The invention provides extraction columns for the purification of an analyte (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for making and using such columns. The invention is characterized by the use of low dead volume colum
The invention provides extraction columns for the purification of an analyte (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for making and using such columns. The invention is characterized by the use of low dead volume columns, which is achieved in part by the use of low pore volume frits (e.g., membrane screens) to contain a bed of extraction media in the column. Low dead volume facilitates the elution of the captured analyte into a very small volume of desorption solution, allowing for the preparation of low volume samples containing relatively high concentrations of analyte.
대표청구항▼
What is claimed is: 1. A low dead volume extraction column comprising: i) a column body having an open upper end for attachment to a pump, an open lower end for passing fluid into and out of the column body, and an open channel between the upper and lower end of the column body, wherein the column
What is claimed is: 1. A low dead volume extraction column comprising: i) a column body having an open upper end for attachment to a pump, an open lower end for passing fluid into and out of the column body, and an open channel between the upper and lower end of the column body, wherein the column body comprises a pipette tip; ii) a bottom frit bonded to and extending across the open channel, the bottom frit having a pore volume; iii) a top frit bonded to and extending across the open channel between the bottom frit and the open upper end of the column body, the top frit having a pore volume, wherein the top frit and bottom frit are less than 350 microns thick, wherein the bottom frit is a membrane screen and the top frit is optionally a membrane screen and wherein the top frit or the bottom frit is comprised of nylon, polyester, polyamide, polycarbonate, cellulose, polyethylene, nitrocellulose, cellulose acetate, or polypropylene, and wherein the top frit, bottom frit, and channel surface define an extraction media chamber; and iv) a bed of extraction media positioned inside the extraction media chamber. 2. The low dead volume extraction column of claim 1, wherein the bottom frit is located at the open lower end of the column body. 3. The low dead volume extraction column of claim 1, wherein the bottom frit is less than 200 microns thick. 4. The low dead volume extraction column of claim 1, wherein the bottom frit has a pore volume equal to 10% or less of the interstitial volume of the bed of extraction media. 5. The low dead volume extraction column of claim 1, wherein the bottom frit has a pore volume of less than 1 microliter. 6. The low dead volume extraction column of claim 1, wherein the extraction media comprises a packed bed of gel-type packing material. 7. The low dead volume extraction column of claim 6, wherein the gel-type packing material is selected from the group consisting of agarose and sepharose. 8. The low dead volume extraction column of claim 1, wherein the bed of extraction media has a bed volume of in the range of 0.5 to 20 microliters. 9. The low dead volume extraction column of claim 1, wherein the extraction media comprises an affinity binding group having an affinity for a biological molecule of interest. 10. The low dead volume extraction column of claim 9, wherein the affinity binding group is selected from the group consisting of Protein A, Protein G, Protein L and an immobilized metal. 11. The low dead volume extraction column of claim 1, wherein at the column body comprises a polycarbonate, polypropylene or polyethylene material. 12. The low dead volume extraction column of claim 1, wherein the top frit and the bottom frit are bonded to the column body by gluing or welding. 13. The low dead volume extraction column of claim 1, wherein the volume of the extraction media chamber at most 1000 microliters. 14. The low dead volume extraction column of claim 1, wherein the bed of extraction media has a dry weight of less than 10 mg. 15. The low dead volume extraction column of claim 1, wherein the extraction media comprises an extraction bead selected from the group consisting of affinity beads used for protein purification, ion exchange beads used for protein purification, hydrophobic interaction beads used for protein purification, reverse phase beads used for nucleic acid or protein purification, agarose protein G beads used for IgG protein purification, and Hypercell beads used for IgG protein purification. 16. The low dead volume extraction column of claim 1, wherein the upper end of the column body is attached to a pump for aspirating fluid through the lower end of the column body. 17. The low dead volume extraction column of claim 16, wherein the pump is a pipettor or a syringe. 18. The low dead volume extraction column of claim 1 comprising: i) a lower tubular member comprising the lower end of the column body, a first engaging end, and a lower open channel between the lower end of the column body and the first engaging end; and ii) an upper tubular member comprising the upper end of the column body, a second engaging end, and an upper open channel between the upper end of the column body and the second engaging end, the top membrane screen of the extraction column bonded to and extending across the upper open channel at the second engaging end; wherein the first engaging end engages the second engaging end to form a sealing engagement.
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이 특허에 인용된 특허 (28)
Wainwright Norman B. (Falmouth MA) Boyd Steven H. (Falmouth MA), Activated immunodiagnostic pipette tips.
Raybuck Margaret P. (Pontyclun Mid Glamorgan GBX) Kenrick Michael K. (Cardiff GBX) Parry David A. (London GBX), Device and method for affinity separation.
Magnussen ; Jr. Haakon T. (Orinda CA) Ruskewicz Stephen J. (Kensington CA) Smith Gary L. (Walnut Creek CA) Wingo Anthony K. (San Leandro CA), Method for dispensing liquids with a pipette with compensation for air pressure and surface tension.
Dorval Brent L. (Douglas MA) Denham Lilibeth K. (Cambridge MA) Klibanov Alexander M. (Newton MA), Radial flow assay, delivering member, test kit, and methods.
Hillebrand, Timo; Arndt, Matthias; Wellnitz, Uwe; Berka, Klaus; Hillebrand, Volker, Device and procedure for automated isolation and purification of nucleic acids from complex starting materials of the users choice.
Modic, Walter D.; McAdams, Michael; McNary, Lawrence T.; Huynh, Trung K.; Pohl, Christopher A.; Hoefler, Frank, Fluid sample delivery system and method.
Garcia-Cardena, Guillermo; Mack, Peter; Borenstein, Jeffrey T.; Khalil, Ahmad S.; Weinberg, Eli J.; Fiering, Jason O.; Kim, Ernest S.; Adams, Jr., William J., High-throughput biological screening.
Garcia-Cardena, Guillermo; Mack, Peter; Borenstein, Jeffrey T.; Khalil, Ahmad S.; Weinberg, Eli J.; Fiering, Jason O.; Kim, Ernest S.; Adams, Jr., William J.; Hansberry, Mitchell; Bellio, Stephen, Systems and method for high-throughput testing.
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