Abstract
Effect of heteroligands (L) on the properties of vanadium peroxides was investigated by preparing a number of peroxo vanadium complexes, which were characterized by analysis, IR, UV/V and NMR spectra. X-ray structures for some were obtained. The vanadates(V) contain the cation M(I) = Na, K, NH4, Rb or Cs. Diperoxo complexes include M(I)[VO(O2)2 L], where L = dipyridyl, o-phenanthroline; M(I)3[VO(O2)2(C2O4)]; K2[(nicotinic acid){VO(O2)2}2]H2O;M(I)4[O{VO(O2)2}2cystine]2H2O; H4[O{VO(O2)2(adenine)2)2]2H2O; and K2H2[O{VO(O2)2(adenosine)}2]2H2O. Monoperoxo vanadates(V) correspond to the formula M(I)2[VO(O2)L]2 for L = citrate and malate; M(I)2[VO(O2)L] for L = nitrilotriacetate; M(I)[VO(O2)L] for L = iminodiacetate, tartrate and EDTA; and [HVO2(O2)(adenosine)]2H2O. Syntheses of these heteroligand peroxovanadium compounds are sensitive to pH, temperature and the concentration of the components. The stability towards decomposition in solid state, mother-liquid and pure water solutions depends upon the heteroligand. Characteristic (V=0) and (O-O) stretching frequency bands in IR can be correlated with the corresponding bond lengths and the [peroxo∼V(V)] charge transfer bands in UV/V spectra. Intramolecular one-electron transfer in peroxo vanadates(V) can trigger the generation of radicals, and its dependency upon the nature of the heteroligand is discussed.
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Shaver A, Ng TB, Hall DA, Lum BS, Posner I: Insulin-mimetic peroxovanadium complexes: Preparation and structure of potassium oxodiperoxo (pyridine-2-carboxylato) vandate(V), K2[VO(O2)2− (C5H4NCOO)]·2H2O, and potassium oxodiperoxo (3-hydroxy-pyridine-2-carboxylato) vanadate(V), K2[VO(O2)2(OHC5H3NCOO)] ·3H2O, and their reactions with cysteine. Inorg Chem 32: 3109–3113, 1993
Posner BI, Faure R, Burgess JW, Bevan AP, Lachance D, Zhang-Sun G, Fantus IG, Ng JB, Hall DA, Soo Lum B, Shaver A: Peroxovanadium Compounds. A new class of potent phosphotyrosine phosphatase inhibitors which are insulin mimetics. J Biol Chem 269: 4596–4604, 1994
Vuletic N, Djordjevic C: Oxoperoxovanadate(V) complexes with bidentate ligands. J Chem Soc Dalton: 1137–1141, 1973
Djordjevic C: Heteroligand peroxo transition metal complexes, Chem Br 18: 554–557, 1982
Djordjevic C, Craig SA: A polymeric peroxoheteroligandvanadate(V). Synthesis, spectra and structure of M(I)[VO(O2)(C4H5O4N)]. Inorg Chem 24: 1281–1283, 1985
Djordjevic C, Puryear BC, Vuletic N, Abelt CJ, Sheffield SJ: Preparation, spectroscopic properties and characterization of novel peroxo complexes of vanadium(V) and molybdenum(VI) with nicotinic acid and nicotinic acid N-oxide. Inorg Chem 27: 2926–2932, 1988
Djordjevic C, Lee M, Sinn E: Oxoperoxo(citrato)- and dioxo(citrato) vanadates(V): synthesis, spectra and structure of a hydroxyl oxygen bridgeddimer, K2[VO(O2)(C6H6O7)2]22H2O. Inorg Chem 28: 719–723, 1989
Djordjevic C: Peroxo heteroligand complexes of vanadium(V) and molybdenum(VI): Analogy and differences. 29th ICCC, Lausanne, Switzerland, Abstract, p. 108, 1992
