1. The Fehling’s reaction, which is a simple assay for reducing sugars, was used as a diagnostic test for the determination of blood glucose concentrations for a very long time. However, it has now been replaced by the glucose oxidase test. The enzyme glucose oxidase isolated from the mold Penicillium notatum catalyzes the oxidation of β-D-glucose to D-glucono-δ-lactone. This enzyme is highly specific for the β-anomer of glucose and does not affect the α-anomer. In spite of this specificity, the reaction catalyzed by glucose oxidase is commonly used in a clinical assay for total blood glucose—that is, for solutions consisting of a mixture of β- and α-D-glucose. Explain how this is possible. Aside from allowing the detection of smaller quantities of glucose, what advantage does glucose oxidase offer over Fehling’s reagent for the determination of blood glucose? 2. Consider only the oxygen levels present in the cytoplasm and ECF as shown in the drawing above (no new oxygen is entering the region; no oxygen is leaving). What will the concentration of oxygen in the cytoplasm be when equilibrium is reached? _____ mm Hg
1. The Fehling’s reaction, which is a simple assay for reducing sugars, was used as a diagnostic test for the determination of blood glucose concentrations for a very long time. However, it has now been replaced by the glucose oxidase test. The enzyme glucose oxidase isolated from the mold Penicillium notatum catalyzes the oxidation of β-D-glucose to D-glucono-δ-lactone. This enzyme is highly specific for the β-anomer of glucose and does not affect the α-anomer. In spite of this specificity, the reaction catalyzed by glucose oxidase is commonly used in a clinical assay for total blood glucose—that is, for solutions consisting of a mixture of β- and α-D-glucose. Explain how this is possible. Aside from allowing the detection of smaller quantities of glucose, what advantage does glucose oxidase offer over Fehling’s reagent for the determination of blood glucose?
2. Consider only the oxygen levels present in the cytoplasm and ECF as shown in the drawing above (no new oxygen is entering the region; no oxygen is leaving). What will the concentration of oxygen in the cytoplasm be when equilibrium is reached? _____ mm Hg
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