GeneMarkES-Sapelo2: Difference between revisions
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[[Category: | [[Category:Sapelo2]][[Category:Software]][[Category:Bioinformatics]] | ||
=== Category === | === Category === | ||
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=== Version === | === Version === | ||
4.71 | |||
=== Author / Distributor === | === Author / Distributor === | ||
[http://exon.gatech.edu/GeneMark/ GeneMarkES] | [http://exon.gatech.edu/GeneMark/ GeneMarkES] | ||
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Also refer to [[Running Jobs on Sapelo2]] | Also refer to [[Running Jobs on Sapelo2]] | ||
In order to use geneMarker you will need to download a key file and put it into your home directory. Please follow instructions as given below: | |||
1) Go to http://topaz.gatech.edu/GeneMark/license_download.cgi, fill the requested fields are read the license text. Note: you can select any tool and platform actually, e.g. GeneMark-ES/ET/EP+ ver 4.72_lic and LINUX64 kernel 3.10-5. | |||
2) After pressing "I agree ..." button you will be redirected to a download page. You will need to download the 64bit key file only. The key file gm_key_64.gz will be downloaded to your local drive. Then please transfer it to the cluster using a transfer node. Please refer to [[Transferring Files]]. | |||
3) The key file downloaded is in gzip format, on the cluster please unpack it (with gunzip) and move it to ~/.gm_key (the name should be exactly like this, with a dot in the beginning), for example: | |||
<pre class="gcommand"> | |||
gunzip gm_key_64.gz | |||
mv gm_key_64 ~/.gm_key | |||
</pre> | |||
where ~ is your home directory. i.e /home/MyID. Once the .gm_key file has been placed in your home dir you should be able to run GeneMarker. | |||
'''Version 4.71''' | |||
Version 4.71, installed at | |||
* /apps/eb/GeneMark-ET/4.71-GCCcore-11.3.0/ | |||
* /apps/eb/GeneMark-ET/4.71-GCCcore-11.2.0/ | |||
To use it, please load the module with: | |||
<div class="gscript2"> | |||
module load GeneMark-ET/4.71-GCCcore-11.3.0 | |||
</div> | |||
or | |||
module load GeneMark-ET/4. | <div class="gscript2"> | ||
module load GeneMark-ET/4.71-GCCcore-11.2.0 | |||
</div> | |||
Here is an example of a shell script sub.sh to run it at the batch queue: | |||
Here is an example of a shell script sub.sh to run | |||
<div class="gscript2"> | <div class="gscript2"> | ||
Line 59: | Line 66: | ||
<nowiki>#</nowiki>SBATCH --mem<u>10gb</u><br> | <nowiki>#</nowiki>SBATCH --mem<u>10gb</u><br> | ||
<nowiki>#</nowiki>SBATCH --time=<u>08:00:00</u><br> | <nowiki>#</nowiki>SBATCH --time=<u>08:00:00</u><br> | ||
<nowiki>#</nowiki>SBATCH --output= | <nowiki>#</nowiki>SBATCH --output=log.%j.out<br> | ||
<nowiki>#</nowiki>SBATCH --error= | <nowiki>#</nowiki>SBATCH --error=log.%j.err<br> | ||
cd $SLURM_SUBMIT_DIR<br> | cd $SLURM_SUBMIT_DIR<br> | ||
module load GeneMark-ET/4. | module load GeneMark-ET/4.71-GCCcore-11.3.0 | ||
gmes_petap.pl [options] | gmes_petap.pl [options] | ||
</div> | </div> | ||
In the real submission script, at least all the above underlined values need to be reviewed or to be replaced by the proper values. | In the real submission script, at least all the above underlined values need to be reviewed or to be replaced by the proper values. | ||
Here is an example of job submission command: | |||
<pre class="gcommand"> | |||
sbatch ./sub.sh | |||
</pre> | |||
=== Documentation === | === Documentation === | ||
<pre | <pre class="gcommand"> | ||
module load GeneMark-ET/4. | module load GeneMark-ET/4.71-GCCcore-11.3.0 | ||
gmes_petap.pl | gmes_petap.pl | ||
# ------------------- | # ------------------- | ||
Usage: /apps/eb/GeneMark-ET/4.71-GCCcore-11.3.0/gmes_petap.pl [options] --sequence [filename] | |||
Usage: /apps/eb/GeneMark-ET/4. | |||
