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== Overview ==
= Overview =
[http://bitbucket.org/galaxy/galaxy-central/wiki/Home Galaxy] is an easy-to-use, open-source, scalable framework for tool and data integration. Galaxy provides access to tools (mainly comparative genomics) through an interface (e.g., a web-based interface). The [http://bitbucket.org/galaxy/galaxy-central/wiki/ImplementationInfo Galaxy framework] is implemented in the Python programming language.
The UAB Galaxy platform for experimental biology and comparative genomics is designed to help you analyze multiple alignments, compare genomic annotations, profile metagenomic samples and more from your web browser. This platform is built on [http://main.g2.bx.psu.edu/ Galaxy], backed by the [http://docs.uabgrid.uab.edu/wiki/Cheaha Cheaha compute cluster], and powered by [http://uabgrid.uab.edu/ UABgrid].  


== End Users ==
The primary uses of UAB Galaxy are to provide a simple web interface for NGS (short read sequencing) analysis for genomic and transcriptomic datasets, using tools like BWA, Bowtie, Tophat and Cufflinks, as well as simple sequence manipulation via the EMBOSS toolkit.


A public instance of Galaxy maintained by Penn State University is at http://usegalaxy.org/
== Using Galaxy / [[UAB Galaxy Workshop Tutorial|Tutorials]] ==


== Developers ==
There are numerous [http://wiki.g2.bx.psu.edu/Learn/Screencasts general tutorials] online at the [http://main.g2.bx.psu.edu/ Penn State public Galaxy site] that are worth looking at.


To get started with installing your own Galaxy instance, the only required component is Python (2.4,2.5, and 2.6). Four simple steps will [http://bitbucket.org/galaxy/galaxy-central/wiki/GetGalaxy get you started with your own Galaxy instance]  
There are also several [[UAB Galaxy Workshop Tutorial|UAB tutorials on NGS Analysis with Galaxy]], created for [[2011_HPC_Boot_Camp|HPC Boot Camp 2011]] and a nice talk by Jeremy Goecks during [[2011|Research Computing Day 2011.]]
# clone the mercurial galaxy distribution <pre>hg clone http://www.bx.psu.edu/hg/galaxy galaxy_dist</pre> or [http://bitbucket.org/galaxy/galaxy-dist/get/tip.tar.gz get a source tarball]  
# execute setup.sh
# execute run.sh
# go to http://localhost:8080 


* Galaxy runs on a local webserver, [http://pythonpaste.org/script/ PasteScript] written in Python. PasteScript is based on Python's library module [http://docs.python.org/library/simplehttpserver.html simplehttpserver]and implemented with the help of python package, [http://www.owlfish.com/software/wsgiutils/index.html WSGIUtils]
== Support ==
UAB galaxy-users list-serv: [https://listserv.uab.edu/scgi-bin/wa?SUBED1=GALAXY-HELP&A=1 subscribe] [https://listserv.uab.edu/scgi-bin/wa?SUBED1=GALAXY-HELP&A=1 search].  


* For [http://bitbucket.org/galaxy/galaxy-central/wiki/Config/ProductionServer deployment to production environments], Galaxy documentation suggests using a proxy server like Apache/Nginx to serve up static content and for handling authnz. As mentioned in [http://bitbucket.org/galaxy/galaxy-central/wiki/Config/ApacheProxy Galaxy's ApacheProxy documentation], here's how to edit Apache's httpd.conf to proxy Galaxy on port 80
UAB galaxy-help list-serv: [mailto:galaxy-help@listserv.uab.edu] to contact admins of the UAB galaxy instance.
<pre>
<Proxy http://localhost:8080>
        Order deny,allow
        Allow from all
</Proxy>


RewriteEngine on
== Privacy ==
RewriteRule ^/galaxy$ /galaxy/ [R]
RewriteRule ^/galaxy/static/style/(.*) /Users/pnm/project/galaxy_dist/static/june_2007_style/blue/$1 [L]
RewriteRule ^/galaxy/static/scripts/(.*) /Users/pnm/project/galaxy_dist/static/scripts/packed/$1 [L]
RewriteRule ^/galaxy/static/(.*) /Users/pnm/project/galaxy_dist/static/$1 [L]
RewriteRule ^/galaxy/favicon.ico /Users/pnm/project/galaxy_dist/static/favicon.ico [L]
RewriteRule ^/galaxy/robots.txt /Users/pnm/project/galaxy_dist/static/robots.txt [L]
RewriteRule ^/galaxy(.*) http://localhost:8080$1 [P]


</pre>
Note that your data will be stored on the cluster filesystem, and while not accessible to ordinary users, it can be easily accessed by any of the galaxy or cluster administrators. It is not encrypted. Do not store sensitive information in this system.
* Change the path to where you have cloned/installed Galaxy
* http://localhost/galaxy should bring up Galaxy on port 80 now


Note: if you are using CentOS/RedHat as your platform, you may need to adjust or disable SELinux in order to allow Apache to access parts of the file system that are not part of the shipped default Directory directives of the Apache config.  You will see unexplained "permission denied" errors in the errors.log if you are bitten by this.
= Galaxy@UAB =
The UAB Galaxy instance can be accessed at https://galaxy.uabgrid.uab.edu using BlazerID credentials. No account on the cluster is needed.
However, the tools installed for galaxy (BWA, etc) can be accessed via the command line if you have an account on the cluster.


