Advanced search
Publication Cover
Biotechnology and Genetic Engineering Reviews Volume 26, 2009 - Issue 1
Journal homepage
637
Views
8
CrossRef citations to date
0
Altmetric
Original Articles

Metabolic Network-Based Interpretation of Gene Expression Data Elucidates Human Cellular Metabolism

Tomer Shlomi Department of Computer Science, Technion – Israel Institute of Technology, Haifa, 32000, IsraelCorrespondence[email protected]
Pages 281-296 | Published online: 15 Apr 2013

References

  • Ackerman , S.H. and Tzagoloff , A. 1990 . ATP10, a yeast nuclear gene required for the assembly of the mitochondrial F1-F0 complex . J Biol Chem , 265 ( 17 ) : 9952 – 9 .
  • Akesson , M. , Forster , J. and Nielsen , J. 2004 . Integration of gene expression data into genome-scale metabolic models . Metab Eng , 6 ( 4 ) : 285 – 93 .
  • Almaas , E. 2004 . Global organization of metabolic fluxes in the bacterium Escherichia coli . Nature , 427 ( 6977 ) : 839 – 43 .
  • Banta , S. 2007 . Contribution of gene expression to metabolic fluxes in hypermetabolic livers induced through burn injury and cecal ligation and puncture in rats . Biotechnol Bioeng , 97 ( 1 ) : 118 – 37 .
  • Beard , D.A. , Liang , S.D. and Qian , H. 2002 . Energy balance for analysis of complex metabolic networks . Biophys J , 83 ( 1 ) : 79 – 86 .
  • Becker , S.A. and Palsson , B.O. 2008 . Context-specific metabolic networks are consistent with experiments . PLoS Comput Biol , 4 ( 5 ) : e1000082
  • Bilu , Y. 2006 . Conservation of expression and sequence of metabolic genes is reflected by activity across metabolic states . PLoS Comput Biol , 2 ( 8 ) : e106
  • Burgard , A.P. and Maranas , C.D. 2003 . Optimization-based framework for inferring and testing hypothesized metabolic objective functions . Biotechnol Bioeng , 82 ( 6 ) : 670 – 7 .
  • Burgard , A.P. 2004 . Flux coupling analysis of genome-scale metabolic network reconstructions . Genome Res , 14 ( 2 ) : 301 – 12 .
  • Burgard , A.P. , Pharkya , P. and Maranas , C.D. 2003 . Optknock: a bilevel programming framework for identifying gene knockout strategies for microbial strain optimization . Biotechnol Bioeng , 84 ( 6 ) : 647 – 57 .
  • Chatziioannou , A. , Palaiologos , G. and Kolisis , F.N. 2003 . Metabolic flux analysis as a tool for the elucidation of the metabolism of neurotransmitter glutamate . Metab Eng , 5 ( 3 ) : 201 – 10 .
  • Covert , M.W. 2004 . Integrating high-throughput and computational data elucidates bacterial networks . Nature , 429 ( 6987 ) : 92 – 6 .
  • Daran-Lapujade , P. 2004 . Role of transcriptional regulation in controlling fluxes in central carbon metabolism of Saccharomyces cerevisiae. A chemostat culture study . J Biol Chem , 279 ( 10 ) : 9125 – 38 .
  • Dibrov , E. , Fu , S. and Lemire , B.D. 1998 . The Saccharomyces cerevisiae TCM62 gene encodes a chaperone necessary for the assembly of the mitochondrial succinate dehydrogenase (complex II) . J Biol Chem , 273 ( 48 ) : 32042 – 8 .
  • Duarte , N.C. 2007 . Global reconstruction of the human metabolic network based on genomic and bibliomic data . Proc Natl Acad Sci U S A , 104 ( 6 ) : 1777 – 82 .
  • Duarte , N.C. , Herrgard , M.J. and Palsson , B.O. 2004 . Reconstruction and validation of Saccharomyces cerevisiae iND750, a fully compartmentalized genome-scale metabolic model . Genome Res , 14 ( 7 ) : 1298 – 309 .
  • Famili , I. 2003 . Saccharomyces cerevisiae phenotypes can be predicted by using constraint-based analysis of a genome-scale reconstructed metabolic network . Proc Natl Acad Sci U S A , 100 ( 23 ) : 13134 – 9 .
