RU98116668A

RU98116668A - GRAPHITE NANOTUBES IN LUMINESCENT ANALYSIS AND METHODS FOR CARRYING OUT THESE ANALYSIS

Info

Publication number: RU98116668A
Application number: RU98116668/28A
Authority: RU
Inventors: Ричард Дж. Мэссей; Марк Т. Мартин; Ливен Донг; Минг Лу; Алан Фишер; Фабиан Джеймисон; Пам Лианг; Роберт Хоч; Джонатон К. Лилэнд
Original assignee: Айджен Интернэшнл, Инк.
Priority date: 1996-03-06
Filing date: 1997-03-05
Publication date: 2000-06-27

Claims

1. A nanotube to which a component is attached connected to a tag compound capable of inducing luminescence.

2. The nanotube according to claim 1, characterized in that the nanotube is graphite and luminescence is electrochemiluminescence.

3. A graphite nanotube according to claim 1, characterized in that said component is an enzymatic biosensor.

4. A composition for detecting an analyte of interest present in a sample, containing a graphite nanotube containing a functional group, and an analysis substance coupled to said functional group, the analyte being capable of binding to the analyte of interest.

5. A composition for detecting an analyte of interest present in a sample, containing a graphite nanotube containing a functional group, and an analysis substance coupled to said functional group, the substance for analysis being associated with the analyte of interest.

6. The composition according to p. 5, characterized in that it further comprises a second substance for analysis associated with the analyte, and this second substance for analysis is connected to a label compound capable of being induced for luminescence.

7. The composition according to p. 4, characterized in that said substance for analysis contains at least one substance selected from the group comprising an added analyte of interest or an added analogue of this analyte, a binding partner of said analyte or a binding partner of said analogue, and reactive component capable of binding to the selected substance.

8. The composition according to p. 6, characterized in that said substance for analysis contains at least one substance selected from the group comprising an added analyte of interest or an added analogue of this analyte, a binding partner of said analyte or a binding partner of said analogue, and reactive component capable of binding to the selected substance.

9. A method for performing a binding analysis for an analyte of interest present in a sample, comprising the steps of: forming a composition containing said sample, an analyte coupled to a label compound capable of being induced for luminescence, and a plurality of functionalized graphite nanotubes coupled to the substance for analysis, incubation of this composition with the formation of a complex that includes a graphite nanotube and a label compound, collecting this complex in these are measurements, inducing the label compound in said complex for luminescence, and measuring the emitted luminescence to measure the presence of the analyte of interest in the sample.

10. The method according to p. 9, characterized in that the said complex is collected on the surface of the means for inducing luminescence and measuring this luminescence.

11. The method according to p. 10, characterized in that it is based on the measurement of electrochemiluminescence, while the said complex is collected on the surface of the electrode.

12. A method for performing a binding analysis for an analyte of interest present in a sample based on measuring electrochemiluminescence on the surface of an electrode, the method comprising the steps of: forming a composition containing said sample, an analyte coupled to a label compound capable of being induced for electrochemiluminescence, and functionalized graphite nanotubes associated with the substance for analysis, incubation of this composition with the formation m complex, which includes a graphite nanotube and a tag compound, collecting this complex, bringing this complex into contact with the electrode surface and inducing a tag compound in this complex for luminescence by applying voltage to the electrode, and measuring the emitted luminescence on the electrode surface for measuring the presence of an analyte of interest in a sample.

13. A method for performing a binding assay for an analyte of interest present in a sample based on measuring electrochemiluminescence on the surface of an electrode, the method comprising the steps of: forming a composition containing said sample substance for analysis coupled to a label compound capable of being induced for electrochemiluminescence, and many magnetically sensitive, suspended, functionalized graphite nanotubes associated with the substance for analysis, inc beating this composition with the formation of a complex that includes a functionalized graphite nanotube and a tag compound, collecting this complex by applying a magnetic field to graphite nanotubes, bringing this complex into contact with the electrode surface, and inducing the tag compound in this complex for luminescence by summing voltage across the electrode; and measuring the emitted luminescence on the surface of the electrode to measure the presence of the analyte of interest in the sample.

14. The method according to p. 13, characterized in that the application of a magnetic field causes the complex to assemble on the surface of the electrode.

15. Composition for use as a reagent based on the use of microparticles of the binding analysis containing functionalized graphite nanotubes associated with the substance for analysis and at least one other component selected from the group including:
electrolyte;
a label compound containing an ECL moiety;
an analyte of interest or an analogue of an analyte of interest;
a binding partner for the analyte of interest or its analogue;
a reactive component capable of interacting with (c) or (d);
(f) a reducing agent; and
(g) an electrochemiluminescent reaction enhancer;
provided, however, that no two components contained in a particular reagent composition are reactive with respect to each other during storage so as to impair their function in the intended assay.

16. The composition according to p. 15, characterized in that the reagent contains magnetically sensitive graphite nanotubes.

17. Test reagent for analysis based on the binding reaction and measurement of the phenomenon of electrochemiluminescence, containing an electrolyte, many magnetically sensitive functionalized graphite nanotubes associated with the substance for analysis, and the substance for analysis associated with the chemical part of the molecule having electrochemiluminescent properties .

18. A method for performing an analysis for an analyte of interest present in a sample, comprising the steps of forming a composition containing this sample and a functionalized graphite nanotube associated with a component that is coupled to a label compound capable of being induced for luminescence, said component being substrate of analyte of interest, incubation of said composition under conditions allowing the analyte to cleave said component, separating graphite nanotubes from the composition, inducing the free label compound for luminescence, and measuring the emitted luminescence to measure the presence of the analyte of interest in the sample.