14578455

Source:http://linkedlifedata.com/resource/pubmed/id/14578455

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Predicate	Object
rdf:type	pubmed:Citation
lifeskim:mentions	umls-concept:C0031437, umls-concept:C0036025, umls-concept:C0681842, umls-concept:C0936012, umls-concept:C1706062, umls-concept:C2348043
pubmed:issue	23
pubmed:dateCreated	2003-11-12
pubmed:abstractText	Full genome sequences of prokaryotic organisms have led to reconstruction of genome-scale metabolic networks and in silico computation of their integrated functions. The first genome-scale metabolic reconstruction for a eukaryotic cell, Saccharomyces cerevisiae, consisting of 1,175 metabolic reactions and 733 metabolites, has appeared. A constraint-based in silico analysis procedure was used to compute properties of the S. cerevisiae metabolic network. The computed number of ATP molecules produced per pair of electrons donated to the electron transport system (ETS) and energy-maintenance requirements were quantitatively in agreement with experimental results. Computed whole-cell functions of growth and metabolic by-product secretion in aerobic and anaerobic culture were consistent with experimental data, and thus mRNA expression profiles during metabolic shifts were computed. The computed consequences of gene knockouts on growth phenotypes were consistent with experimental observations. Thus, constraint-based analysis of a genome-scale metabolic network for the eukaryotic S. cerevisiae allows for computation of its integrated functions, producing in silico results that were consistent with observed phenotypic functions for approximately 70-80% of the conditions considered.
pubmed:grant	http://linkedlifedata.com/resource/pubmed/grant/GM57089
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pubmed:language	eng
pubmed:journal	http://linkedlifedata.com/resource/pubmed/journal/7505876
pubmed:citationSubset	IM
pubmed:chemical	http://linkedlifedata.com/resource/pubmed/chemical/Adenosine Triphosphate, http://linkedlifedata.com/resource/pubmed/chemical/Glucose, http://linkedlifedata.com/resource/pubmed/chemical/RNA, Messenger
pubmed:status	MEDLINE
pubmed:month	Nov
pubmed:issn	0027-8424
pubmed:author	pubmed-author:FamiliImanI, pubmed-author:ForsterJochenJ, pubmed-author:NielsenJensJ, pubmed-author:PalssonBernhard OBO
pubmed:issnType	Print
pubmed:day	11
pubmed:volume	100
pubmed:owner	NLM
pubmed:authorsComplete	Y
pubmed:pagination	13134-9
pubmed:dateRevised	2009-11-18
pubmed:meshHeading	pubmed-meshheading:14578455-Adenosine Triphosphate, pubmed-meshheading:14578455-Cell Division, pubmed-meshheading:14578455-Electron Transport, pubmed-meshheading:14578455-Gene Deletion, pubmed-meshheading:14578455-Genome, Fungal, pubmed-meshheading:14578455-Glucose, pubmed-meshheading:14578455-Models, Biological, pubmed-meshheading:14578455-Models, Genetic, pubmed-meshheading:14578455-Models, Theoretical, pubmed-meshheading:14578455-Phenotype, pubmed-meshheading:14578455-RNA, Messenger, pubmed-meshheading:14578455-Saccharomyces cerevisiae, pubmed-meshheading:14578455-Thermodynamics, pubmed-meshheading:14578455-Time Factors
pubmed:year	2003
pubmed:articleTitle	Saccharomyces cerevisiae phenotypes can be predicted by using constraint-based analysis of a genome-scale reconstructed metabolic network.

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