Mobilization of glucose-6-phosphate from ferrihydrite by ligand-promoted dissolution is higher than of orthophosphate

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  • Martin Luther University Halle-Wittenberg
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Original languageEnglish
Pages (from-to)279-282
Number of pages4
JournalZeitschrift fur Pflanzenernahrung und Bodenkunde
Volume180
Issue number3
Publication statusPublished - 5 May 2017

Abstract

We investigated glucose-6-phosphate (G6P) release from ferrihydrite by ligand-promoted dissolution by oxalate, ascorbate, and desferrioxamine-B in comparisonto orthophosphate (OP). Overall, P release was poorly related to Fe dissolution. Initial release of G6P was higher as compared to OP, likely due to its preferential adsorption at outer surface sites caused by pore size effects. Our data suggest that G6P is potentially more bioavailable (i.e., mobilizable) than OP.

Keywords

    Bioavailability, Iron oxides, Mineral-associated phosphorus, Organic acids, Organic phosphorus, Siderophores

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Mobilization of glucose-6-phosphate from ferrihydrite by ligand-promoted dissolution is higher than of orthophosphate. / Goebel, Marc Oliver; Adams, Friederike; Boy, Jens et al.
In: Zeitschrift fur Pflanzenernahrung und Bodenkunde, Vol. 180, No. 3, 05.05.2017, p. 279-282.

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title = "Mobilization of glucose-6-phosphate from ferrihydrite by ligand-promoted dissolution is higher than of orthophosphate",
abstract = "We investigated glucose-6-phosphate (G6P) release from ferrihydrite by ligand-promoted dissolution by oxalate, ascorbate, and desferrioxamine-B in comparisonto orthophosphate (OP). Overall, P release was poorly related to Fe dissolution. Initial release of G6P was higher as compared to OP, likely due to its preferential adsorption at outer surface sites caused by pore size effects. Our data suggest that G6P is potentially more bioavailable (i.e., mobilizable) than OP.",
keywords = "Bioavailability, Iron oxides, Mineral-associated phosphorus, Organic acids, Organic phosphorus, Siderophores",
author = "Goebel, {Marc Oliver} and Friederike Adams and Jens Boy and Georg Guggenberger and Robert Mikutta",
note = "Funding information: Financial support provided by the German Research Foundation DFG (Priority program 1685 {\textquoteleft}Ecosystem Nutrition: Forest Strategies for Limited Phosphorus Resources{\textquoteright}, MI 1377/7-1) for this study is greatly appreciated.",
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TY - JOUR

T1 - Mobilization of glucose-6-phosphate from ferrihydrite by ligand-promoted dissolution is higher than of orthophosphate

AU - Goebel, Marc Oliver

AU - Adams, Friederike

AU - Boy, Jens

AU - Guggenberger, Georg

AU - Mikutta, Robert

N1 - Funding information: Financial support provided by the German Research Foundation DFG (Priority program 1685 ‘Ecosystem Nutrition: Forest Strategies for Limited Phosphorus Resources’, MI 1377/7-1) for this study is greatly appreciated.

PY - 2017/5/5

Y1 - 2017/5/5

N2 - We investigated glucose-6-phosphate (G6P) release from ferrihydrite by ligand-promoted dissolution by oxalate, ascorbate, and desferrioxamine-B in comparisonto orthophosphate (OP). Overall, P release was poorly related to Fe dissolution. Initial release of G6P was higher as compared to OP, likely due to its preferential adsorption at outer surface sites caused by pore size effects. Our data suggest that G6P is potentially more bioavailable (i.e., mobilizable) than OP.

AB - We investigated glucose-6-phosphate (G6P) release from ferrihydrite by ligand-promoted dissolution by oxalate, ascorbate, and desferrioxamine-B in comparisonto orthophosphate (OP). Overall, P release was poorly related to Fe dissolution. Initial release of G6P was higher as compared to OP, likely due to its preferential adsorption at outer surface sites caused by pore size effects. Our data suggest that G6P is potentially more bioavailable (i.e., mobilizable) than OP.

KW - Bioavailability

KW - Iron oxides

KW - Mineral-associated phosphorus

KW - Organic acids

KW - Organic phosphorus

KW - Siderophores

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