Gunnar Malmquist scite author profile

Dynamic binding capacity (DBC) of a monoclonal antibody on agarose based strong cation exchange resins is determined as a function of resin ligand density, apparent pore size of the base matrix, and protein charge. The maximum DBC is found to be unaffected by resin ligand density, apparent pore size, or protein charge within the tested range. The critical conductivity (conductivity at maximum DBC) is seen to vary with ligand density. It is hypothesized that the maximum DBC is determined by the effective size of the proteins and the proximity to which they can approach one another. Once a certain minimum resin ligand density is supplied, additional ligand is not beneficial in terms of resin capacity. Additional ligand can provide flexibility in designing ion exchange resins for a particular application as the critical conductivity could be matched to the feedstock conductivity and it may also affect the selectivity.

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Electrostatic calculations and quantitative protein retention models for ion exchange chromatography

Malmquist¹,

Nilsson²,

Norrman³

et al. 2006

Journal of Chromatography A

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Characterization of the influence of displacing salts on retention in gradient elution ion-exchange chromatography of proteins and peptides

Malmquist

Lundell

1992

Journal of Chromatography A

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Surface extenders and an optimal pore size promote high dynamic binding capacities of antibodies on cation exchange resins

Hart¹,

Harinarayan²,

Malmquist³

et al. 2009

Journal of Chromatography A

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Multivariate evaluation of peptide mapping using the entire chromatographic profile

Malmquist

1994

Journal of Chromatography A

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Evaluation of multi-modal high salt binding ion exchange materials

Yang

Malmquist²,

Johansson³

et al. 2007

Journal of Chromatography A

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