Mercurial > repos > dereeper > pangenome_explorer
diff Perl/get_data.pl @ 3:e42d30da7a74 draft
Uploaded
| author | dereeper |
|---|---|
| date | Thu, 30 May 2024 11:52:25 +0000 |
| parents | |
| children |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/Perl/get_data.pl Thu May 30 11:52:25 2024 +0000 @@ -0,0 +1,316 @@ +#!/usr/bin/perl + +use strict; + +use YAML qw(LoadFile); +use Data::Dumper qw(Dumper); +use File::Basename; +my $dirname = dirname(__FILE__); + + +my %continents; +open(F,"countries.txt"); +<F>; +while(my $line =<F>){ + chomp($line); + my ($continent,$country) = split(/,/,$line); + $continents{$country} = $continent; +} +close(F); + +my $input_yml = $ARGV[0]; +my $outdir = $ARGV[1]; + +open(LIST,">$outdir/list.txt"); +my $data = LoadFile($input_yml); +my %hashtable = %$data; + +if ($hashtable{"ids"}){ + my $ref_ids = $hashtable{"ids"}; + my @ids = @$ref_ids; + foreach my $id(@ids){ + print LIST "$id\n"; + } +} +if ($hashtable{"input_genbanks"}){ + my $ref_gbs = $hashtable{"input_genbanks"}; + my @gbs = @$ref_gbs; + foreach my $gb(@gbs){ + print LIST "$gb\n"; + } +} +close(LIST); + + + +my $concat = ""; +open(O2,">$outdir/genbanks.txt"); +open(O,">$outdir/strains.txt"); +open(GENES,">$outdir/genes.txt"); +open(L,">$outdir/list_genomes.txt"); +open(L2,">$outdir/list_genomes2.txt"); +open(L3,">$outdir/genomes.txt"); +open(L4,">$outdir/genomes2.txt"); +open(SEQFILE,">$outdir/seqfile"); +open(PanSN,">$outdir/all_genomes.fa"); +open(METADATA,">$outdir/metadata_strains.txt"); + +open(F,"$outdir/list.txt"); +#open(TEST,">$outdir/test"); +while(my $line =<F>){ + chomp($line); + my $genbank = $line; + if (!-e "$genbank"){ + + my $assembly_accession = $genbank; + system("datasets download genome accession --include-gbff --filename $outdir/$assembly_accession.zip $assembly_accession"); + system("unzip -o $outdir/$assembly_accession.zip"); + system("cp -rf ncbi_dataset/data/$assembly_accession/$assembly_accession*genomic.fna $outdir/$genbank.fasta"); + system("cp -rf ncbi_dataset/data/$assembly_accession/genomic.gbff $outdir/$genbank.gb"); + + + } + else{ + my $genbank_file = $genbank; + my $grep = `grep 'LOCUS' $genbank_file`; + $genbank = "unknown"; + if ($grep =~/LOCUS\s+([\-\:\w]+)/){$genbank = $1;} + + #$genbank =~s/\:/_/g; + + my $cmd = "cp -rf $genbank_file $outdir/$genbank.gb"; + system($cmd); + + my %genome_seqs; + my $current_chr; + my $go = 0; + open(G,"$outdir/$genbank.gb"); + while(<G>){ + if ($go == 1 && /(\d+) (.*)$/){ + my $line = $2; + $line =~s/ //g; + $genome_seqs{$current_chr}.=$line; + } + if (/LOCUS ([^\s]+)/){ + $current_chr = $1; + } + if (/ORIGIN/){$go = 1;} + if (/^\/\//){$go = 0;} + } + close(G); + + open(FASTA,">$outdir/$genbank.fasta"); + foreach my $ch(keys(%genome_seqs)){ + print FASTA ">$ch\n"; + my $seq = $genome_seqs{$ch}; + print FASTA "$seq\n"; + } + close(FASTA); + } + #my $get_organism_line = `head -10 $outdir/$genbank.gb | grep DEFINITION `; + + # remove single quote in genbank file + `sed -i "s/'//g" $outdir/$genbank.gb`; + my $get_organism_line = `head -10 $outdir/$genbank.gb | grep -A 1 DEFINITION `; + + # if several lines for DEFINITION, concatenate the lines + my @lines_organism = split(/\n/,$get_organism_line); + my $first_line = $lines_organism[0]; + my $second_line = $lines_organism[1]; + if ($second_line =~/^ (.*)/){ + $get_organism_line = $first_line. " ".$1; + } + else{ + $get_organism_line = $first_line; + } + + my $strain; + my $genus; + if ($get_organism_line =~/DEFINITION (.*)$/){ + $strain = $1; + ($genus) = split(/\s/,$strain); + } + my $country = `head -100 $outdir/$genbank.gb | grep country `; + $country =~s/^\s+//g; + $country =~s/\/country=//g; + $country =~s/\"//g; + $country =~s/\n//g;$country =~s/\r//g; + if ($country =~/:/){ + my $city; + ($country,$city) = split(/:/,$country); + } + if ($country eq ""){$country = "unresolved";} + my $continent = "unresolved"; + if ($continents{$country}){ + $continent = $continents{$country}; + } + $strain =~s/\.