Microgels for Efficient Protein Purification

When activating a matrix with epichlorohydrin, the degree of activation can be controlled by the amount of epichlorohydrin added and the length of time of the reaction. The epoxy group can react with thiols and amines to produce Nand S-linked adsorbents for protein purification. The epoxy-activated

The tetrapeptide GPRP was previously shown to be an effective affinity ligand for fibrinogen when immobilized to Fractogel (Kuyas et aL, 1990). The authors synthesized the GPRP peptide directly onto an aminefunctionalized POROS@ chromatographic resin to demonstrate the effectiveness of this approach

## Synopsis Salt-promoted adsorption of proteins occurs on hydrophobic gels, on immobilized metal ions e.g., Znz+, C g + , Ni2+, Cu2+, and on newly described absorbents provisionally called "thiophilic gels." The latter gels are characterized by the ligand structure -SO,-CH,-CH,-S-R. In a simple

## Abstract Membrane systems are used throughout the downstream purification in the commercial production of high value therapeutic proteins. Over the last two decades, new membranes, modules, and systems have been developed specifically to meet the requirements of the biotechnology industry. These