  • Feist , A.M. 2007 . A genome-scale metabolic reconstruction for Escherichia coli K-12 MG1655 that accounts for 1260 ORFs and thermodynamic information . Mol Syst Biol , 3 : 121
  • Feist , A.M. and Palsson , B.O. 2008 . The growing scope of applications of genome-scale metabolic reconstructions using Escherichia coli . Nat Biotechnol , 26 ( 6 ) : 659 – 67 .
  • Fell , D.A. and Small , J.R. 1986 . Fat synthesis in adipose tissue. An examination of stoichiometric constraints . Biochem J , 238 ( 3 ) : 781 – 6 .
  • Fong , S.S. and Palsson , B.O. 2004 . Metabolic gene-deletion strains of Escherichia coli evolve to computationally predicted growth phenotypes . Nat Genet , 36 ( 10 ) : 1056 – 8 .
  • Forster , J. 2003 . Genome-scale reconstruction of the Saccharomyces cerevisiae metabolic network . Genome Res , 13 ( 2 ) : 244 – 53 .
  • Galmarini , C.M. , Popowycz , F. and Joseph , B. 2008 . Cytotoxic nucleoside analogues: different strategies to improve their clinical efficacy . Curr Med Chem , 15 ( 11 ) : 1072 – 82 .
  • Garfinkel , D. and Hess , B. 1964 . Metabolic Control Mechanisms. Vii.A Detailed Computer Model of the Glycolytic Pathway in Ascites Cells . J Biol Chem , 239 : 971 – 83 .
  • Heijnen , J.J. 2005 . Approximative kinetic formats used in metabolic network modeling . Biotechnol Bioeng , 91 ( 5 ) : 534 – 45 .
  • Heinrich , R. and Rapoport , T.A. 1974 . A linear steady-state treatment of enzymatic chains. Critique of the crossover theorem and a general procedure to identify interaction sites with an effector . Eur J Biochem , 42 ( 1 ) : 97 – 105 .
  • Henry , C.S. , Broadbelt , L.J. and Hatzimanikatis , V. 2007 . Thermodynamics-based metabolic flux analysis . Biophys J , 92 ( 5 ) : 1792 – 805 .
  • Herrgard , M.J. 2006 . Integrated analysis of regulatory and metabolic networks reveals novel regulatory mechanisms in Saccharomyces cerevisiae . Genome Res , 16 ( 5 ) : 627 – 35 .
  • Holmes , E. 2006 . Metabolic profiling of CSF: evidence that early intervention may impact on disease progression and outcome in schizophrenia . PLoS Med , 3 ( 8 ) : e327
  • Huang , C. 2007 . Changes in network activity with the progression of Parkinson's disease . Brain , 130 ( Pt 7 ) : 1834 – 46 .
  • Kacser , H. and Burns , J.A. 1973 . The control of flux . Symp Soc Exp Biol , 27 : 65 – 104 .
  • Kauffman , K.J. , Prakash , P. and Edwards , J.S. 2003 . Advances in flux balance analysis . Curr Opin Biotechnol , 14 ( 5 ) : 491 – 6 .
  • Kell , D.B. 2007 . Metabolomic biomarkers: search, discovery and validation . Expert Rev Mol Diagn , 7 ( 4 ) : 329 – 33 .
  • Lanpher , B. , Brunetti-Pierri , N. and Lee , B. 2006 . Inborn errors of metabolism: the flux from Mendelian to complex diseases . Nat Rev Genet , 7 ( 6 ) : 449 – 60 .
  • Levine , D.M. 2006 . Pathway and gene-set activation measurement from mRNA expression data: the tissue distribution of human pathways . Genome Biol , 7 ( 10 ) : R93
  • Ma , H. 2007 . The Edinburgh human metabolic network reconstruction and its functional analysis . Mol Syst Biol , 3 : 135
  • Mahadevan , R. and Schilling , C.H. 2003 . The effects of alternate optimal solutions in constraint-based genome-scale metabolic models . Metab Eng , 5 ( 4 ) : 264 – 76 .
  • Mo , M.L. , Jamshidi , N. and Palsson , B.O. 2007 . A genome-scale, constraint-based approach to systems biology of human metabolism . Mol Biosyst , 3 ( 9 ) : 598 – 603 .
  • Mo , M.L. and Palsson , B.O. 2009 . Understanding human metabolic physiology: a genome-to-systems approach . Trends Biotechnol , 27 ( 1 ) : 37 – 44 .
  • Muoio , D.M. and Newgard , C.B. 2006 . Obesity-related derangements in metabolic regulation . Annu Rev Biochem , 75 : 367 – 401 .