GeneMark-ES Suite version 4. | GeneMark-ES Suite version 4.71_lic | ||
Suite includes GeneMark.hmm, GeneMark-ES, GeneMark-ET and GeneMark-EP algorithms. | Suite includes GeneMark.hmm, GeneMark-ES, GeneMark-ET and GeneMark-EP algorithms. | ||
Input sequence/s should be in FASTA format. | Input sequence/s should be in FASTA format. | ||
Select one of the gene prediction algorithm | Select one of the gene prediction algorithms: | ||
To run GeneMark-ES self-training algorithm | |||
--ES | |||
To run GeneMark- | To run GeneMark-ET with hints from transcriptome splice alignments | ||
--ET [filename]; file with intron coordinates from RNA-Seq read splice alignment in GFF format | |||
--et_score [number]; default 10; minimum score of intron in initiation of the ET algorithm | |||
To run GeneMark- | To run GeneMark-EP with hints from protein splice alignments | ||
--EP | |||
--dbep [filename]; file with protein database in FASTA format | |||
--ep_score [number,number]; default 4,0.25; minimum score of intron in initiation of the EP algorithm | |||
or | |||
--EP [filename]; file with intron coordinates from protein splice alignment in GFF format | |||
To run GeneMark | To run GeneMark.hmm predictions using previously derived model | ||
--predict_with [filename]; file with species specific gene prediction parameters | |||
To run | To run ES, ET or EP with branch point model. This option is most useful for fungal genomes | ||
--fungus | |||
To run ES, ET or EP with | To run hmm, ES, ET or EP in PLUS mode (prediction with hints) | ||
--evidence [filename]; file with hints in GFF format | |||
To run | To run algorithms with alternative genetic codes | ||
-- | --gcode [number]; default 1; supported 1 and 6/26 | ||
Output formatting options: | |||
--format [label]; default GTF; output gene prediction in GTF of GFF3 format | |||
--work_dir [folder name]; default current working directory .; | |||
Masking option | Masking option | ||
--soft_mask [number] or [auto]; default auto; to indicate that lowercase letters stand for repeats; | --soft_mask [number] or [auto]; default auto; to indicate that lowercase letters stand for repeats; | ||
masks only lowercase repeats longer than specified length | algorithm hard masks only lowercase repeats longer than specified length | ||
In 'auto' mode | In 'auto' mode hard masking threshold is selected by algorithm based on the size of the input genome | ||
--mask_penalty [number] or [auto]; default 0.03; | |||
Run options | Run options | ||
Line 128: | Line 142: | ||
Optional sequence pre-processing parameters | Optional sequence pre-processing parameters | ||
--max_contig [number]; default 5000000; will split input genomic sequence into contigs shorter then max_contig | --max_contig [number]; default 5000000; will split input genomic sequence into contigs shorter then max_contig | ||
--min_contig [number]; default 50000; will ignore contigs shorter | --min_contig [number]; default 50000 (10000 fungi); | ||
will ignore contigs shorter than min_contig in training | |||
--max_gap [number]; default 5000; will split sequence at gaps longer than max_gap | --max_gap [number]; default 5000; will split sequence at gaps longer than max_gap | ||
Letters 'n' and 'N' are interpreted as standing within gaps | Letters 'n' and 'N' are interpreted as standing within gaps | ||
Line 134: | Line 149: | ||
Letters 'x' and 'X' are interpreted as results of hard masking of repeats | Letters 'x' and 'X' are interpreted as results of hard masking of repeats | ||
Optional parameters | |||
--max_intron [number]; default 10000 (3000 fungi); maximum length of intron | --max_intron [number]; default 10000 (3000 fungi); maximum length of intron | ||
--max_intergenic [number]; default 50000; maximum length of intergenic regions | --max_intergenic [number]; default 50000 (10000 fungi); maximum length of intergenic regions | ||
