Polymethacrylate monoliths for preparative and industrial separation of biomolecular assemblies

Monoliths are considered as the fourth-generation chromatography material. Their use for preparative separation of biomolecules has been evolved over the past decade. Monolithic columns up to 8 L in size are already commercially available for separation of large biomolecules such as proteins, protei...

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Bibliographic Details
Published in:Journal of Chromatography A 2008-03, Vol.1184 (1), p.62-79
Main Authors: Jungbauer, Alois, Hahn, Rainer
Format: Article
Language:English
Subjects:
Adsorption
Analytical biochemistry: general aspects, technics, instrumentation
Analytical, structural and metabolic biochemistry
Biological and medical sciences
Cell Compartmentation
Cell Fractionation - methods
Cell Separation - methods
Chromatography - methods
Chromatography, Affinity - methods
CIM disk
CIM tube
Cryogel
DNA - isolation & purification
Fundamental and applied biological sciences. Psychology
Ligands
Macromolecular Substances - isolation & purification
Models, Chemical
pDNA
Plasmids - genetics
Polyacrylamide
Polymethacrylate
Polymethacrylic Acids - chemistry
Pressure drop
Protein
Proteins - isolation & purification
Scale-up
Virus
Viruses - isolation & purification
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Summary:Monoliths are considered as the fourth-generation chromatography material. Their use for preparative separation of biomolecules has been evolved over the past decade. Monolithic columns up to 8 L in size are already commercially available for separation of large biomolecules such as proteins, protein aggregates, plasmid DNA, and viruses. These applications leverage monoliths’ inherent properties, such as fast operation and high capacity for large biomolecules. The height equivalent to a theoretical plate (HETP) and dynamic binding capacity do not change with velocity. This is explained by the convective transport through the channels with a diameter of above 1000 nm and has been experimentally verified and also supported by theoretical analyses. Despite low absolute surface area, these large channels provide enough area for adsorption of these large biomolecules, which cannot penetrate into conventional chromatography media designed for protein separation. Monoliths for preparative separations are mainly cast as polymethacrylate or polyacrylamide blocks and have been functionalized as ion exchangers or hydrophobic interaction chromatography media. So-called cryogels have channels more than 30 μm wide, enabling efficient processing of suspensions or even cell-chromatography. This review discusses the pressure drop characteristics, mass transfer properties, scale-up, and applications of monoliths in the context of conventional chromatography media.
ISSN:0021-9673
DOI:10.1016/j.chroma.2007.12.087