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GitHub CI Coverage Status Documentation Status install with bioconda docker_agat singularity_agat Anaconda-Server Badge Anaconda-Server Badge doi_zenodo

AGAT

Another Gtf/Gff Analysis Toolkit

Suite of tools to handle gene annotations in any GTF/GFF format.

Documentation >>here<<
Previous documentation until v1.4.0 (readthedocs) here

Table of Contents

What can AGAT do for you?

AGAT has the power to check, fix, pad missing information (features/attributes) of any kind of GTF and GFF to create complete, sorted and standardised gff3 format. Over the years it has been enriched by many many tools to perform just about any tasks that is possible related to GTF/GFF format files (sanitizing, conversions, merging, modifying, filtering, FASTA sequence extraction, adding information, etc). Comparing to other methods AGAT is robust to even the most despicable GTF/GFF files.

  • Standardize/sanitize any GTF/GFF file into a comprehensive GFF3 format (script with _sp_ prefix)

    See standardization/sanitization tool
    task tool
    check, fix, pad missing information into sorted and standardised gff3 agat_convert_sp_gxf2gxf.pl
    • add missing parent features (e.g. gene and mRNA if only CDS/exon exists).
    • add missing features (e.g. exon and UTR).
    • add missing mandatory attributes (i.e. ID, Parent).
    • fix identifiers to be uniq.
    • fix feature locations.
    • remove duplicated features.
    • group related features (if spread in different places in the file).
    • sort features (tabix optional).
    • merge overlapping loci into one single locus (only if option activated).

  • Convert many formats

    See conversion tools
    task tool
    convert any GTF/GFF into BED format agat_convert_sp_gff2bed.pl
    convert any GTF/GFF into GTF format agat_convert_sp_gff2gtf.pl
    convert any GTF/GFF into tabulated format agat_sp_gff2tsv.pl
    convert any BAM from minimap2 into GFF format agat_convert_sp_minimap2_bam2gff.pl
    convert any GTF/GFF into ZFF format agat_sp_gff2zff.pl
    convert any GTF/GFF into any GTF/GFF (bioperl) format agat_convert_sp_gxf2gxf.pl
    convert BED format into GFF3 format agat_convert_bed2gff.pl
    convert EMBL format into GFF3 format agat_convert_embl2gff.pl
    convert genscan format into GFF3 format agat_convert_genscan2gff.pl
    convert mfannot format into GFF3 format agat_convert_mfannot2gff.pl

  • Perform numerous tasks (Just about anything that is possible)

    See tools
    task tool
    make feature statistics agat_sp_statistics.pl
    make function statistics agat_sp_functional_statistics.pl
    extract any type of sequence agat_sp_extract_sequences.pl
    extract attributes agat_sp_extract_attributes.pl
    complement annotations (non-overlapping loci) agat_sp_complement_annotations.pl
    merge annotations agat_sp_merge_annotations.pl
    filter gene models by ORF size agat_sp_filter_by_ORF_size.pl
    filter to keep only longest isoforms agat_sp_keep_longest_isoform.pl
    create introns features agat_sp_add_introns.pl
    fix cds phases agat_sp_fix_cds_phases.pl
    manage IDs agat_sp_manage_IDs.pl
    manage UTRs agat_sp_manage_UTRs.pl
    manage introns agat_sp_manage_introns.pl
    manage functional annotation agat_sp_manage_functional_annotation.pl
    specificity sensitivity agat_sp_sensitivity_specificity.pl
    fusion / split analysis between two annotations agat_sp_compare_two_annotations.pl
    analyze differences between BUSCO results agat_sp_compare_two_BUSCOs.pl
    ... and much more ... ... see here ...

About the GTF/GFF fromat
The GTF/GFF formats are 9-column text formats used to describe and represent genomic features. The formats have quite evolved since 1997, and despite well-defined specifications existing nowadays they have a great flexibility allowing holding wide variety of information. This flexibility has a drawback aspect, there is an incredible amount of flavour of the formats, that can result in problems when using downstream programs.
For a complete overview of the GTF/GFF formats have a look here.

Installation

Using Docker

See details

First you must have Docker installed and running.
Secondly have look at the availabe AGAT biocontainers at quay.io.

