Mercurial > repos > timpalpant > java_genomics_toolkit
comparison galaxy-conf/GreedyCaller.xml @ 12:81d5b81fb3c2 draft
Added help for all tools in the toolkit. Many bug fixes and a few new nucleosome tools.
| author | timpalpant |
|---|---|
| date | Wed, 25 Apr 2012 16:53:48 -0400 |
| parents | b1952a90d4bf |
| children | 3e477c7e0e73 |
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| 11:b1952a90d4bf | 12:81d5b81fb3c2 |
|---|---|
| 9 <outputs> | 9 <outputs> |
| 10 <data name="output" format="tabular" /> | 10 <data name="output" format="tabular" /> |
| 11 </outputs> | 11 </outputs> |
| 12 | 12 |
| 13 <help> | 13 <help> |
| 14 | |
| 15 Stereotypic nucleosome positions are identified from dyad density maps using an approach similar to the previously reported greedy algorithm in GeneTrack_ (Albert, et al. 2008). Nucleosome calls are identified at peak maxima (p) in the smoothed dyad density map, and then excluded in the surrounding window [p–N, p+N], where N is the assumed nucleosome size in base pairs. This process is continued until all possible sterically hindered nucleosome positions are identified. | |
| 16 | |
| 17 .. _GeneTrack: http://atlas.bx.psu.edu/genetrack/docs/genetrack.html | |
| 18 | |
| 14 .. class:: warningmark | 19 .. class:: warningmark |
| 15 | 20 |
| 16 This tool requires dyad counts and smoothed dyad counts. | 21 This tool requires dyad counts and smoothed dyad counts in Wig or BigWig format. Smoothed dyad counts can be generated from dyad counts using the WigMath -> Gaussian smooth tool. |
| 22 | |
| 23 ----- | |
| 24 | |
| 25 **Syntax** | |
| 26 | |
| 27 - **Dyad counts** is the relative number of nucleosomes positioned at each base pair. | |
| 28 - **Smoothed dyad counts** should correspond to a smoothed version of the **Dyad counts** | |
| 29 - **Assumed nucleosome size** is the window size used while identifying maxima to restrict overlapping calls. | |
| 30 | |
| 31 ----- | |
| 32 | |
| 33 **Output** | |
| 34 | |
| 35 The output format has 10 columns defined as follows | |
| 36 | |
| 37 - 1. **Chromosome:** the chromosome of this nucleosome call | |
| 38 - 2. **Start:** the lower coordinate of the call window, equal to the dyad position - N/2 | |
| 39 - 3. **Stop:** the higher coordinate of the call window, equal to the dyad position + N/2 | |
| 40 - 4. **Length:** the window size (N) of the nucleosome call, equal to the value specified when the tool was run | |
| 41 - 5. **Length standard deviation:** the standard deviation of the nucleosome call length (equal to 0 because it is not currently calculated) | |
| 42 - 6. **Dyad:** the location of the peak maximum (p) in the smoothed dyad density data | |
| 43 - 7. **Dyad standard deviation:** the standard deviation of dyad density around the dyad mean in the dyad counts data | |
| 44 - 8. **Conditional position:** the probability that a nucleosome is at this exact dyad location as opposed to anywhere else in the nucleosome call window [p-N/2, p+N/2] | |
| 45 - 9. **Dyad mean:** the mean of the dyad counts in the window [p-N/2, p+N/2] | |
| 46 - 10. **Occupancy:** the sum of the dyad counts in the window [p-N/2, p+N/2] | |
| 47 | |
| 17 </help> | 48 </help> |
| 18 </tool> | 49 </tool> |