Mercurial > repos > iuc > ragtag
diff ragtag.xml @ 0:a04e64efa43a draft
"planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/ragtag commit 4c4b2a548b4ce46da88810992459b3ac8581d035"
| author | iuc |
|---|---|
| date | Wed, 10 Nov 2021 23:33:13 +0000 |
| parents | |
| children | d110a4141898 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/ragtag.xml Wed Nov 10 23:33:13 2021 +0000 @@ -0,0 +1,543 @@ +<tool id='ragtag' name='RagTag' version='@TOOL_VERSION@+galaxy@VERSION_SUFFIX@' profile='20.01'> + <description>reference-guided scaffolding of draft genomes</description> + <macros> + <import>macros.xml</import> + </macros> + <expand macro='xrefs' /> + <expand macro='requirements' /> + <command detect_errors='exit_code'><![CDATA[ + #if $mode_conditional.mode_option != 'merge' + #if $mode_conditional.advanced_options.mapping_conditional.mapping_option == 'nucmer' + #set $nucmer_params = '%s -l %s -c %s' % ($mode_conditional.advanced_options.mapping_conditional.anchor_mode, + $mode_conditional.advanced_options.mapping_conditional.l, + $mode_conditional.advanced_options.mapping_conditional.c) + #end if + #end if + #if $mode_conditional.mode_option == 'merge' + #set $input_files = list() + mkdir merge_files && + #for $i, $j in enumerate($mode_conditional.scaffold_files) + #set $out_file = './merge_files/scaffold_%s.agp' % $i + ln -s '${j}' $out_file && + $input_files.append($out_file) + #end for + #set $merge_files = " ".join($input_files) + #end if + ragtag.py $mode_conditional.mode_option -u + #if $mode_conditional.mode_option == 'correct' + @INPUTS@ + @COMMON_PARAMETERS@ + #if $mode_conditional.validation_conditional.validation_option == 'true' + -R '${mode_conditional.validation_conditional.R}' + -T $mode_conditional.validation_conditional.read_type + -v $mode_conditional.validation_conditional.v + #if $mode_conditional.validation_conditional.max_cov + --max-cov $mode_conditional.validation_conditional.max_cov + #end if + #if $mode_conditional.validation_conditional.min_cov + --min-cov $mode_conditional.validation_conditional.min_cov + #end if + #end if + -b $mode_conditional.advanced_options.b + #if $mode_conditional.advanced_options.missasembly_break + $mode_conditional.advanced_options.missasembly_break + #end if + #if $mode_conditional.advanced_options.gff + --gff '${mode_conditional.advanced_options.gff}' + #end if + --read-aligner 'minimap2' ## it is the only allowed + #else if $mode_conditional.mode_option == 'scaffold' + @INPUTS@ + @COMMON_PARAMETERS@ + -i $mode_conditional.advanced_options.i + -a $mode_conditional.advanced_options.a + -s $mode_conditional.advanced_options.s + #if $mode_conditional.advanced_options.gap_conditional.gap_option == 'true' + -r + -g '${mode_conditional.advanced_options.gap_conditional.g}' + -m '${mode_conditional.advanced_options.gap_conditional.m}' + #end if + #if $mode_conditional.advanced_options.unplaced_conditional.unplaced_option == 'true' + -C + #if $mode_conditional.advanced_options.unplaced_conditional.J + -J '${mode_conditional.advanced_options.unplaced_conditional.J}' + #end if + #end if + #else if $mode_conditional.mode_option == 'patch' + @INPUTS@ + @COMMON_PARAMETERS@ + -s $mode_conditional.advanced_options.s + -i $mode_conditional.advanced_options.i + #if $mode_conditional.advanced_options.patching_mode + $mode_conditional.advanced_options.patching_mode + #end if + #else + $assembly_fasta + #if $mode_conditional.scaffold_files + $merge_files + #end if + #if $mode_conditional.merging_options.j + -j $mode_conditional.merging_options.j + #end if + -l $mode_conditional.merging_options.l + -e $mode_conditional.merging_options.e + --gap-func $mode_conditional.merging_options.function_merging + #if $mode_conditional.hic_options.b + -b $mode_conditional.hic_options.b + -r $mode_conditional.hic_options.r + -p $mode_conditional.hic_options.p + #end if + #end if + -o ./ + #if $mode_conditional.mode_option != 'merge' + -t \${GALAXY_SLOTS:-2} + #end if + #if $mode_conditional.mode_option == 'patch' + && mv ragtag.patch.asm.paf.log ragtag.patch.log + #end if + ]]> </command> + <inputs> + <conditional name="mode_conditional"> + <param name="mode_option" type="select" label="Operation mode"> + <option value="correct">Correct: homology-based missasembly