Then:

# get the chosen AGAT container version
docker pull quay.io/biocontainers/agat:0.8.0--pl5262hdfd78af_0
# use an AGAT's tool e.g. agat_convert_sp_gxf2gxf.pl
docker run quay.io/biocontainers/agat:0.8.0--pl5262hdfd78af_0 agat_convert_sp_gxf2gxf.pl --help

Using Singularity

See details

First you must have Singularity installed and running.
Secondly have look at the availabe AGAT biocontainers at quay.io.

Then:

# get the chosen AGAT container version
singularity pull docker://quay.io/biocontainers/agat:1.0.0--pl5321hdfd78af_0
# run the container
singularity run agat_1.0.0--pl5321hdfd78af_0.sif

You are now in the container. You can use an AGAT's tool e.g. agat_convert_sp_gxf2gxf.pl doing

agat_convert_sp_gxf2gxf.pl --help

Using Bioconda

See details

Install AGAT

conda install -c bioconda agat

Update AGAT

conda update agat

Uninstall AGAT

conda uninstall agat

Old school - Manually

See details You will have to install all prerequisites and AGAT manually.

Install prerequisites

  • R (optional)
    You can install it by conda (conda install r-base), through CRAN (See here for a nice tutorial) or using your package management tool (e.g apt for Debian, Ubuntu, and related Linux distributions). R is optional and can be used to perform some plots. You will need to install the perl depency Statistics::R

  • Perl >= 5.8
    It should already be available on your computer. If you are unlucky perl.org is the place to go.

  • Perl modules
    They can be installed in different ways:

    • using cpan or cpanm
    cpanm install bioperl Clone Graph::Directed LWP::UserAgent Carp Sort::Naturally File::Share File::ShareDir::Install Moose YAML LWP::Protocol::https Term::ProgressBar

    • using conda

      • using the provided yaml file
      conda env create -f conda_environment_AGAT.yml
conda activate agat
      • manually
      conda install perl-bioperl perl-clone perl-graph perl-lwp-simple perl-carp perl-sort-naturally perl-file-share perl-file-sharedir-install perl-moose perl-yaml perl-lwp-protocol-https perl-term-progressbar

    • using your package management tool (e.g apt for Debian, Ubuntu, and related Linux distributions)

    apt install libbio-perl-perl libclone-perl libgraph-perl liblwp-useragent-determined-perl libstatistics-r-perl libcarp-clan-perl libsort-naturally-perl libfile-share-perl libfile-sharedir libfile-sharedir-install-perl libyaml-perl liblwp-protocol-https-perl libterm-progressbar-perl

  • Optional Some scripts offer the possibility to perform plots. You will need R and Statistics::R which are not included by default.

    • R
      You can install it by conda (conda install r-base), through CRAN (See here for a nice tutorial) or using your package management tool (e.g apt for Debian, Ubuntu, and related Linux distributions).

    • Statistics::R You can install it through conda (conda install perl-statistics-r), using cpan/cpanm (cpanm install Statistics::R), or your package management tool (apt install libstatistics-r-perl)

Install AGAT

git clone https://github.com/NBISweden/AGAT.git # Clone AGAT
cd AGAT                                         # move into AGAT folder
perl Makefile.PL                                # Check all the dependencies*
make                                            # Compile
make test                                       # Test
make install                                    # Install

*If dependencies are missing you will be warn. Please refer to the Install prerequisites section.

Remark: On MS Windows, instead of make you'd probably have to use dmake or nmake depending the toolchain you have.

Update AGAT

From the folder where the repository is located.

git pull                                        # Update to last AGAT
perl Makefile.PL                                # Check all the dependencies*
make                                            # Compile
make test                                       # Test
make install                                    # Install

*If dependencies are missing you will be warn. Please refer to the Install prerequisites section.

Change to a specific version

From the folder where the repository is located.

git pull                                        # Update the code
git checkout v0.1                               # use version v0.1 (See releases tab for a list of available versions)
perl Makefile.PL                                # Check all the dependencies*
make                                            # Compile
make test                                       # Test
make install                                    # Install

*If dependencies are missing you will be warn. Please refer to the Install prerequisites section.

Uninstall AGAT

perl uninstall_AGAT

Usage

script_name.pl -h

List of tools

As AGAT is a toolkit, it contains a lot of tools. The main one is agat_convert_sp_gxf2gxf.pl that allows to check, fix, pad missing information (features/attributes) of any kind of gtf and gff to create complete, sorted and standardised gff3 format. All the installed scripts have the agat_ prefix.

