Complexes of aluminium(III) with glucose-6-phosphate in aqueous solutions

Abstract

The interaction of aluminium(III) with glucose-6-phosphate (GP: LH 2) in aqueous solutions has been studied from pH 1 to pH 8, by pH-potentiometry and multinuclear ( 31P, 27Al, 13C) NMR spectroscopy. Various mononuclear species (MLH 2, MLH, ML, ML 2H, ML 2 and MLH –3) and dinuclear complexes M 2L 2H − n ( n=1–4) are formed in the system. NMR clearly indicates that GP is already bound to Al(III) at pH 1. The potentiometric speciation results are confirmed and completed by spectroscopic experiments. Many peaks are observed in the 31P NMR spectra suggesting the formation of isomeric species. An attempt to assign the signals to the corresponding complexes is made, allowing a discussion about their structure. Interestingly enough no metal ion-induced deprotonation and coordination of the alcoholic–OH functions have been observed.