correction</option> + <option value="scaffold">Scaffold: homology-based assebly scaffolding</option> + <option value="patch">Patch: homology-based assembly patching</option> + <option value="merge">Merge: scaffolding merging</option> + </param> + <when value="correct"> + <expand macro="input_options"/> + <conditional name="validation_conditional"> + <param name="validation_option" type="select" label="Use validation reads"> + <option value="true">Enabled</option> + <option value="false" selected="true">Disabled</option> + </param> + <when value="true"> + <param argument="-R" type="data" format="fastq,fastqsanger" label="Validation reads" + help="Without validation, the module will break at any point of reference discordance as defined by the 'correction options'. + With validation, RagTag maps reads to the query assembly and verifies putative break points if they are near regions of + exceptionally low or high coverage. The reads used for validation should come from the same genotype as the query + assembly to ensure that coverage abnormalities don't arise from true biological variation" /> + <param name="read_type" type="select" label="Read type"> + <option value="sr">Illumina</option> + <option value="ont">Nanopore</option> + <option value="corr">Error corrected long-reads</option> + </param> + <param argument="-v" type="integer" min="0" value="10000" label="Coverage validation window size" + help="This parameter specifies the window around the putative misassembly break point that RagTag examines + for exceptionally low or high read coverage. The larger this window size, the more likely + it is to find an unrelated coverage abnormality"/> + <param argument="--max-cov" type="integer" min="0" value="" optional="true" label="Break sequences at regions at or above this coverage level"/> + <param argument="--min-cov" type="integer" min="0" value="" optional="true" label="Break sequences at regions at or below this coverage level"/> + </when> + <when value="false"/> + </conditional> + <section name="advanced_options" title="Advanced options"> + <expand macro="common_parameters"/> + <param argument="-b" type="integer" min="0" value="5000" label="Minimum break distance from contig ends" + help="Breaks will not be made within -b bp of query sequence termini"/> + <param name="missasembly_break" type="select" optional="true" label="Break misassebly option" + help="One can also direct RagTag to only break misassemblies between (--inter, query maps to >1 reference sequence) or within + (--intra, query maps discordantly to 1 reference sequence) reference sequences"> + <option value="--inter">Only break misassemblies between reference sequences (--inter)</option> + <option value="--intra">Only break missasemblies within reference sequences (--intra)</option> + </param> + <param argument="--gff" type="data" format="gff" optional="true" label="Don't break sequences within GFF intervals" + help=" If one has annotations associated with the query assembly, provide them with the --gff option to ensure that the query assembly + is never broken within annotation intervals. "/> + </section> + <param name="output_correct" type="select" multiple="true" label="Output files"> + <option value="fasta" selected="true">The corrected query assembly in FASTA format</option> + <option value="agp" selected="true">The AGP file defining the exact coordinates of query sequence breaks</option> + <option value="paf">The description of the approximate mapping positions between two set of sequences in PAF format</option> + <option value="log">Log file</option> + </param> + </when> + <when value="scaffold"> + <expand macro="input_options"/> + <section name="advanced_options" title="advanced options"> + <expand macro="common_parameters"/> + <param argument="-i" type="float" min="0" max="1" value="0.2" label="Minimum grouping confidence score" + help="The grouping confidence score is the number of base pairs a contig covered in its assigned reference chromosome + divided by the total number of covered base pairs in the entire reference genome"/> + <param argument="-a" type="float" min="0" max="1" value="0" label="Minimum location confidence score" + help="To create a metric associated with contig ordering confidence, Ragtag define a location confidence. First, the