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VanEunen2012 - Yeast Glycolysis (glucose upshift)

ABSTRACT: 

This is corresponding to the model of yeast glycolysis "glucose upshift" condition described in the paper "Testing Biochemistry Revisited: How In Vivo Metabolism Can Be Understood from In Vitro Enzyme Kinetics" by van Eunen et al published in Plos Comput Biol, 2012.

ORGANISM(S): Saccharomyces cerevisiae

SUBMITTER: Shodhan Rao 

PROVIDER: MODEL1403250001 | biostudies-other |

SECONDARY ACCESSION(S): 22570597

REPOSITORIES: biostudies-other

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Testing biochemistry revisited: how in vivo metabolism can be understood from in vitro enzyme kinetics.

van Eunen Karen K   Kiewiet José A L JA   Westerhoff Hans V HV   Bakker Barbara M BM  

PLoS computational biology 20120426 4

A decade ago, a team of biochemists including two of us, modeled yeast glycolysis and showed that one of the most studied biochemical pathways could not be quite understood in terms of the kinetic properties of the constituent enzymes as measured in cell extract. Moreover, when the same model was later applied to different experimental steady-state conditions, it often exhibited unrestrained metabolite accumulation.Here we resolve this issue by showing that the results of such ab initio modeling  ...[more]

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