Claims
- 1. A set of electrophoretic tag (e-tag) probes for detecting the binding of or interaction between each or any of a plurality of ligands and one or more target antiligands, the set comprising j members, and each of said e-tag probes having the form:
- 2. The probe set of claim 1, for detecting each or any of a plurality of known, selected target nucleotide sequences, the set comprising j members, wherein:
(a) Tj is an oligonucleotide target-binding moiety having a sequence of nucleotides Ui connected by intersubunit linkages Bi, i+1, where i includes all integers from 1 to n, and n is sufficient to allow the target-binding moiety to hybridize specifically with a target nucleotide sequence; (b) L is a nucleotide joined to Ui in Tj through a nuclease-cleavable bond; and (c) each of the target-binding moieties contains at least one modification selected from the following:
(i) at least one nuclease-resistant bond B1, i+1, where i includes at least 1; (ii) Ui containing a capture ligand capable of binding specifically to a capture agent; and (iii) a nuclease-resistant bond Bi, i+1, where i includes at least 1, and at least one nucleotide Ui containing a capture ligand capable of binding specifically to a capture agent, where i≧1.
- 3. The probe set of claim 1, wherein L includes at least a portion of an amino acid sequence that is recognized and cleaved by a selected peptidase.
- 4. The probe set of claim 1, wherein L includes at least a portion of an oligosaccharide that is recognized and cleaved by a selected hydrolytic enzyme.
- 5. The probe set of claim 1, wherein L and Tj are linked by an ester linkage that is cleaved by a selected esterase.
- 6. The probe set of claim 1, wherein L and Tj are linked by a disulfide bond, and the antiligand is attached to an oxidase enzyme, such that in the presence of a substrate for the enzyme, H2O2 generated by the oxidase is effective to cleave the disulfide linkage in a probe bound to the antiligand.
- 7. The probe of claim 1, wherein L and Tj are linked by a bond cleavable by singlet oxygen, wherein the antiligand is attached to a sensitizer capable of generating singlet oxygen when photoactivated.
- 8. The probe set of claim 1, for use in detecting the binding of each or any of a plurality of ligands to a target antiligand molecule, wherein the plurality of ligands are represented by Tj.
How is this limiting to claim 1?
- 9. The probe set of claim 1, for use in screening for a ligand capable of binding to a receptor, wherein the ligands are represented by Tj and are members of a combinatorial library of small organic molecules, and the antiligand is the receptor.
NOTE: This claim was originally written as a dependent claim to claim 7 above.
- 10. The probe set of claim 1, for use in screening substrates of a selected enzyme antiligand, wherein the substrate comprises a fixed moiety L and a variable moiety Tj, and interaction of a substrate probe with the enzyme is effective to cleave the substrate to release the Tj moiety from the substrate.
NOTE: This claim was originally written as a dependent claim to claim 7 above.
- 11. The probe set of claim 1, wherein each Mj has a unique charge/mass ratio by virtue of variations in mass, but not charge.
- 12. The probe set of claim 1, wherein each Mj has a unique charge/mass ratio, by virtue of changes in both mass and charge.
- 13. The probe set of claim 12, containing at least 5 probes whose corresponding e-tag reporters have unique charge/mass ratios of between −0.001 and 0.5.
NOTE: The 033.00 US spec (page 10, line 23) cited a “range of about −0.0001 to 0.1, usually in the range of about −0.001 to about 0.5.” The 0.1 was thought to be in error.
- 14. The probe set of claim 12, containing at least 9 probes whose corresponding e-tag reporters have unique charge/mass ratios of between −0.001 and 0.5.
- 15. The probe set claim 12, wherein each Mj is formed of a selected number of negatively charged and/or positively charged amino acids.
- 16. The probe set of claim 12, wherein each Mj includes an alkyl chain, and differs from other Mj in the set by 1-3 methylene groups in the chain.
- 17. The probe set claim 1, wherein the detectable label is selected from the group consisting of a fluorophore, a chromophore, and an electrochemical compound capable of a detectable reaction in the presence of a redox agent.
- 18. The probe set of claim 1, wherein the detectable label has a selected mass and charge.
- 19. The probe set of claim 18, containing subsets of probes, each subset having a label with a unique mass/charge ratio.
- 20. The probe set of claims 18 and 19, wherein the detectable label is a fluorophore.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of Ser. No. 09/303,029 filed 30 Apr. 1999; Ser. No. 09/561,579 filed 28 Apr. 2000; Ser. No. 09/602,586 filed 21 Jun. 2000; 09/684,386 filed 04 Oct. 2000; and Ser. No. 09/698,846 filed 27 Oct. 2000, all of which are incorporated herein by reference in their entirety.
Continuations (1)
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Continuation in Parts (5)
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