smallest + and largest alignment positions, with respect to the reference, between a contig and its assigned reference chromosome are found. + The location confidence is then calculated as the number of covered base pairs in this range divided by the total number of + base pairs in the range"/> + <param argument="-s" type="float" min="0" max="1" value="0" label="Minimum orientation confidence score" + help="To calculate the orientation confidence, each base pair in each alignment between a contig and its assigned reference chromosome + casts a vote for the orientation of its alignment. The orientation confidence is the number of votes for the assigned orientation of + the contig divided by the total number of votes"/> + <conditional name="gap_conditional"> + <param name="gap_option" type="select" label="Infer gap sizes" help="When disabled, all gaps are 100 bp (-r)"> + <option value="true" selected="true">Enabled</option> + <option value="false">Disabled</option> + </param> + <when value="true"> + <param argument="-g" type="integer" min="0" value="100" label="Minimum infered gap size" /> + <param argument="-m" type="integer" min="0" value="100000" label="Maximum inferred gap size"/> + </when> + <when value="false"/> + </conditional> + <conditional name="unplaced_conditional"> + <param name="unplaced_option" type="select" label="Concatenate unplaced contigs and make 'chr0' (-C)"> + <option value="true">Enabled</option> + <option value="false" selected="true">Disabled</option> + </param> + <when value="true"> + <param argument="-J" type="data" format="txt" optional="true" label="List of query headers to leave unplaceds and exclude form 'chr0'"/> + </when> + <when value="false"/> + </conditional> + </section> + <param name="output_scaffold" type="select" multiple="true" label="Output files"> + <option value="fasta" selected="true">The scaffolds in FASTA format, defined by the ordering and orientations of the sequences containted in the AGP file</option> + <option value="agp" selected="true">The ordering and orientations of query sequences in AGP format</option> + <option value="paf">The description of the approximate mapping positions between two set of sequences in PAF format</option> + <option value="confidence">Confidence score values</option> + <option value="stats">Summary statistics for the scaffolding process</option> + <option value="log">Log file</option> + </param> + </when> + <when value="patch"> + <expand macro="input_options"/> + <section name="advanced_options" title="advanced options"> + <expand macro="common_parameters"/> + <param argument="-s" type="integer" min="0" value="50000" label="Minimum merged alignment length" + help="After merging, alignments less than -s bp long will be removed"/> + <param argument="-i" type="float" min="0" max="1" value="0.05" label="Maximum merged alignment distance" + help="Maximum merged alignment distance from sequence terminus as fraction of the sequence length. Alignments must + be within -i bp of a target sequence terminus or gap to be considered for patchin "/> + <param name="patching_mode" type="select" optional="true" label="Patching mode"> + <option value="--fill-only">Only fill existing target gaps. Do not join target sequences</option> + <option value="--join_only">Only join and patch target sequences. DO not fill existing gaps</option> + </param> + </section> + <param name="output_patch" type="select" multiple="true" label="Output files"> + <option value="final_fasta" selected="true">The final FASTA file containing the patched assembly</option> + <option value="final_agp" selected="true">The final AGP file defining how final FASTA is built</option> + <option value="assembly_file" selected="true">Assembly alignment files</option> + <option value="split_assembly">The split target assembly and the renamed query assembly combined into one FASTA file</option> + <option value="split_description">An AGP file defining how the target assembly was split at gaps</option> + <option value="target_gaps">The target assembly split at gaps</option> + <option value="agp_renamed">An AGP file defining the new names for query sequences</option> + <option value="fasta_renamed">A FASTA file with the original query sequence, but with new names</option> + <option value="log">Log file</option> + </param> + </when> + <when value="merge"> + <param name="assembly_fasta" type="data" format="fasta" label="Assembly FASTA file"/> + <param name="scaffold_files" type="data" format="agp" multiple="true" optional="true" label="Scaffold AGP files"/> + <section name="merging_options" title="Merging options"> + <param argument="-j" type="data" format="txt" optional="true" label="List of query headers to leave unplaced"/> + <param argument="-l" type="integer" min="0" value="100000" label="Minimum assembly sequence length" + help="Assembly sequences shorter than -l will also be left unplaced."