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Network-based approaches for extending the Wnt signalling pathway and identifying context-specific sub-networks

Network-based approaches for extending the Wnt signalling pathway and identifying context-specific sub-networks
Network-based approaches for extending the Wnt signalling pathway and identifying context-specific sub-networks
Wnt signalling is a critically important signalling pathway regulating embryogenesis and differentiation, and is broadly conserved amongst multicellular animals. In addition, dysregulation of Wnt signalling contributes to the pathogenesis of many human cancers, in particular colorectal cancer. Core members of the Wnt signalling pathway are quite well defined, although it has become apparent that a much broader network of interacting proteins regulates Wnt signalling activity. The goal of this paper is first to identify novel members of the Wnt regulatory network; and second, to identify sub-networks of the larger Wnt signalling network that are active in different biological contexts. We address these two questions using complementary computational approaches and show how these approaches may identify potentially novel Wnt signalling proteins as well as defining Wnt sub-networks active in different stages of colorectal cancer.
Wnt signalling network, eigenvector centrality, random walk, sub–networks, simulated annealing, signalling pathways, embryogenesis, differentiation, pathogenesis, colorectal cancer, protein interaction, Wnt regulatory network, Wnt signalling proteins
1756-0756
185-205
Saha, S.
9661ca07-a485-45ed-b5b7-4523271165f0
Roman, Theodore
9a9cb1c5-e14d-4cd0-8d77-76baf99feae8
Galante, Alex
e27f0696-114c-400e-9546-7e3613b7e1e5
Koyutürk, Mehmet
749aecc7-fa90-489e-85d4-7b512d5de6eb
Ewing, Robert M.
022c5b04-da20-4e55-8088-44d0dc9935ae
Saha, S.
9661ca07-a485-45ed-b5b7-4523271165f0
Roman, Theodore
9a9cb1c5-e14d-4cd0-8d77-76baf99feae8
Galante, Alex
e27f0696-114c-400e-9546-7e3613b7e1e5
Koyutürk, Mehmet
749aecc7-fa90-489e-85d4-7b512d5de6eb
Ewing, Robert M.
022c5b04-da20-4e55-8088-44d0dc9935ae

Saha, S., Roman, Theodore, Galante, Alex, Koyutürk, Mehmet and Ewing, Robert M. (2012) Network-based approaches for extending the Wnt signalling pathway and identifying context-specific sub-networks. International Journal of Computational Biology and Drug Design, 5 (3-4), 185-205. (doi:10.1504/IJCBDD.2012.049203). (PMID:23013649)

Record type: Article

Abstract

Wnt signalling is a critically important signalling pathway regulating embryogenesis and differentiation, and is broadly conserved amongst multicellular animals. In addition, dysregulation of Wnt signalling contributes to the pathogenesis of many human cancers, in particular colorectal cancer. Core members of the Wnt signalling pathway are quite well defined, although it has become apparent that a much broader network of interacting proteins regulates Wnt signalling activity. The goal of this paper is first to identify novel members of the Wnt regulatory network; and second, to identify sub-networks of the larger Wnt signalling network that are active in different biological contexts. We address these two questions using complementary computational approaches and show how these approaches may identify potentially novel Wnt signalling proteins as well as defining Wnt sub-networks active in different stages of colorectal cancer.

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More information

e-pub ahead of print date: 25 September 2012
Published date: 2012
Keywords: Wnt signalling network, eigenvector centrality, random walk, sub–networks, simulated annealing, signalling pathways, embryogenesis, differentiation, pathogenesis, colorectal cancer, protein interaction, Wnt regulatory network, Wnt signalling proteins
Organisations: Molecular and Cellular

Identifiers

Local EPrints ID: 355398
URI: http://eprints.soton.ac.uk/id/eprint/355398
DOI: doi:10.1504/IJCBDD.2012.049203
ISSN: 1756-0756
PURE UUID: 215a8dd0-9db4-4d23-a3c1-478506d36da4
ORCID for Robert M. Ewing: ORCID iD orcid.org/0000-0001-6510-4001

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Date deposited: 28 Aug 2013 13:34
Last modified: 15 Mar 2024 03:44

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Contributors

Author: S. Saha
Author: Theodore Roman
Author: Alex Galante
Author: Mehmet Koyutürk
Author: Robert M. Ewing ORCID iD

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