Towards system level modeling of functional modules and regulatory pathways using genome-scale data.
Understanding complex biological processes such as developmentand pathology of multicellular organisms at asystem level requires the study of dynamic networks of interactingmolecules. High-throughput methods have generatedlarge-scale, static networks of physical interactionswhich may occur or not depending on spatial, temporalor context-specific variation, while genome-wide microarraydatasets measure the functional state of a cell preciselyunder such varying conditions. Here we presentrecent results towards integrative, system level modelingof functional modules and regulatory pathways using diversegenome-scale data.
Michoel, T., Joshi, A., Bonnet, E., Vermeirssen, V., Van de Peer, Y. (2010) Towards system level modeling of functional modules and regulatory pathways using genome-scale data. Proceedings of the Seventh International Workshop on Computational Systems Biology (WCSB 2010) 71-74. Luxembourg, Luxembourg. |
|
Contact:
VIB / UGent Bioinformatics & Evolutionary Genomics Technologiepark 927 B-9052 Gent BELGIUM +32 (0) 9 33 13807 (phone) +32 (0) 9 33 13809 (fax) |
You are visiting an outdated page of the BEG/Van de Peer Lab site.
Not all pages have been ported, so these archived pages are still available.
Redirect to the new website?