Mercurial > repos > greg > plant_tribes_gene_family_scaffold_updater
view gene_family_scaffold_updater.pl @ 0:2b0906489073 draft default tip
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| author | greg |
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| date | Tue, 21 Aug 2018 13:00:21 -0400 |
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#!/usr/bin/env perl # Author: Eric Wafula # Email: ekw10@psu.edu # Institution: Penn State University, Biology Dept, Claude dePamphilis Lab # Date: June 2018 use strict; use warnings; use File::Spec; use File::Basename; use Getopt::Long qw(:config no_ignore_case); use FindBin; use DBI; my $home = "$FindBin::Bin/.."; my $usage = <<__EOUSAGE__; # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # GENE FAMILY SCAFFOLD UPDATER # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # Required Options: # # # --database_connection_string <string> : Postgres database connection string using format # postgresql://<user>:<password>@<host>/<database name> # # --proteins <string> : Amino acids (proteins) sequences fasta file (proteins.fasta) # This can either be an absolute path or just the file name # # --coding_sequences <string> : Corresponding coding sequences (CDS) fasta file (cds.fasta) # # --scaffold <string> : Orthogroups or gene families proteins scaffold. This can either be an absolute # path to the directory containing the scaffolds (e.g., /home/scaffolds/22Gv1.1) # or just the scaffold (e.g., 22Gv1.1). If the latter, ~home/data is prepended to # the scaffold to create the absolute path. # the scaffold to create the absolute path. # If Monocots clusters (version 1.0): 12Gv1.0 # If Angiosperms clusters (version 1.0): 22Gv1.0 # If Angiosperms clusters (version 1.1): 22Gv1.1 # If Green plants clusters (version 1.0): 31Gv1.0 # If Other non PlantTribes clusters: XGvY.Z, where "X" is the number species in the scaffold, # and "Y.Z" version number such as 12Gv1.0. Please look at one of the PlantTribes scaffold # data on how data files and directories are named, formated, and organized. # # # --species_name <string> : Name of the species # # --species_code <string> : Code of the species # # --species_family <string> : Family of the species # # --species_order <string> : Order of the species # # --species_group <string> : Group of the species # # --species_clade <string> : Clade of the species # # --rooting_order_species_code <string> : Species code after which the new species will be placed in the rooting order config file # # # # # # # # # # # # # # # # # # # # Others Options: # # --num_threads <int> : number of threads (CPUs) to used for HMMScan, BLASTP, and MAFFT # Default: 1 # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # Example Usage: # # GeneFamilyScaffoldUpdater --database_connection_string postgresql://<user>:<password>@<host>/<database name> --proteins proteins.fasta --coding_sequences cds.fasta --scaffold 22Gv1.1 # --species_name Fake genome --species_family Brassicaceae --species_order Brassicales --species_group Rosids --species_clade Core Eudicots --rooting_order_species_code Phypa # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # __EOUSAGE__ ; # Declare and initialize variables; my $database_connection_string; my $proteins; my $species_name; my $species_code; my $species_family; my $species_order; my $species_group; my $species_clade; my $coding_sequences; my $scaffold; my $rooting_order_species_code; my $num_threads; my $options = GetOptions ( 'database_connection_string=s' => \$database_connection_string, 