--min_contig_in_predict [number]; default 500; minimum allowed length of contig in prediction step | --min_contig_in_predict [number]; default 500; minimum allowed length of contig in prediction step | ||
--min_gene_in_predict [number]; default 300 (120 fungi); minimum allowed gene length in prediction step | --min_gene_in_predict [number]; default 300 (120 fungi); minimum allowed gene length in prediction step | ||
--gc_donor [value]; default 0.001; transition probability to GC donor in the range 0..1; | --gc_donor [value]; default 0.001; transition probability to GC donor in the range 0..1; | ||
'off' switches GC donor model OFF | |||
--gc3 [number]; GC3 cutoff in training for grasses | |||
Developer options | Developer options | ||
--training to run only training step of algorithm; applicable to ES, ET or EP | |||
--training to run only training step of | |||
--prediction to run only prediction step of algorithms using species parameters from previously executed training; applicable to ES, ET or EP | --prediction to run only prediction step of algorithms using species parameters from previously executed training; applicable to ES, ET or EP | ||
--usr_cfg [filename]; use custom configuration from this file | --usr_cfg [filename]; use custom configuration from this file | ||
--ini_mod [filename]; use this file with parameters for algorithm initiation | --ini_mod [filename]; use this file with parameters for algorithm initiation | ||
--key_bin | --key_bin | ||
--debug | --debug | ||
# ------------------- | # ------------------- | ||
</pre> | </pre> | ||
[[#top|Back to Top]] | [[#top|Back to Top]] |
Latest revision as of 11:38, 4 June 2024
Category
Bioinformatics
Program On
Sapelo2
Version
4.71
Author / Distributor
Description
"Gene Prediction in Eukaryotes. Novel genomes can be analyzed by the program GeneMark-ES utilizing unsupervised training." More details are at GeneMarkES
Running Program
Also refer to Running Jobs on Sapelo2
In order to use geneMarker you will need to download a key file and put it into your home directory. Please follow instructions as given below:
1) Go to http://topaz.gatech.edu/GeneMark/license_download.cgi, fill the requested fields are read the license text. Note: you can select any tool and platform actually, e.g. GeneMark-ES/ET/EP+ ver 4.72_lic and LINUX64 kernel 3.10-5.
2) After pressing "I agree ..." button you will be redirected to a download page. You will need to download the 64bit key file only. The key file gm_key_64.gz will be downloaded to your local drive. Then please transfer it to the cluster using a transfer node. Please refer to Transferring Files.
3) The key file downloaded is in gzip format, on the cluster please unpack it (with gunzip) and move it to ~/.gm_key (the name should be exactly like this, with a dot in the beginning), for example:
gunzip gm_key_64.gz mv gm_key_64 ~/.gm_key
where ~ is your home directory. i.e /home/MyID. Once the .gm_key file has been placed in your home dir you should be able to run GeneMarker.
Version 4.71
Version 4.71, installed at
- /apps/eb/GeneMark-ET/4.71-GCCcore-11.3.0/
- /apps/eb/GeneMark-ET/4.71-GCCcore-11.2.0/
To use it, please load the module with:
module load GeneMark-ET/4.71-GCCcore-11.3.0
or
module load GeneMark-ET/4.71-GCCcore-11.2.0
Here is an example of a shell script sub.sh to run it at the batch queue:
#!/bin/bash
#SBATCH --job-name=geneMarkJob
#SBATCH --partition=batch
#SBATCH --mail-type=ALL
#SBATCH --mail-user=username@uga.edu
#SBATCH --ntasks=1
#SBATCH --mem10gb
#SBATCH --time=08:00:00
#SBATCH --output=log.%j.out
#SBATCH --error=log.%j.err
cd $SLURM_SUBMIT_DIR
module load GeneMark-ET/4.71-GCCcore-11.3.0
gmes_petap.pl [options]
In the real submission script, at least all the above underlined values need to be reviewed or to be replaced by the proper values.
