Direct detection of histidine tagged biomolecules on...

Details Direct detection of histidine tagged biomolecules on... Direct detection of histidine tagged biomolecules on...

2000-07-13

2003-04-01

Warden, Sr., Robert J. (Department: 1744)

Chemistry: electrical and wave energy

Processes and products

Electrophoresis or electro-osmosis processes and electrolyte...

C204S462000, C204S612000, C204S613000

Reexamination Certificate

active

06540897

ABSTRACT:

FIELD OF INVENTION
The present invention relates to the fluorometric detection of target substances and, more particularly, to detection of histidine tagged biomolecules directly on the gel in which they have been separated by electrophoresis.
BACKGROUND OF INVENTION
Capture of target substances such as biomolecules on solid phases has been used for years in order to facilitate their subsequent identification. One method of capture is generally designated as “blotting” whereby the target substance is applied, directly or by transfer, from another media, to a membrane such as nitrocellulose, polyvinyllidene difluoride (PVDF), or nylon.
Blotting is most frequently used in combination with known gel electrophoresis procedures (single or two-dimensional) whereby the target substance is first electrophoretically separated on a gel from other substances. It is then transferred to a membrane for specific detection of the target and its location on the membrane.
Procedures for electrophoretic separation with subsequent blotting onto a membrane are generally referred to in the literature as either Western blotting, Northern blotting or Southern blotting. Western blotting refers to the identification of proteins as target substances, while the latter two procedures refer to identification of target RNA and DNA sequences, respectively.
An application in which Western blotting has been utilized is with respect to recombinantly produced proteins which have been tagged with a substance to facilitate detection and purification. A popular tag is the “His-tag” which is a series, generally about 3-10 and preferably about 36, of histidine residues. Advantages associated with the use of the His-tag include minimal addition of amino acid groups to the recombinant protein, that the tag is poorly immunogenic, and that it usually does not interfere with protein folding.
Histidine is known to chelate with a number of metals, see “Immobilized Affinity Ligand Techniques,” (1992) Hermanson, Mallia, and Smith, Academic Press, 1992. Accordingly, Western blot detection of a histadine tagged protein, i.e., subsequent to electrophoretic separation on a gel of proteins in the lysate and blotting from the gel onto a membrane, using detectable nickel conjugate systems such nickel chelated to horseradish peroxidase or nickel-nitriloacetic acid conjugates are in current use.
A drawback, however, associated with Western and other blotting techniques is that they require time consuming and cumbersome steps. These include transferring the target substance from the electrophoretic gel to the membrane on which the substance is to be detected and blocking and washing the membrane. It is with respect to eliminating these procedures that the present invention is directed.
SUMMARY OF THE INVENTION
Therefore, in accordance with one aspect of the present invention, there is provided a method for the detection of a His-tagged target biomolecule while said molecule remains in the gel in which it has been separated from other constituents by electrophoresis. The process of this invention involves separating a His-tagged biomolecule from other substances by electrophoresis over a gel and, while the separated His-tagged biomolecule remains in the gel, forming a chelate between the His-tagged molecule, a lanthanide metal ion which exhibits fluorescence, and a sensitizer which enhances the fluorescence of the ion. The gel is then exposed to a u.v. light source to thereby generate a fluorogenic signal indicating the presence of the chelate and, in turn, the His-tagged biomolecule. The fluorogenic signal is then detected either by direct visualization and/or by other means, such as photographically, e.g., film or charged coupled device (CCD) imaging.
In accordance with a further aspect of the present invention, there is provided a kit for the direct detection of histidine tagged biomolecules on an electrophoretic gel. The kit contains, as essential items, two separately packaged components and written instructions for use of the components in the direct detection of a His-tagged biomolecule on electryphoretic gel. One of the packaged components is an aqueous solution of a lanthanide metal ion which exhibits fluorescence. The other component is an aqueous solution of a sensitizer which enhances the fluorescence of the lanthanide metal ion.
DESCRIPTION OF THE INVENTION
U.S. Pat. No. 5,637,509 identifies Dy(+3), Sm (+3), Tb(+3) and Eu(+3) as lanthanide metal ions which exhibit fluorescence and, accordingly, are useful. Of these, terbium and europium metal ions (Tb(+3) and Eu (+3) ) are most useful herein with terbium being particularly preferred since especially large increases in fluorescence can be achieved. Barela and Sherry, (1976) Analytical Biochemistry, 71, 351-357. In practicing the invention, the metals can be applied directly to the gels containing the separated His-Tag substances as aqueous solutions of their water soluble salts, e.g., as chlorides. As long as sufficient metal ion is present to chelate with available histidine residues, the concentration of the metal ion in solution is not critical. About 0.1 mM solutions are useful for most applications.
A number of compounds have been identified over the years as sensitizers which, when chelated with a lanthanide metal ion, enhance the fluorescence of the lanthanide metal ion and are considered to be useful herein. Examples of such compounds can be found in the following: U.S. Pat. Nos. 5,656,433 and 5,859,215 and WO8707955 and EP0288256.
Of the many known sensitizers, dipicolinic acid (pyridine, 2,6 dicarboxylic acid) and derivatives thereof are particularly useful herein in enhancing the fluorescent signal of lanthanide metal ions. Barela, supra, Lamture and Wensel (1993) Tetrahedron Letters, Vol. 34, No. 26 pp. 4141, Lamture and Wensel, (1995) Bioconjugate CHEM,6, 88-92 (1995). For use in the present invention, the acid itself is preferred since no practical advantages are realized with the use of other dipicolinic acids, i.e., derivatives thereof; the important aspect being the presence of the carboxylic acids at the 2 and 6 positions of the pyridine ring.
As with the lanthanide metal, the sensitizer employed can be applied to the gel as an aqueous solution, generally appropriately buffered to a pH of about 7 using, e.g., a TRIS (tris (hydroxymethyl) aminomethane) buffer. Similarly concentration is not critical so long as sufficient acid is present to chelate with the lanthanide metal present so as to enhance fluorescence. About a 2 mM concentration is useful.
The present invention is applicable to the detection of His-tagged target biomolecules which have been separated from other constituents by means of gel electrophoresis. It finds most general application currently with respect to the detection of His-tagged proteins which have been recombinantly expressed and then electrophoretically separated from other host cell constituents in the crude lysate. It may also find utility in the direct detection of oligonucleotides currently detected by Northern or Southern blot techniques. Concerning gel electrophoresis techniques, the procedure commonly known as SDS-PAGE, (using sodium dodecyl sulfate in polyacrylamide gels), is useful for the separation of the His-tagged proteins when, as most commonly practiced, separation by molecular mass is desired. For tagged oligonucleotides, electrophoresis in agarose is generally employed.
In one manner of carrying out the present invention, after electrophoresis of a crude lysate containing a His-tagged biomolecule, the gel is washed with water and then incubated in a solution of the lanthanide metal ion to effect chelate formation with the His-tagged biomolecule, followed again by washing to remove excess metal ion, thereby reducing background. Then the gel is incubated in a buffered solution of the sensitizer to chelate the sensitizer to the ion chelated to the His-tagged molecule. After removal from the latter solution and washing, the gel is irradiated with ultraviolet light (300 nm) using, for exampl

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