bed2gtf

Crates.iobed2gtf
lib.rsbed2gtf
version1.9.3
sourcesrc
created_at2023-08-03 04:41:53.283868
updated_at2024-11-20 13:59:42.823593
descriptionA fast and memory efficient BED to GTF converter
homepagehttps://github.com/alejandrogzi/bed2gtf
repositoryhttps://github.com/alejandrogzi/bed2gtf
max_upload_size
id933400
size65,260
Alejandro Gonzales-Irribarren (alejandrogzi)

documentation

README

bed2gtf

Version Badge Crates.io Version GitHub License Crates.io Total Downloads Conda Platform

A high-performance bed-to-gtf converter written in Rust.

// translates

chr27 17266469 17281218 ENST00000541931.8 1000 + 17266469 17281218 0,0,200 2 103,74, 0,14675,

// into

chr27 bed2gtf gene 17266470 17285418 . + . gene_id "ENSG00000151743";

chr27 bed2gtf transcript 17266470 17281218 . + . gene_id "ENSG00000151743"; transcript_id "ENST00000541931.8";

chr27 bed2gtf exon 17266470 17266572 . + . gene_id "ENSG00000151743"; transcript_id "ENST00000541931.8"; exon_number "1"; exon_id "ENST00000541931.8.1";

...

Converts

  • Homo sapiens GRCh38 GENCODE 44 (252,835 transcripts) in 3.25 seconds.
  • Mus musculus GRCm39 GENCODE 44 (149,547 transcritps) in 1.99 seconds.
  • Canis lupus familiaris ROS_Cfam_1.0 Ensembl 110 (55,335 transcripts) in 1.20 seconds.
  • Gallus galus bGalGal1 Ensembl 110 (72,689 transcripts) in 1.36 seconds.

What's new on v.1.9.3

  • Fixes a bug with .gz decoder
  • Implements reading .bed.gz files!
  • Fixes bug described in issue #11 with versioning

Usage

Usage: bed2gtf[EXE] --bed/-b <BED> --isoforms/-i <ISOFORMS> --output/-o <OUTPUT>

Arguments:
    -b, --bed <BED>: a .bed file
    -i, --isoforms <ISOFORMS>: a tab-delimited file
    -o, --output <OUTPUT>: path to output file
    -g, --gz[=<FLAG>]          Compress output file [default: false] [possible values: true, false]
    -n, --no-gene[=<FLAG>]     Flag to disable gene_id feature [default: false] [possible values: true, false]

Options:
    --help: print help
    --version: print version
    --threads/-t: number of threads (default: max ncpus)
    --gz: compress output .gtf

[!WARNING]

All the transcripts in .bed file should appear in the isoforms file.

[!TIP]

Here are some commands to get you started:

# convert a .bed file to .gtf (if you have an isoforms file [gene -> transcript names] and want gene_ids in the output .gtf)
bed2gtf -b file.bed -i isoforms.txt -o file.gtf

# convert a ,.bed file to .gtf without isoforms [same things as UCSC bedToGtf]
bed2gtf -b file.bed -o file.gtf --no-gene

# convert a .bed.gz file to a .gtf [with or without isoforms]
bed2gtf -b file.bed.gz -i isoforms.txt -o file.gtf --gz
bed2gtf -b file.bed.gz -o file.gtf --gz --no-gene

# convert a .bed.gz to a .gtf.gz [with or without isoforms]
bed2gtf -b file.bed.gz -i isoforms.txt -o file.gtf --gz
bed2gtf -b file.bed.gz -o file.gtf --gz --no-gene

crate: https://crates.io/crates/bed2gtf

click for detailed formats

bed2gtf just needs two files:

  1. a .bed file

    tab-delimited files with 3 required and 9 optional fields:

    chrom   chromStart  chromEnd      name    ...
      |         |           |           |
    chr20   50222035    50222038    ENST00000595977    ...
    

    see BED format for more information

  2. a tab-delimited .txt/.tsv/.csv/... file with genes/isoforms (all the transcripts in .bed file should appear in the isoforms file):

    > cat isoforms.txt
    
    ENSG00000198888 ENST00000361390
    ENSG00000198763 ENST00000361453
    ENSG00000198804 ENST00000361624
    ENSG00000188868 ENST00000595977
    

    you can build a custom file for your preferred species using Ensembl BioMart.

