Advancing cancer systems biology: introducing the Center for the Development of a Virtual Tumor, CViT.

Publication Type:

Journal Article

Source:

Cancer Inform, Volume 5, p.1-8 (2007)

Abstract:

<p>Integrative cancer biology research relies on a variety of data-driven computational modeling and simulation methods and techniques geared towards gaining new insights into the complexity of biological processes that are of critical importance for cancer research. These include the dynamics of gene-protein interaction networks, the percolation of sub-cellular perturbations across scales and the impact they may have on tumorigenesis in both experiments and clinics. Such innovative 'systems' research will greatly benefit from enabling Information Technology that is currently under development, including an online collaborative environment, a Semantic Web based computing platform that hosts data and model repositories as well as high-performance computing access. Here, we present one of the National Cancer Institute's recently established Integrative Cancer Biology Programs, i.e. the Center for the Development of a Virtual Tumor, CViT, which is charged with building a cancer modeling community, developing the aforementioned enabling technologies and fostering multi-scale cancer modeling and simulation.</p>

National Library of Medicine (brackets, no "et al."): Deisboeck TS, Zhang L, Martin S. Advancing cancer systems biology: introducing the Center for the Development of a Virtual Tumor, CViT. Cancer Inform. 2007;5:1-8.
National Library of Medicine (grant proposals with PMCID/PMID): Deisboeck TS, Zhang L, Martin S. Advancing cancer systems biology: introducing the Center for the Development of a Virtual Tumor, CViT. Cancer Inform. 2007;5:1-8.
National Library of Medicine (NLM) - Grant with PMID: Deisboeck TS, Zhang L, Martin S. Advancing cancer systems biology: introducing the Center for the Development of a Virtual Tumor, CViT. Cancer Inform. 2007;5:1-8.
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