Protein networking: insights into global functional organization of proteomes

The formulation of network models from global protein studies is essential to understand the functioning of organisms. Network models of the proteome enable the application of Complex Network Analysis, a quantitative framework to investigate large complex networks using techniques from graph theory,...

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Veröffentlicht in:	Proteomics (Weinheim) 2008-02, Vol.8 (4), p.799-816
Hauptverfasser:	Pieroni, Enrico, de la Fuente van Bentem, Sergio, Mancosu, Gianmaria, Capobianco, Enrico, Hirt, Heribert, de la Fuente, Alberto
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical, structural and metabolic biochemistry Biological and medical sciences Complex networks Databases, Protein Fundamental and applied biological sciences. Psychology Interactomics Miscellaneous Models, Biological Models, Theoretical Multiprotein Complexes - physiology Network biology Phosphoproteins - physiology Protein Interaction Mapping Protein networks Proteins Proteins - physiology Proteomics Signal Transduction Systems biology Systems Biology - methods Two-Hybrid System Techniques
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container_title	Proteomics (Weinheim)
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creator	Pieroni, Enrico de la Fuente van Bentem, Sergio Mancosu, Gianmaria Capobianco, Enrico Hirt, Heribert de la Fuente, Alberto
description	The formulation of network models from global protein studies is essential to understand the functioning of organisms. Network models of the proteome enable the application of Complex Network Analysis, a quantitative framework to investigate large complex networks using techniques from graph theory, statistical physics, dynamical systems and other fields. This approach has provided many insights into the functional organization of the proteome so far and will likely continue to do so. Currently, several network concepts have emerged in the field of proteomics. It is important to highlight the differences between these concepts, since different representations allow different insights into functional organization. One such concept is the protein interaction network, which contains proteins as nodes and undirected edges representing the occurrence of binding in large-scale protein-protein interaction studies. A second concept is the protein-signaling network, in which the nodes correspond to levels of post-translationally modified forms of proteins and directed edges to causal effects through post-translational modification, such as phosphorylation. Several other network concepts were introduced for proteomics. Although all formulated as networks, the concepts represent widely different physical systems. Therefore caution should be taken when applying relevant topological analysis. We review recent literature formulating and analyzing such networks.
doi_str_mv	10.1002/pmic.200700767
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A second concept is the protein-signaling network, in which the nodes correspond to levels of post-translationally modified forms of proteins and directed edges to causal effects through post-translational modification, such as phosphorylation. Several other network concepts were introduced for proteomics. Although all formulated as networks, the concepts represent widely different physical systems. Therefore caution should be taken when applying relevant topological analysis. We review recent literature formulating and analyzing such networks.</description><identifier>ISSN: 1615-9853</identifier><identifier>EISSN: 1615-9861</identifier><identifier>DOI: 10.1002/pmic.200700767</identifier><identifier>PMID: 18297653</identifier><language>eng</language><publisher>Weinheim: Wiley-VCH Verlag</publisher><subject>Analytical, structural and metabolic biochemistry ; Biological and medical sciences ; Complex networks ; Databases, Protein ; Fundamental and applied biological sciences. 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Network models of the proteome enable the application of Complex Network Analysis, a quantitative framework to investigate large complex networks using techniques from graph theory, statistical physics, dynamical systems and other fields. This approach has provided many insights into the functional organization of the proteome so far and will likely continue to do so. Currently, several network concepts have emerged in the field of proteomics. It is important to highlight the differences between these concepts, since different representations allow different insights into functional organization. One such concept is the protein interaction network, which contains proteins as nodes and undirected edges representing the occurrence of binding in large-scale protein-protein interaction studies. A second concept is the protein-signaling network, in which the nodes correspond to levels of post-translationally modified forms of proteins and directed edges to causal effects through post-translational modification, such as phosphorylation. Several other network concepts were introduced for proteomics. Although all formulated as networks, the concepts represent widely different physical systems. Therefore caution should be taken when applying relevant topological analysis. We review recent literature formulating and analyzing such networks.</description><subject>Analytical, structural and metabolic biochemistry</subject><subject>Biological and medical sciences</subject><subject>Complex networks</subject><subject>Databases, Protein</subject><subject>Fundamental and applied biological sciences. 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subjects	Analytical, structural and metabolic biochemistry Biological and medical sciences Complex networks Databases, Protein Fundamental and applied biological sciences. Psychology Interactomics Miscellaneous Models, Biological Models, Theoretical Multiprotein Complexes - physiology Network biology Phosphoproteins - physiology Protein Interaction Mapping Protein networks Proteins Proteins - physiology Proteomics Signal Transduction Systems biology Systems Biology - methods Two-Hybrid System Techniques
title	Protein networking: insights into global functional organization of proteomes
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