'proteins=s' => \$proteins, 'species_name=s' => \$species_name, 'species_code=s' => \$species_code, 'species_family=s' => \$species_family, 'species_order=s' => \$species_order, 'species_group=s' => \$species_group, 'species_clade=s' => \$species_clade, 'coding_sequences=s' => \$coding_sequences, 'scaffold=s' => \$scaffold, 'rooting_order_species_code=s' => \$rooting_order_species_code, 'num_threads=i' => \$num_threads, ); # # # # # # # # # # # # # # # # # # # # # # # # # validate options and set variables # # # # # # # # # # # # # # # # # # # # # # # # # # # check if options are set unless ( $options ) { die $usage; } unless ( $database_connection_string and $proteins and $species_name and $species_code and $species_family and $species_order and $species_group and $species_clade and $coding_sequences and $scaffold and $rooting_order_species_code ) { print "\nOne or more required options not set\n"; die $usage; } # get scaffold directory my $scaffold_dir; if (File::Spec->file_name_is_absolute($scaffold)) { $scaffold_dir = $scaffold; $scaffold = basename($scaffold); } else { if ($scaffold) { $scaffold_dir = "$home/data/$scaffold"; } else { print "\n --scaffold option is not set\n\n"; die $usage; } } # validate scaffold and update type options if ( $scaffold !~ /^\d+Gv\d+\.\d+$/) { print "\nOrthogroups or gene families proteins scaffold name $scaffold is not in the required format"; print " i.e. XGvY.Z, where X is number species in the scaffold, and Y.Z version number such as 12Gv1.0.\n"; die $usage; } # Find out if the received rooting_order_species_code is in # the rooting order configuration file for the scaffold. We # do this before anything else since it is the least resource # intensive and an invalid species code will force an error. validate_rooting_order_species_code($scaffold_dir, $rooting_order_species_code); # Get a database connection. my $dbh = get_database_connection($database_connection_string); # The gene_family_scaffold_loader tool must be executed before # this tool so that the information about the scaffold is # avaialble in the galaxy_plant_tribes database. Check to make # sure the scaffold has been loaded into the databse before # continuing with the update. validate_scaffold($dbh, $scaffold); # get scaffold clustering methods my %methods; my $annotation_dir = "$scaffold_dir/annot"; opendir (DIR, "$annotation_dir") or die "Can't open $annotation_dir directory\n"; while (my $filename = readdir(DIR)) { if ($filename =~ /(\w+)\.list$/) { $methods{$1} = $1; } } # set defaults if (!$num_threads) { $num_threads = 1; } # # # # # # # # # # # # # # # # # # # # # # # # # # # # # sub-routine calls # # # # # # # # # # # # # # # # # # # # # # # # # # # log_msg("Starting gene family scaffold updating."); # Create working directory. my $working_dir = "./geneFamilyScaffoldUpdate_dir"; if (-d $working_dir) { die "Exiting...!\nGene family scaffold update output directory ($working_dir) already exists!\n\n"; } make_directory($working_dir); # Copy original scaffold data to a working directory. log_msg("Copying original scaffold data to working directory."); my $copy_scaffold_data = system "cp -r $scaffold_dir $working_dir"; if ($copy_scaffold_data != 0) { stop_err("Copying original scaffold data to working directory failed."); } # Update the scaffold config files in the working directory with the new genome. update_config_files ( $scaffold, $rooting_order_species_code, $species_name, $species_code, $species_family, $species_order, $species_group, $species_clade, $working_dir ); # Update the scaffold files