Can yeast glycolysis be understood in terms of in vitro kinetics of the constituent enzymes? Testing biochemistry
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This study examines whether the in vivo behavior of yeast glycolysis can be understood in terms of the in vitro kinetic properties of the constituent enzymes.
SEEK ID: https://testing.sysmo-db.org/studies/5
Growth control of the eukaryote cell: a systems biology study in yeast
Projects: SysMO DB
Study position:
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Created: 5th Jul 2010 at 14:27
Last updated: 10th Nov 2011 at 17:14
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The main objectives of SysMO-DB are to: facilitate the web-based exchange of data between research groups within- and inter- consortia, and to provide an integrated platform for the dissemination of the results of the SysMO projects to the scientific community. We aim to devise a progressive and scalable solution to the data management needs of the SysMO initiative, that:
- maximises the ‘shelf life’ and utility of data generated by SysMO;
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Programme: Dummy programme
Public web page: http://www.sysmo-db.org/
Cell growth underlies many key cellular and developmental processes, yet a limited number of studies have been carried out on cell-growth regulation. Comprehensive studies at the transcriptional, proteomic and metabolic levels under defined controlled conditions are currently lacking.
This investigation shows public data taken from the BioInvestigation Index. (http://www.ebi.ac.uk/bioinvindex/study.seam?studyId=BII-S-1) Organism: Saccharomyces Cerevisiae
Submitter: Katy Wolstencroft
Studies: A time course analysis of transcription response in yeast treated with ..., Can yeast glycolysis be understood in terms of in vitro kinetics of the ..., test study
Assays: Changes in flux on the metabolome, Changes in flux on the proteome, Changes in flux on the transcriptome, Glycolysis in Saccharomyces cerevisiae, Time course analysis of transcription, Transcriptional profiling, new assay from data file, test assay, test for biol problem
Glycolysis in Saccharomyces cerevisiae
Submitter: Guest
Biological problem addressed: Metabolism
Investigation: Growth control of the eukaryote cell: a systems...
Creator: Jacky Snoep
Submitter: Guest
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: Not specified
