Oxovanadium(IV) binding to ligands containing donor sites of biological relevance

The (VO)-O-IV complex formation by a number of sugar ligands and their phos phate derivatives has been studied by the combined application of pH-potent iometric and spectroscopic (EPR and electronic absorption) techniques. The study allows a comparison of the relative effectiveness of phosphate and su gar residues in (VO)-O-IV binding, Quinic. acid (Quin) behaves similarly as a sugar molecule provided with chelating sets consisting of carboxyl and e ither deprotonated or undissociated hydroxy groups, or of couples of adjace nt alkoxo, groups. Glucuronic and galacturonic. acids (Glu-Ac and Gal-Ac, r espectively) are carboxylic, sugars. The position of the OH(4) group, cis o r trans with respect to the carboxylic function, is critical for the comple xing behaviour. In both cases the closure of a six-membered chelated ring i s possible and bis chelated species are formed but only with galacturonic a cid. Both these ligands co-ordinate via the alkoxo groups in basic solution . Uridine 5 ' -diphosphoglucose (UDP-Glu) and uridine 5 ' -diphosphoglucuro nic acid (LTDP-Glu-Ac) act as diphosphate ligands at low pH. The glucuronic residue permits the carboxylate site to compete effectively with the phosp hate moiety in the acidic pH range and to form a transient species with (CO 2-, O-) donor set. However, hydroxo species predominate in the neutral and basic pH range, whereas the sugar co-ordination is observed only in very ba sic solution. The chelation ability of carboxylic sugars is discussed. (C) 2001 Elsevier Science B.V. All rights reserved.