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Publications (2)
Authors: K. Wolstencroft, S. Owen, O. Krebs, Q. Nguyen, N. J. Stanford, M. Golebiewski, A. Weidemann, M. Bittkowski, L. An, D. Shockley, J. L. Snoep, W. Mueller, C. Goble
PubMed ID: 26160520
Date Published: 11th Jul 2015
Projects: F1: The data management system, Virtual Liver
Journal: BMC Syst Biol
Citation: BMC Syst Biol. 2015 Jul 11;9:33. doi: 10.1186/s12918-015-0174-y.
Scales: Not specified
Abstract (Expand)
Created: 7th Aug 2015 at 11:48
Authors: F. Buchel, C. Wrzodek, F. Mittag, A. Drager, J. Eichner, N. Rodriguez, N. L. Novere, A. Zell
DOI: 10.1093/bioinformatics/bts508
Date Published: 24th Aug 2012
Projects: A3.4: Linking signalling to metabolic functions, B5: Cell-cell communication influences detoxifying functions in hepatocytes, Showcase Steatosis
Journal: Bioinformatics
Citation: Bioinformatics 28(20) : 2648
Scales: Cell and Intercellular
Abstract (Expand)
Created: 25th Aug 2012 at 21:46  Last updated: 24th Oct 2013 at 16:16
Presentations (1)
Building a liver knowledgebase: ontology-based representation of liver biochemical processes and their evidence
Uploader: Christian Bölling
Contributor: Christian Bölling, Hermann-Georg Holzhütter, Michael Weidlich
Other contributors: Not specified
Version: 1
Projects: F2: The Liver Knowledge Base (LKB)
Scales: Cell, Intercellular, Liver lobule, Liver and Organism
Computational approaches to study biochemistry require machine accessible representations of biochemical knowledge. Based on the requirements for assembling, managing and analysing genome-scale constraint-based models of liver metabolism we developed a semantic data model for representation of liver biochemical knowledge. Employing a role-based representation of biochemical processes as molecular events specified in the Web Ontology Language (OWL) we here outline an information model that employs
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Created: 13th Jul 2012 at 16:24