  • Ovacik , M.A. and Androulakis , I.P. 2008 . On the Potential for Integrating Gene Expression and Metabolic Flux Data . Current Bioinformatics , 3 : 142 – 148 .
  • Papin , J.A. 2003 . Metabolic pathways in the post-genome era . Trends Biochem Sci , 28 ( 5 ) : 250 – 8 .
  • Park , S.J. 2005 . Global physiological understanding and metabolic engineering of microorganisms based on omics studies . Appl Microbiol Biotechnol , 68 ( 5 ) : 567 – 79 .
  • Price , N.D. , Reed , J.L. and Palsson , B.O. 2004 . Genome-scale models of microbial cells: evaluating the consequences of constraints . Nat Rev Microbiol , 2 ( 11 ) : 886 – 97 .
  • Reed , J.L. and Palsson , B.O. 2004 . Genome-scale in silico models of E. coli have multiple equivalent phenotypic states: assessment of correlated reaction subsets that comprise network states . Genome Res , 14 ( 9 ) : 1797 – 805 .
  • Rossell , S. 2006 . Unraveling the complexity of flux regulation: a new method demonstrated for nutrient starvation in Saccharomyces cerevisiae . Proc Natl Acad Sci U S A , 103 ( 7 ) : 2166 – 71 .
  • Schuster , S. , Fell , D.A. and Dandekar , T. 2000 . A general definition of metabolic pathways useful for systematic organization and analysis of complex metabolic networks . Nat Biotechnol , 18 ( 3 ) : 326 – 32 .
  • Schuster , S. 2002 . Use of network analysis of metabolic systems in bioengineering . Bioprocess and Biosystems Engineering , 24 ( 6 ) : 363 – 372 .
  • Segre , D. , Vitkup , D. and Church , G.M. 2002 . Analysis of optimality in natural and perturbed metabolic networks . Proc Natl Acad Sci U S A , 99 ( 23 ) : 15112 – 7 .
  • Serkova , N.J. , Spratlin , J.L. and Eckhardt , S.G. 2007 . NMR-based metabolomics: translational application and treatment of cancer . Curr Opin Mol Ther , 9 ( 6 ) : 572 – 85 .
  • Shlomi , T. , Berkman , O. and Ruppin , E. 2005 . Regulatory on/off minimization of metabolic flux changes after genetic perturbations . Proc Natl Acad Sci U S A , 102 ( 21 ) : 7695 – 700 .
  • Shlomi , T. 2008 . Network-based prediction of human tissue-specific metabolism . Nat Biotechnol , 26 ( 9 ) : 1003 – 10 .
  • Shlomi , T. , Cabili , M.N. and Ruppin , E. 2009 . Predicting Metabolic Biomarkers of Human Inborn Errors of Metabolism . Mol Syst Biol , 5 : 263
  • Shlomi , T. 2007 . A genome-scale computational study of the interplay between transcriptional regulation and metabolism . Mol Syst Biol , 3 : 101
  • Shmueli , O. 2003 . GeneNote: whole genome expression profiles in normal human tissues . C R Biol , 326 ( 10–11 ) : 1067 – 72 .
  • Son , C.G. 2005 . Database of mRNA gene expression profiles of multiple human organs . Genome Res , 15 ( 3 ) : 443 – 450 .
  • Tummala , S.B. 2003 . Transcriptional analysis of product-concentration driven changes in cellular programs of recombinant Clostridium acetobutylicumstrains . Biotechnol Bioeng , 84 ( 7 ) : 842 – 54 .
  • Vo , T.D. , Greenberg , H.J. and Palsson , B.O. 2004 . Reconstruction and functional characterization of the human mitochondrial metabolic network based on proteomic and biochemical data . J Biol Chem , 279 ( 38 ) : 39532 – 40 .
  • Wiback , S.J. and Palsson , B.O. 2002 . Extreme pathway analysis of human red blood cell metabolism . Biophys J , 83 ( 2 ) : 808 – 18 .
  • Yanai , I. 2005 . Genome-wide midrange transcription profiles reveal expression level relationships in human tissue specification . Bioinformatics , 21 ( 5 ) : 650 – 9 .
  • Yang , C. , Hua , Q. and Shimizu , K. 2002 . Integration of the information from gene expression and metabolic fluxes for the analysis of the regulatory mechanisms in Synechocystis . Appl Microbiol Biotechnol , 58 ( 6 ) : 813 – 22 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.