To cite:
Condition-specific Mapping of Operons (COSMO) is a tool for detecting operons in microorganisms
An Operon consists of a group of structural genes that codes for enzymes involved in a metabolic pathway. The genes of an operon are located contiguously on a stretch DNA and are under the control of one promoter. A single mRNA unit is transcribed and translated into separate proteins.
COSMO takes as input, a reference genome aligned BAM file and a GTF file with gene coordinates. COSMO predicts operons by calculating average coverages of the genes/CDSs and their intergenic regions (IGRs). The user provides four cut-offs which determine whether genes/CDSs form part of the same operon. If they fail any one of these cut-offs, then they are not part of the operon.
- Python >= 3.7
- Pysam >=0.15.0
python setup.py install
user_input.py [-h] [-D GDEPTH] [-d IDEPTH] [-F GFACTOR] [-f IFACTOR]
[-p PREFIX]
ref length bam gtf
Detect possible genome operons using RNA expression coverages
positional arguments:
ref Name of reference sequence in BAM file
length Length of reference genome according to GTF file
bam Bam input file
gtf Gtf input file
optional arguments:
-h, --help show this help message and exit
-D GDEPTH, --gdepth GDEPTH
Average number of reads per base required to consider
a gene expressed
-d IDEPTH, --idepth IDEPTH
Average number of reads per base required to consider
an IGR expressed
-F GFACTOR, --gfactor GFACTOR
Maximum fold difference (FD) allowed between two genes/CDSs of an operon
-f IFACTOR, --ifactor IFACTOR
Maximum FD allowed between an intergenic region (IGR) and its flanking genes/CDSs
-o OUTPUT, --output OUTPUT
CSV output filename (output file is written to "output" folder)
Example code for running a file:
python user_input.py -D 1 -d 2 -F 5.0 -f 10.0 -o Strain_5_control.csv NC_000962 4411532 /home/Sally/Input_bam_files/Strain_5_control.bam /home/Sally/Input_bam_files/NC_000962_tuberculosis.gtf
Where the:
1) minimum CDS coverage = 1
2) min IGR coverage = 2
3) maximum FD between adjacent CDSs/genes = 5.0
4) max FD between IGR and flanking CDSs = 10.0
5) output file name given by user = Strain_5_control.csv
6) Genome name in GTF file = NC_000962
7) Size of genome in GTF file = 4411532
8) Input bam file = Strain_5_control.bam
9) GTF file name = NC_000962_tuberculosis.gtf