Natural proteins mainly adsorb on immobilized metal ion affinity chromatography (IMAC) supports via multipoint interactions between several His residues placed on the protein surface and different chelate moieties located on the support surface. The adsorption of large proteins on highly activated IMAC supports may involve many multi-interactions yielding a very strong adsorption. In fact, multimeric alpha- and beta-galactosidases from Thermus sp. T2 hardly may be desorbed from highly activated IMAC supports, even in the presence of I M imidazole. In the presence of 50 MM of imidazole, these very large proteins can be adsorbed on these supports while the medium-small proteins hardly adsorb even on highly activated supports. In this way a very simple purification and reversible immobilization of these large proteins cloned on Escherichia coli can be performed by first heating of the crude preparation which leaves as the only large protein the thermophilic one. Interestingly, P-galactosidase from Thermus sp. T2 is 10-fold more stable than the native enzyme when incubated at 70 degrees C and pH 7.0. The involvement of large areas of these multimeric enzymes in the adsorption process may promote a multi-subunit adsorption with stabilizing effects. These immobilized-stabilized enzymes may be desorbed away from the support/the reactor after inactivation and a fresh solution of enzyme can be purified, immobilized and stabilized again. (c) 2006 Elsevier Inc. All rights reserved.