in the working directory with the new genome. foreach my $method (keys %methods) { sort_sequences ( $proteins, $coding_sequences, $scaffold, $method, $num_threads, $species_name, $working_dir, $scaffold_dir ); } # Move updated scaffold data to original directory. my $updated_scaffold_dir = "$working_dir/$scaffold"; log_msg("Removing original scaffold data directory $scaffold_dir."); my $remove_scaffold_data = system "rm -rf $scaffold_dir"; if ($remove_scaffold_data != 0) { stop_err("Removing original scaffold data directory failed."); } log_msg("Moving updated scaffold data from\n$updated_scaffold_dir\nto original directory\n$scaffold_dir."); my $move_scaffold_data = system "mv $updated_scaffold_dir $scaffold_dir"; if ($move_scaffold_data != 0) { stop_err("Moving updated scaffold data to original directory failed."); } # Update the database tables with the new genome. update_database_tables ( $dbh, $proteins, $scaffold, \%methods, $species_name, $species_family, $species_order, $species_group, $species_clade, $scaffold_dir, $working_dir ); log_msg("Completed gene family scaffold updating."); exit(0); # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # sub-routines # # # # # # # # # # # # # # # # # # # # # # # # # # # sub log_msg { my ($msg) = @_; print localtime()." - ".$msg."\n\n"; } sub stop_err { my ($error_msg) = @_; print "\n-- ".localtime()." - ".$error_msg."\n\n"; exit(1); } sub validate_rooting_order_species_code { my ($scaffold_dir, $rooting_order_species_code ) = @_; my $rooting_order_config = "$scaffold_dir/$scaffold.rootingOrder.config"; open (IN, $rooting_order_config) or die "Can't open $rooting_order_config\n"; while (<IN>) { chomp; if (/^#/ || /^$/ || /^\[/) { # Skip comments, blasnk lines and section headers. next; } # Example line: Physcomitrella patens=Phypa my @F = split(/=/, $_); my $rooting_order_species_code_cmp = $F[1]; if (defined($rooting_order_species_code_cmp) && $rooting_order_species_code_cmp eq $rooting_order_species_code) { return; } } stop_err("Invalid rooting order species code $rooting_order_species_code is not found in $rooting_order_config"); } sub validate_scaffold { my ($dbh, $scaffold) = @_; my ($stmt, $sth, $rv); $stmt = qq(SELECT id FROM plant_tribes_scaffold WHERE scaffold_id = '$scaffold';); $sth = $dbh->prepare( $stmt ); $rv = $sth->execute() or die $DBI::errstr; if ($rv < 0) { print $DBI::errstr; } if ($sth->rows > 0) { return; } stop_err("The scaffold $scaffold has not been loaded into the database - use the GeneFamilyScaffoldLoader tool to load the scaffold before attempting to update the scaffold with this tool."); } sub make_directory { my ( $new_dir ) = @_; if (!-d $new_dir) { mkdir($new_dir, 0755); } } sub get_database_connection { my ($database_connection_string) = @_; # Database connection and variables, the format of database_connection_string is # postgresql://<user>:<password>@<host>/<database name> my @conn_part = split(/:\/\//, $database_connection_string); my $conn_part_str = $conn_part[1]; my $driver = "Pg"; my @conn_part2 = split(/\//, $conn_part_str); my $database = $conn_part2[1]; my $dsn = "DBI:$driver:dbname = $database;host = 127.0.0.1;port = 5432"; @conn_part2 = split(/:/, $conn_part_str); my $userid = $conn_part2[0]; @conn_part2 = split(/@/, $conn_part_str); my $conn_part2_str = $conn_part2[0]; my @conn_part3 = split(/:/, $conn_part2_str); my $password = $conn_part3[1]; my $dbh = DBI->connect($dsn, $userid, $password, { RaiseError => 1 }) or die "$DBI::errstr\nError : Unable to open database galaxy_plant_tribes\n"; log_msg("Successfully