To have a look to the available tools you have several approaches:

  • agat --tools
  • Typing agat_ in your terminal followed by the key to activate the autocompletion will display the complete list of available tools.
  • The documentation.

More about the tools

with _sp_ prefix => Means SLURP

The gff file will be charged in memory in a specific data structure facilitating the access to desired features at any time. It has a memory cost but make life smoother. Indeed, it allows to perform complicated tasks in a more time efficient way. Moreover, it allows to fix all potential errors in the limit of the possibilities given by the format itself. See the AGAT parser section for more information about it.

with _sq_ prefix => Means SEQUENTIAL

The gff file is read and processed from its top to the end line by line without sanity check (e.g. relationship between the features). This is memory efficient.

The AGAT parser - Standardisation to create GXF files compliant to any tool

All tools with agat_sp_ prefix will parse and slurps the entire data into a specific data structure. Below you will find more information about peculiarity of the data structure, and the parsing approach used.

the data structure

See data structure details

The method create a hash structure containing all the data in memory. We can call it OMNISCIENT. The OMNISCIENT hold the GFF/GTF header information in that structure:

$omniscient{other}{header} = header information from the beginning of the file starting by #

The OMNISCIENT hold the GFF/GTF feature information in that structure:

$omniscient{level1}{tag_l1}{level1_id} = feature <= tag could be gene, match  
$omniscient{level2}{tag_l2}{idY} = @featureListL2 <= tag could be mRNA,rRNA,tRNA,etc. idY is a level1_id (know as Parent attribute within the level2 feature). The @featureListL2 is a list to be able to manage isoform cases.  
$omniscient{level3}{tag_l3}{idZ} =  @featureListL3 <= tag could be exon,cds,utr3,utr5,etc. idZ is the ID of a level2 feature (know as Parent attribute within the level3 feature). The @featureListL3 is a list to be able to put all the feature of a same tag together.

The OMNISCIENT hold the agat_config.yml information in that structure:

$omniscient{config}{parameter1} = value parameter1
$omniscient{config}{parameter2} = value parameter2

The OMNISCIENT hold the feature_levels.yaml information in that structure:

$omniscient{other}{level}{level1}{featureTypeX} = value featureTypeX (standalone, topfeature)
$omniscient{other}{level}{level2}{featureTypeY} = value featureTypeY 
$omniscient{other}{level}{level2}{featureTypeZ} = value featureTypeZ

How does the AGAT parser work

The AGAT parser phylosophy:

    1. Parse by Parent/child relationship or gene_id/transcript_id relationship.
    1. ELSE Parse by a common tag (an attribute value shared by feature that must be grouped together. By default we are using locus_tag but can be set by parameter).
    1. ELSE Parse sequentially (mean group features in a bucket, and the bucket change at each level2 feature, and bucket are join in a common tag at each new L1 feature).

/!\ Cases with only level3 features (i.e rast or some prokka files), sequential parsing may not work as expected if Parent/ID gene_id/transcript_id attributes are missing. Indeed all features will be the child of only one newly created Parent. To create a parent per feature or group of features, a common tag must be used to group them correctly (by default gene_id and locus_tag but you can set up the ones of your choice)

To resume by priority of way to parse: Parent/child relationship > locus_tag > sequential.
The parser may used only one or a mix of these approaches according of the peculiarity of the gtf/gff file you provide.

What can the AGAT parser do for you

  • It creates missing parental features. (e.g if a level2 or level3 feature do not have parental feature(s) we create the missing level2 and/or level1 feature(s)).
  • It creates missing mandatory attributes (ID and/or Parent).
  • It fixes identifier to be uniq.
  • It removes duplicated features (same position, same ID, same Parent).
  • It expands level3 features sharing multiple parents (e.g if one exon has list of multiple parent mRNA in its Parent attribute, one exon per parent with uniq ID will be created.
  • It fixes feature location errors (e.g an mRNA spanning over its gene location, we fix the gene location).
  • It adds UTR if possible (CDS and exon present).
  • It adds exon if possible (CDS has to be present).
  • It groups features together (if related features are spread at different places in the file).

examples

AGAT was tested on 42 different types of GTF/GFF of different flavours or/and containing errors. Below few are listed but you can find the full list of them into the t/gff_syntax directory.