== Apache and Postgres Setup ==
== Loading Data ==  
See [[Galaxy_File_Uploads]].


In production mode it is recommended that something other than SQLlite and the python web server be used, preferably postgres and apache. When setting up apache to proxy requests to the python web server on CentOS it is critical that the default CentOS security policy be overridden to allow proxying as shown below.
== Available Tools ==
<pre>
Following is a partial list highlighting some of the important tools available. Additional tools can be installed upon request. To search for tools already integrated into the Galaxy system, see the [http://toolshed.g2.bx.psu.edu/ Galaxy ToolShed].
setsebool -P httpd_can_network_relay=1
</pre>


Additionally, redirects to the file system are blocked by selinux security policy. The current workaround for that is to running:
<pre>
setenforce 0
</pre>
A better solution will be to allow access to the required directories using chcon like this:
<pre>
chcon -R -t httpd_user_content_t galaxy_dist/
</pre>
This has been done and appears to work, allowing selinux to be turned back on.


Additionally, postgres ident privileges should be changed. One workaround is to set postgres to trust all local users as shown below in /var/lib/pgsql/data/pg_hba.conf
{| border="1"
<pre>
|+
local  all        all                              trust
! Software !! Version !! Information
</pre>
|-
! bwa
|  0.5.9-r26 || Align genomic short reads to a reference genome
|-
! bowtie
| 0.12.7 || Align genomic short reads to a reference genome
|-
! tophat
| 1.4.0 || Align transcriptome short reads to a reference genome
|-
! cufflinks, cuffdiff, cuffcompare
| 1.3.0 || Reconstruct and quantify transcript levels from tophat alignments.
|-
! samtools
| 0.1.12a || Alignment (SAM/BAM file) manipulations
|-
! velvet
| 1.1.03 || Denovo Assembly
|-
! [http://en.wikipedia.org/wiki/EMBOSS EMBOSS]
| 6.3.1  || European Molecular Biology Open Software Suite - sequence manipulation and format conversion
|-
|}


SMTP Configuration
== Installed Genome Indexes ==
In lib/galaxy/config.py and universe_wsgi.ini
<pre>
self.smtp_server = kwargs.get( 'smtp_server', "vera.dpo.uab.edu" )
and
#smtp_server = vera.dpo.uab.edu
</pre>


You can always use your own genome by uploading the .fasta into your history, but alignments against installed (pre-indexed) genomes run much more quickly. If you need an additional genome installed, please contact [mailto:galaxy-help@vo.uabgrid.uab.edu].
{| border="1"
|+
! dbkey !! Genome !! Accessions
|-
| hg19 || Human Feb. 2009 (GRCh37/hg19) (hg19)
|-
| hg18 || Human Mar. 2006 (NCBI36/hg18) (hg18)
|-
| hg17 || Human May 2004 (NCBI35/hg17) (hg17)
|-
| hg16 || Human July 2003 (NCBI34/hg16) (hg16)
|-
| mm10 || Mouse Dec. 2011 (GRCm38/mm10) (mm10)
|-
| mm9 || Mouse July 2007 (NCBI37/mm9) (mm9)
|-
| mm8 || Mouse Feb. 2006 (NCBI36/mm8) (mm8)
|-
| mm7 || Mouse Aug. 2005 (NCBI35/mm7) (mm7)
|-
| mm6
|-
| mm5
|-
|sacCer3 || S. cerevisiae Apr. 2011 (SacCer_Apr2011/sacCer3) (sacCer3)
|-
|sacCer2 || S. cerevisiae June 2008 (SGD/sacCer2) (sacCer2)
|-
|ce10 || C. elegans Oct. 2010 (WS220/ce10) (ce10)
|-
|rn5 || Rat Mar. 2012 (RGSC 5.0/rn5) (rn5)
|-
|rn4 || Rat Nov. 2004 (Baylor 3.4/rn4) (rn4)
|-
|danRer7 || Zebrafish Jul. 2010 (Zv9/danRer7) (danRer7)
|-
|eschColi_APEC_O1 || Escherichia coli APEC O1 || chr=5082025
|-
|eschColi_CFT073 || Escherichia coli CFT073 || chr=5231428
|-
|eschColi_EC4115 || Escherichia coli EC4115 || chr=5572075,plasmid_pO157=94644,plasmid_pEC4115=37452
|-
|eschColi_K12 || Escherichia coli K12 || chr=4639675
|-
|eschColi_EDL993 || Escherichia coli O157:H7 EDL933 || NC_007414=92077,NC_002655=5528445
|-
|eschColi_O157H7 || Escherichia coli O157:H7 EDL933 || NC_007414=92077,NC_002655=5528445
|-
|eschColi_TW14359 || Escherichia coli TW14359 || chr=5528136,plasmid_pO157=94601
|-
|}


