Difference between revisions of "Pathways and Networks"
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| − | + | One of the enduring contributions of 20th century biochemistry was the realization that the chemistry of life is not laid out in single-step reactions, but in organized, multi-step transformations across numerous intermediates: the concept of the biochemical '''pathway'''. The concept was productively applied to other multi-step biological phenomena: signalling pathways and developmental pathways are just two. However, the sobering reality is that interactions in biology are not laid out so neatly. Rather we encounter multiple cross links between pathway components, which give rise to interconnected '''networks''' of components. The topic of biological networks is very large. On this age, we focus primarily on the '''principles''' of biological pathways and networks, on '''clustering''', to discover significant associations, on the '''topology''' of networks, in particular whether biological networks are "''scale-free''", and the discovery of '''network motifs'''. | |
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==Introductory reading== | ==Introductory reading== | ||
<section begin=reading /> | <section begin=reading /> | ||
| + | {{#pmid:11891116}} <!-- intro. reading --> | ||
| + | {{#pmid:22144146}} <!-- intro. reading --> | ||
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==Contents== | ==Contents== | ||
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| + | ===Principles=== | ||
| + | {{#pmid:17571924}} | ||
| + | {{#pmid:19348631}} | ||
| + | {{#pmid:19597784}} | ||
| + | {{#pmid:19616593}} | ||
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| + | {{#pmid:21863489}} | ||
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| + | ===Topology=== | ||
| + | {{#pmid:16254242}} <!-- intro. reading --> | ||
| + | {{#pmid:20023717}} <!-- intro. reading --> | ||
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| + | {{#pmid:12636753}} | ||
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| + | {{#pmid:22164269}} | ||
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| + | ===Clustering=== | ||
| + | ;Overview | ||
| + | {{#pmid:17087821}} <!-- intro. reading --> | ||
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| + | ;The map equation | ||
| + | {{#pmid:18216267}} | ||
| + | {{#pmid:21494658}} | ||
| + | <div class="reference-box">[http://mapequation.org The '''Map equation''' site] contains a very nice [http://www.mapequation.org/mapdemo/index.html Flash applet to demonstrate the algorithm] as well as tools to analyze networks.</div> | ||
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| + | ; From network clusters to protein complexes | ||
| + | {{#pmid:12525261}} | ||
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| + | ===Motifs=== | ||
| + | {{#pmid:17510665}} <!-- intro. reading --> | ||
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| + | {{#pmid:11967538}} | ||
| + | {{#pmid:12399590}} | ||
| + | {{#pmid:15326338}} | ||
| + | {{#pmid:15079056}} | ||
| + | {{#pmid:20946989}} | ||
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==Exercises== | ==Exercises== | ||
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==Further reading and resources== | ==Further reading and resources== | ||
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Revision as of 16:50, 29 January 2012
Pathways and Networks
This page is a placeholder, or under current development; it is here principally to establish the logical framework of the site. The material on this page is correct, but incomplete.
One of the enduring contributions of 20th century biochemistry was the realization that the chemistry of life is not laid out in single-step reactions, but in organized, multi-step transformations across numerous intermediates: the concept of the biochemical pathway. The concept was productively applied to other multi-step biological phenomena: signalling pathways and developmental pathways are just two. However, the sobering reality is that interactions in biology are not laid out so neatly. Rather we encounter multiple cross links between pathway components, which give rise to interconnected networks of components. The topic of biological networks is very large. On this age, we focus primarily on the principles of biological pathways and networks, on clustering, to discover significant associations, on the topology of networks, in particular whether biological networks are "scale-free", and the discovery of network motifs.