example 8 - only CDS defined
See example 
##gff-version 3
Tob1_contig1	Prodigal:2.60	CDS	476	670	.	-	0	ID=Tob1_00001;locus_tag=Tob1_00001;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	CDS	34266	35222	.	+	0	ID=Tob1_00024;locus_tag=Tob1_00024;product=hypothetical protein
Tob1_contig1	SignalP:4.1	sig_peptide	34266	34298	.	+	0	inference=ab initio prediction:SignalP:4.1;note=predicted cleavage at residue 33;product=putative signal peptide
Tob1_contig1	Prodigal:2.60	CDS	35267	37444	.	-	0	ID=Tob1_00025;locus_tag=Tob1_00025;
Tob1_contig1	SignalP:4.1	sig_peptide	37420	37444	.	-	0	inference=ab initio prediction:SignalP:4.1;note=predicted cleavage at residue 25;product=putative signal peptide
Tob1_contig1	Prodigal:2.60	CDS	38304	39338	.	-	0	ID=Tob1_00026;locus_tag=Tob1_00026;

agat_convert_sp_gxf2gxf.pl --gff 8_test.gff

See result 
##gff-version 3
Tob1_contig1	Prodigal:2.60	gene	476	670	.	-	0	ID=nbis_NEW-gene-1;locus_tag=Tob1_00001;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	mRNA	476	670	.	-	0	ID=nbis_nol2id-cds-1;Parent=nbis_NEW-gene-1;locus_tag=Tob1_00001;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	exon	476	670	.	-	.	ID=nbis_NEW-exon-1;Parent=nbis_nol2id-cds-1;locus_tag=Tob1_00001;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	CDS	476	670	.	-	0	ID=Tob1_00001;Parent=nbis_nol2id-cds-1;locus_tag=Tob1_00001;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	gene	34266	35222	.	+	0	ID=nbis_NEW-gene-2;locus_tag=Tob1_00024;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	mRNA	34266	35222	.	+	0	ID=nbis_nol2id-cds-2;Parent=nbis_NEW-gene-2;locus_tag=Tob1_00024;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	exon	34266	35222	.	+	.	ID=nbis_NEW-exon-2;Parent=nbis_nol2id-cds-2;locus_tag=Tob1_00024;product=hypothetical protein
Tob1_contig1	Prodigal:2.60	CDS	34266	35222	.	+	0	ID=Tob1_00024;Parent=nbis_nol2id-cds-2;locus_tag=Tob1_00024;product=hypothetical protein
Tob1_contig1	SignalP:4.1	sig_peptide	34266	34298	.	+	0	ID=sig_peptide-1;Parent=nbis_nol2id-cds-2;inference=ab initio prediction:SignalP:4.1;note=predicted cleavage at residue 33;product=putative signal peptide
Tob1_contig1	Prodigal:2.60	gene	35267	37444	.	-	0	ID=nbis_NEW-gene-3;locus_tag=Tob1_00025
Tob1_contig1	Prodigal:2.60	mRNA	35267	37444	.	-	0	ID=nbis_nol2id-cds-3;Parent=nbis_NEW-gene-3;locus_tag=Tob1_00025
Tob1_contig1	Prodigal:2.60	exon	35267	37444	.	-	.	ID=nbis_NEW-exon-3;Parent=nbis_nol2id-cds-3;locus_tag=Tob1_00025
Tob1_contig1	Prodigal:2.60	CDS	35267	37444	.	-	0	ID=Tob1_00025;Parent=nbis_nol2id-cds-3;locus_tag=Tob1_00025
Tob1_contig1	SignalP:4.1	sig_peptide	37420	37444	.	-	0	ID=sig_peptide-2;Parent=nbis_nol2id-cds-3;inference=ab initio prediction:SignalP:4.1;note=predicted cleavage at residue 25;product=putative signal peptide
Tob1_contig1	Prodigal:2.60	gene	38304	39338	.	-	0	ID=nbis_NEW-gene-4;locus_tag=Tob1_00026
Tob1_contig1	Prodigal:2.60	mRNA	38304	39338	.	-	0	ID=nbis_nol2id-cds-4;Parent=nbis_NEW-gene-4;locus_tag=Tob1_00026
Tob1_contig1	Prodigal:2.60	exon	38304	39338	.	-	.	ID=nbis_NEW-exon-4;Parent=nbis_nol2id-cds-4;locus_tag=Tob1_00026
Tob1_contig1	Prodigal:2.60	CDS	38304	39338	.	-	0	ID=Tob1_00026;Parent=nbis_nol2id-cds-4;locus_tag=Tob1_00026
example 9 - level2 feature missing (mRNA) and level3 features missing (UTRs)
See example 
##gff-version 3
#!gff-spec-version 1.14
#!source-version NCBI C++ formatter 0.2
##Type DNA NC_003070.9
NC_003070.9	RefSeq	source	1	30427671	.	+	.	organism=Arabidopsis thaliana;mol_type=genomic DNA;db_xref=taxon:3702;chromosome=1;ecotype=Columbia
NC_003070.9	RefSeq	gene	3631	5899	.	+	.	ID=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	exon	3631	3913	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010;
NC_003070.9	RefSeq	exon	3996	4276	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010;
NC_003070.9	RefSeq	exon	4486	4605	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010;
NC_003070.9	RefSeq	exon	4706	5095	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010;
NC_003070.9	RefSeq	exon	5174	5326	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010;
NC_003070.9	RefSeq	exon	5439	5899	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010;
NC_003070.9	RefSeq	CDS	3760	3913	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	CDS	3996	4276	.	+	2	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	CDS	4486	4605	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	CDS	4706	5095	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	CDS	5174	5326	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	CDS	5439	5627	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	start_codon	3760	3762	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;
NC_003070.9	RefSeq	stop_codon	5628	5630	.	+	0	ID=NM_099983.2;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010;

