prevent the hydrolysis process under strongly basic conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
