Biosensors produced from enzymes with reduced solubility and methods of production and use thereof

What is claimed is: 1. A multi-use biosensor for detecting the presence and/or concentration of at least one target analyte in a fluidic biological sample, the multi-use biosensor comprising: an electrode; a modified enzyme dispensed and dried on at least a portion of the electrode, wherein the enzyme has been modified to reduce the solubility thereof through reaction of at least one functional group thereon with a reactant such that the modified enzyme is substantially insoluble in the fluidic biological sample and in calibration reagents utilized with the multi-use biosensor, and wherein the modified enzyme comprises an active site that interacts with the target analyte for detection of the target analyte; and a membrane disposed on at least a portion of the modified enzyme, wherein the membrane immobilizes the modified enzyme on the electrode. 2. The multi-use biosensor of claim 1 , further defined as a potentiometric analyte biosensor. 3. The multi-use biosensor of claim 1 , wherein the at least one functional group on the modified enzyme is selected from the group comprising an aldehyde-, amine-, carbonyl-, carboxyl-, hydroxyl-, ketone-, maleimide-, sulfhydryl-, and thiol-reactive group. 4. The multi-use biosensor of claim 1 , wherein the reactant comprises a long chain biotin. 5. The multi-use biosensor of claim 1 , wherein the membrane is permeable to the target analyte to be detected but substantially impermeable to the modified enzyme. 6. The multi-use biosensor of claim 1 , wherein the membrane is formed of a material selected from the group comprising polyurethane, silicone, poly(vinyl chloride), and combinations thereof. 7. The multi-use biosensor of claim 1 , wherein the enzyme is selected from the group comprising urease, glucose oxidase, glutamate oxidase, lactate oxidase, pyruvate oxidase, sarcosine oxidase, creatinine amidohydrolase, creatine amidinohydrolase, ascorbate oxidase, alcohol oxidase, cholesterol oxidase, choline oxidase, bilirubin oxidase, laccase, tyrosinase, alcohol dehydrogenase, glucose dehydrogenase, glutamate dehydrogenase, lactate dehydrogenase, and pyruvate dehydrogenase. 8. The multi-use biosensor of claim 1 , further defined as a multi-use blood urea nitrogen (BUN) biosensor, and wherein the at least one modified enzyme is a modified urease. 9. The multi-use biosensor of claim 1 , wherein the biosensor has at least a 14 day use-life. 10. The multi-use biosensor of claim 1 , wherein the modified enzyme is substantially soluble in a buffer that has a lower ionic strength than the fluidic biological sample and the calibration reagents used with the multi-use biosensor. 11. The multi-use biosensor of claim 1 , wherein the reactant attached to the enzyme increases the molecular weight and/or changes the isoelectric point of the modified enzyme when compared to the molecular weight and/or isoelectric point of unmodified enzyme. 12. A multi-use biosensor array assembly, comprising: a substrate; a plurality of multi-use biosensors, wherein each of the plurality of multi-use biosensors are spatially positioned on at least one surface of the substrate, and wherein at least one of the plurality of multi-use biosensors is a multi-use biosensor of claim 1 . 13. A method of producing a multi-use biosensor, the method comprising the steps of: (a) modifying an enzyme present in a first buffer by reacting at least one functional group on the enzyme with a reactant, thereby producing a modified enzyme that has a reduced solubility when compared to unmodified enzyme such that the modified enzyme is substantially insoluble in the fluidic biological sample and in calibration reagents utilized with the multi-use biosensor, and wherein the modified enzyme comprises an active site that interacts with the target analyte for detection of the target analyte; (b) forming a precipitate of modified enzyme; (c) redissolving the precipitate of modified enzyme in a second buffer to provide a modified enzyme solution, wherein the second buffer has a lower ionic strength than the first buffer, whereby the modified enzyme is substantially soluble in the second buffer but less soluble or substantially insoluble in the first buffer; (d) dispensing a specific amount of the modified enzyme solution on at least a portion of an electrode; (e) drying the modified enzyme solution on the electrode; and (f) disposing a membrane on at least a portion of the modified enzyme and electrode, wherein the membrane immobilizes the modified enzyme on the electrode. 14. The method of claim 13 , wherein the multi-use analyte biosensor is further defined as a potentiometric analyte biosensor. 15. The method of claim 13 , wherein at least one of: (i) the at least one functional group on the enzyme is selected from the group comprising an aldehyde-, amine-, carbonyl-, carboxyl-, hydroxyl-, ketone-, maleimide-, sulfhydryl-, and thiol-reactive group; (ii) the reactant comprises a long chain biotin; (iii) the membrane is permeable to the target analyte to be detected but substantially impermeable to the modified enzyme; (iv) the membrane is formed of a material selected from the group comprising polyurethane, silicone, poly(vinyl chloride), and combinations thereof; (v) the enzyme is selected from the group comprising urease, glucose oxidase, glutamate oxidase, lactate oxidase, pyruvate oxidase, sarcosine oxidase, creatinine amidohydrolase, creatine amidinohydrolase, ascorbate oxidase, alcohol oxidase, cholesterol oxidase, choline oxidase, bilirubin oxidase, laccase, tyrosinase, alcohol dehydrogenase, glucose dehydrogenase, glutamate dehydrogenase, lactate dehydrogenase, and pyruvate dehydrogenase; and (vi) the reactant attached to the enzyme increases the molecular weight and/or changes the isoelectric point of the modified enzyme when compared to the molecular weight and/or isoelectric point of unmodified enzyme. 16. The method of claim 13 , wherein the multi-use biosensor is further defined as a multi-use blood urea nitrogen (BUN) biosensor, and wherein the at least one modified enzyme is urease. 17. The method of claim 13 , wherein the biosensor so produced has at least a 14 day use-life. 18. The method of claim 13 , wherein step (a) reduces the solubility of the modified enzyme to a level whereby the modified enzyme is substantially insoluble in the fluidic biological sample and in calibration reagents utilized with the multi-use biosensor but is substantially soluble in a buffer that has a lower ionic strength than the fluidic biological sample and the calibration reagents. 19. The method of claim 13 , further comprising at least one of the steps of: (g) purifying the enzyme from excipients by buffer exchange into the first buffer prior to step (a); and (h) measuring an activity of the enzyme prior to step (d). 20. A method of producing a multi-use biosensor array assembly, the method comprising the step of: forming a plurality of multi-use biosensors on at least one surface of a substrate, wherein each of the plurality of multi-use biosensors are spatially positioned on the at least one surface of the substrate, and wherein at least one of the plurality of multi-use biosensors is formed by the method of claim 13 . 21. A method for detecting the presence and/or concentration of a target analyte in a fluidic biological sample, the method comprising the steps of: (a) inserting a fluidic biological sample into a blood gas, electrolyte, and/or metabolite instrument containing the multi-use biosensor