== Shibboleth Installation ==
== Additional Genomes that can be quickly installed ==
The instructions for the base rpm install on the SP (your galaxy box) are here:
These are pre-indexed genomes we can easily download from Penn State's [http://wiki.galaxyproject.org/Admin/Data%20Integration Galaxy Data-Cache]


https://spaces.internet2.edu/display/SHIB2/NativeSPLinuxInstall
=== Organisms ===
* AaegL1
* Acropora_digitifera
* AgamP3
* Arabidopsis_thaliana_TAIR10
* Arabidopsis_thaliana_TAIR9
* Araly1
* Bombyx_mori_p50T_2.0
* CpipJ1
* Homo_sapiens_AK1
* Homo_sapiens_nuHg19_mtrCRS
* Hydra_JCVI
* IscaW1
* PhumU1
* Physcomitrella_patens_patens
* Ptrichocarpa_156
* Saccharomyces_cerevisiae_S288C_SGD2010
* Schizosaccharomyces_pombe_1.1
* Spur_v2.6
* Sscrofa9.58
* Tcacao_1.0
* Tcas_3.0
* Theobroma_cocoa
* Zea_mays_B73_RefGen_v2
* ailMel1
* anoCar1
* anoCar2
* anoGam1
* apiMel1
* apiMel2
* apiMel3
* apiMel4.5
* aplCal1
* bighorn_sheep
* borEut13
* bosTau2
* bosTau3
* bosTau4
* bosTau5
* bosTau6
* bosTau7
* bosTauMd3
* braFlo1
* caeJap1
* caePb1
* caePb2
* caeRem2
* caeRem3
* calJac1
* calJac3
* canFam1
* canFam2
* canFam3
* cavPor2
* cavPor3
* cb3
* ce10
* ce2
* ce3
* ce4
* ce5
* ce6
* ce7
* ce8
* ce9
* choHof1
* chrPic1
* ci2
* danRer2
* danRer3
* danRer4
* danRer5
* danRer6
* danRer7
* dasNov1
* dasNov2
* dipOrd1
* dm1
* dm2
* dm3
* dp3
* dp4
* droAna1
* droAna2
* droAna3
* droEre1
* droEre2
* droGri1
* droGri2
* droMoj1
* droMoj2
* droMoj3
* droPer1
* droSec1
* droSim1
* droVir1
* droVir2
* droVir3
* droWil1
* droYak1
* droYak2
* echTel1
* emf
* equCab1
* equCab2
* equCab2_chrM
* eriEur1
* felCat3
* felCat4
* fr1
* fr2
* fr3
* galGal2
* galGal3
* galGal4
* gasAcu1
* geoFor1
* gorGor1
* gorGor3
* hetGla1
* hetGla2
* hg16
* hg17
* hg18
* hg19
* hg_g1k_v37
* lMaj5
* lengths
* loxAfr3
* loxAfr4
* macEug1
* melGal1
* melUnd1
* micMur1
* mm10
* mm5
* mm6
* mm7
* mm8
* mm9
* monDom4
* monDom5
* myoLuc1
* myoLuc2
* nomLeu1
* nomLeu2
* ochPri2
* ornAna1
* oryCun1
* oryCun2
* oryLat1
* oryLat2
* oryza_sativa_japonica_nipponbare_IRGSP4.0
* otoGar1
* oviAri1
* pUC18
* panTro1
* panTro2
* panTro3
* papHam1
* petMar1
* phiX
* ponAbe2
* priPac1
* rheMac2
* rheMac3
* rn3
* rn4
* rn5
* sacCer1
* sacCer2
* sacCer3
* sarHar1
* sorAra1
* strPur2
* strPur3
* susScr2
* susScr3
* taeGut1
* tarSyr1
* tetNig1
* tetNig2
* triCas2
* tupBel1
* venter1
* xenTro1
* xenTro2
* xenTro3


When doing a yum install, it will install both 32 bit and 64 bit giving this error:
=== Microbes ===


