Toward a systems level view of the ECM and related proteins: A framework for the systematic definition and analysis of biological systems
Identifieur interne : 001532 ( Istex/Curation ); précédent : 001531; suivant : 001533Toward a systems level view of the ECM and related proteins: A framework for the systematic definition and analysis of biological systems
Auteurs : Graham L. Cromar [Canada] ; Xuejian Xiong [Canada] ; Emilie Chautard [Canada] ; Sylvie Ricard-Blum [France] ; John Parkinson [Canada]Source :
- Proteins: Structure, Function, and Bioinformatics [ 0887-3585 ] ; 2012-06.
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Abstract
Advances in high throughput 'omic technologies are starting to provide unprecedented insights into how components of biological systems are organized and interact. Key to exploiting these datasets is the definition of the components that comprise the system of interest. Although a variety of knowledge bases exist that capture such information, a major challenge is determining how these resources may be best utilized. Here we present a systematic curation strategy to define a systems‐level view of the human extracellular matrix (ECM)—a three‐dimensional meshwork of proteins and polysaccharides that impart structure and mechanical stability to tissues. Employing our curation strategy we define a set of 357 proteins that represent core components of the ECM, together with an additional 524 genes that mediate related functional roles, and construct a map of their physical interactions. Topological properties help identify modules of functionally related proteins, including those involved in cell adhesion, bone formation and blood clotting. Because of its major role in cell adhesion, proliferation and morphogenesis, defects in the ECM have been implicated in cancer, atherosclerosis, asthma, fibrosis, and arthritis. We use MeSH annotations to identify modules enriched for specific disease terms that aid to strengthen existing as well as predict novel gene‐disease associations. Mapping expression and conservation data onto the network reveal modules evolved in parallel to convey tissue‐specific functionality on otherwise broadly expressed units. In addition to demonstrating an effective workflow for defining biological systems, this study crystallizes our current knowledge surrounding the organization of the ECM. Proteins 2012;. © 2012 Wiley Periodicals, Inc.
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DOI: 10.1002/prot.24036
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biology</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Advances in high throughput 'omic technologies are starting to provide unprecedented insights into how components of biological systems are organized and interact. Key to exploiting these datasets is the definition of the components that comprise the system of interest. Although a variety of knowledge bases exist that capture such information, a major challenge is determining how these resources may be best utilized. Here we present a systematic curation strategy to define a systems‐level view of the human extracellular matrix (ECM)—a three‐dimensional meshwork of proteins and polysaccharides that impart structure and mechanical stability to tissues. Employing our curation strategy we define a set of 357 proteins that represent core components of the ECM, together with an additional 524 genes that mediate related functional roles, and construct a map of their physical interactions. Topological properties help identify modules of functionally related proteins, including those involved in cell adhesion, bone formation and blood clotting. Because of its major role in cell adhesion, proliferation and morphogenesis, defects in the ECM have been implicated in cancer, atherosclerosis, asthma, fibrosis, and arthritis. We use MeSH annotations to identify modules enriched for specific disease terms that aid to strengthen existing as well as predict novel gene‐disease associations. Mapping expression and conservation data onto the network reveal modules evolved in parallel to convey tissue‐specific functionality on otherwise broadly expressed units. In addition to demonstrating an effective workflow for defining biological systems, this study crystallizes our current knowledge surrounding the organization of the ECM. Proteins 2012;. © 2012 Wiley Periodicals, Inc.</div></front></TEI></record>Pour manipuler ce document sous Unix (Dilib)
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