| scholarly article | Q13442814 |
| P356 | DOI | 10.1049/IP-SYB:20060012 |
| P698 | PubMed publication ID | 16986322 |
| P50 | author | David A. Fell | Q42668859 |
| Harshil Patel | Q59307003 | ||
| P2093 | author name string | M G Poolman | |
| A Gevorgyan | |||
| B K Bonde | |||
| P433 | issue | 5 | |
| P921 | main subject | metabolic network | Q2263094 |
| P304 | page(s) | 379-384 | |
| P577 | publication date | 2006-09-01 | |
| P1433 | published in | IET Systems Biology | Q5209441 |
| P1476 | title | Challenges to be faced in the reconstruction of metabolic networks from public databases | |
| P478 | volume | 153 |
| Q55550917 | A Dynamic Multi-Tissue Flux Balance Model Captures Carbon and Nitrogen Metabolism and Optimal Resource Partitioning During Arabidopsis Growth. |
| Q21147058 | A consensus yeast metabolic network reconstruction obtained from a community approach to systems biology |
| Q43276356 | A genome-scale metabolic model of Arabidopsis and some of its properties |
| Q43274939 | An integrative approach towards completing genome-scale metabolic networks |
| Q21284353 | BiGG: a Biochemical Genetic and Genomic knowledgebase of large scale metabolic reconstructions |
| Q56987279 | Can sugars be produced from fatty acids? A test case for pathway analysis tools |
| Q34913005 | Can sugars be produced from fatty acids? A test case for pathway analysis tools. |
| Q33562246 | Challenges in experimental data integration within genome-scale metabolic models |
| Q59798415 | CiliateGEM: an open-project and a tool for predictions of ciliate metabolic variations and experimental condition design |
| Q37788044 | Comparative systems biology: from bacteria to man |
| Q28544677 | Computational analysis of reciprocal association of metabolism and epigenetics in the budding yeast: a genome-scale metabolic model (GSMM) approach |
| Q48326559 | Detection of stoichiometric inconsistencies in biomolecular models |
| Q35970261 | Experimental flux measurements on a network scale |
| Q46639912 | Flux balance analysis of genome-scale metabolic model of rice (Oryza sativa): aiming to increase biomass |
| Q28472062 | Functional group and substructure searching as a tool in metabolomics |
| Q33565363 | Genome scale modeling in systems biology: algorithms and resources |
| Q35963026 | Global Metabolic Reconstruction and Metabolic Gene Evolution in the Cattle Genome |
| Q33286434 | Including metabolite concentrations into flux balance analysis: thermodynamic realizability as a constraint on flux distributions in metabolic networks |
| Q33659541 | Integration of metabolic databases for the reconstruction of genome-scale metabolic networks |
| Q33612153 | Modelling the response of FOXO transcription factors to multiple post-translational modifications made by ageing-related signalling pathways |
| Q43577885 | Predicting Metabolic Pathways by Sub-network Extraction |
| Q90308606 | Reconstruction and Analysis of Cattle Metabolic Networks in Normal and Acidosis Rumen Tissue |
| Q47097382 | Reconstruction of Oryza sativa indica Genome Scale Metabolic Model and Its Responses to Varying RuBisCO Activity, Light Intensity, and Enzymatic Cost Conditions |
| Q33417923 | Reconstruction of metabolic pathways for the cattle genome |
| Q56987273 | Response to comment on 'Can sugars be produced from fatty acids? A test case for pathway analysis tools' |
| Q58744245 | Responses to light intensity in a genome-scale model of rice metabolism |
| Q35630899 | Rhea--a manually curated resource of biochemical reactions |
| Q39393882 | Simple topological properties predict functional misannotations in a metabolic network |
| Q28474052 | Spontaneous reaction silencing in metabolic optimization |
| Q28300416 | SurreyFBA: a command line tool and graphics user interface for constraint-based modeling of genome-scale metabolic reaction networks |
| Q35086025 | The strength of chemical linkage as a criterion for pruning metabolic graphs |
Search more.