Claims
- 1. A method of screening a plurality of displacer candidates for efficacy in separating a bioproduct from one or more impurities by means of a displacement chromatography system comprising a mobile phase solvent and a stationary phase resin, said method comprising:
determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of the stationary phase resin; for each of the displacer candidates, determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of both the stationary phase resin and the displacer candidate; for each of the displacer candidates, determining an amount of the bioproduct displaced from the stationary phase resin; and rating each displacer candidate according to a relative amount of the bioproduct displaced from the stationary phase resin.
- 2. A method of screening a plurality of displacer candidates according to claim 1, wherein determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of the stationary phase resin, comprises:
equilibrating known amounts of the bioproduct, the one or more impurities, the mobile phase solvent and the stationary phase resin; performing an analysis of the mobile phase solvent containing the bioproduct; and whereby the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of the stationary phase resin, is determined.
- 3. A method of screening a plurality of displacer candidates according to claim 1, wherein determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of both the stationary phase resin and the displacer candidate, comprises:
equilibrating a known amount of each displacer candidate, and known amounts of the bioproduct, the one or more impurities, the mobile phase solvent, the stationary phase resin; performing an analysis of the mobile phase solvent containing the bioproduct; and whereby the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of both the stationary phase resin and a displacer candidate, is determined.
- 4. A method of screening a plurality of displacer candidates according to claim 1, wherein determining an amount of the bioproduct displaced from the stationary phase resin comprises:
finding a difference between an equilibrium amount of bioproduct adsorbed on the stationary phase resin in the presence and in the absence of the displacer candidate.
- 5. A method of screening a plurality of displacer candidates according to claim 1, wherein the stationary phase resin is an ion exchange resin.
- 6. A method of screening a plurality of displacer candidates according to claim 1, additionally comprising:
determining the equilibrium concentration of the one or more impurities in the mobile phase solvent, in the presence of the stationary phase resin; for each of the displacer candidates, determining the equilibrium concentration of the one or more impurities in the mobile phase solvent, in the presence of both the stationary phase resin and the displacer candidate; for each of the displacer candidates, determining an amount of the one or more impurities displaced from the stationary phase resin; and rating each displacer candidate according to a relative amount of the bioproduct displaced relative to the amount of the one or more impurities displaced from the stationary phase resin.
- 7. A kit for use in screening a plurality of displacer candidates for efficacy in separating a bioproduct from one or more impurities by means of a displacement chromatography system comprising a mobile phase solvent and a stationary phase resin, said kit comprising:
a displacer library comprising a plurality of displacer candidates; and at least one stationary phase resin.
- 8. A kit according to claim 7, additionally comprising a plurality of sample cells.
- 9. A kit according to claim 8, wherein said plurality of sample cells comprises at least one 96-well microtitre plate.
- 10. A kit according to claim 7, wherein said at least one stationary phase resin comprises a plurality of stationary phase resins.
- 11. A kit according to claim 7, additionally comprising a mobile phase solvent.
- 12. A method for using a kit comprising a plurality of displacer candidates and a stationary phase resin in screening said plurality of displacer candidates for efficacy in separating a bioproduct from one or more impurities by means of a displacement chromatography system, said method comprising:
combining the stationary phase resin, a mobile phase solvent, and the bioproduct; determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of the stationary phase resin; for each of the displacer candidates, combining the stationary phase resin, a mobile phase solvent, the bioproduct and the displacer candidate; for each of the displacer candidates, determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of both the stationary phase resin and the displacer candidate; for each of the displacer candidates, determining an amount of the bioproduct displaced from the stationary phase resin; and rating each displacer candidate according to a relative amount of the bioproduct displaced from the stationary phase resin.
- 13. A method for using a kit according to claim 12, wherein determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of the stationary phase resin, comprises:
equilibrating known amounts of the bioproduct, the one or more impurities, the mobile phase solvent and the stationary phase resin; performing an analysis of the mobile phase solvent containing the bioproduct; and whereby the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of the stationary phase resin, is determined.
- 14. A method for using a kit according to claim 12, wherein determining the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of both the stationary phase resin and the displacer candidate, comprises:
equilibrating a known amount of each displacer candidate, and known amounts of the bioproduct, the one or more impurities, the mobile phase solvent, the stationary phase resin; performing an analysis of the mobile phase solvent containing the bioproduct; and whereby the equilibrium concentration of the bioproduct in the mobile phase solvent, in the presence of both the stationary phase resin and a displacer candidate, is determined.
- 15. A method for using a kit according to claim 12, wherein determining an amount of the bioproduct displaced from the stationary phase resin comprises:
finding a difference between an equilibrium amount of bioproduct adsorbed on the stationary phase resin in the presence and in the absence of the displacer candidate.
- 16. A method for using a kit according to claim 12, wherein the stationary phase resin is an ion exchange resin.
- 17. A method for using a kit according to claim 12, additionally comprising:
determining the equilibrium concentration of the one or more impurities in the mobile phase solvent, in the presence of the stationary phase resin; for each of the displacer candidates, determining the equilibrium concentration of the one or more impurities in the mobile phase solvent, in the presence of both the stationary phase resin and the displacer candidate; for each of the displacer candidates, determining an amount of the one or more impurities displaced from the stationary phase resin; and rating each displacer candidate according to a relative amount of the one or more impurities displaced from the stationary phase resin.
- 18. A method for using a chemically selective displacer in separating a bioproduct from one or more impurities by means of a displacement chromatography system, said method comprising:
dissolving the bioproduct and the one or more impurities in a solvent; loading the bioproduct and the one or more impurities, in the solvent, on a chromatographic resin; displacing the bioproduct from the chromatographic resin with the chemically selective displacer; and wherein the one or more impurities are retained on the chromatographic resin.
- 19. A method according to claim 18, wherein said solvent is a mobile phase solvent, and said chromatographic resin is a stationary phase resin contained in a displacement chromatography column.
- 20. A method according to claim 18, wherein said chemically selective displacer is selected using the method of claim 1.
Government Interests
[0001] This invention was made with support from the National Institutes of Health under Grant No. GM47372-04A2. The United States government may have certain rights in the invention.
Provisional Applications (1)
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Number |
Date |
Country |
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60184357 |
Feb 2000 |
US |