Protein purification in multicompartment electrolyzers with isoelectric membranes

Abstract

Preparative purification of proteins under isoelectric conditions is reviewed, with particular regard to novel equipment, a multicompartment electrolyzer with isoelectric membranes, which can capture any desired protein into an isoelectric trap as the sole, ultra-pure component. This novel machine is based on the Immobiline chemistry, i.e. the novel generation of non-amphoteric buffers, based on the chemistry of acrylamides, which can be insolubilized onto polyacrylamide supports. After a description of the instrument and of its performance, a number of protein purification protocols are described, leading to truly homogeneous (by the most stringent criterion of surface charge) protein fractions. Such a high charge purity has been found to be often a fundamental prerequisite for the growth of protein crystals. Interfacing the electrolyzer with mass spectrometry has permitted the decoding of the structure of minor components generated from a parental molecule, especially ones having a higher p I. It was found that these species were often generated either by proteolytic cleavage or by the formation of a trisulphide bridge between two Cys residues. A unique application of the electrolyzer is finally described: its use as an immobilized enzyme reactor under an electric field. The performance of this reaction is outstanding, in that the kinetic parameters of the immobilized enzyme are identical to those of a free enzyme form.