Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes
The aim of the study was defined as a complementary analysis of molecular interactions between zinc (Zn) and fulvic acids (FAs) at a broad pH range (3−7), different metal concentrations (0−50 mg dm<sup>−3</sup>) and chemical properties of FAs and their impac...
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MDPI AG
2020-03-01
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author | Patrycja Boguta Zofia Sokołowska |
author_facet | Patrycja Boguta Zofia Sokołowska |
author_sort | Patrycja Boguta |
collection | DOAJ |
description | The aim of the study was defined as a complementary analysis of molecular interactions between zinc (Zn) and fulvic acids (FAs) at a broad pH range (3−7), different metal concentrations (0−50 mg dm<sup>−3</sup>) and chemical properties of FAs and their impact on the Zn binding mechanism, stability, and efficiency. The results showed that the complexation reaction prevailed at pH 6 and 7, whereas protons exchange dominated interactions at pH 3. Stability constant of the complexes increased along with pH (logK increased from ~3.8 to 4.2). Complexation was preferred by less-humidified structures of lower molecular mass containing more oxygen groups. The number of fluorophores available for Zn(II) increased from pH 3 to 7 by ~44%. Depending on the pH, complexation involved a bidentate chelate, monodentate and bidentate bridging mode. Zn(II) binding was insufficiently modeled by the classic Stern−Volmer equation and well described by the double logarithmic equation (<i>R</i> > 0.94) as well as by a modified Stern−Volmer formula assuming the existence of available and unavailable fluorophore populations (<i>R</i> > 0.98). The fluorescence ratio of different fluorophores was proposed as an indicator of the binding affinity of various structures. A positive relationship was found between the fraction of accessible fluorophores and Zn(II) binding at pH 7 determined based on proton release (<i>R</i> = 0.91−0.97). The obtained results can find application in controlling the mobility and bioavailability of Zn in different conditions. |
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spelling | doaj.art-17347da6c4f24d7abb2adac5bea8be282022-12-21T22:50:28ZengMDPI AGMolecules1420-30492020-03-01256129710.3390/molecules25061297molecules25061297Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble ComplexesPatrycja Boguta0Zofia Sokołowska1Institute of Agrophysics, Polish Academy of Sciences, Doświadczalna 4, 20-290 Lublin, PolandInstitute of Agrophysics, Polish Academy of Sciences, Doświadczalna 4, 20-290 Lublin, PolandThe aim of the study was defined as a complementary analysis of molecular interactions between zinc (Zn) and fulvic acids (FAs) at a broad pH range (3−7), different metal concentrations (0−50 mg dm<sup>−3</sup>) and chemical properties of FAs and their impact on the Zn binding mechanism, stability, and efficiency. The results showed that the complexation reaction prevailed at pH 6 and 7, whereas protons exchange dominated interactions at pH 3. Stability constant of the complexes increased along with pH (logK increased from ~3.8 to 4.2). Complexation was preferred by less-humidified structures of lower molecular mass containing more oxygen groups. The number of fluorophores available for Zn(II) increased from pH 3 to 7 by ~44%. Depending on the pH, complexation involved a bidentate chelate, monodentate and bidentate bridging mode. Zn(II) binding was insufficiently modeled by the classic Stern−Volmer equation and well described by the double logarithmic equation (<i>R</i> > 0.94) as well as by a modified Stern−Volmer formula assuming the existence of available and unavailable fluorophore populations (<i>R</i> > 0.98). The fluorescence ratio of different fluorophores was proposed as an indicator of the binding affinity of various structures. A positive relationship was found between the fraction of accessible fluorophores and Zn(II) binding at pH 7 determined based on proton release (<i>R</i> = 0.91−0.97). The obtained results can find application in controlling the mobility and bioavailability of Zn in different conditions.https://www.mdpi.com/1420-3049/25/6/1297fulvic acidszinc soluble complexesmicronutrient organic complexesmetal binding to humic substances |
spellingShingle | Patrycja Boguta Zofia Sokołowska Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes Molecules fulvic acids zinc soluble complexes micronutrient organic complexes metal binding to humic substances |
title | Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes |
title_full | Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes |
title_fullStr | Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes |
title_full_unstemmed | Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes |
title_short | Zinc Binding to Fulvic acids: Assessing the Impact of pH, Metal Concentrations and Chemical Properties of Fulvic Acids on the Mechanism and Stability of Formed Soluble Complexes |
title_sort | zinc binding to fulvic acids assessing the impact of ph metal concentrations and chemical properties of fulvic acids on the mechanism and stability of formed soluble complexes |
topic | fulvic acids zinc soluble complexes micronutrient organic complexes metal binding to humic substances |
url | https://www.mdpi.com/1420-3049/25/6/1297 |
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