Installation

to install bed2gtf on your system follow this steps:

  1. get rust: curl https://sh.rustup.rs -sSf | sh on unix, or go here for other options
  2. run cargo install bed2gtf (make sure ~/.cargo/bin is in your $PATH before running it)
  3. use bed2gtf with the required arguments
  4. enjoy!

Build

to build bed2gtf from this repo, do:

  1. get rust (as described above)
  2. run git clone https://github.com/alejandrogzi/bed2gtf.git && cd bed2gtf
  3. run cargo run --release -- -b <BED> -i <ISOFORMS> -o <OUTPUT>

Container image

to build the development container image:

  1. run git clone https://github.com/alejandrogzi/bed2gtf.git && cd bed2gtf
  2. initialize docker with start docker or systemctl start docker
  3. build the image docker image build --tag bed2gtf .
  4. run docker run --rm -v "[dir_where_your_gtf_is]:/dir" bed2gtf -b /dir/<BED> -i /dir/<ISOFORMS> -o /dir/<OUTPUT>

Conda

to use bed2gtf through Conda just:

  1. conda install bed2gtf -c bioconda or conda create -n bed2gtf -c bioconda gtfsort

Output

bed2gtf will send the output directly to the same .bed file path if you specify so

bed2gtf annotation.bed isoforms.txt output.gtf

.
├── ...
├── isoforms.txt
├── annotation.bed
└── output.gtf

where output.gtf is the result.

FAQ

Why?

UCSC offers a fast way to convert BED into GTF files through KentUtils or specific binaries (1) + several other bioinformaticians have shared scripts trying to replicate a similar solution (2,3,4).

A GTF file is a 9-column tab-delimited file that holds gene annotation data for a specific assembly (5). The 9th column defines the attributes of each entry. This field is important, as some post-processing tools that handle GTF files need them to extract gene information (e.g. STAR, arriba, etc). An incomplete GTF attribute field would probably lead to annotation-related errors in these software.

Of the available tools/scripts mentioned above, none produce a fully functional attribute GTF file conversion. (1) uses a two-step approach (bedToGenePred | genePredToGtf) written in C, which is extremely fast. Since a .bed file does not preserve any gene-related information, this approach fails to a) include correct gene_id attributes (duplicated transcript_ids) if no refTable is included b) append 3rd column gene features.

This is an example:

chr27 stdin transcript 17266470 17281218 . + . gene_id "ENST00000541931.8"; transcript_id "ENST00000541931.8";

chr27 stdin exon 17266470 17266572 . + . gene_id "ENST00000541931.8"; transcript_id "ENST00000541931.8"; exon_number "1"; exon_id "ENST00000541931.8.1";

On the other hand, available scripts (2,3,4) fall into bad-formatted outputs unable to be used as input to other tools. Some of them show a very customed format, far from a complete GTF file (2):

chr20 ---- peak 50222035 50222038 . + . peak_id "chr20_50222035_50222038";

chr20 ---- peak 50188548 50189130 . + . peak_id "chr20_50188548_50189130";

and others (4) just provide exon-related information:

chr20 ensembl exon 50222035 50222038 . + . gene_id "ENST00000595977.1735"; transcript_id "ENST00000595977.1735"; exon_number "0

chr20 ensembl exon 50188548 50188930 . + . gene_id "ENST00000595977.3403"; transcript_id "ENST00000595977.3403"; exon_number "0

This is where bed2gtf comes in: a fast and memory efficient BED-to-GTF converter written in Rust. In ~4 seconds this tool produces a fully functional GTF converted file with all the needed features needed for post-processing tools.

How?

bed2gtf is basically the reimplementation of C binaries merged in 1 step. This tool evaluates the position of k exons in j transcript, calculates start/stop/codon/UTR positions preserving reading frames and adjust the index + 1 (to be compatible with GTF convention). The isoforms file works as the refTable in C binaries to map each transcript to their respective gene; however, bed2gtf takes advantage of this and adds an additional "gene" line (to be compatible with other tools).

References

  1. http://hgdownload.soe.ucsc.edu/admin/exe/
  2. https://github.com/pfurio/bed2gtf
  3. https://rdrr.io/github/wyguo/RTDBox/src/R/gtf2bed.R
  4. https://github.com/MikeDacre/mike_tools/blob/master/bin/bed2gtf.py
  5. https://www.ensembl.org/info/website/upload/gff.html
Commit count: 95

cargo fmt