Enzyme-based fluorescence biosensor for chemical analysis
First Claim
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1. A method of testing a sample for the presence of an anion comprising the steps of:
- reacting a metallo-enzyme attached to a photoluminescent donor label with said sample, said metallo-enzyme being able to reversibly bind said anion, resulting in a metallo-enzyme-anion complex, to quench the photoluminescence, altering the degree of quenching of said photoluminescent donor label in a proximity-dependent quenching process by binding of said anion, measuring the degree of said quenching by determining the change in intensity or lifetime of photoluminescent emission, relating the degree of quenching to the fraction of said metallo-enzyme with bound anion, and to the binding affinity of said metallo-enzyme, thereby determining the presence of said anion wherein the proximity between said donor label and said anion is r≦
0.75R0, wherein R0is the Fö
rster distance where energy transfer is fifty percent efficient.
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Abstract
This invention generally relates to the detection, determination, and quantitation of certain ions and small molecules involving the quenching of a fluorescent label attached to a macromolecule, often due to fluorescence energy transfer to a colored inhibitor or certain metal ions bound to the macromolecule.
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Citations
8 Claims
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1. A method of testing a sample for the presence of an anion comprising the steps of:
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reacting a metallo-enzyme attached to a photoluminescent donor label with said sample, said metallo-enzyme being able to reversibly bind said anion, resulting in a metallo-enzyme-anion complex, to quench the photoluminescence, altering the degree of quenching of said photoluminescent donor label in a proximity-dependent quenching process by binding of said anion, measuring the degree of said quenching by determining the change in intensity or lifetime of photoluminescent emission, relating the degree of quenching to the fraction of said metallo-enzyme with bound anion, and to the binding affinity of said metallo-enzyme, thereby determining the presence of said anion wherein the proximity between said donor label and said anion is r≦
0.75R0, wherein R0is the Fö
rster distance where energy transfer is fifty percent efficient.- View Dependent Claims (2, 3)
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4. A method of testing a sample for the presence of a metal ion comprising the steps of:
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reacting an enzyme attached to a photoluminescent donor label with said sample in the presence of a colored ligand wherein said colored ligand is selected from the group consisting of azosulfamide, 4-(4, dimethylaminophenyl) azophenyl sulfonamide and salicylazobenzenesulfonamide, creating a metallo-enzyme, wherein the presence of said metal ion in a binding site of the enzyme permits the colored ligand to bind, thereby bringing it into closer proximity to said photoluminescent donor label, altering the degree of quenching of said photoluminescent donor label in a proximity-dependent quenching process by binding of said metal ion, measuring the degree of said quenching by determining the change in intensity or lifetime of photoluminescent emission, relating the degree of quenching to the fraction of said metallo-enzyme with bound metal ion, and to the binding affinity of said metallo-enzyme, thereby determining the presence of said metal ion wherein the proximity between said donor label and said metal ion is r≦
0.75R0, wherein R0 is the Fö
rster distance where energy transfer is fifty percent efficient.- View Dependent Claims (5, 6, 7, 8)
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Specification