Contents
Introductory reading
| Zhu & Snyder (2002) "Omic" approaches for unraveling signaling networks. Curr Opin Cell Biol 14:173-9. (pmid: 11891116) |
| Bouveret & Brun (2012) Bacterial interactomes: from interactions to networks. Methods Mol Biol 804:15-33. (pmid: 22144146) |
Contents
Principles
| Liu et al. (2007) Network-based analysis of affected biological processes in type 2 diabetes models. PLoS Genet 3:e96. (pmid: 17571924) |
| Lipshtat et al. (2009) Specification of spatial relationships in directed graphs of cell signaling networks. Ann N Y Acad Sci 1158:44-56. (pmid: 19348631) |
| Chang (2009) Prioritizing genes for pathway impact using network analysis. Methods Mol Biol 563:141-56. (pmid: 19597784) |
| Alberghina et al. (2009) Molecular networks and system-level properties. J Biotechnol 144:224-33. (pmid: 19616593) |
| Sneppen et al. (2010) Simplified models of biological networks. Annu Rev Biophys 39:43-59. (pmid: 20192769) |
| Sardiu & Washburn (2011) Building protein-protein interaction networks with proteomics and informatics tools. J Biol Chem 286:23645-51. (pmid: 21566121) |
| Charloteaux et al. (2011) Protein-protein interactions and networks: forward and reverse edgetics. Methods Mol Biol 759:197-213. (pmid: 21863489) |
Topology
| Albert (2005) Scale-free networks in cell biology. J Cell Sci 118:4947-57. (pmid: 16254242) |
| Lima-Mendez & van Helden (2009) The powerful law of the power law and other myths in network biology. Mol Biosyst 5:1482-93. (pmid: 20023717) |
| Ravasz & Barabási (2003) Hierarchical organization in complex networks. Phys Rev E Stat Nonlin Soft Matter Phys 67:026112. (pmid: 12636753) |
| Milo et al. (2004) Superfamilies of evolved and designed networks. Science 303:1538-42. (pmid: 15001784) |
| Batada et al. (2006) Evolutionary and physiological importance of hub proteins. PLoS Comput Biol 2:e88. (pmid: 16839197) |
| Wang & Zhang (2007) In search of the biological significance of modular structures in protein networks. PLoS Comput Biol 3:e107. (pmid: 17542644) |
| Hao & Li (2011) The dichotomy in degree correlation of biological networks. PLoS ONE 6:e28322. (pmid: 22164269) |
Clustering
- Overview
| Brohée & van Helden (2006) Evaluation of clustering algorithms for protein-protein interaction networks. BMC Bioinformatics 7:488. (pmid: 17087821) |
- The map equation
| Rosvall & Bergstrom (2008) Maps of random walks on complex networks reveal community structure. Proc Natl Acad Sci U.S.A 105:1118-23. (pmid: 18216267) |
| Rosvall & Bergstrom (2011) Multilevel compression of random walks on networks reveals hierarchical organization in large integrated systems. PLoS ONE 6:e18209. (pmid: 21494658) |
The Map equation site contains a very nice Flash applet to demonstrate the algorithm as well as tools to analyze networks.
- From network clusters to protein complexes
| Bader & Hogue (2003) An automated method for finding molecular complexes in large protein interaction networks. BMC Bioinformatics 4:2. (pmid: 12525261) |
Motifs
| Alon (2007) Network motifs: theory and experimental approaches. Nat Rev Genet 8:450-61. (pmid: 17510665) |
| Shen-Orr et al. (2002) Network motifs in the transcriptional regulation network of Escherichia coli. Nat Genet 31:64-8. (pmid: 11967538) |
| Milo et al. (2002) Network motifs: simple building blocks of complex networks. Science 298:824-7. (pmid: 12399590) |
| Artzy-Randrup et al. (2004) Comment on "Network motifs: simple building blocks of complex networks" and "Superfamilies of evolved and designed networks". Science 305:1107; author reply 1107. (pmid: 15326338) |
| Yeger-Lotem et al. (2004) Network motifs in integrated cellular networks of transcription-regulation and protein-protein interaction. Proc Natl Acad Sci U.S.A 101:5934-9. (pmid: 15079056) |
| Shoval & Alon (2010) SnapShot: network motifs. Cell 143:326-e1. (pmid: 20946989) |
