Understanding the regulation of aspartate metabolism using a model based on measured kinetic parameters

Understanding the regulation of aspartate metabolism using a model based on measured kinetic parameters

Abstract The aspartate‐derived amino‐acid pathway from plants is well suited for analysing the function of the allosteric network of interactions in branched pathways. For this purpose, a detailed kinetic model of the system in the plant model Arabidopsis was constructed on the basis of in vitro kin...

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Bibliographic Details
Main Authors: Gilles Curien, Olivier Bastien, Mylène Robert‐Genthon, Athel Cornish‐Bowden, María Luz Cárdenas, Renaud Dumas
Format: Article
Language:English
Published: Springer Nature 2009-05-01
Series:Molecular Systems Biology
Subjects:
allosteric regulation
Arabidopsis
aspartate metabolism
mathematical model
simulation
Online Access:https://doi.org/10.1038/msb.2009.29
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Summary:Abstract The aspartate‐derived amino‐acid pathway from plants is well suited for analysing the function of the allosteric network of interactions in branched pathways. For this purpose, a detailed kinetic model of the system in the plant model Arabidopsis was constructed on the basis of in vitro kinetic measurements. The data, assembled into a mathematical model, reproduce in vivo measurements and also provide non‐intuitive predictions. A crucial result is the identification of allosteric interactions whose function is not to couple demand and supply but to maintain a high independence between fluxes in competing pathways. In addition, the model shows that enzyme isoforms are not functionally redundant, because they contribute unequally to the flux and its regulation. Another result is the identification of the threonine concentration as the most sensitive variable in the system, suggesting a regulatory role for threonine at a higher level of integration.
ISSN:1744-4292

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