Cu2+ and AMP complexation of enlarged tripodal polyamines

M. Teresa Albelda; Enrique García-España; Hermas R. Jiménez; José M. Llinares; Conxa Soriano; Alejandra Sornosa-Ten; Begoña Verdejo

doi:10.1039/B605639C

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Cu²⁺ and AMP complexation of enlarged tripodal polyamines†

M. Teresa Albelda,^a Enrique García-España,*^a Hermas R. Jiménez,^b José M. Llinares,^c Conxa Soriano,*^c Alejandra Sornosa-Ten^a and Begoña Verdejo^a

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* Corresponding authors

^a Departament de Química Inorgànica, Institut de Ciència Molecular (ICMOL), Universitat de València. Edificio de Institutos de Paterna, Apartado de Correos 22085, Valencia, Spain
E-mail: enrique.garcia-es@uv.es
Tel: 963544879

^b Departament de Química Inorgànica, Facultat de Química, Universitat de València, Burjassot, Valencia, Spain

^c Departament de Química Orgànica, Institut de Ciència Molecular (ICMOL), Facultat de Farmàcia, Universitat de València, Burjassot, Valencia, Spain

Abstract

The synthesis, characterization, Cu²⁺ coordination and interaction with AMP of three tripodal polyamines are reported. The polyamines are based on the structure of the tetraamine (tren) which has been enlarged with three propylamino functionalities (TAL), with a further anthrylmethyl fragment at one of its terminal primary nitrogens (ATAL) or with naphthylmethyl fragments at its three ends (N3TAL). The protonation constants of all three polyamines show that at pH 6, all six primary and secondary nitrogen atoms in the arms are protonated. The interaction with Cu²⁺ and AMP (adenosine-5′-monophosphate) has been studied by potentiometric, UV-Vis, ESI-MS spectroscopy and NMR techniques. pH-Metric, NMR and ESI/MS techniques indicate that TAL and ATAL form with AMP adducts of 1 : 1, 2 : 1 and 3 : 1 AMP : L stoichiometries in water. This is one of the first examples for the formation of such complexes in aqueous solution. Formation of ternary complexes between TAL, ATAL, N3TAL, Cu²⁺ and AMP is observed. Paramagnetic NMR techniques have been used to obtain structural information on the binding mode of AMP to the Cu²⁺–TAL binuclear complexes.

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Supplementary files

Fig. S1: Distribution diagrams for the systems: (A) H⁺–TAL; (B) H⁺–ATAL; (C) H⁺–N3TAL. Table S1: Observed chemical shifts for the interaction of AMP with the tripodal ligands TAL and ATAL. Table S2: Logarithms of the equilibrium constants for the interaction of AMP with the tripodal polyamines TAL, ATAL and N3TAL. Table S3: ¹H NMR hyperfine-shifted resonances and temperature dependence of Cu₂TAL, Cu₂TAL–AMP complexes in D₂O at 25 °C and pH 8. Fig. S2: Distribution diagrams for the system AMP–TAL: [TAL] = 1 × 10⁻³ mol dm⁻³, [AMP] = 1 × 10⁻³ mol dm⁻³. Fig. S3: Distribution diagrams for the system AMP–TAL: [TAL] = 1 × 10⁻³ mol dm⁻³, [AMP] = 3 × 10⁻³ mol dm⁻³. Fig. S4: Distribution diagrams for the system AMP–ATAL: [ATAL] = 1 × 10⁻³ mol dm⁻³, [AMP] = 2 × 10⁻³ mol dm⁻³. Fig. S5: Distribution diagrams for the system AMP–ATAL: [ATAL] = 1 × 10⁻³ mol dm⁻³, [AMP] = 3 × 10⁻³ mol dm⁻³. Fig. S6: Distribution diagrams for the ternary system Cu²⁺–TAL–AMP: (A) [Cu⁺] = [TAL] = [AMP] = 1 × 10⁻³ mol dm⁻³; (B) [Cu²⁺] = 2 × 10⁻³ mol dm⁻³, [TAL] = [AMP] = 1 × 10⁻³ mol dm⁻³. Fig. S7: Distribution diagrams for the ternary system Cu²⁺–ATAL–AMP: (A) [Cu²⁺] = [ATAL] = [AMP] = 1 × 10⁻³ mol dm⁻³; (B) [Cu²⁺] = 2 × 10⁻³ mol dm⁻³, [ATAL] = [AMP] = 1 × 10⁻³ mol dm⁻³. Fig. S8: Distribution diagrams for the ternary system Cu²⁺–N3TAL–AMP: [Cu²⁺] = [N3TAL] = [AMP] = 1 × 10⁻³ mol dm⁻³ PDF (256K)

Article information

DOI: https://doi.org/10.1039/B605639C
Article type: Paper
Submitted: 20 Apr 2006
Accepted: 22 Jun 2006
First published: 10 Jul 2006

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Dalton Trans., 2006, 4474-4481

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Cu²⁺ and AMP complexation of enlarged tripodal polyamines

M. T. Albelda, E. García-España, H. R. Jiménez, J. M. Llinares, C. Soriano, A. Sornosa-Ten and B. Verdejo, Dalton Trans., 2006, 4474 DOI: 10.1039/B605639C

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