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Convert genome annotation GTF file into plain CSV format

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GTF2CSV

Convert GTF/GFF2 to CSV for your convenience, e.g. insert it into a database or load it into pandas dataframe for slicing and dicing.

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I have converted multiple versions of gtf files for the human genome, and the gtf files across multiple species in Ensembl release 93 to csv files, which are available at https://gitlab.com/zyxue/gtf2csv-csvs.

Example:

Here are the first few lines of converted Homo_sapiens.GRCh38.93.csv.gz:

index seqname source feature start end score strand frame ccds_id exon_id exon_number exon_version gene_biotype gene_id gene_name gene_source gene_version protein_id protein_version tag:CCDS tag:basic tag:cds_end_NF tag:cds_start_NF tag:mRNA_end_NF tag:mRNA_start_NF tag:seleno transcript_biotype transcript_id transcript_name transcript_source transcript_support_level transcript_version
0 1 havana gene 11869 14409 . + . transcribed_unprocessed_pseudogene ENSG00000223972 DDX11L1 havana 5
1 1 havana transcript 11869 14409 . + . transcribed_unprocessed_pseudogene ENSG00000223972 DDX11L1 havana 5 1 processed_transcript ENST00000456328 DDX11L1-202 havana 1 2
2 1 havana exon 11869 12227 . + . ENSE00002234944 1 1 transcribed_unprocessed_pseudogene ENSG00000223972 DDX11L1 havana 5 1 processed_transcript ENST00000456328 DDX11L1-202 havana 1 2
3 1 havana exon 12613 12721 . + . ENSE00003582793 2 1 transcribed_unprocessed_pseudogene ENSG00000223972 DDX11L1 havana 5 1 processed_transcript ENST00000456328 DDX11L1-202 havana 1 2
4 1 havana exon 13221 14409 . + . ENSE00002312635 3 1 transcribed_unprocessed_pseudogene ENSG00000223972 DDX11L1 havana 5 1 processed_transcript ENST00000456328 DDX11L1-202 havana 1 2

Install & Usage

require python>=3.6

pip install git+https://github.com/zyxue/gtf2csv.git#egg=gtf2csv

gtf2csv --gtf [gtf file]
gtf2csv -h
usage: gtf2csv [-h] -f GTF [-c CARDINALITY_CUTOFF] [-o OUTPUT] [-m {csv,pkl}]
               [-t NUM_CPUS]

Convert GTF file to plain csv

optional arguments:
  -h, --help            show this help message and exit
  -f GTF, --gtf GTF     the GTF file to convert
  -c CARDINALITY_CUTOFF, --cardinality-cutoff CARDINALITY_CUTOFF
                        for a tag that may appear multiple times in the
                        attribute column (so-called multiplicity tag in this
                        program), if its cardinality, i.e. the number of
                        possibles values across all row, is lower than this
                        cutoff, then it's a low-caridnaltiy tag, and each of
                        its possible value would be transformed into a
                        separate binary column. Otherwise, it is a high-
                        cardinality tag and all of its values in one row would
                        be simply concatenated to avoid making too many
                        columns
  -o OUTPUT, --output OUTPUT
                        the output filename, if not specified, would just set
                        it to be the same as the input but with extension
                        replaced (gtf => csv)
  -m {csv,pkl}, --output-format {csv,pkl}
                        pkl means python pickle format, which would results in
                        much faster IO (recommended)
  -t NUM_CPUS, --num-cpus NUM_CPUS
                        number of cpus for parallel processing, default to 1

Comparison of multiple human gtf versions

See this notebook Comparison-of-human-gtfs.ipynb for details.

Number of protein coding genes

This number has been relatively stable around 20k since early days.

Different colors indicate major genome update, i.e. GRCh36/hg18 (blue), GRCh37/hg19 (red), GRCh38/hg38 (yellow).

Number of protein coding transcripts

Considering the current number is 80k, so on average a gene has 4 protein coding transcripts.

Number of lincRNA

As seen, lincRNA hasn't been annotated until around GRCh37.57 (2010-03 based on https://www.gencodegenes.org/releases/).

For plots of other available transcript types, please see here.

Comparison of gtf files across different species

Here is a scatter plot of number of protein coding genes vs protein coding transcripts for different species. Each dot is a species, but only those common ones are annotated. For bar plots similar to above, see here.

Details of plot generation can be found at Comparison-of-gtfs-across-species.ipynb.

Conversion strategy

The parsing of GTF is based on GTF/GFF2 format specified at http://uswest.ensembl.org/info/website/upload/gff.html.

The key transformation steps:

  1. ignore all lines starting with #.
  2. convert all columns but the attribute column to csv.
  3. Deal with attribute column.

The first two steps are straightforward. Note that GTF is tab-separated, so it is very similar to a csv file.

The attribute column is a bit more tricky to deal with. Each row of the attribute column contains a list of tag-value pairs. In principle, every tag could form its own column. However, some tags could appear multiple times within one row. A few observed such tags include:

  • tag tag as in Ensembl human gtf files
  • ont tag as in GENCODE human gtf files
  • ccds_id as in Ensembl for Mus_musculus related gtf files

I named these tags are called multiplicity tags, and they are further classified into two types depending on the number of possible unique values they have. For those with a low number of possible values, thus low cardinality, each of their possible values would be transformed into its own binary column under the name ([tag]:[value]). For example, for the follow tag tags,

... exon_id "ENSE00001637883"; tag "cds_end_NF"; tag "mRNA_end_NF";

It would converted into values in two binary (1/0) columns with column names tag:cds_end_NF and tag:mRNA_end_NF.

For multiplicity tags with a high-cardinality (e.g. ccds_id with a cardinality over 20k), converting each value into its own column would result into to many columns and consume to much memory, thus the possible values would simply be concatenated. For example, the following entry

... ccds_id "CCDS14805"; ccds_id "CCDS78538"; ccds_id "CCDS78539"; ...

would become CCDS14805,CCDS78538,CCDS78539 under the ccds_id column.

The cutoff between high-cardinality and low-cardinality tags could be specified via -c/--cardinality-cutoff parameter.

Other resources

For a complete list of tags: https://www.gencodegenes.org/gencode_tags.html

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Convert genome annotation GTF file into plain CSV format

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