1. Speciation of biochemically important iron complexes with amino acids: L-aspartic acid and L-aspartic acid - glycine mixture.
- Author
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Vukosav, Petra and Mlakar, Marina
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CHEMICAL speciation , *METAL complexes , *IRON compounds , *AMINO acids , *ASPARTIC acid , *GLYCINE , *BIOCHEMISTRY - Abstract
Speciation of iron(III) ( c Fe = (0.5 - 40) × 10 −5 mol dm −3 ) and indirectly of iron(II), in aqueous solution of L-aspartic acid and aspartic acid - glycine mixture was investigated by square-wave voltammetry on a static mercury drop electrode. A reversible, one-electron reduction process of iron(III)-aspartate complexes with peak potential between +0.04 and -0.17 V was recorded, depending on the solution pH (4.5–8.6) and concentration of aspartic acid ( c Asp = 0.01 - 0.4 mol dm −3 ). Cumulative stability constants of iron(III)-aspartate complexes: FeAsp + (log K = 13.16 ± 0.01), FeAspOH 0 (log β = 20.76 ± 0.02), FeAsp(OH) 2 − (log β = 27.77 ± 0.12) and Fe(Asp) 2 − (log β = 17.62 ± 0.10); and iron(II)-aspartate complexes: FeAsp 0 (log K = 4.17 ± 0.11) and Fe(Asp) 2 2− (log β = 6.53 ± 0.11), were determined at I c = 0.5 mol dm −3 and 25 ± 1 °C. In the solution with mixture of amino acids, aspartic acid and glycine, a formation of mixed (Fe(III)-aspartate-glycine) complexes occurred. The reduction process was also shown to be reversible, so stability constants of mixed complexes (iron(III): FeAspGly 0 (log β = 17.35 ± 0.02), FeAspGly(OH) − (log β = 23.87 ± 0.33), and iron(II): FeAspGly − (log β = 6.83 ± 0.23)) were calculated, as well. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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