Journal
JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS
Volume -, Issue 4, Pages 467-472Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/a907342f
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The stoichiometry, stability constants and solution structure of the complexes formed in the reaction of copper(II) with oligopeptides containing histidyl residues at the C-termini (Gly(3)His, Gly(4)His and Gly(5)His) have been determined by potentiometric, UV-VIS and EPR spectroscopic methods. The formation of the species [CuHL](2+), [CuL](+), [CuH-1L], [CuH-2L](-) and [CuH-3L](2-) was detected in all cases. Binding modes of the species [CuL](+), [CuH-1L] and [CuH-2L](-) were characterized by the metal ion co-ordination of the terminal amino group, carbonyl oxygen or one or two deprotonated amide nitrogens in joined five-membered chelates from the N-termini, while the fourth co-ordination site of the metal ion was occupied by nitrogen donors of imidazole in the form of a macrochelate. The stability of the macrochelate was decreased upon increasing the length of the peptide molecule. For the penta- and hexa-peptides the species [CuH-3L](2-) was characterized as a 4N-complex with equatorial co-ordination of the terminal amino group and subsequent three deprotonated amide nitrogens, with unco-ordinated imidazolyl residues, while a 5N-species was suggested to form for Gly(3)His with axial interaction of the imidazole-N donor atom. Copper(II) complexes of Gly(2)His and pentaglycine were also investigated for reliable comparison.
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