Robert van Reis scite author profile

Protein dynamic binding capacities on ion exchange resins are typically expected to decrease with increasing conductivity and decreasing protein charge. There are, however, conditions where capacity increases with increasing conductivity and decreasing protein charge. Capacity measurements on two different commercial ion exchange resins with three different monoclonal antibodies at various pH and conductivities exhibited two domains. In the first domain, the capacity unexpectedly increased with increasing conductivity and decreasing protein charge. The second domain exhibited traditional behavior. A mechanism to explain the first domain is postulated; proteins initially bind to the outer pore regions and electrostatically hinder subsequent protein transport. Such a mechanism is supported by protein capacity and confocal microscopy studies whose results suggest how knowledge of the two types of IEX behavior can be leveraged in optimizing resins and processes. ß

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High-performance tangential flow filtration using charged membranes

Reis¹,

Brake²,

Charkoudian³

et al. 1999

Journal of Membrane Science

165

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Robert van Reis

Bioprocess membrane technology

Membrane separations in biotechnology

An exclusion mechanism in ion exchange chromatography

High-performance tangential flow filtration using charged membranes

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