A Model for Metal Affinity Protein Precipitation

Previous work by u s and others h a s shown that mixing impacts apparent protein solubility in single protein precipitations. In this work, w e probe the effects of contacting conditions on fractional precipitation behavior at the bench scale. We have chosen metal affinity precipitation a s o u r mo

Affinity precipitation is fast emerging as a successful technique for the purification of proteins which can be introduced at an early stage of downstream processing. The technique applies the use of reversibly solubleinsoluble polymers which have either natural or synthetic origin. Apart from the s

## Abstract A new nonionic reverse micellar system is developed by blending two nonionic surfactants, Triton X‐45 and Span 80. At total surfactant concentrations lower than 60 mmol/L and molar fractions of Triton X‐45 less than 0.6, thermodynamically stable reverse micelles of water content (__W__~

## Abstract Affinity hydrogels based on poly(ethylene glycol) diacrylate and a metal‐ion‐chelating ligand, glycidyl methacrylate–iminodiacetic acid, have been developed to systematically decrease protein release rates from hydrophilic tissue engineering scaffolds formed __in situ__. In the current