Here is an example of job submission command:
sbatch ./sub.sh
Documentation
module load GeneMark-ET/4.71-GCCcore-11.3.0 gmes_petap.pl # ------------------- Usage: /apps/eb/GeneMark-ET/4.71-GCCcore-11.3.0/gmes_petap.pl [options] --sequence [filename] GeneMark-ES Suite version 4.71_lic Suite includes GeneMark.hmm, GeneMark-ES, GeneMark-ET and GeneMark-EP algorithms. Input sequence/s should be in FASTA format. Select one of the gene prediction algorithms: To run GeneMark-ES self-training algorithm --ES To run GeneMark-ET with hints from transcriptome splice alignments --ET [filename]; file with intron coordinates from RNA-Seq read splice alignment in GFF format --et_score [number]; default 10; minimum score of intron in initiation of the ET algorithm To run GeneMark-EP with hints from protein splice alignments --EP --dbep [filename]; file with protein database in FASTA format --ep_score [number,number]; default 4,0.25; minimum score of intron in initiation of the EP algorithm or --EP [filename]; file with intron coordinates from protein splice alignment in GFF format To run GeneMark.hmm predictions using previously derived model --predict_with [filename]; file with species specific gene prediction parameters To run ES, ET or EP with branch point model. This option is most useful for fungal genomes --fungus To run hmm, ES, ET or EP in PLUS mode (prediction with hints) --evidence [filename]; file with hints in GFF format To run algorithms with alternative genetic codes --gcode [number]; default 1; supported 1 and 6/26 Output formatting options: --format [label]; default GTF; output gene prediction in GTF of GFF3 format --work_dir [folder name]; default current working directory .; Masking option --soft_mask [number] or [auto]; default auto; to indicate that lowercase letters stand for repeats; algorithm hard masks only lowercase repeats longer than specified length In 'auto' mode hard masking threshold is selected by algorithm based on the size of the input genome --mask_penalty [number] or [auto]; default 0.03; Run options --cores [number]; default 1; to run program with multiple threads --pbs to run on cluster with PBS support --v verbose Optional sequence pre-processing parameters --max_contig [number]; default 5000000; will split input genomic sequence into contigs shorter then max_contig --min_contig [number]; default 50000 (10000 fungi); will ignore contigs shorter than min_contig in training --max_gap [number]; default 5000; will split sequence at gaps longer than max_gap Letters 'n' and 'N' are interpreted as standing within gaps --max_mask [number]; default 5000; will split sequence at repeats longer then max_mask Letters 'x' and 'X' are interpreted as results of hard masking of repeats Optional parameters --max_intron [number]; default 10000 (3000 fungi); maximum length of intron --max_intergenic [number]; default 50000 (10000 fungi); maximum length of intergenic regions --min_contig_in_predict [number]; default 500; minimum allowed length of contig in prediction step --min_gene_in_predict [number]; default 300 (120 fungi); minimum allowed gene length in prediction step --gc_donor [value]; default 0.001; transition probability to GC donor in the range 0..1; 'off' switches GC donor model OFF --gc3 [number]; GC3 cutoff in training for grasses Developer options --training to run only training step of algorithm; applicable to ES, ET or EP --prediction to run only prediction step of algorithms using species parameters from previously executed training; applicable to ES, ET or EP --usr_cfg [filename]; use custom configuration from this file --ini_mod [filename]; use this file with parameters for algorithm initiation --key_bin --debug # -------------------
Installation
source code from GeneMarkES
System
64-bit Linux