<pre>Cannot load /usr/lib/shibboleth/mod_shib_22.so into server: /usr/lib/shibboleth/mod_shib_22.so: wrong ELF class: ELFCLASS32 </pre>
* Staphylococcus_aureus_aureus_USA300_FPR3757
* Xanthomonas_oryzae_PXO99A
* acidBact_ELLIN345
* acidCell_11B
* acidCryp_JF_5
* acidJS42
* acinSp_ADP1
* actiPleu_L20
* aerPer1
* aeroHydr_ATCC7966
* alcaBork_SK2
* alkaEhrl_MLHE_1
* anabVari_ATCC29413
* anaeDeha_2CP_C
* anapMarg_ST_MARIES
* aquiAeol
* archFulg1
* arthFB24
* azoaSp_EBN1
* azorCaul2
* baciAnth_AMES
* baciHalo
* baciSubt
* bactThet_VPI_5482
* bartHens_HOUSTON_1
* baumCica_HOMALODISCA
* bdelBact
* bifiLong
* blocFlor
* bordBron
* borrBurg
* bradJapo
* brucMeli
* buchSp
* burk383
* burkCeno_AU_1054
* burkCeno_HI2424
* burkCepa_AMMD
* burkMall_ATCC23344
* burkPseu_1106A
* burkThai_E264
* burkViet_G4
* burkXeno_LB400
* caldMaqu1
* caldSacc_DSM8903
* campFetu_82_40
* campJeju
* campJeju_81_176
* campJeju_RM1221
* candCars_RUDDII
* candPela_UBIQUE_HTCC1
* carbHydr_Z_2901
* caulCres
* chlaPneu_CWL029
* chlaTrac
* chloChlo_CAD3
* chloTepi_TLS
* chroSale_DSM3043
* chroViol
* clavMich_NCPPB_382
* colwPsyc_34H
* coryEffi_YS_314
* coxiBurn
* cytoHutc_ATCC33406
* dechArom_RCB
* dehaEthe_195
* deinGeot_DSM11300
* deinRadi
* desuHafn_Y51
* desuPsyc_LSV54
* desuRedu_MI_1
* desuVulg_HILDENBOROUG
* dichNodo_VCS1703A
* ehrlRumi_WELGEVONDEN
* ente638
* enteFaec_V583
* erwiCaro_ATROSEPTICA
* erytLito_HTCC2594
* eschColi_APEC_O1
* eschColi_CFT073
* eschColi_EC4115
* eschColi_EDL933
* eschColi_K12
* eschColi_MG1655
* eschColi_O157H7
* eschColi_TW14359
* flavJohn_UW101
* franCcI3
* franTula_TULARENSIS
* fusoNucl
* geobKaus_HTA426
* geobMeta_GS15
* geobSulf
* geobTher_NG80_2
* geobUran_RF4
* gloeViol
* glucOxyd_621H
* gramFors_KT0803
* granBeth_CGDNIH1
* haemInfl_KW20
* haemSomn_129PT
* haheChej_KCTC_2396
* halMar1
* haloHalo1
* haloHalo_SL1
* haloWals1
* heliAcin_SHEEBA
* heliHepa
* heliPylo_26695
* heliPylo_HPAG1
* heliPylo_J99
* hermArse
* hypeButy1
* hyphNept_ATCC15444
* idioLoih_L2TR
* jannCCS1
* lactLact
* lactPlan
* lactSali_UCC118
* lawsIntr_PHE_MN1_00
* legiPneu_PHILADELPHIA
* leifXyli_XYLI_CTCB0
* leptInte
* leucMese_ATCC8293
* listInno
* magnMC1
* magnMagn_AMB_1
* mannSucc_MBEL55E
* mariAqua_VT8
* mariMari_MCS10
* mculMari1
* mesoFlor_L1
* mesoLoti
* metAce1
* metMar1
* metaSedu
* methAeol1
* methBark1
* methBoon1
* methBurt2
* methCaps_BATH
* methFlag_KT
* methHung1
* methJann1
* methKand1
* methLabrZ_1
* methMari_C5_1
* methMari_C7
* methMaze1
* methPetr_PM1
* methSmit1
* methStad1
* methTher1
* methTherPT1
* methVann1
* moorTher_ATCC39073
* mycoGeni
* mycoTube_H37RV
* myxoXant_DK_1622
* nanEqu1
* natrPhar1
* neisGono_FA1090_1
* neisMeni_FAM18_1
* neisMeni_MC58_1
* neisMeni_Z2491_1
* neorSenn_MIYAYAMA
* nitrEuro
* nitrMult_ATCC25196
* nitrOcea_ATCC19707
* nitrWino_NB_255
* nocaFarc_IFM10152
* nocaJS61
* nostSp
* novoArom_DSM12444
* oceaIhey
* oenoOeni_PSU_1
* onioYell_PHYTOPLASMA
* orieTsut_BORYONG
* paraDeni_PD1222
* paraSp_UWE25
* pastMult
* pediPent_ATCC25745
* peloCarb
* peloLute_DSM273
* peloTher_SI
* photLumi
* photProf_SS9
* picrTorr1
* pireSp
* polaJS66
* polyQLWP
* porpGing_W83
* procMari_CCMP1375
* propAcne_KPA171202
* pseuAeru
* pseuHalo_TAC125
* psycArct_273_4
* psycIngr_37
* pyrAby1
* pyrAer1
* pyrFur2
* pyrHor1
* pyroArse1
* pyroCali1
* pyroIsla1
* ralsEutr_JMP134
* ralsSola
* rhizEtli_CFN_42
* rhodPalu_CGA009
* rhodRHA1
* rhodRubr_ATCC11170
* rhodSpha_2_4_1
* rickBell_RML369_C
* roseDeni_OCH_114
* rubrXyla_DSM9941
* saccDegr_2_40
* saccEryt_NRRL_2338
* saliRube_DSM13855
* saliTrop_CNB_440
* salmEnte_PARATYPI_ATC
* salmTyph
* salmTyph_TY2
* shewANA3
* shewAmaz
* shewBalt
* shewDeni
* shewFrig
* shewLoihPV4
* shewMR4
* shewMR7
* shewOnei
* shewPutrCN32
* shewW318
* shigFlex_2A
* siliPome_DSS_3
* sinoMeli
* sodaGlos_MORSITANS
* soliUsit_ELLIN6076
* sphiAlas_RB2256
* stapAure_MU50
* stapMari1
* streCoel
* strePyog_M1_GAS
* sulSol1
* sulfAcid1
* sulfToko1
* symbTher_IAM14863
* synePCC6
* syneSp_WH8102
* syntAcid_SB
* syntFuma_MPOB
* syntWolf_GOETTINGEN
* therAcid1
* therElon
* therFusc_YX
* therKoda1
* therMari
* therPend1
* therPetr_RKU_1
* therTeng
* therTher_HB27
* therTher_HB8
* therVolc1
* thioCrun_XCL_2
* thioDeni_ATCC25259
* thioDeni_ATCC33889
* trepPall
* tricEryt_IMS101
* tropWhip_TW08_27
* uncuMeth_RCI
* ureaUrea
* vermEise_EF01_2
* vibrChol1
* vibrChol_O395_1
* vibrFisc_ES114_1
* vibrPara1
* vibrVuln_CMCP6_1
* vibrVuln_YJ016_1
* wiggBrev
* wolbEndo_OF_DROSOPHIL
* woliSucc
* xantCamp
* xyleFast
* yersPest_CO92
* zymoMobi_ZM4