/> + <param argument="-e" type="float" min="0" value="0" label="Minimum edge weight" + help="The edges in the merging graph represent scaffolding adjacencies. If an AGP file supports a particular adjacency, + its weight is added to the edge weight. Any edges with a weight lower than the minimum edge weigth will be removed from the graph"/> + <param name="function_merging" type="select" label="Function for merging gap lengths" + help="Scaffold gaps can differ between input AGP files. For example, a Hi-C derived AGP file might place 100 bp gaps between sequences + while a reference-guided AGP file might infer gap sizes based on a reference genome. Use this parameter to specify how gap sizes + should be computed from the supporting AGP files (--gap-func)"> + <option value="min" selected="true">Min</option> + <option value="max">Max</option> + <option value="mean">Mean</option> + </param> + </section> + <section name="hic_options" title="HI-C options"> + <param argument="-b" type="data" format="bam" optional="true" label="Hi-C alignments" help="Sorted by read name"/> + <param argument="-r" type="text" value="" optional="true" label="Restriction enzymes/sites or 'DNase'" help="List of restrction enzimes/sites or 'DNase', separated by comma. E.g. GATC,GACC"> + <sanitizer invalid_char=""> + <valid initial="string.letters,string.digits"> + <add value="," /> + <add value="[" /> + <add value="]" /> + </valid> + </sanitizer> + <validator type="regex">[0-9a-zA-Z,\]\[]+</validator> + </param> + <param argument="-p" type="float" min="0" max="1" value="1" optional="true" label="Portion of the sequence termini to consider for links"/> + </section> + </when> + </conditional> + </inputs> + <outputs> + <!--Correct mode outputs--> + <data format="paf" name="correct_paf" from_work_dir="ragtag.correct.asm.paf" label="${tool.name} on ${on_string}: PAF"> + <filter>mode_conditional["mode_option"] == "correct" and "paf" in mode_conditional["output_correct"]</filter> + </data> + <data format="agp" name="correct_agp" from_work_dir="ragtag.correct.agp" label="${tool.name} on ${on_string}: AGP"> + <filter>mode_conditional["mode_option"] == "correct" and "agp" in mode_conditional["output_correct"]</filter> + </data> + <data format="fasta" name="correct_fasta" from_work_dir="ragtag.correct.fasta" label="${tool.name} on ${on_string}: FASTA"> + <filter>mode_conditional["mode_option"] == "correct" and "fasta" in mode_conditional["output_correct"]</filter> + </data> + <data format="txt" name="correct_log" from_work_dir="ragtag.correct.asm.paf.log" label="${tool.name} on ${on_string}: log"> + <filter>mode_conditional["mode_option"] == "correct" and "log" in mode_conditional["output_correct"]</filter> + </data> + <!--Scaffold mode outputs--> + <data format="paf" name="scaffold_paf" from_work_dir="ragtag.scaffold.asm.paf" label="${tool.name} on ${on_string}: PAF"> + <filter>mode_conditional["mode_option"] == "scaffold" and "paf" in mode_conditional["output_scaffold"]</filter> + </data> + <data format="agp" name="scaffold_agp" from_work_dir="ragtag.scaffold.agp" label="${tool.name} on ${on_string}: AGP"> + <filter>mode_conditional["mode_option"] == "scaffold" and "agp" in mode_conditional["output_scaffold"]</filter> + </data> + <data format="fasta" name="scaffold_fasta" from_work_dir="ragtag.scaffold.fasta" label="${tool.name} on ${on_string}: FASTA"> + <filter>mode_conditional["mode_option"] == "scaffold" and "fasta" in mode_conditional["output_scaffold"]</filter> + </data> + <data format="txt" name="scaffold_log" from_work_dir="ragtag.scaffold.asm.paf.log" label="${tool.name} on ${on_string}: log"> + <filter>mode_conditional["mode_option"] == "scaffold" and "log" in mode_conditional["output_scaffold"]</filter> + </data> + <data format="tabular" name="scaffold_stats" from_work_dir="ragtag.scaffold.stats" label="${tool.name} on ${on_string}: stats"> + <filter>mode_conditional["mode_option"] == "scaffold" and "stats" in mode_conditional["output_scaffold"]</filter> + </data> + <data format="tabular" name="scaffold_confidence" from_work_dir="ragtag.scaffold.confidence.txt" label="${tool.name} on ${on_string}: confidence"> + <filter>mode_conditional["mode_option"] == "scaffold" and "confidence" in mode_conditional["output_scaffold"]</filter> + </data> + <!