# HG changeset patch
# User peterjc
# Date 1382710846 14400
# Node ID 4726b640f221da805c51d0ed9e190d4268beeb8e
# Parent 3c280e01b9202ffc59c40ecd5429641affe4e162
Uploaded revision to update the citation
diff -r 3c280e01b920 -r 4726b640f221 Phyca11_example_output.png
Binary file Phyca11_example_output.png has changed
diff -r 3c280e01b920 -r 4726b640f221 README.rst
--- a/README.rst Wed Aug 21 13:01:51 2013 -0400
+++ b/README.rst Fri Oct 25 10:20:46 2013 -0400
@@ -5,57 +5,6 @@
See http://www.galaxyproject.org for information about the Galaxy Project.
-Sample Data
-===========
-
-This workflow was developed and run on several Phytophthora species.
-For example, try the "Phyca11" protein set for Phytophthora capsici:
-
-http://genome.jgi-psf.org/Phyca11/download/Phyca11_filtered_proteins.fasta.gz
-
-You can upload this directly into Galaxy via this URL. Galaxy will handle
-removing the gzip compression to give you the FASTA protein file which
-has 19,805 protein sequences. The expected results:
-
-* 89 RXLRs using Whisson et al. (2007)
-* 124 RXLRs using Win et al. (2007)
-* 162 RXLRs using Bhattacharjee et al. (2006)
-
-Of these, only 79 sequences pass all three of the RXLR prediction tools,
-while 19643 have no RXLR matches at all.
-
-.. image:: https://raw.github.com/peterjc/picobio/master/galaxy_workflows/rxlr_venn_workflow/Phyca11_example_output.png
- :height: 400px
- :width: 400px
-
-
-Citation
-========
-
-If you use this workflow directly, or a derivative of it, in work leading
-to a scientific publication, please cite:
-
-Cock, P.J.A. and Pritchard, L. 2013. Galaxy as a platform for identifying
-candidate pathogen effectors. Chapter 1 in "Plant-Pathogen Interactions:
-Methods and Protocols (Second Edition)"; Methods in Molecular Biology.
-Humana Press, Springer. In press.
-
-Whisson, S.C., Boevink, C.V., Moleleki, L., et al. (2007)
-A translocation signal for delivery of oomycete effector proteins into
-host plant cells. Nature 450:115-118.
-http://dx.doi.org/10.1038/nature06203
-
-Win, J., Morgan, W., Bos, J., et al. (2007)
-Adaptive evolution has targeted the C-terminal domain of the RXLR effectors
-of plant pathogenic oomycetes. The Plant Cell 19:2349-2369.
-http://dx.doi.org/10.1105/tpc.107.051037
-
-Bhattacharjee, S., Luisa Hiller, N., Liolios, K., et al. (2006)
-The malarial host-targeting signal is conserved in the Irish potato famine
-pathogen. PLoS Pathogens 2(5):e50.
-http://dx.doi.org/10.1371/journal.ppat.0020050
-
-
Availability
============
@@ -70,7 +19,68 @@
Development is being done on github here:
-https://github.com/peterjc/picobio/tree/master/galaxy_workflows/rxlr_venn_workflow
+https://github.com/peterjc/pico_galaxy/tree/master/workflows/rxlr_venn_workflow
+
+
+Sample Data
+===========
+
+This workflow was developed and run on several *Phytophthora* species.
+For example, try the "Phyca11" protein set for *Phytophthora capsici*:
+
+http://genome.jgi-psf.org/Phyca11/download/Phyca11_filtered_proteins.fasta.gz
+
+You can upload this directly into Galaxy via this URL. Galaxy will handle
+removing the gzip compression to give you the FASTA protein file which
+has 19,805 protein sequences. The expected results:
+
+* 89 RXLRs using Whisson et al. (2007)
+* 124 RXLRs using Win et al. (2007)
+* 162 RXLRs using Bhattacharjee et al. (2006)
+
+Of these, only 79 sequences pass all three of the RXLR prediction tools,
+while 19643 have no RXLR matches at all.