agat_convert_sp_gxf2gxf.pl --gff 8_test.gff

See result 
##gff-version 3
#!gff-spec-version 1.14
#!source-version NCBI C++ formatter 0.2
##Type DNA NC_003070.9
NC_003070.9	RefSeq	source	1	30427671	.	+	.	ID=source-1;chromosome=1;db_xref=taxon:3702;ecotype=Columbia;mol_type=genomic DNA;organism=Arabidopsis thaliana
NC_003070.9	RefSeq	gene	3631	5899	.	+	.	ID=nbis_NEW-gene-1;locus_tag=AT1G01010
NC_003070.9	RefSeq	mRNA	3631	5899	.	+	.	ID=NC_003070.9:NAC001;Parent=nbis_NEW-gene-1;locus_tag=AT1G01010
NC_003070.9	RefSeq	exon	3631	3913	.	+	.	ID=NM_099983.2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	exon	3996	4276	.	+	.	ID=nbis_NEW-exon-1;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	exon	4486	4605	.	+	.	ID=nbis_NEW-exon-2;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	exon	4706	5095	.	+	.	ID=nbis_NEW-exon-3;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	exon	5174	5326	.	+	.	ID=nbis_NEW-exon-4;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	exon	5439	5899	.	+	.	ID=nbis_NEW-exon-5;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	CDS	3760	3913	.	+	0	ID=nbis_NEW-cds-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	CDS	3996	4276	.	+	2	ID=nbis_NEW-cds-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	CDS	4486	4605	.	+	0	ID=nbis_NEW-cds-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	CDS	4706	5095	.	+	0	ID=nbis_NEW-cds-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	CDS	5174	5326	.	+	0	ID=nbis_NEW-cds-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	CDS	5439	5627	.	+	0	ID=nbis_NEW-cds-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	five_prime_UTR	3631	3759	.	+	.	ID=nbis_NEW-five_prime_utr-1;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
NC_003070.9	RefSeq	start_codon	3760	3762	.	+	0	ID=nbis_NEW-start_codon-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	stop_codon	5628	5630	.	+	0	ID=nbis_NEW-stop_codon-1;Parent=NC_003070.9:NAC001;locus_tag=AT1G01010
NC_003070.9	RefSeq	three_prime_UTR	5628	5899	.	+	.	ID=nbis_NEW-three_prime_utr-1;Parent=NC_003070.9:NAC001;gbkey=mRNA;locus_tag=AT1G01010
example 18 - related features spread within the file
See example 
##gff-version 3
scaffold625	maker	gene	337818	343277	.	+	.	ID=CLUHARG00000005458;Name=TUBB3_2
scaffold625	maker	mRNA	337818	343277	.	+	.	ID=CLUHART00000008717;Parent=CLUHARG00000005458
scaffold625	maker	exon	337818	337971	.	+	.	ID=CLUHART00000008717:exon:1404;Parent=CLUHART00000008717
scaffold625	maker	exon	340733	340841	.	+	.	ID=CLUHART00000008717:exon:1405;Parent=CLUHART00000008717
scaffold789	maker	three_prime_UTR	564589	564780	.	+	.	ID=CLUHART00000006146:three_prime_utr;Parent=CLUHART00000006146
scaffold789	maker	mRNA	558184	564780	.	+	.	ID=CLUHART00000006147;Parent=CLUHARG00000003852