connected to database $database."); return $dbh; } sub update_config_files { my ( $scaffold, $rooting_order_species_code, $species_name, $species_code, $species_family, $species_order, $species_group, $species_clade, $working_dir ) = @_; log_msg("Updating scaffold config files in working directory."); # Update the rootingOrder config file. my $rooting_order_config = "$working_dir/$scaffold/$scaffold.rootingOrder.config"; my $tmp_rooting_order_config = "$working_dir/$scaffold/$scaffold.rootingOrder.config.tmp"; open (IN, $rooting_order_config) or die "Can't open $rooting_order_config\n"; open (OUT, ">$tmp_rooting_order_config") or die "Can't open $tmp_rooting_order_config file\n"; my $inserted = 0; while (<IN>) { # Example line: Physcomitrella patens=Phypa chomp; print OUT "$_\n"; if (not $inserted) { if (not /^#/ && not /^$/ && not /^\[/) { my @F=split(/=/, $_); my $cmp_species_code = $F[1]; if (defined($cmp_species_code) && $cmp_species_code eq $rooting_order_species_code) { print OUT "$species_name=$species_code\n"; $inserted = 1; } } } } close OUT; close IN; my $update_rooting_order = system "mv $tmp_rooting_order_config $rooting_order_config >/dev/null"; if ($update_rooting_order != 0) { stop_err("Updating rooting order config in working directory failed."); } # Update the taxaLineage config file. my $taxa_lineage_config = "$working_dir/$scaffold/$scaffold.taxaLineage.config"; # Make sure the last line of the file ends with a newline character # by rewriting the entire file. my $tmp_taxa_lineage_config = "$working_dir/$scaffold/$scaffold.taxaLineage.config.tmp"; open (IN, $taxa_lineage_config) or die "Can't open $taxa_lineage_config\n"; open (OUT, ">$tmp_taxa_lineage_config") or die "Can't open $tmp_taxa_lineage_config file\n"; while (<IN>) { chomp; print OUT "$_\n"; } close OUT; close IN; my $update_taxa = system "mv $tmp_taxa_lineage_config $taxa_lineage_config >/dev/null"; if ($update_taxa != 0) { stop_err("Updating taxa lineage config in working directory failed."); } # Append the new species information to the file. open (OUT, ">>$taxa_lineage_config") or die "Can't open $taxa_lineage_config file\n"; print OUT "$species_name\t$species_family\t$species_order\t$species_group\t$species_clade\n"; close OUT; } sub sort_sequences { my ( $proteins, $coding_sequences, $scaffold, $method, $num_threads, $species_name, $working_dir, $scaffold_dir ) = @_; my $method_dir = "$working_dir/$method"; make_directory($method_dir); log_msg("Sorting working directory protein sequences in the $method clustering method."); log_msg("Running BLASTP."); my $blastp_call = system "blastp -outfmt 6 -evalue 1e-5 -num_threads $num_threads -query $proteins -db $scaffold_dir/db/blast/$method -out $method_dir/proteins.blastp >/dev/null"; if ($blastp_call != 0) { stop_err("Running BLASTP failed."); } log_msg("Getting best BLASTP hits."); my $blast_results = "proteins.blastp"; get_best_blastp_orthos ( $blast_results, $scaffold, $method, $method_dir, $scaffold_dir ); log_msg("Running HMMScan."); my $hmmscan_call = system "hmmscan -E 1e-5 --cpu $num_threads --noali --tblout $method_dir/proteins.hmmscan -o $method_dir/hmmscan.log $scaffold_dir/db/hmm/$method $proteins >/dev/null"; if ($hmmscan_call != 0) { stop_err("Running HMMScan failed."); } log_msg("Getting best HMMScan hits."); my $hmmscan_results = "proteins.hmmscan"; get_best_hmmscan_orthos ( $hmmscan_results, $scaffold, $method, $method_dir, $scaffold_dir ); get_blast_hmmscan_orthos ( $scaffold, $method, $method_dir, $scaffold_dir ); get_orthogroup_fasta ( $proteins, $coding_sequences, $method, $method_dir, $scaffold_dir ); update_scaffold_data( $proteins, $scaffold, $method, $num_threads, $method_dir, $species_name, $working_dir, $scaffold_dir ); } sub get_best_blastp_orthos { my ( $blast_results, $scaffold, $method, $method_dir, $scaffold_dir ) = @_; my (%best, %max, %list); open (IN, "$method_dir/$blast_results") or die "Can't open $method_dir/$blast_results file\n"; while (<IN>) { chomp; my @F=split(/\t/, $_); if ($F[0] eq $F[1]) { next; } if (!