+
+.. image:: Phyca11_example_output.png
+ :height: 400px
+ :width: 400px
+
+
+Citation
+========
+
+If you use this workflow directly, or a derivative of it, in work leading
+to a scientific publication, please cite:
+
+Cock, P.J.A. and Pritchard, L. (2014). Galaxy as a platform for identifying
+candidate pathogen effectors. Chapter 1 in "Plant-Pathogen Interactions:
+Methods and Protocols (Second Edition)"; P. Birch, J. Jones, and J.I. Bos, eds.
+Methods in Molecular Biology. Humana Press, Springer. ISBN 978-1-62703-985-7.
+http://www.springer.com/life+sciences/plant+sciences/book/978-1-62703-985-7
+
+For the associated RXLR Galaxy tool, please cite:
+
+Peter J.A. Cock, Björn A. Grüning, Konrad Paszkiewicz and Leighton Pritchard (2013).
+Galaxy tools and workflows for sequence analysis with applications
+in molecular plant pathology. PeerJ 1:e167
+http://dx.doi.org/10.7717/peerj.167
+
+For the three underlying methods, please cite:
+
+Whisson, S.C., Boevink, C.V., Moleleki, L., et al. (2007)
+A translocation signal for delivery of oomycete effector proteins into
+host plant cells. Nature 450:115-118.
+http://dx.doi.org/10.1038/nature06203
+
+Win, J., Morgan, W., Bos, J., et al. (2007)
+Adaptive evolution has targeted the C-terminal domain of the RXLR effectors
+of plant pathogenic oomycetes. The Plant Cell 19:2349-2369.
+http://dx.doi.org/10.1105/tpc.107.051037
+
+Bhattacharjee, S., Luisa Hiller, N., Liolios, K., et al. (2006)
+The malarial host-targeting signal is conserved in the Irish potato famine
+pathogen. PLoS Pathogens 2(5):e50.
+http://dx.doi.org/10.1371/journal.ppat.0020050
Dependencies
@@ -99,6 +109,7 @@
tool to avoid warning about new ``header_lines`` parameter.
- Added link to Tool Shed in the workflow annotation explaining there
is a README file with sample data, and a requested citation.
+ - Bundle sample output image for display in this README file.
======= ======================================================================
@@ -107,11 +118,11 @@
This workflow is under source code control here:
-https://github.com/peterjc/picobio/tree/master/galaxy_workflows/rxlr_venn_workflow
+https://github.com/peterjc/pico_galaxy/tree/master/workflows/rxlr_venn_workflow
To prepare the tar-ball for uploading to the Tool Shed, I use this:
- $ tar -cf rxlr_venn_workflow.tar.gz README.rst repository_dependencies.xml rxlr_venn_workflow.ga
+ $ tar -cf rxlr_venn_workflow.tar.gz README.rst repository_dependencies.xml rxlr_venn_workflow.ga Phyca11_example_output.png
Check this,
@@ -119,3 +130,4 @@
README.rst
repository_dependencies.xml
rxlr_venn_workflow.ga
+ Phyca11_example_output.png
diff -r 3c280e01b920 -r 4726b640f221 repository_dependencies.xml
--- a/repository_dependencies.xml Wed Aug 21 13:01:51 2013 -0400
+++ b/repository_dependencies.xml Fri Oct 25 10:20:46 2013 -0400
@@ -1,9 +1,9 @@
-
+
-
+
-
+
diff -r 3c280e01b920 -r 4726b640f221 rxlr_venn_workflow.ga
--- a/rxlr_venn_workflow.ga Wed Aug 21 13:01:51 2013 -0400
+++ b/rxlr_venn_workflow.ga Fri Oct 25 10:20:46 2013 -0400
@@ -1,6 +1,6 @@
{
"a_galaxy_workflow": "true",
- "annotation": "Takes a protein FASTA file, runs three different RXLR motif methods, draws a Venn diagram comparing them, and creates a FASTA file of those proteins passing all three screens.
\n
\nThis workflow is available on the Galaxy Tool Shed with a README file giving more information including sample data, and full citation details (Cock and Pritchard 2013).",
+ "annotation": "Takes a protein FASTA file, runs three different RXLR motif methods, draws a Venn diagram comparing them, and creates a FASTA file of those proteins passing all three screens.
\n
\nThis workflow is available on the Galaxy Tool Shed with a README file giving more information including sample data, and full citation details (Cock and Pritchard 2014).",
"format-version": "0.1",
"name": "3 RXLR methods, Venn Diagram, overlap FASTA",
"steps": {