scaffold625	maker	CDS	337915	337971	.	+	0	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	CDS	340733	340841	.	+	0	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	CDS	341518	341628	.	+	2	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	CDS	341964	343033	.	+	2	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	five_prime_UTR	337818	337914	.	+	.	ID=CLUHART00000008717:five_prime_utr;Parent=CLUHART00000008717
scaffold625	maker	three_prime_UTR	343034	343277	.	+	.	ID=CLUHART00000008717:three_prime_utr;Parent=CLUHART00000008717
scaffold789	maker	gene	558184	564780	.	+	.	ID=CLUHARG00000003852;Name=PF11_0240
scaffold789	maker	mRNA	558184	564780	.	+	.	ID=CLUHART00000006146;Parent=CLUHARG00000003852
scaffold789	maker	exon	558184	560123	.	+	.	ID=CLUHART00000006146:exon:995;Parent=CLUHART00000006146
scaffold789	maker	exon	561401	561519	.	+	.	ID=CLUHART00000006146:exon:996;Parent=CLUHART00000006146
scaffold789	maker	exon	564171	564235	.	+	.	ID=CLUHART00000006146:exon:997;Parent=CLUHART00000006146
scaffold789	maker	exon	564372	564780	.	+	.	ID=CLUHART00000006146:exon:998;Parent=CLUHART00000006146
scaffold789	maker	CDS	558191	560123	.	+	0	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	CDS	561401	561519	.	+	2	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold625	maker	exon	341518	341628	.	+	.	ID=CLUHART00000008717:exon:1406;Parent=CLUHART00000008717
scaffold625	maker	exon	341964	343277	.	+	.	ID=CLUHART00000008717:exon:1407;Parent=CLUHART00000008717
scaffold789	maker	CDS	564171	564235	.	+	0	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	CDS	564372	564588	.	+	1	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	five_prime_UTR	558184	558190	.	+	.	ID=CLUHART00000006146:five_prime_utr;Parent=CLUHART00000006146
scaffold789	maker	exon	558184	560123	.	+	.	ID=CLUHART00000006147:exon:997;Parent=CLUHART00000006147
scaffold789	maker	exon	561401	561519	.	+	.	ID=CLUHART00000006147:exon:998;Parent=CLUHART00000006147
scaffold789	maker	exon	562057	562121	.	+	.	ID=CLUHART00000006147:exon:999;Parent=CLUHART00000006147
scaffold789	maker	exon	564372	564780	.	+	.	ID=CLUHART00000006147:exon:1000;Parent=CLUHART00000006147
scaffold789	maker	CDS	558191	560123	.	+	0	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	CDS	561401	561519	.	+	2	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	CDS	562057	562121	.	+	0	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	CDS	564372	564588	.	+	1	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	five_prime_UTR	558184	558190	.	+	.	ID=CLUHART00000006147:five_prime_utr;Parent=CLUHART00000006147
scaffold789	maker	three_prime_UTR	564589	564780	.	+	.	ID=CLUHART00000006147:three_prime_utr;Parent=CLUHART00000006147

