Kinetic isotope effects significantly influence intracellular metabolite (13) C labeling patterns and flux determination

Rigorous mathematical modeling of carbon-labeling experiments allows estimation of fluxes through the pathways of central carbon metabolism, yielding powerful information for basic scientific studies as well as for a wide range of applications. However, the mathematical models that have been develop...

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Veröffentlicht in:	Biotechnology journal 2013-09, Vol.8 (9), p.1080-1089
Hauptverfasser:	Wasylenko, Thomas M, Stephanopoulos, Gregory
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon Isotopes - metabolism Computer Simulation Gas Chromatography-Mass Spectrometry Isotope Labeling Kinetics Metabolic Flux Analysis Metabolic Networks and Pathways Models, Biological Pyruvic Acid - metabolism
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container_title	Biotechnology journal
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creator	Wasylenko, Thomas M Stephanopoulos, Gregory
description	Rigorous mathematical modeling of carbon-labeling experiments allows estimation of fluxes through the pathways of central carbon metabolism, yielding powerful information for basic scientific studies as well as for a wide range of applications. However, the mathematical models that have been developed for flux determination from (13) C labeling data have commonly neglected the influence of kinetic isotope effects on the distribution of (13) C label in intracellular metabolites, as these effects have often been assumed to be inconsequential. We have used measurements of the (13) C isotope effects on the pyruvate dehydrogenase enzyme from the literature to model isotopic fractionation at the pyruvate node and quantify the modeling errors expected to result from the assumption that isotope effects are negligible. We show that under some conditions kinetic isotope effects have a significant impact on the (13) C labeling patterns of intracellular metabolites, and the errors associated with neglecting isotope effects in (13) C-metabolic flux analysis models can be comparable in size to measurement errors associated with GC-MS. Thus, kinetic isotope effects must be considered in any rigorous assessment of errors in (13) C labeling data, goodness-of-fit between model and data, confidence intervals of estimated metabolic fluxes, and statistical significance of differences between estimated metabolic flux distributions.
doi_str_mv	10.1002/biot.201200276
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However, the mathematical models that have been developed for flux determination from (13) C labeling data have commonly neglected the influence of kinetic isotope effects on the distribution of (13) C label in intracellular metabolites, as these effects have often been assumed to be inconsequential. We have used measurements of the (13) C isotope effects on the pyruvate dehydrogenase enzyme from the literature to model isotopic fractionation at the pyruvate node and quantify the modeling errors expected to result from the assumption that isotope effects are negligible. We show that under some conditions kinetic isotope effects have a significant impact on the (13) C labeling patterns of intracellular metabolites, and the errors associated with neglecting isotope effects in (13) C-metabolic flux analysis models can be comparable in size to measurement errors associated with GC-MS. 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subjects	Carbon Isotopes - metabolism Computer Simulation Gas Chromatography-Mass Spectrometry Isotope Labeling Kinetics Metabolic Flux Analysis Metabolic Networks and Pathways Models, Biological Pyruvic Acid - metabolism
title	Kinetic isotope effects significantly influence intracellular metabolite (13) C labeling patterns and flux determination
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