Chelation of Vanadium(IV) by a Natural and Edible Biopolymer Poly(γ‐glutamic acid) in Aqueous Solution: Structure and Binding Constant of Complex

Subarna Karmaker,Tapan K Saha

doi:10.1002/mabi.200700121

Chelation of Vanadium(IV) by a Natural and Edible Biopolymer Poly(γ‐glutamic acid) in Aqueous Solution: Structure and Binding Constant of Complex

Subarna Karmaker, Tapan K Saha

https://doi.org/10.1002/mabi.200700121

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Journal: Macromolecular Bioscience	Publication Date: Feb 11, 2008
Citations: 11

Affiliation: Kyoto Pharmaceutical University, Jahangirnagar University, Colorado State University

#In Vanadium #Gamma-glutamic Acid #Electron Spin Resonance Absorption Spectra #UV-visible Absorption Spectra #Binding Isotherm #Electron Spin Resonance #Oxide Sulfate #Electron Spin Resonance Absorption #Spin Resonance Absorption #Resonance Absorption Spectra

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The naturally occurring edible biopolymer poly(gamma-glutamic acid) (gamma-PGA) is shown to be an efficient chelating agent of vanadium(IV). The structure of poly(gamma-glutamic acid)oxovanadium(IV) (VO-gamma-PGA) complex in solution has been analyzed by electron spin resonance and UV-visible absorption spectra. The equatorial coordination sphere of vanadium(IV) is proposed to be [2 x carboxylate (2O)-VO-(OH2)2]. The binding isotherm is determined for suspensions of gamma-PGA in vanadium(IV) oxide sulfate (VS) solutions of different concentrations, and the data have been adjusted to fit the modified Langmuir equation. The maximum amount of vanadium bound per gram of gamma-PGA is estimated to be 141 mmol . g(-1) with a binding constant of 22 L . g(-1) at pH 3.

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Chelation of Vanadium(IV) by a Natural and Edible Biopolymer Poly(γ‐glutamic acid) in Aqueous Solution: Structure and Binding Constant of Complex