Djordjevic C, Vuletic N, Puryear B.C: Vanadium(V) and molyb-denum(VI) peroxo complexes with adenine and adenosine, and the choice of donor atoms in peroxo heteroligand spheres. J Inorg Biochem 51: 308, 1993
Djordjevic C, Wilkins P.L, Sinn E, Butcher R.J: Peroxoaminopoly carboxylatovanadate(V) of an unusual low toxicity: synthesis and structure of the very stable K2[VO(O2)(C6H6NO6)]2H2O. Inorg Chim Acta 230: 241–244, 1995
Djordjevic C, Lee-Renslo M, Sinn E: Peroxo malato vanadates(V): synthesis, spectra, and structure of (NH4)2[VO(O2)(C4H4O5)]22H2O dimer with a rhomboidal V202(hydroxyl) bridging core. Inorg Chim Acta 233: 97–102, 1995
Djordjevic C: Antitumor Activity of vanadium compounds. In: H. Sigel, A. Sigel (eds.). Metal ions in biological systems, Vol. 31. Vanadium and its role for life. Marcel Dekker, New York, 1995
Conte V, Di Furia F, Moro S: 51V-NMR investigationon the formation of peroxo vanadium complexes in aqueous solution: some novel obeservations. J Molec Catal, 94: 323–333, 1994
Jaswal S J, Tracey AS: Reactions of mono- and diperoxo vanadates with peptides containing fiinctionalized side chains. J Am Chem Soc 115: 5600–5607, 1993
Chasteen N.D. (ed.): Vanadium in biological systems. Kluwer Academic Publishers, Dordrecht, 1990
Wever R, Kustin K: Vanadium: a biologically relevant element. Adv. Inorg. Chem. 35: 81–115, 1990
Nechay BR, Nanninga LB, Nechey PSE, Post RL, Grantham JJ, Macara IG, Kubena LF, Phillips TD, Nielsen FH: Role of vanadium in biology, Feder Proc 45: 123–132, 1966
Djordjevic C, Wampler G.L: Antitumor activity and toxicity of peroxo heteroligand vanadates(V) in relation to biochemistry of vanadium, J. Inorg. Biochem. 25: 51–55, 1985
Begin D, Einstein FWB, Field J: An assymmetrically coordinated diperoxo compound. Crystal structure of K3[VO(O2)2(C2O4)]H2O. Inorg Chem 14: 1785–1790, 1975
Stomberg R, Olson S, Svenson LB: The crystal structure of ammonium μ-oxo bis(oxodiperoxovanadate)(4-),(NH4)4[O{VO(O2)2}2]. A Refinement. Acta Chem. Scand. A 38: 653–656, 1984
Stomberg R, Szentivanyi H: The crystal structure of 2,2′-Bipyridinium(l+) (2,2′-Bipyridine)-oxodiperoxovanadate(l-)(3+x)-(2-x)H2O, x = 0.4, at −100°C. Acta Chem Scand A38: 121–128, 1984
Chasteen ND, Grady JK, Holloway CE: Characterization of the binding, kinetics and redox stability of vanadium(IV) and vanadium(V) protein complexes in serum. Inorg Chem 25: 2754–2760, 1986
Bonchio M, Conte V, Di Furia F, Modena G, Moro S: Nature of the radical intermediates in the decomposition of peroxovanadium species in protic and aprotic media. Inorg Chem 33: 1631–1637, 1994
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Djordjevic, C., Vuletic, N., Renslo, M.L., Puryear, B.C., Alimard, R. (1995). Peroxo heteroligand vanadates(V): Synthesis, spectra-structure relationships, and stability toward decomposition. In: Srivastava, A.K., Chiasson, JL. (eds) Vanadium Compounds: Biochemical and Therapeutic Applications. Developments in Molecular and Cellular Biochemistry, vol 16. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-1251-2_3
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DOI: https://doi.org/10.1007/978-1-4613-1251-2_3
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