Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing

Janowski SJ, Kormeier B, Töpel T, Hippe K, Hofestädt R, Willassen N, Friesen R, Rubert S, Borck D, Haugen P, Chen M (2010)
In Silico Biology 10(Special Issue: Petri Net Applications in Molecular Biology).

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Abstract
The understanding of the molecular mechanism of cell-to-cell communication is fundamental for system biology. Up to now, the main objectives of bioinformatics have been reconstruction, modeling and analysis of metabolic, regulatory and signaling processes, based on data generated from high-throughput technologies. Cell-to-cell communication or quorum sensing (QS), the use of small molecule signals to coordinate complex patterns of behavior in bacteria, has been the focus of many reports over the past decade. Based on the quorum sensing process of the organism Aliivibrio salmonicida, we aim at developing a functional Petri net, which will allow modeling and simulating cell-to-cell communication processes. Using a new editor-controlled information system called VANESA (http://vanesa.sf.net), we present how to combine different fields of studies such as life-science, database consulting, modeling, visualization and simulation for a semi-automatic reconstruction of the complex signaling quorum sensing network. We show how cell-to-cell communication processes and information-flow within a cell and across cell colonies can be modeled using VANESA and how those models can be simulated with Petri net network structures in a sophisticated way.
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Janowski SJ, Kormeier B, Töpel T, et al. Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing. In Silico Biology. 2010;10(Special Issue: Petri Net Applications in Molecular Biology).
Janowski, S. J., Kormeier, B., Töpel, T., Hippe, K., Hofestädt, R., Willassen, N., Friesen, R., et al. (2010). Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing. In Silico Biology, 10(Special Issue: Petri Net Applications in Molecular Biology).
Janowski, S. J., Kormeier, B., Töpel, T., Hippe, K., Hofestädt, R., Willassen, N., Friesen, R., Rubert, S., Borck, D., Haugen, P., et al. (2010). Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing. In Silico Biology 10.
Janowski, S.J., et al., 2010. Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing. In Silico Biology, 10(Special Issue: Petri Net Applications in Molecular Biology).
S.J. Janowski, et al., “Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing”, In Silico Biology, vol. 10, 2010.
Janowski, S.J., Kormeier, B., Töpel, T., Hippe, K., Hofestädt, R., Willassen, N., Friesen, R., Rubert, S., Borck, D., Haugen, P., Chen, M.: Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing. In Silico Biology. 10, (2010).
Janowski, Sebastian Jan, Kormeier, Benjamin, Töpel, Thoralf, Hippe, Klaus, Hofestädt, Ralf, Willassen, Nils, Friesen, Rafael, Rubert, Sebastian, Borck, Daniela, Haugen, Peik, and Chen, Ming. “Modeling of cell-cell communication processes with Petri nets using the example of quorum sensing”. In Silico Biology 10.Special Issue: Petri Net Applications in Molecular Biology (2010).
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