This can be fixed by doing:
<pre>
I have found that if you edit "/etc/httpd/conf.d/shib.conf" and alter the LoadModule line and change


"LoadModule mod_shib /usr/lib/shibboleth/mod_shib_22.so"
[[Category:Software]][[Category:Bioinformatics]][[Category:NGS]]
 
to
 
"LoadModule mod_shib /usr/lib64/shibboleth/mod_shib_22.so"
 
shibboleth sp will then start correctly.
</pre>
 
== Python ==
Galaxy makes some assumptions about python being > 2.4 as of February 2011. A completely new galaxy specific install of python 2.6.6 was done on the CentOS 5 galaxy VM. Some directions are found here:
http://bda.ath.cx/blog/2009/04/08/installing-python-26-in-centos-5-or-rhel5/
 
== RPy, R, Atlas, Numpy, BLAS, LAPACK ==
Need numpy python module for reasonable speed operations, can  get away using CentOs versions of lapack and blas which are compiled with the GNU Fortran compiler, not the g77 compiler, just configure numpy to use gfortran.
R installs without issue using yum install R
Atlas and atlas-dev installs won't be compaitible with numpy.
 
Additionally, steps on installing mercurial can be found here:
http://jake.murzy.com/post/2992010793/installing-and-setting-up-mercurial-rhel-centos-apache
 
== Errors/Bugs ==
As per galaxy-dev email I sent the file:
lib/galaxy/model/migrate/versions/0068_rename_sequencer_to_external_services.py
Contains SQL errors as it tries to rename a SEQUENCE with the incorrect sytax. ALTER TABLE should be used, not ALTER SEQUENCE. This file has errors in 2 locations.
The problem remains as of February the 7th, 2011.
 
== References ==
* [http://bitbucket.org/galaxy/galaxy-central/wiki/Home Galaxy Wiki]
* [http://bitbucket.org/galaxy/galaxy-central/wiki/ImplementationInfo Galaxy Architecture]
* [http://bitbucket.org/galaxy/galaxy-central/wiki/GetGalaxy Get Galaxy]
* [http://bitbucket.org/galaxy/galaxy-central/wiki/Config/ProductionServer Galaxy Advanced Config]

Latest revision as of 14:48, 13 December 2017

Overview

The UAB Galaxy platform for experimental biology and comparative genomics is designed to help you analyze multiple alignments, compare genomic annotations, profile metagenomic samples and more from your web browser. This platform is built on Galaxy, backed by the Cheaha compute cluster, and powered by UABgrid.

The primary uses of UAB Galaxy are to provide a simple web interface for NGS (short read sequencing) analysis for genomic and transcriptomic datasets, using tools like BWA, Bowtie, Tophat and Cufflinks, as well as simple sequence manipulation via the EMBOSS toolkit.

Using Galaxy / Tutorials

There are numerous general tutorials online at the Penn State public Galaxy site that are worth looking at.

There are also several UAB tutorials on NGS Analysis with Galaxy, created for HPC Boot Camp 2011 and a nice talk by Jeremy Goecks during Research Computing Day 2011.

Support

UAB galaxy-users list-serv: subscribe search.

UAB galaxy-help list-serv: [1] to contact admins of the UAB galaxy instance.

Privacy

Note that your data will be stored on the cluster filesystem, and while not accessible to ordinary users, it can be easily accessed by any of the galaxy or cluster administrators. It is not encrypted. Do not store sensitive information in this system.

Galaxy@UAB

The UAB Galaxy instance can be accessed at https://galaxy.uabgrid.uab.edu using BlazerID credentials. No account on the cluster is needed. However, the tools installed for galaxy (BWA, etc) can be accessed via the command line if you have an account on the cluster.

