Difference between revisions of "CSB Assignment Week 9"

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==Exercises==
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==Pre-reading==
 
==Pre-reading==

Revision as of 22:45, 19 March 2013

Assignments for Week 9


Note! This assignment is currently active. All significant changes will be announced on the mailing list.

 
 


Exercises for this week relate to this week's lecture.
Pre-reading for this week will prepare next week's lecture.
Exercises and pre-reading will be topics on next week's quiz.


Contents


Pre-reading

Vinayagam et al. (2013) Protein complex-based analysis framework for high-throughput data sets. Sci Signal 6:rs5. (pmid: 23443684)

PubMed ] [ DOI ] Analysis of high-throughput data increasingly relies on pathway annotation and functional information derived from Gene Ontology. This approach has limitations, in particular for the analysis of network dynamics over time or under different experimental conditions, in which modules within a network rather than complete pathways might respond and change. We report an analysis framework based on protein complexes, which are at the core of network reorganization. We generated a protein complex resource for human, Drosophila, and yeast from the literature and databases of protein-protein interaction networks, with each species having thousands of complexes. We developed COMPLEAT (http://www.flyrnai.org/compleat), a tool for data mining and visualization for complex-based analysis of high-throughput data sets, as well as analysis and integration of heterogeneous proteomics and gene expression data sets. With COMPLEAT, we identified dynamically regulated protein complexes among genome-wide RNA interference data sets that used the abundance of phosphorylated extracellular signal-regulated kinase in cells stimulated with either insulin or epidermal growth factor as the output. The analysis predicted that the Brahma complex participated in the insulin response.