--Patch mode outputs--> + <data format="agp" name="patch_agp" from_work_dir="ragtag.patch.agp" label="${tool.name} on ${on_string}: final AGP"> + <filter>mode_conditional["mode_option"] == "patch" and "final_agp" in mode_conditional["output_patch"]</filter> + </data> + <data format="paf" name="patch_paf" from_work_dir="ragtag.patch.asm.paf" label="${tool.name} on ${on_string}: final PAF"> + <filter>mode_conditional["mode_option"] == "patch" and "assembly_file" in mode_conditional["output_patch"]</filter> + </data> + <data format="txt" name="patch_log" from_work_dir="ragtag.patch.log" label="${tool.name} on ${on_string}: log"> + <filter>mode_conditional["mode_option"] == "patch" and "log" in mode_conditional["output_patch"]</filter> + </data> + <data format="fasta" name="patch_comps_fasta" from_work_dir="ragtag.patch.comps.fasta" label="${tool.name} on ${on_string}: components FASTA"> + <filter>mode_conditional["mode_option"] == "patch" and "split_assembly" in mode_conditional["output_patch"]</filter> + </data> + <data format="agp" name="patch_ctg_agp" from_work_dir="ragtag.patch.ctg.agp" label="${tool.name} on ${on_string}: contigs AGP"> + <filter>mode_conditional["mode_option"] == "patch" and "split_description" in mode_conditional["output_patch"]</filter> + </data> + <data format="fasta" name="patch_ctg_fasta" from_work_dir="ragtag.patch.ctg.fasta" label="${tool.name} on ${on_string}: contigs FASTA"> + <filter>mode_conditional["mode_option"] == "patch" and "target_gaps" in mode_conditional["output_patch"]</filter> + </data> + <data format="fasta" name="patch_fasta" from_work_dir="ragtag.patch.fasta" label="${tool.name} on ${on_string}: final FASTA"> + <filter>mode_conditional["mode_option"] == "patch" and "final_fasta" in mode_conditional["output_patch"]</filter> + </data> + <data format="agp" name="patch_rename_agp" from_work_dir="ragtag.patch.rename.agp" label="${tool.name} on ${on_string}: renamed AGP"> + <filter>mode_conditional["mode_option"] == "patch" and "agp_renamed" in mode_conditional["output_patch"]</filter> + </data> + <data format="fasta" name="patch_rename_fasta" from_work_dir="ragtag.patch.rename.fasta" label="${tool.name} on ${on_string}: renamed FASTA"> + <filter>mode_conditional["mode_option"] == "patch" and "fasta_renamed" in mode_conditional["output_patch"]</filter> + </data> + <!-- Merge mode outputs--> + <data format="agp" name="merge_agp" from_work_dir="ragtag.merge.agp" label="${tool.name} on ${on_string}: merged AGP"> + <filter>mode_conditional["mode_option"] == "merge"</filter> + </data> + <data format="fasta" name="merge_fasta" from_work_dir="ragtag.merge.fasta" label="${tool.name} on ${on_string}: merged FASTA"> + <filter>mode_conditional["mode_option"] == "merge"</filter> + </data> + </outputs> + <tests> + <test expect_num_outputs="4"> + <!--Test 01 correct mode minimap2--> + <conditional name="mode_conditional"> + <param name="mode_option" value="correct"/> + <param name="reference" value="genome.fna"/> + <param name="query" value="contigs.fna"/> + <param name="output_correct" value="fasta,agp,paf,log"/> + <section name="advanced_options"> + <param name="e" value="reference_headers_skip.txt"/> + <param name="j" value="query_headers_skip.txt"/> + <param name="f" value="1000"/> + <conditional name="mapping_conditional"> + <param name="mapping_option" value="minimap2"/> + <param name="mm2_params" value="asm5"/> + </conditional> + <param name="remove_small" value="false"/> + <param name="q" value="10"/> + <param name="d" value="100000"/> + <param name="b" value="5000"/> + <param name="missasembly_break" value="--inter"/> + <param name="gff" value="annotation.gff"/> + </section> + </conditional> + <output name="correct_paf" file="correct_paf_01.paf" ftype="paf"/> + <output name="correct_agp" file="correct_agp_01.agp" ftype="agp"/> + <output name="correct_fasta" file="correct_fasta_01.fasta" ftype="fasta"/> + <output name="correct_log" file="correct_log_01.txt" ftype="txt" lines_diff="20"/> + </test> + <!