Loading Data

See Galaxy_File_Uploads.

Available Tools

Following is a partial list highlighting some of the important tools available. Additional tools can be installed upon request. To search for tools already integrated into the Galaxy system, see the Galaxy ToolShed.


Software Version Information
bwa 0.5.9-r26 Align genomic short reads to a reference genome
bowtie 0.12.7 Align genomic short reads to a reference genome
tophat 1.4.0 Align transcriptome short reads to a reference genome
cufflinks, cuffdiff, cuffcompare 1.3.0 Reconstruct and quantify transcript levels from tophat alignments.
samtools 0.1.12a Alignment (SAM/BAM file) manipulations
velvet 1.1.03 Denovo Assembly
EMBOSS 6.3.1 European Molecular Biology Open Software Suite - sequence manipulation and format conversion

Installed Genome Indexes

You can always use your own genome by uploading the .fasta into your history, but alignments against installed (pre-indexed) genomes run much more quickly. If you need an additional genome installed, please contact [2].

dbkey Genome Accessions
hg19 Human Feb. 2009 (GRCh37/hg19) (hg19)
hg18 Human Mar. 2006 (NCBI36/hg18) (hg18)
hg17 Human May 2004 (NCBI35/hg17) (hg17)
hg16 Human July 2003 (NCBI34/hg16) (hg16)
mm10 Mouse Dec. 2011 (GRCm38/mm10) (mm10)
mm9 Mouse July 2007 (NCBI37/mm9) (mm9)
mm8 Mouse Feb. 2006 (NCBI36/mm8) (mm8)
mm7 Mouse Aug. 2005 (NCBI35/mm7) (mm7)
mm6
mm5
sacCer3 S. cerevisiae Apr. 2011 (SacCer_Apr2011/sacCer3) (sacCer3)
sacCer2 S. cerevisiae June 2008 (SGD/sacCer2) (sacCer2)
ce10 C. elegans Oct. 2010 (WS220/ce10) (ce10)
rn5 Rat Mar. 2012 (RGSC 5.0/rn5) (rn5)
rn4 Rat Nov. 2004 (Baylor 3.4/rn4) (rn4)
danRer7 Zebrafish Jul. 2010 (Zv9/danRer7) (danRer7)
eschColi_APEC_O1 Escherichia coli APEC O1 chr=5082025
eschColi_CFT073 Escherichia coli CFT073 chr=5231428
eschColi_EC4115 Escherichia coli EC4115 chr=5572075,plasmid_pO157=94644,plasmid_pEC4115=37452
eschColi_K12 Escherichia coli K12 chr=4639675
eschColi_EDL993 Escherichia coli O157:H7 EDL933 NC_007414=92077,NC_002655=5528445
eschColi_O157H7 Escherichia coli O157:H7 EDL933 NC_007414=92077,NC_002655=5528445
eschColi_TW14359 Escherichia coli TW14359 chr=5528136,plasmid_pO157=94601

Additional Genomes that can be quickly installed

These are pre-indexed genomes we can easily download from Penn State's Galaxy Data-Cache

