Abstract
The acid-base equilibria of triethylenetetramine (Trien) and the formation equilibria of binary and ternary complexes of Zn(II) with Trien as primary ligand and some selected amino acids and DNA units as secondary ligands have been investigated. The results showed the formation of a 1:1 Zn(Trien)2+ complex. At higher pH, the Zn(Trien)2+ complex is hydrolysed to give Zn(Trien)(OH)+ and Zn(Trien)(OH)2 complexes. The fraction of the monohydroxo species attains a maximum of 81.3% at pH 10. The stability constants KZn(Trien)Zn(Trien)A for the ternary complexes were determined. Histidine coordinates in a histamine-like way. Lysine and ornithine ligate by the two amino groups. Serine and methionine are bound in a glycine-like mode. However, penicillamine, cysteine and glutathione ligate partly like mercaptoethylamine and partly like mercaptopropionic acid. In the case of DNA complexes, inosine is bound through the N1 atom. However, uracil, uridine, thymine and thymidine ligate through the N3 atom. The relative stabilities of ternary complexes are compared with those of the corresponding binary complexes in terms of Δ log K values. The concentration distribution diagrams of the complexes are evaluated.
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Shoukry, M. M., Shehata, M. R., & Mohamed, M. M. A. (1997). Potentiometric Studies of Binary and Ternary Complexes of Zn(II) with Triethylenetetramine as Primary Ligand and Selected Amino Acids and DNA Units as Secondary Ligands. Mikrochimica Acta, 127(1), 105–111. https://doi.org/10.1007/bf01243173
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