Author: PAGEAUD Y. (1),(2)
2- Université Paris Diderot - Paris 7, France.
Version: 1.1
Compatibility: Linux (Ubuntu 16.04)
Last Update: 22/06/2017
Gff3ToBed is a shell script using awk to extract and format specific genomic data contained in a Gff3 (1-based) file to a Bed (0-Based) file.
Gff3ToBed is using awk to parse gff3 files.
Awk should be installed by default with Ubuntu 16.04.
If not, you can install it with from the Terminal:
sudo apt install original-awk
Alternatively, you can install Synaptic (which is the graphical version of GTK+ and APT) from the Ubuntu Software Center Application. it will allow you to install original-awk without using the Terminal.
Gff3ToBed has to be executable. to make a script executable type the following command in the Terminal:
sudo chmod +x Gff3ToBed
Gff3ToBed is a shell script using awk to extract and format genomic data from a
Gff3 (1-based) file to a Bed (0-Based) file.
Gff3 Format:
chr1 HAVANA gene 11869 14409 . + . ID=ENSG00000223972.5;gene_id=ENSG00000223972.5;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;level=2;havana_gene=OTTHUMG00000000961.2
chr1 HAVANA transcript 11869 14409 . + . ID=ENST00000456328.2;Parent=ENSG00000223972.5;gene_id=ENSG00000223972.5;transcript_id=ENST00000456328.2;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;transcript_type=processed_transcript;transcript_name=DDX11L1-002;level=2;transcript_support_level=1;tag=basic;havana_gene=OTTHUMG00000000961.2;havana_transcript=OTTHUMT00000362751.1
chr1 HAVANA exon 11869 12227 . + . ID=exon:ENST00000456328.2:1;Parent=ENST00000456328.2;gene_id=ENSG00000223972.5;transcript_id=ENST00000456328.2;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;transcript_type=processed_transcript;transcript_name=DDX11L1-002;exon_number=1;exon_id=ENSE00002234944.1;level=2;transcript_support_level=1;tag=basic;havana_gene=OTTHUMG00000000961.2;havana_transcript=OTTHUMT00000362751.1
chr1 HAVANA exon 12613 12721 . + . ID=exon:ENST00000456328.2:2;Parent=ENST00000456328.2;gene_id=ENSG00000223972.5;transcript_id=ENST00000456328.2;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;transcript_type=processed_transcript;transcript_name=DDX11L1-002;exon_number=2;exon_id=ENSE00003582793.1;level=2;transcript_support_level=1;tag=basic;havana_gene=OTTHUMG00000000961.2;havana_transcript=OTTHUMT00000362751.1
chr1 HAVANA exon 13221 14409 . + . ID=exon:ENST00000456328.2:3;Parent=ENST00000456328.2;gene_id=ENSG00000223972.5;transcript_id=ENST00000456328.2;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;transcript_type=processed_transcript;transcript_name=DDX11L1-002;exon_number=3;exon_id=ENSE00002312635.1;level=2;transcript_support_level=1;tag=basic;havana_gene=OTTHUMG00000000961.2;havana_transcript=OTTHUMT00000362751.1
chr1 HAVANA transcript 12010 13670 . + . ID=ENST00000450305.2;Parent=ENSG00000223972.5;gene_id=ENSG00000223972.5;transcript_id=ENST00000450305.2;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;transcript_type=transcribed_unprocessed_pseudogene;transcript_name=DDX11L1-001;level=2;transcript_support_level=NA;ont=PGO:0000005,PGO:0000019;tag=basic;havana_gene=OTTHUMG00000000961.2;havana_transcript=OTTHUMT00000002844.2
chr1 HAVANA exon 12010 12057 . + . ID=exon:ENST00000450305.2:1;Parent=ENST00000450305.2;gene_id=ENSG00000223972.5;transcript_id=ENST00000450305.2;gene_type=transcribed_unprocessed_pseudogene;gene_name=DDX11L1;transcript_type=transcribed_unprocessed_pseudogene;transcript_name=DDX11L1-001;exon_number=1;exon_id=ENSE00001948541.1;level=2;transcript_support_level=NA;ont=PGO:0000005,PGO:0000019;tag=basic;havana_gene=OTTHUMG00000000961.2;havana_transcript=OTTHUMT00000002844.2
Bed Format:
chr1 11868 14409 HAVANA gene + ENSG00000223972.5 DDX11L1
chr1 11868 14409 HAVANA transcript + ENST00000456328.2 DDX11L1
chr1 11868 12227 HAVANA exon + ENST00000456328.2 DDX11L1
chr1 12009 13670 HAVANA transcript + ENST00000450305.2 DDX11L1
chr1 12009 12057 HAVANA exon + ENST00000450305.2 DDX11L1
chr1 12612 12721 HAVANA exon + ENST00000456328.2 DDX11L1
chr1 13220 14409 HAVANA exon + ENST00000456328.2 DDX11L1
The output Bed file is created where the script is saved, and named following
the parameters you selected for data extraction.
