Articles & Issues
- Language
- English
- Conflict of Interest
- In relation to this article, we declare that there is no conflict of interest.
- Publication history
-
Received August 23, 2023
Accepted August 23, 2023
- This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright © KIChE. All rights reserved.
All issues
Optimization of Large-Scale Chromatography of Proteins
Center for Surface Biotechnology, Uppsala University, Box 577, SE-751 23 Uppsala, Sweden
Korean Journal of Chemical Engineering, March 2001, 18(2), 149-158(10), 10.1007/BF02698452
Download PDF
Abstract
Protein chromatography is a very complex process based on a combination of thermodynamic, kinetic and mass transport phenomena. By virtue of their complicated and delicate surface structures, the behaviour of proteins on various chromatographic media is not easy to predict. Together with the fact that the majority of the chromatographic media for proteins available today are not very well characterized with regard to their detailed chemical and physical surface structures, protein chromatography still has to be regarded as a predominantly empirical science. I.e. the optimization of separation conditions can only be performed by experiments in the laboratory. The scaling-up is then accomplished primarily by increasing the column diameter. This has been shown work well for column diameters up to at least 1,400 mm. The paper will also deal with the characteristics of the most important protein separation media, silica based, polystyrene based and agarose based, and with how to best optimize the conditions for column productivity, both for adsorption types of chromatography and for gel filtration.
Keywords
References
Ackers GK, Steere RL, Biochim. Biophys. Acta, 59, 137 (1962)
Amsterdam A, Er-el Z, Shaltiel S, Arch. Biochem. Biophys., 171, 673 (1975)
Arnott S, Fulmer A, Scott WE, Dea ICM, Moorhouse R, Rees DA, J. Mol. Biol., 90, 269 (1974)
Arve B, Pharmacia LKB Biotechnology AB, unpublished data.
As general references on large scale chromatography the following books and chapter, respectively, are recommended reading: Handbook of Process Chromatography, G. Sofer and L. Hagel, Academic Press (1997); Process Chromatography-A Practical Guide, G. Sofer and LE Nystrom, Academic Press, 1989; Process Chromatography-A Guide to Validation, G. Sofer and Lars-Erik Nystrom, Academic Press, 1991; Large-scale Chromatography of Proteins, JC Janson and P. Hedman, in A. Fiechter (ed.) Advances in Biochemical Engineering, Springer Verlag, 25, 43 (1982)
Berglof JH, Eriksson S, Biotechnology of Plasma Proteins, Stolz, J.F. and Rivat C., (Eds.), Colloque INSERM, 175, 201 (1989)
Berglof JH, Eriksson S, Andersson I, "Develop. Biol. Standard," S. Karger, ed., Basel, 67, 25 (1987)
Hagel L, Janson JC, Chromatography, Heftmann, E. (ed.), Elsevier, 5(th) edition, A267 (1992)
Hjerten S, Arch. Biochem. Biophys., 79, 393 (1964)
Iler RK, "The Chemistry of Silica," Wiley, New York (1979)
Kroeff EP, Owens RA, Campbell EL, Johnson RD, Marks HI, J. Chromatogr., 461, 45 (1989)
Large-scale chromatography of proteins, JC Janson, and P. Hedman, in A. Fiechter (ed.) Advances in Biochemical Engineering, Springer Verlag, 25, 43 (1982)
Linden T, Ljunglof A, Kula MR, Thommes J, Biotechnol. Bioeng., 65(6), 622 (1999)
Ljunglof A, Bergvall P, Bhikhabhai R, Hjorth R, J. Chromatogr. A, 844, 129 (1999)
Ljunglof A, Larsson M, Knuuttila KG, Lindgren J, J. Chromatogr. A, 893, 235 (2000)
Ljunglof A, Thommes J, J. Chromatogr. A, 813, 387 (1998)
Naveh D, Biopharm, 5, 28 (1990)
Porath J, Flodin P, Nature, 183, 1657 (1959)
Porath J, Janson JC, Laas T, J. Chromatogr., 60, 167 (1971)
Porath J, Laas T, Janson JC, J. Chromatogr., 103, 49 (1975)
Process Chromatography-A Guide to Validation, G. Sofer and Lars-Erik Nystrom, Academic Press (1991)
Process Chromatography-A Practical Guide, G. Sofer and LE Nystrom, Academic Press (1989)
Ugelstad J, Soderberg L, Berge A, Bergstrom J, Nature, 303, 95 (1983)
Amsterdam A, Er-el Z, Shaltiel S, Arch. Biochem. Biophys., 171, 673 (1975)
Arnott S, Fulmer A, Scott WE, Dea ICM, Moorhouse R, Rees DA, J. Mol. Biol., 90, 269 (1974)
Arve B, Pharmacia LKB Biotechnology AB, unpublished data.
As general references on large scale chromatography the following books and chapter, respectively, are recommended reading: Handbook of Process Chromatography, G. Sofer and L. Hagel, Academic Press (1997); Process Chromatography-A Practical Guide, G. Sofer and LE Nystrom, Academic Press, 1989; Process Chromatography-A Guide to Validation, G. Sofer and Lars-Erik Nystrom, Academic Press, 1991; Large-scale Chromatography of Proteins, JC Janson and P. Hedman, in A. Fiechter (ed.) Advances in Biochemical Engineering, Springer Verlag, 25, 43 (1982)
Berglof JH, Eriksson S, Biotechnology of Plasma Proteins, Stolz, J.F. and Rivat C., (Eds.), Colloque INSERM, 175, 201 (1989)
Berglof JH, Eriksson S, Andersson I, "Develop. Biol. Standard," S. Karger, ed., Basel, 67, 25 (1987)
Hagel L, Janson JC, Chromatography, Heftmann, E. (ed.), Elsevier, 5(th) edition, A267 (1992)
Hjerten S, Arch. Biochem. Biophys., 79, 393 (1964)
Iler RK, "The Chemistry of Silica," Wiley, New York (1979)
Kroeff EP, Owens RA, Campbell EL, Johnson RD, Marks HI, J. Chromatogr., 461, 45 (1989)
Large-scale chromatography of proteins, JC Janson, and P. Hedman, in A. Fiechter (ed.) Advances in Biochemical Engineering, Springer Verlag, 25, 43 (1982)
Linden T, Ljunglof A, Kula MR, Thommes J, Biotechnol. Bioeng., 65(6), 622 (1999)
Ljunglof A, Bergvall P, Bhikhabhai R, Hjorth R, J. Chromatogr. A, 844, 129 (1999)
Ljunglof A, Larsson M, Knuuttila KG, Lindgren J, J. Chromatogr. A, 893, 235 (2000)
Ljunglof A, Thommes J, J. Chromatogr. A, 813, 387 (1998)
Naveh D, Biopharm, 5, 28 (1990)
Porath J, Flodin P, Nature, 183, 1657 (1959)
Porath J, Janson JC, Laas T, J. Chromatogr., 60, 167 (1971)
Porath J, Laas T, Janson JC, J. Chromatogr., 103, 49 (1975)
Process Chromatography-A Guide to Validation, G. Sofer and Lars-Erik Nystrom, Academic Press (1991)
Process Chromatography-A Practical Guide, G. Sofer and LE Nystrom, Academic Press (1989)
Ugelstad J, Soderberg L, Berge A, Bergstrom J, Nature, 303, 95 (1983)