//g; + my ($info1,$info2 ) = split(",",$strain); + $strain = $info1; + $strain =~s/ /_/g; + $strain =~s/strain_//g; + $strain =~s/_chromosome//g; + $strain =~s/_genome//g; + $strain =~s/_str_/_/g; + $strain =~s/[^\w\-\_]//g; + $strain =~s/\-/_/g; + + print O "$genbank $strain\n"; + $concat .= "$genbank,"; + print L "$genbank $outdir/$genbank.gb\n"; + print L2 "$genbank\n"; + print L3 "$outdir/$genbank.fasta\n"; + print L4 "$outdir/$genbank.fasta $strain\n"; + print SEQFILE "$genbank $outdir/$genbank.fasta\n"; + print METADATA "$strain\t$genus\t$country\t$continent\n"; + + + my %genome_sequences; + my $genome = ""; + my $seqid = ""; + open(GENOME,"$outdir/$genbank.fasta"); + while(<GENOME>){ + if (!/^>/){ + my $line = $_; + $line =~s/\n//g;$line =~s/\r//g; + $genome_sequences{$seqid} .= $line; + $genome .= $line; + print PanSN $_; + } + elsif (/>([^\s]+)/){ + $seqid = $1; + $seqid =~s/\.\d+$//g; + print PanSN ">$strain#$seqid\n"; + } + } + close(GENOME); + + + open(N,">$outdir/$genbank.nuc"); + open(P,">$outdir/$genbank.pep"); + open(FUNC,">$outdir/$genbank.func"); + my $go = 0; + my $start; + my $end; + my $product; + my $complement = 0; + my $end_gene = "no"; + my $protein = ""; + my $has_translation = `grep -c 'translation=' $outdir/$genbank.gb`; + $has_translation =~s/\n//g;$has_translation =~s/\r//g; + open(G,"$outdir/$genbank.gb"); + my $current_gene; + my $current_chrom; + while(<G>){ + if (/^\s+ORGANISM\s+(.*)$/){ + } + if (/protein_id=\"(.*)\"/){ + $current_gene = $1; + } + if (/LOCUS ([^\s]+)/){ + $current_chrom = $1; + } + if (/locus_tag=\"(.*)\"/){ + $current_gene = $1; + } + if ($go == 1){ + my $line = $_; + $line =~s/ //g; + $line =~s/\n//g;$line =~s/\r//g; + $protein .= $line; + if (/\"$/){ + $protein =~s/\"//g; + $end_gene = "yes"; + + } + } + if (/\/translation=\"(.*)/ or ($has_translation == 0 && /protein_id=/)){ + $go = 1; + $protein .= $1; + print P ">$current_gene\n"; + print N ">$current_gene\n"; + print GENES "$current_gene $product [$strain]\n"; + + if ($protein =~/\"$/){ + $end_gene = "yes"; + } + if ($has_translation == 0){$end_gene = "yes";} + } + if ($end_gene eq "yes"){ + $protein =~s/\"//g; + print P "$protein\n"; + $protein = ""; + my $length = $end - $start + 1; + + #print "okkkk $current_chrom\n"; + #my $geneseq = substr($genome,$start-1,$length); + my $geneseq = substr($genome_sequences{$current_chrom},$start-1,$length); + + + if ($complement){ + my $revcomp = reverse $geneseq; + $revcomp =~ tr/ATGCatgc/TACGtacg/; + $geneseq = $revcomp; + } + print N "$geneseq\n"; + print FUNC "$current_gene - $product\n"; + $go = 0; + $end_gene = "no"; + } + if (/\/product=\"(.*)\"/){ + $product = $1; + } + if (/^\s+CDS\s+(\d+)\.\.(\d+)\s*$/){ + $start = $1; + $end = $2; + $complement = 0; + } + if (/^\s+CDS\s+complement\((\d+)\.\.(\d+)\)\s*$/){ + $start = $1; + $end = $2; + $complement = 1; + } + } + close(G); + close(P); + close(N); + close(FUNC); + + if ($has_translation == 0){ + system("perl $dirname/translate.pl $outdir/$genbank.nuc $outdir/$genbank.pep"); + } + + my $prot_num = 0; + open(PRT,">$outdir/$genbank.prt"); + open(P,"$outdir/$genbank.pep"); + while(<P>){ + if (/>(.*)/){ + my $prot_id = $1; + $prot_num++; + my $new_id = "$strain"."_".$prot_num; + print PRT ">$new_id\n"; + } + else{ + print PRT $_; + } + } + close(P); + close(PRT); +} +close(F); +close(O); +close(METADATA); +chop($concat); +print O2 $concat; +close(O2); +close(L); +close(L2); +close(L3); +close(L4); +close(GENES); +close(SEQFILE); +close(PanSN); +#close(TEST); + +unlink("prokaryotes.txt"); +unlink("eukaryotes.txt");