agat_convert_sp_gxf2gxf.pl --gff 18_test.gff

See result 
##gff-version 3
scaffold625	maker	gene	337818	343277	.	+	.	ID=CLUHARG00000005458;Name=TUBB3_2
scaffold625	maker	mRNA	337818	343277	.	+	.	ID=CLUHART00000008717;Parent=CLUHARG00000005458
scaffold625	maker	exon	337818	337971	.	+	.	ID=CLUHART00000008717:exon:1404;Parent=CLUHART00000008717
scaffold625	maker	exon	340733	340841	.	+	.	ID=CLUHART00000008717:exon:1405;Parent=CLUHART00000008717
scaffold625	maker	exon	341518	341628	.	+	.	ID=CLUHART00000008717:exon:1406;Parent=CLUHART00000008717
scaffold625	maker	exon	341964	343277	.	+	.	ID=CLUHART00000008717:exon:1407;Parent=CLUHART00000008717
scaffold625	maker	CDS	337915	337971	.	+	0	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	CDS	340733	340841	.	+	0	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	CDS	341518	341628	.	+	2	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	CDS	341964	343033	.	+	2	ID=CLUHART00000008717:cds;Parent=CLUHART00000008717
scaffold625	maker	five_prime_UTR	337818	337914	.	+	.	ID=CLUHART00000008717:five_prime_utr;Parent=CLUHART00000008717
scaffold625	maker	three_prime_UTR	343034	343277	.	+	.	ID=CLUHART00000008717:three_prime_utr;Parent=CLUHART00000008717
scaffold789	maker	gene	558184	564780	.	+	.	ID=CLUHARG00000003852;Name=PF11_0240
scaffold789	maker	mRNA	558184	564780	.	+	.	ID=CLUHART00000006146;Parent=CLUHARG00000003852
scaffold789	maker	exon	558184	560123	.	+	.	ID=CLUHART00000006146:exon:995;Parent=CLUHART00000006146
scaffold789	maker	exon	561401	561519	.	+	.	ID=CLUHART00000006146:exon:996;Parent=CLUHART00000006146
scaffold789	maker	exon	564171	564235	.	+	.	ID=CLUHART00000006146:exon:997;Parent=CLUHART00000006146
scaffold789	maker	exon	564372	564780	.	+	.	ID=CLUHART00000006146:exon:998;Parent=CLUHART00000006146
scaffold789	maker	CDS	558191	560123	.	+	0	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	CDS	561401	561519	.	+	2	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	CDS	564171	564235	.	+	0	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	CDS	564372	564588	.	+	1	ID=CLUHART00000006146:cds;Parent=CLUHART00000006146
scaffold789	maker	five_prime_UTR	558184	558190	.	+	.	ID=CLUHART00000006146:five_prime_utr;Parent=CLUHART00000006146
scaffold789	maker	three_prime_UTR	564589	564780	.	+	.	ID=CLUHART00000006146:three_prime_utr;Parent=CLUHART00000006146
scaffold789	maker	mRNA	558184	564780	.	+	.	ID=CLUHART00000006147;Parent=CLUHARG00000003852
scaffold789	maker	exon	558184	560123	.	+	.	ID=CLUHART00000006147:exon:997;Parent=CLUHART00000006147
scaffold789	maker	exon	561401	561519	.	+	.	ID=CLUHART00000006147:exon:998;Parent=CLUHART00000006147
scaffold789	maker	exon	562057	562121	.	+	.	ID=CLUHART00000006147:exon:999;Parent=CLUHART00000006147
scaffold789	maker	exon	564372	564780	.	+	.	ID=CLUHART00000006147:exon:1000;Parent=CLUHART00000006147
scaffold789	maker	CDS	558191	560123	.	+	0	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	CDS	561401	561519	.	+	2	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	CDS	562057	562121	.	+	0	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	CDS	564372	564588	.	+	1	ID=CLUHART00000006147:cds;Parent=CLUHART00000006147
scaffold789	maker	five_prime_UTR	558184	558190	.	+	.	ID=CLUHART00000006147:five_prime_utr;Parent=CLUHART00000006147
scaffold789	maker	three_prime_UTR	564589	564780	.	+	.	ID=CLUHART00000006147:three_prime_utr;Parent=CLUHART00000006147

How to cite?

This work has not been published (I will think about it) but you can cite it as follow:

Dainat J. 2022. Another Gtf/Gff Analysis Toolkit (AGAT): Resolve interoperability issues and accomplish more with your annotations. Plant and Animal Genome XXIX Conference. https://github.com/NBISweden/AGAT.

or/and (Adapt the AGAT version to the one you used):

Dainat J. AGAT: Another Gff Analysis Toolkit to handle annotations in any GTF/GFF format.  
(Version v1.4.1). Zenodo. https://www.doi.org/10.5281/zenodo.3552717

Publication using AGAT

See here for examples of publications using AGAT.

Troubleshooting

See Troubleshooting section form the doc here.