--Test 02 correct mode nucmer--> + <test expect_num_outputs="2"> + <conditional name="mode_conditional"> + <param name="mode_option" value="correct"/> + <param name="reference" value="genome.fna"/> + <param name="query" value="contigs.fna"/> + <param name="output_correct" value="fasta,agp"/> + <section name="advanced_options"> + <param name="f" value="1000"/> + <conditional name="mapping_conditional"> + <param name="mapping_option" value="nucmer"/> + </conditional> + <param name="remove_small" value="true"/> + <param name="q" value="10"/> + <param name="d" value="100000"/> + <param name="b" value="5000"/> + <param name="missasembly_break" value="--inter"/> + </section> + </conditional> + <output name="correct_fasta" file="correct_fasta_02.fasta" ftype="fasta"/> + <output name="correct_agp" file="correct_agp_02.agp" ftype="agp"/> + + </test> + <!--Test 03 scaffold mode--> + <test expect_num_outputs="6"> + <conditional name="mode_conditional"> + <param name="mode_option" value="scaffold"/> + <param name="reference" value="genome.fna"/> + <param name="query" value="contigs.fna"/> + <param name="output_scaffold" value="fasta,agp,paf,confidence,log,stats"/> + <section name="advanced_options"> + <param name="f" value="1000"/> + <param name="remove_small" value="true"/> + <param name="q" value="10"/> + <param name="d" value="100000"/> + <param name="i" value="0.2"/> + <param name="a" value="0"/> + <param name="s" value="0"/> + </section> + </conditional> + <output name="scaffold_paf" file="scaffold_paf_03.paf" ftype="paf"/> + <output name="scaffold_agp" file="scaffold_apg.03.agp" ftype="agp"/> + <output name="scaffold_fasta" file="scaffold_fasta_03.fasta" ftype="fasta"/> + <output name="scaffold_log" file="scaffold_log_03.txt" ftype="txt" lines_diff="20"/> + <output name="scaffold_stats" file="scaffold_stats_03.tabular" ftype="tabular"/> + <output name="scaffold_confidence" file="scaffold_confidence_03.tabular" ftype="tabular"/> + </test> + <!--Test 04 patch mode--> + <test expect_num_outputs="9"> + <conditional name="mode_conditional"> + <param name="mode_option" value="patch"/> + <param name="reference" value="genome.fna"/> + <param name="query" value="contigs.fna"/> + <param name="output_patch" value="final_fasta,final_agp,assembly_file,split_assembly,split_description,target_gaps,agp_renamed,fasta_renamed,log"/> + <section name="advanced_options"> + <param name="s" value="50000"/> + <param name="i" value="0.05"/> + </section> + </conditional> + <output name="patch_agp" file="patch_agp_04.agp" ftype="agp"/> + <output name="patch_paf" file="patch_paf_04.paf" ftype="paf"/> + <output name="patch_log" file="patch_log_04.txt" ftype="txt" lines_diff="20"/> + <output name="patch_comps_fasta" ftype="fasta"> + <assert_contents> + <has_size value="603691" delta="100" /> + </assert_contents> + </output> + <output name="patch_ctg_fasta" file="patch_ctg_fasta_04.fasta" ftype="fasta"/> + <output name="patch_ctg_agp" file="patch_ctg_fasta_04.agp" ftype="agp"/> + <output name="patch_fasta" file="patch_fasta_04.fasta" ftype="fasta"/> + <output name="patch_rename_agp" file="patch_rename_agp.agp" ftype="agp"/> + <output name="patch_rename_fasta" file="patch_rename_fasta.fasta" ftype="fasta"/> + </test> + <test expect_num_outputs="2"> + <!-- Test 05 merge mode--> + <conditional name="mode_conditional"> + <param name="mode_option" value="merge"/> + <param name="assembly_fasta" value="correct_fasta_01.fasta"/> + <param name="scaffold_files" value="correct_agp_01.agp,correct_agp_02.agp"/> + <section name="merging_options"> + <param name="l" value="100000"/> + <param name="e" value="0"/> + <param name="function_merging" value="min"/> + </section> + </conditional> + <output name="merge_agp" file="merge_agp_05.agp" ftype="agp"/> + <output name="merge_fasta" file="merge_fasta_05.fasta" ftype="fasta"/> + </test> + </tests> + <help><![CDATA[ +.. class:: infomark + +**Purpose** + +RagTag is a collection of