Difference between revisions of "CSB Gene lists"
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Latest revision as of 20:00, 3 March 2016
Gene Lists
This page was used in a previous iteration of a course. The material on this page is correct, but may be incomplete and is almost certainly a bit out of date.
Even though there are many different types of -omics data, many high-throughput or cross-sectional studies in molecular- and systems biology have as their result a list of genes or proteins. Whether these are significantly differentially expressed genes in a microarray study, chromosomal loci in a ChIP-Chip experiment, functionally related genes in a synthetic lethality screen, or co-purified proteins in a tandem-affinity MS experiment, the "list of genes" is a common denominator of all these approaches. Accordingly, similar or identical principles can be applied to their interpretation.
Introductory reading
| Kim (2012) Chapter 8: Biological knowledge assembly and interpretation. PLoS Comput Biol 8:e1002858. (pmid: 23300429) |
Further reading and resources
| Durinck et al. (2009) Mapping identifiers for the integration of genomic datasets with the R/Bioconductor package biomaRt. Nat Protoc 4:1184-91. (pmid: 19617889) |
| Boulesteix & Slawski (2009) Stability and aggregation of ranked gene lists. Brief Bioinformatics 10:556-68. (pmid: 19679825) |
| Feng et al. (2012) Using the bioconductor GeneAnswers package to interpret gene lists. Methods Mol Biol 802:101-12. (pmid: 22130876) |
| Warde-Farley et al. (2010) The GeneMANIA prediction server: biological network integration for gene prioritization and predicting gene function. Nucleic Acids Res 38:W214-20. (pmid: 20576703) |
