Determination of the inhibitor dissociation constant of an individual unmodified enzyme molecule in free solution

Single enzyme molecule assays on E. coli β‐galactosidase were performed using a capillary electrophoresis‐based method. Three types of assays were performed. The catalytic rate of 20 individual molecules was assayed in duplicate in the presence of 50 μM substrate. The ratio of rates for the second i...

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Veröffentlicht in:	Electrophoresis 2016-08, Vol.37 (15-16), p.2217-2225
Hauptverfasser:	Crawford, Jeremie J, Hollett, Joshua W, Craig, Douglas B
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Sprache:	eng
Schlagworte:	Assaying beta-Galactosidase - metabolism Binding, Competitive Constants Electrophoresis, Capillary - methods Enzyme Assays - methods Enzymes Escherichia coli - enzymology Escherichia coli - metabolism Heterogeneity Heterogeneity KI Heterogeneity KI, Km Inhibitors Kinetics Models, Chemical Reproducibility Reproducibility of Results Ribose Single molecule Standard deviation Substrates β-galactosidase
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description	Single enzyme molecule assays on E. coli β‐galactosidase were performed using a capillary electrophoresis‐based method. Three types of assays were performed. The catalytic rate of 20 individual molecules was assayed in duplicate in the presence of 50 μM substrate. The ratio of rates for the second incubation relative to the first was 0.96 ± 0.03, showing the reproducibility of the method. In the second assay, the rates were determined in the absence and presence of 210 μM L‐ribose, a competitive inhibitor. The ratio of the rate in the presence of inhibitor to that in its absence for 19 individual molecules was 0.44 ± 0.23. This large relative standard deviation suggests that each individual enzyme molecule was affected to a different extent by the presence of the inhibitor, which is consistent with KI being heterogeneous. To estimate KI for individual molecules, a third assay was performed. Each molecule was incubated in the presence of 30 and 50 μM substrate and then in the presence of 50 μM substrate plus 210 μM inhibitor. Comparison of the rates in the two substrate concentrations allowed for the determination of the individual Km of each molecule. From this value and the difference in rates in the presence and absence of inhibitor, the individual molecule KI values were determined. This value was found to differ between individual molecules and was found to increase with an increase in Km. Modeling showed that a heterogeneity in KI results in an alteration in the Michaelis–Menten curve for a population of enzymes in the presence of a competitive inhibitor.
doi_str_mv	10.1002/elps.201600201
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Three types of assays were performed. The catalytic rate of 20 individual molecules was assayed in duplicate in the presence of 50 μM substrate. The ratio of rates for the second incubation relative to the first was 0.96 ± 0.03, showing the reproducibility of the method. In the second assay, the rates were determined in the absence and presence of 210 μM L‐ribose, a competitive inhibitor. The ratio of the rate in the presence of inhibitor to that in its absence for 19 individual molecules was 0.44 ± 0.23. This large relative standard deviation suggests that each individual enzyme molecule was affected to a different extent by the presence of the inhibitor, which is consistent with KI being heterogeneous. To estimate KI for individual molecules, a third assay was performed. Each molecule was incubated in the presence of 30 and 50 μM substrate and then in the presence of 50 μM substrate plus 210 μM inhibitor. Comparison of the rates in the two substrate concentrations allowed for the determination of the individual Km of each molecule. From this value and the difference in rates in the presence and absence of inhibitor, the individual molecule KI values were determined. This value was found to differ between individual molecules and was found to increase with an increase in Km. 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Three types of assays were performed. The catalytic rate of 20 individual molecules was assayed in duplicate in the presence of 50 μM substrate. The ratio of rates for the second incubation relative to the first was 0.96 ± 0.03, showing the reproducibility of the method. In the second assay, the rates were determined in the absence and presence of 210 μM L‐ribose, a competitive inhibitor. The ratio of the rate in the presence of inhibitor to that in its absence for 19 individual molecules was 0.44 ± 0.23. This large relative standard deviation suggests that each individual enzyme molecule was affected to a different extent by the presence of the inhibitor, which is consistent with KI being heterogeneous. To estimate KI for individual molecules, a third assay was performed. Each molecule was incubated in the presence of 30 and 50 μM substrate and then in the presence of 50 μM substrate plus 210 μM inhibitor. Comparison of the rates in the two substrate concentrations allowed for the determination of the individual Km of each molecule. From this value and the difference in rates in the presence and absence of inhibitor, the individual molecule KI values were determined. This value was found to differ between individual molecules and was found to increase with an increase in Km. 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subjects	Assaying beta-Galactosidase - metabolism Binding, Competitive Constants Electrophoresis, Capillary - methods Enzyme Assays - methods Enzymes Escherichia coli - enzymology Escherichia coli - metabolism Heterogeneity Heterogeneity KI Heterogeneity KI, Km Inhibitors Kinetics Models, Chemical Reproducibility Reproducibility of Results Ribose Single molecule Standard deviation Substrates β-galactosidase
title	Determination of the inhibitor dissociation constant of an individual unmodified enzyme molecule in free solution
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