sup 13^C-Labeled Gluconate Tracing as a Direct and Accurate Method for Determining the Pentose Phosphate Pathway Split Ratio in Penicilliurn chrysogen urn

In this study we developed a new method for accurately determining the pentose phosphate pathway (PPP) split ratio, an important metabolic parameter in the primary metabolism of a cell. This method is based on simultaneous feeding of unlabeled glucose and trace amounts of [U-^sup 13^C]gluconate, fol...

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Veröffentlicht in:	Applied and environmental microbiology 2006-07, Vol.72 (7), p.4743
Hauptverfasser:	Kleijn, Roelco J, van Winden, Wouter A, Ras, Cor, van Gulik, Walter M
Format:	Artikel
Sprache:	eng
Schlagworte:	Fungi Glucose Growth rate Metabolism Microbiology
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creator	Kleijn, Roelco J van Winden, Wouter A Ras, Cor van Gulik, Walter M
description	In this study we developed a new method for accurately determining the pentose phosphate pathway (PPP) split ratio, an important metabolic parameter in the primary metabolism of a cell. This method is based on simultaneous feeding of unlabeled glucose and trace amounts of [U-^sup 13^C]gluconate, followed by measurement of the mass isotopomers of the intracellular metabolites surrounding the 6-phosphogluconate node. The gluconate tracer method was used with a penicillin G-producing chemostat culture of the filamentous fungus Penicillium chrysogenum. For comparison, a ^sup 13^C-labeling-based metabolic flux analysis (MFA) was performed for glycolysis and the PPP of P. chrysogenum. For the first time mass isotopomer measurements of ^sup 13^C-labeled primary metabolites are reported for P. chrysogenum and used for a ^sup 13^C-based MFA. Estimation of the PPP split ratio of P. chrysogenum at a growth rate of 0.02 h-1 yielded comparable values for the gluconate tracer method and the ^sup 13^C-based MFA method, 51.8% and 51.1%, respectively. A sensitivity analysis of the estimated PPP split ratios showed that the 95% confidence interval was almost threefold smaller for the gluconate tracer method than for the ^sup 13^C-based MFA method (40.0 to 63.5% and 46.0 to 56.5%, respectively). From these results we concluded that the gluconate tracer method permits accurate determination of the PPP split ratio but provides no information about the remaining cellular metabolism, while the ^sup 13^C-based MFA method permits estimation of multiple fluxes but provides a less accurate estimate of the PPP split ratio. [PUBLICATION ABSTRACT]
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This method is based on simultaneous feeding of unlabeled glucose and trace amounts of [U-^sup 13^C]gluconate, followed by measurement of the mass isotopomers of the intracellular metabolites surrounding the 6-phosphogluconate node. The gluconate tracer method was used with a penicillin G-producing chemostat culture of the filamentous fungus Penicillium chrysogenum. For comparison, a ^sup 13^C-labeling-based metabolic flux analysis (MFA) was performed for glycolysis and the PPP of P. chrysogenum. For the first time mass isotopomer measurements of ^sup 13^C-labeled primary metabolites are reported for P. chrysogenum and used for a ^sup 13^C-based MFA. Estimation of the PPP split ratio of P. chrysogenum at a growth rate of 0.02 h-1 yielded comparable values for the gluconate tracer method and the ^sup 13^C-based MFA method, 51.8% and 51.1%, respectively. A sensitivity analysis of the estimated PPP split ratios showed that the 95% confidence interval was almost threefold smaller for the gluconate tracer method than for the ^sup 13^C-based MFA method (40.0 to 63.5% and 46.0 to 56.5%, respectively). From these results we concluded that the gluconate tracer method permits accurate determination of the PPP split ratio but provides no information about the remaining cellular metabolism, while the ^sup 13^C-based MFA method permits estimation of multiple fluxes but provides a less accurate estimate of the PPP split ratio. 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A sensitivity analysis of the estimated PPP split ratios showed that the 95% confidence interval was almost threefold smaller for the gluconate tracer method than for the ^sup 13^C-based MFA method (40.0 to 63.5% and 46.0 to 56.5%, respectively). From these results we concluded that the gluconate tracer method permits accurate determination of the PPP split ratio but provides no information about the remaining cellular metabolism, while the ^sup 13^C-based MFA method permits estimation of multiple fluxes but provides a less accurate estimate of the PPP split ratio. 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A sensitivity analysis of the estimated PPP split ratios showed that the 95% confidence interval was almost threefold smaller for the gluconate tracer method than for the ^sup 13^C-based MFA method (40.0 to 63.5% and 46.0 to 56.5%, respectively). From these results we concluded that the gluconate tracer method permits accurate determination of the PPP split ratio but provides no information about the remaining cellular metabolism, while the ^sup 13^C-based MFA method permits estimation of multiple fluxes but provides a less accurate estimate of the PPP split ratio. [PUBLICATION ABSTRACT]</abstract><cop>Washington</cop><pub>American Society for Microbiology</pub></addata></record>
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title	sup 13^C-Labeled Gluconate Tracing as a Direct and Accurate Method for Determining the Pentose Phosphate Pathway Split Ratio in Penicilliurn chrysogen urn
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