Organisms

  • AaegL1
  • Acropora_digitifera
  • AgamP3
  • Arabidopsis_thaliana_TAIR10
  • Arabidopsis_thaliana_TAIR9
  • Araly1
  • Bombyx_mori_p50T_2.0
  • CpipJ1
  • Homo_sapiens_AK1
  • Homo_sapiens_nuHg19_mtrCRS
  • Hydra_JCVI
  • IscaW1
  • PhumU1
  • Physcomitrella_patens_patens
  • Ptrichocarpa_156
  • Saccharomyces_cerevisiae_S288C_SGD2010
  • Schizosaccharomyces_pombe_1.1
  • Spur_v2.6
  • Sscrofa9.58
  • Tcacao_1.0
  • Tcas_3.0
  • Theobroma_cocoa
  • Zea_mays_B73_RefGen_v2
  • ailMel1
  • anoCar1
  • anoCar2
  • anoGam1
  • apiMel1
  • apiMel2
  • apiMel3
  • apiMel4.5
  • aplCal1
  • bighorn_sheep
  • borEut13
  • bosTau2
  • bosTau3
  • bosTau4
  • bosTau5
  • bosTau6
  • bosTau7
  • bosTauMd3
  • braFlo1
  • caeJap1
  • caePb1
  • caePb2
  • caeRem2
  • caeRem3
  • calJac1
  • calJac3
  • canFam1
  • canFam2
  • canFam3
  • cavPor2
  • cavPor3
  • cb3
  • ce10
  • ce2
  • ce3
  • ce4
  • ce5
  • ce6
  • ce7
  • ce8
  • ce9
  • choHof1
  • chrPic1
  • ci2
  • danRer2
  • danRer3
  • danRer4
  • danRer5
  • danRer6
  • danRer7
  • dasNov1
  • dasNov2
  • dipOrd1
  • dm1
  • dm2
  • dm3
  • dp3
  • dp4
  • droAna1
  • droAna2
  • droAna3
  • droEre1
  • droEre2
  • droGri1
  • droGri2
  • droMoj1
  • droMoj2
  • droMoj3
  • droPer1
  • droSec1
  • droSim1
  • droVir1
  • droVir2
  • droVir3
  • droWil1
  • droYak1
  • droYak2
  • echTel1
  • emf
  • equCab1
  • equCab2
  • equCab2_chrM
  • eriEur1
  • felCat3
  • felCat4
  • fr1
  • fr2
  • fr3
  • galGal2
  • galGal3
  • galGal4
  • gasAcu1
  • geoFor1
  • gorGor1
  • gorGor3
  • hetGla1
  • hetGla2
  • hg16
  • hg17
  • hg18
  • hg19
  • hg_g1k_v37
  • lMaj5
  • lengths
  • loxAfr3
  • loxAfr4
  • macEug1
  • melGal1
  • melUnd1
  • micMur1
  • mm10
  • mm5
  • mm6
  • mm7
  • mm8
  • mm9
  • monDom4
  • monDom5
  • myoLuc1
  • myoLuc2
  • nomLeu1
  • nomLeu2
  • ochPri2
  • ornAna1
  • oryCun1
  • oryCun2
  • oryLat1
  • oryLat2
  • oryza_sativa_japonica_nipponbare_IRGSP4.0
  • otoGar1
  • oviAri1
  • pUC18
  • panTro1
  • panTro2
  • panTro3
  • papHam1
  • petMar1
  • phiX
  • ponAbe2
  • priPac1
  • rheMac2
  • rheMac3
  • rn3
  • rn4
  • rn5
  • sacCer1
  • sacCer2
  • sacCer3
  • sarHar1
  • sorAra1
  • strPur2
  • strPur3
  • susScr2
  • susScr3
  • taeGut1
  • tarSyr1
  • tetNig1
  • tetNig2
  • triCas2
  • tupBel1
  • venter1
  • xenTro1
  • xenTro2
  • xenTro3