software tools for scaffolding and improving modern genome assemblies. Tasks include: + +- Homology-based misassembly correction +- Homology-based assembly scaffolding and patching +- Scaffold merging + +---- + +.. class:: infomark + +**Correct mode** + +RagTag offers a correction module that uses a reference genome to identify and correct potential misassemblies in a query assembly. +RagTag also provides the option to verify putative misassemblies by aligning reads (from the same genotype) to the query assembly +and observing read coverage near misassembly break points. In all cases, sequence is never added or subtracted. Query sequences +are only broken at points of putative misassembly. + +*Misassemblies vs true variation* + +Reference-guided misassembly signatures are sometimes caused by true biological structural variation if the reference and query assemblies +represent distinct genotypes (or haplotypes). The read validation feature should help to avoid some of these misassembly false positives, +and the validation sensitivity can be tuned with command line parameters. However, it is ultimately up to the discretion of the user to decide +if misassembly correction is appropriate. One should validate all RagTag results with independent data (usually physical, optical, or genetic +maps), when possible. + +---- + +.. class:: infomark + +**Scaffold mode** + +Scaffolding is the process of ordering and orienting draft assembly (query) sequences into longer sequences. Gaps (stretches of "N" characters) +are placed between adjacent query sequences to indicate the presence of unknown sequence. RagTag uses whole-genome alignments to a reference +assembly to scaffold query sequences. RagTag does not alter input query sequence in any way and only orders and orients sequences, joining them with gaps. + +---- + +.. class:: infomark + +**Patch mode** + +This mode uses one genome assembly to *patch* another genome assembly. We define two types of patches: + +- Fills are patches that fill assembly gaps. This process is like traditional gap-filling, though it uses an assembly instead of WGS sequencing reads. +- Joins are patches that join distinct contigs. This is essentially scaffolding and gap-filling in a single step. + +---- + +.. class:: infomark + +**Merge mode** + +Draft genome assemblies are often scaffolded multiple times using different approaches. For example, one might scaffold an assembly using different genome +maps (physical, linkage, Hi-C, etc.), different methods, or different method parameters. RagTag merge is a tool to merge and reconcile different scaffoldings +of the same assembly. In this way, one can leverage the advantages of multiple techniques to synergistically improve scaffolding. + +Most tools write scaffolding results in the AGP file format, which encodes adjacency and gap information in a plain text file. To run RagTag merge, +one must supply the assembly in FASTA format and at least two AGP files that define a scaffolding of the assembly. Each AGP file can optionally be +assigned a weight, allowing users to assign the relative influence of each AGP on the final result. + +If available, users can supply Hi-C alignments to the draft assembly to resolve conflicts in the merging graph. In this scenario, the input AGP +files are used to build the initial graph, but then Hi-C alignments are used to re-weight the graph before computing the scaffolding solution. + + +**List of accepted restriction enzymes** + +List of all accepted restriction enzymes and their restriction sites: + + - HindIII: AAGCTT + - Sau3AI: GATC + - MboI: GATC + - DpnII: GATC + - HinfI: GA[ATCG]TC + - DdeI: CT[ATCG]AG + - MseI: TTAA + +For RagTag, use a comma separated list of enzymes or sites (or a mix). For example: + + - Arima Hi-C v1.0: *Sau3AI,HinfI* or *GATC,GA[ATCG]TC* + - Arima Hi-C v2.0: *Sau3AI,HinfI,DdeI,MseI* or *GATC,GA[ATCG]TC,CT[ATCG]AG,TTAA* + + Note that for restriction sites, wildcards are represented with python regex syntax, not IUPAC ambiguity codes. e.g. '[ATCG]' instead of 'N'. + +Restriction enzymes are not necessarily the enzyme used for sample prep. Each is only a enzyme that cuts at the corresponding restriction site. + + ]]> </help> + <expand macro="citations" /> +</tool> \ No newline at end of file