The Computational Versatility of Proteomic Signaling Networks

Herbert   M.   Sauro

Abstract

Almost all proteomic signaling networks in prokaryotes and eukaryotes are based on the simple phosphorylation / dephosporylation cycle; from this simple unit it is possible to construct a huge variety of control and computational circuits, both analog and digital. With the characterization of many signaling networks, researchers are turning to address the question of how a particular physiological response can be understood in terms of the proteins that make up the network; this is one of the central questions in “Systems Biology”. In this article I wish to summarize the great versatility of the basic protein cycle as a means to construct complex functional behaviors including the central role that feedback plays in determining the properties of protein based networks.

Keywords: Proteomic Signaling, prokaryotes, eukaryotes

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Current Proteomics

Title: The Computational Versatility of Proteomic Signaling Networks

Volume: 1 Issue: 1

Author(s): Herbert M. Sauro

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Keywords: Proteomic Signaling, prokaryotes, eukaryotes

Abstract: Almost all proteomic signaling networks in prokaryotes and eukaryotes are based on the simple phosphorylation / dephosporylation cycle; from this simple unit it is possible to construct a huge variety of control and computational circuits, both analog and digital. With the characterization of many signaling networks, researchers are turning to address the question of how a particular physiological response can be understood in terms of the proteins that make up the network; this is one of the central questions in “Systems Biology”. In this article I wish to summarize the great versatility of the basic protein cycle as a means to construct complex functional behaviors including the central role that feedback plays in determining the properties of protein based networks.

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Sauro M. Herbert, The Computational Versatility of Proteomic Signaling Networks, Current Proteomics 2004; 1 (1) . https://dx.doi.org/10.2174/1570164043488315

DOI https://dx.doi.org/10.2174/1570164043488315	Print ISSN 1570-1646
Publisher Name Bentham Science Publisher	Online ISSN 1875-6247

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