Microbes

  • Staphylococcus_aureus_aureus_USA300_FPR3757
  • Xanthomonas_oryzae_PXO99A
  • acidBact_ELLIN345
  • acidCell_11B
  • acidCryp_JF_5
  • acidJS42
  • acinSp_ADP1
  • actiPleu_L20
  • aerPer1
  • aeroHydr_ATCC7966
  • alcaBork_SK2
  • alkaEhrl_MLHE_1
  • anabVari_ATCC29413
  • anaeDeha_2CP_C
  • anapMarg_ST_MARIES
  • aquiAeol
  • archFulg1
  • arthFB24
  • azoaSp_EBN1
  • azorCaul2
  • baciAnth_AMES
  • baciHalo
  • baciSubt
  • bactThet_VPI_5482
  • bartHens_HOUSTON_1
  • baumCica_HOMALODISCA
  • bdelBact
  • bifiLong
  • blocFlor
  • bordBron
  • borrBurg
  • bradJapo
  • brucMeli
  • buchSp
  • burk383
  • burkCeno_AU_1054
  • burkCeno_HI2424
  • burkCepa_AMMD
  • burkMall_ATCC23344
  • burkPseu_1106A
  • burkThai_E264
  • burkViet_G4
  • burkXeno_LB400
  • caldMaqu1
  • caldSacc_DSM8903
  • campFetu_82_40
  • campJeju
  • campJeju_81_176
  • campJeju_RM1221
  • candCars_RUDDII
  • candPela_UBIQUE_HTCC1
  • carbHydr_Z_2901
  • caulCres
  • chlaPneu_CWL029
  • chlaTrac
  • chloChlo_CAD3
  • chloTepi_TLS
  • chroSale_DSM3043
  • chroViol
  • clavMich_NCPPB_382
  • colwPsyc_34H
  • coryEffi_YS_314
  • coxiBurn
  • cytoHutc_ATCC33406
  • dechArom_RCB
  • dehaEthe_195
  • deinGeot_DSM11300
  • deinRadi
  • desuHafn_Y51
  • desuPsyc_LSV54
  • desuRedu_MI_1
  • desuVulg_HILDENBOROUG
  • dichNodo_VCS1703A
  • ehrlRumi_WELGEVONDEN
  • ente638
  • enteFaec_V583
  • erwiCaro_ATROSEPTICA
  • erytLito_HTCC2594
  • eschColi_APEC_O1
  • eschColi_CFT073
  • eschColi_EC4115
  • eschColi_EDL933
  • eschColi_K12
  • eschColi_MG1655
  • eschColi_O157H7
  • eschColi_TW14359
  • flavJohn_UW101
  • franCcI3
  • franTula_TULARENSIS
  • fusoNucl
  • geobKaus_HTA426
  • geobMeta_GS15
  • geobSulf
  • geobTher_NG80_2
  • geobUran_RF4
  • gloeViol
  • glucOxyd_621H
  • gramFors_KT0803
  • granBeth_CGDNIH1
  • haemInfl_KW20
  • haemSomn_129PT
  • haheChej_KCTC_2396
  • halMar1
  • haloHalo1
  • haloHalo_SL1
  • haloWals1
  • heliAcin_SHEEBA
  • heliHepa
  • heliPylo_26695
  • heliPylo_HPAG1
  • heliPylo_J99
  • hermArse
  • hypeButy1
  • hyphNept_ATCC15444
  • idioLoih_L2TR
  • jannCCS1
  • lactLact
  • lactPlan
  • lactSali_UCC118
  • lawsIntr_PHE_MN1_00
  • legiPneu_PHILADELPHIA
  • leifXyli_XYLI_CTCB0
  • leptInte
  • leucMese_ATCC8293
  • listInno
  • magnMC1
  • magnMagn_AMB_1
  • mannSucc_MBEL55E
  • mariAqua_VT8
  • mariMari_MCS10
  • mculMari1
  • mesoFlor_L1
  • mesoLoti
  • metAce1
  • metMar1
  • metaSedu
  • methAeol1
  • methBark1
  • methBoon1
  • methBurt2
  • methCaps_BATH
  • methFlag_KT
  • methHung1
  • methJann1
  • methKand1
  • methLabrZ_1
  • methMari_C5_1
  • methMari_C7
  • methMaze1
  • methPetr_PM1
  • methSmit1
  • methStad1
  • methTher1
  • methTherPT1
  • methVann1
  • moorTher_ATCC39073
  • mycoGeni
  • mycoTube_H37RV
  • myxoXant_DK_1622
  • nanEqu1
  • natrPhar1
  • neisGono_FA1090_1
  • neisMeni_FAM18_1
  • neisMeni_MC58_1
  • neisMeni_Z2491_1
  • neorSenn_MIYAYAMA
  • nitrEuro
  • nitrMult_ATCC25196
  • nitrOcea_ATCC19707
  • nitrWino_NB_255
  • nocaFarc_IFM10152
  • nocaJS61
  • nostSp
  • novoArom_DSM12444
  • oceaIhey
  • oenoOeni_PSU_1
  • onioYell_PHYTOPLASMA
  • orieTsut_BORYONG
  • paraDeni_PD1222
  • paraSp_UWE25
  • pastMult
  • pediPent_ATCC25745
  • peloCarb
  • peloLute_DSM273
  • peloTher_SI
  • photLumi
  • photProf_SS9
  • picrTorr1
  • pireSp
  • polaJS66
  • polyQLWP
  • porpGing_W83
  • procMari_CCMP1375
  • propAcne_KPA171202
  • pseuAeru
  • pseuHalo_TAC125
  • psycArct_273_4
  • psycIngr_37
  • pyrAby1
  • pyrAer1
  • pyrFur2
  • pyrHor1
  • pyroArse1
  • pyroCali1
  • pyroIsla1
  • ralsEutr_JMP134
  • ralsSola
  • rhizEtli_CFN_42
  • rhodPalu_CGA009
  • rhodRHA1
  • rhodRubr_ATCC11170
  • rhodSpha_2_4_1
  • rickBell_RML369_C
  • roseDeni_OCH_114
  • rubrXyla_DSM9941
  • saccDegr_2_40
  • saccEryt_NRRL_2338
  • saliRube_DSM13855
  • saliTrop_CNB_440
  • salmEnte_PARATYPI_ATC
  • salmTyph
  • salmTyph_TY2
  • shewANA3
  • shewAmaz
  • shewBalt
  • shewDeni
  • shewFrig
  • shewLoihPV4
  • shewMR4
  • shewMR7
  • shewOnei
  • shewPutrCN32
  • shewW318
  • shigFlex_2A
  • siliPome_DSS_3
  • sinoMeli
  • sodaGlos_MORSITANS
  • soliUsit_ELLIN6076
  • sphiAlas_RB2256
  • stapAure_MU50
  • stapMari1
  • streCoel
  • strePyog_M1_GAS
  • sulSol1
  • sulfAcid1
  • sulfToko1
  • symbTher_IAM14863
  • synePCC6
  • syneSp_WH8102
  • syntAcid_SB
  • syntFuma_MPOB
  • syntWolf_GOETTINGEN
  • therAcid1
  • therElon
  • therFusc_YX
  • therKoda1
  • therMari
  • therPend1
  • therPetr_RKU_1
  • therTeng
  • therTher_HB27
  • therTher_HB8
  • therVolc1
  • thioCrun_XCL_2
  • thioDeni_ATCC25259
  • thioDeni_ATCC33889
  • trepPall
  • tricEryt_IMS101
  • tropWhip_TW08_27
  • uncuMeth_RCI
  • ureaUrea
  • vermEise_EF01_2
  • vibrChol1
  • vibrChol_O395_1
  • vibrFisc_ES114_1
  • vibrPara1
  • vibrVuln_CMCP6_1
  • vibrVuln_YJ016_1
  • wiggBrev
  • wolbEndo_OF_DROSOPHIL
  • woliSucc
  • xantCamp
  • xyleFast
  • yersPest_CO92
  • zymoMobi_ZM4