Difference between revisions of "Construct composite modules on tracks (analysis)"
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==== Description ==== | ==== Description ==== | ||
− | + | Predicts composite module using the result of the "[[Site search on track (analysis)|Site search on track]]" analysis. Composite modules - combinations of binding sites common for promoters of functionally related genes and responsible for the major component of the gene expression pattern of these genes. For more information see <nowiki>[</nowiki>1<nowiki>]</nowiki>. | |
==== Parameters: ==== | ==== Parameters: ==== | ||
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*** '''Pairs mode''' – Whether the sites of at least two different site models satisfying the cut-off condition must be present on the sequence | *** '''Pairs mode''' – Whether the sites of at least two different site models satisfying the cut-off condition must be present on the sequence | ||
* '''Output path''' – Path to store result | * '''Output path''' – Path to store result | ||
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+ | '''References:''' | ||
+ | |||
+ | # Alexander Kel, Tatiana Konovalova, Tagir Valeev, Evgeny Cheremushkin, Olga Kel-Margoulis, Edgar Wingender. ''Composite Module Analyst: a fitness-based tool for identification of transcription factor binding site combinations.'' Bioinformatics. 2006 May 15; 22(10):1190-7. Epub 2006 Feb 10. doi: [https://dx.doi.org/10.1093/bioinformatics/btl041 10.1093/bioinformatics/btl041] | ||
[[Category:Analyses]] | [[Category:Analyses]] |
Revision as of 18:59, 13 February 2017
- Analysis title
- Construct composite modules on tracks
- Provider
- geneXplain GmbH
- Class
CMAOnTrackAnalysis
- Plugin
- biouml.plugins.cma (Composite module analyst)
Description
Predicts composite module using the result of the "Site search on track" analysis. Composite modules - combinations of binding sites common for promoters of functionally related genes and responsible for the major component of the gene expression pattern of these genes. For more information see [1].
Parameters:
- Experiment track – Path to experiment ('yes') track
- Control track – Path to control ('no') track
- Genetic algorithm parameters (expert) – Genetic algorithm parameters
- Number of iterations – Number of iterations
- Population size – Population size
- Non-change limit – Number of iterations to stop after if best score is not improved
- Elite size – Number of elite organisms (i.e. best organisms to survive unconditionally)
- Mutation rate – This controls how often mutation occurs and how significant they are (0..1)
- Score calculation parameters (expert) – Parameters which control score calculation
- Penalty rate – Which penalty value will be assigned
- Site models in focus – At least one of these models must present in the resulting composite model to have non-zero score
- All modules contain site model in focus – If checked, then each module must contain at least one site model from the focus
- Focused sequences percent – Minimal percent of sequences in yes-set which actually contains sites of site models in focus
- Model parameters – Model parameters
- Min modules – Minimal number of modules
- Max modules – Maximal number of modules
- Gaussian model (expert) – Gaussian model
- Min models – Minimal number of site models in module
- Max models – Maximal number of site models in module
- Min sites to account – Minimal number of sites to account
- Max sites to account – Maximal number of sites to account
- Min module width – Minimal width (sigma) of the module
- Max module width – Maximal width (sigma) of the module
- Pairs mode – Whether the sites of at least two different site models satisfying the cut-off condition must be present on the sequence
- Output path – Path to store result
References:
- Alexander Kel, Tatiana Konovalova, Tagir Valeev, Evgeny Cheremushkin, Olga Kel-Margoulis, Edgar Wingender. Composite Module Analyst: a fitness-based tool for identification of transcription factor binding site combinations. Bioinformatics. 2006 May 15; 22(10):1190-7. Epub 2006 Feb 10. doi: 10.1093/bioinformatics/btl041