Depending on the format of you input file (.gff3 or gff3.gz) the output file
will be a .bed or a bed.gz file.
Like gff2bed (BEDOPS), Gff3ToBed can handle the basic conversion of a Gff3 file
to a Bed file.
Example: Extract all data to a Bed file
./Gff3ToBed.sh gencode.v26.annotation.gff3 gff3 all both
chr1 11868 14409 HAVANA gene + ENSG00000223972.5 DDX11L1
chr1 11868 14409 HAVANA transcript + ENST00000456328.2 DDX11L1
chr1 11868 12227 HAVANA exon + ENST00000456328.2 DDX11L1
chr1 12009 13670 HAVANA transcript + ENST00000450305.2 DDX11L1
chr1 12009 12057 HAVANA exon + ENST00000450305.2 DDX11L1
chr1 12612 12721 HAVANA exon + ENST00000456328.2 DDX11L1
chr1 13220 14409 HAVANA exon + ENST00000456328.2 DDX11L1
Contrary to gff2bed (BEDOPS), when converting your Gff3 to Bed you can specify
features and biotypes matching the data you would like to extract.
This option makes Gff3ToBed extremely fast for the file conversion, much faster
than gff2bed.
Example: Extract to Bed only genes giving rRNA
./Gff3ToBed.sh gencode.v26.annotation.gff3 gff3 gene rRNA both
chr1 9437668 9437778 ENSEMBL gene - ENSG00000252956.1 RNA5SP40
chr1 13623183 13623284 ENSEMBL gene - ENSG00000222952.1 RNA5SP41
chr1 34112948 34113063 ENSEMBL gene + ENSG00000201148.1 RNA5SP42
chr1 37264676 37264786 ENSEMBL gene - ENSG00000252368.1 RNA5SP43
chr1 39154163 39154296 ENSEMBL gene - ENSG00000222378.1 RNA5SP44
chr1 41466936 41467028 ENSEMBL gene - ENSG00000252563.1 RNA5SP45
chr1 43196416 43196536 ENSEMBL gene + ENSG00000199240.1 RNA5SP46
To use Gff3ToBed you do not have to extract your .gff3.gz archive.
It is especially convenient if your are working on large gff3 files.
Gff3ToBed is also faster when working on gff3.gz archive.
Consequently, the output file will be a bed.gz archive.
Example: Extract to Bed all data from a .gff3.gz archive to a bed.gz archive
./Gff3ToBed.sh gencode.v26.annotation.gff3.gz gz all both
chr1 11868 14409 HAVANA gene + ENSG00000223972.5 DDX11L1
chr1 11868 14409 HAVANA transcript + ENST00000456328.2 DDX11L1
chr1 11868 12227 HAVANA exon + ENST00000456328.2 DDX11L1
chr1 12009 13670 HAVANA transcript + ENST00000450305.2 DDX11L1
chr1 12009 12057 HAVANA exon + ENST00000450305.2 DDX11L1
chr1 12612 12721 HAVANA exon + ENST00000456328.2 DDX11L1
chr1 13220 14409 HAVANA exon + ENST00000456328.2 DDX11L1
Additionally, Gff3ToBed let you choose between HGNC (HUGO Gene Nomenclature Committee)
and Ensembl IDs for your output Bed file.
You can either get HGNC IDs, Ensembl IDs, or both IDs in your output Bed file.
Example: Get all genes with their Ensembl IDs in a Bed file
./Gff3ToBed.sh gencode.v26.annotation.gff3 gff3 gene all ens
chr1 11868 14409 HAVANA gene + ENSG00000223972.5
chr1 14403 29570 HAVANA gene - ENSG00000227232.5
chr1 17368 17436 ENSEMBL gene - ENSG00000278267.1
chr1 29553 31109 HAVANA gene + ENSG00000243485.5
chr1 30365 30503 ENSEMBL gene + ENSG00000284332.1
chr1 34553 36081 HAVANA gene - ENSG00000237613.2
chr1 52472 53312 HAVANA gene + ENSG00000268020.3
To display the help and more examples in the terminal:
./Gff3ToBed -h
Source code is shared and can be used and modify freely by everyone wanting to improve it.
E-mail: [email protected] / [email protected]