$best{$F[0]}) { $best{$F[0]} = $_; $max{$F[0]} = $F[11]; } else { if ($F[11] > $max{$F[0]}) { $best{$F[0]} = $_; $max{$F[0]} = $F[11]; } } } close IN; open (IN, "$scaffold_dir/annot/$method.list") or die "Can't open $scaffold_dir/annot/$method.list file\n"; while (<IN>) { chomp; my @F=split(/\t/, $_); $list{$F[1]} = $F[0]; } close IN; open (OUT, ">$method_dir/$blast_results.bestOrthos") or die "Can't open $method_dir/$blast_results.bestOrthos file\n"; print OUT "Gene ID\tOrthogroup ID\n"; foreach (keys %best) { my @F = split(/\t/, $best{$_}); print OUT "$F[0]\t$list{$F[1]}\n"; } close OUT; } sub get_best_hmmscan_orthos { my ( $hmmscan_results, $scaffold, $method, $method_dir, $scaffold_dir ) = @_; my %hits; open (IN, "$method_dir/$hmmscan_results") or die "Can't open $method_dir/$hmmscan_results file\n"; while (<IN>) { if (/^#/){next;} my @F = split(/\s+/, $_); $hits{$F[2]}{$F[0]} = $F[5]; } close IN; open (OUT, ">$method_dir/$hmmscan_results.bestOrthos") or die "Can't open $method_dir/$hmmscan_results.bestOrthos file\n"; print OUT "Gene ID\tOrthogroup ID\n"; for my $hit (keys %hits) { my $score = 0; my $best_target; for my $target (keys %{$hits{$hit}}) { if ($hits{$hit}{$target} >= $score) { $score = $hits{$hit}{$target}; $best_target = $target; } } print OUT "$hit\t$best_target\n"; } close OUT; } sub get_blast_hmmscan_orthos { my ( $scaffold, $method, $method_dir, $scaffold_dir ) = @_; my (%blastp, %hmmscan, %genes); opendir (DIR, "$method_dir") or die "Can't open $method_dir directory\n"; while (my $filename = readdir(DIR)) { if ($filename =~ /^proteins\.blastp\.bestOrthos$/){ open (IN, "$method_dir/$filename") or die "Can't open $method_dir/$filename file\n"; while (<IN>) { chomp; if (/^Gene/) {next;} my @F = split(/\t/, $_); $blastp{$F[0]} = $F[1]; $genes{$F[0]} = $F[0]; } close IN; } if ($filename =~ /^proteins\.hmmscan\.bestOrthos$/){ open (IN, "$method_dir/$filename") or die "Can't open $method_dir/$filename file\n"; while (<IN>) { chomp; if (/^Gene/) {next;} my @F = split(/\t/, $_); $hmmscan{$F[0]} = $F[1]; $genes{$F[0]} = $F[0]; } close IN; } } closedir DIR; open (OUT, ">$method_dir/proteins.both.bestOrthos") or die "Can't open $method_dir/protein.both.bestOrthos file\n"; print OUT "Gene ID\tOrthogroup ID\n"; foreach (sort keys %genes) { if (!$blastp{$_} and $hmmscan{$_}) { print OUT "$_\t$hmmscan{$_}\n"; next; } elsif ($blastp{$_} and !$hmmscan{$_}) { print OUT "$_\t$blastp{$_}\n"; next; } elsif ($blastp{$_} == $hmmscan{$_}) { print OUT "$_\t$blastp{$_}\n"; next } else { print OUT "$_\t$hmmscan{$_}\n"; } } close OUT; } sub get_orthogroup_fasta { my ( $proteins, $coding_sequences, $method, $method_dir, $scaffold_dir ) = @_; log_msg("Retrieving orthogroup fasta files."); my (%orthos, %pep, %cds); my $orthogroup_fasta = "$method_dir/orthogroups_fasta"; make_directory($orthogroup_fasta); my $orthogroup_assignment = "proteins.both.bestOrthos"; open (IN, "$method_dir/$orthogroup_assignment") or die "Can't open $method_dir/$orthogroup_assignment file\n"; while (<IN>) { chomp; if ($_ =~ /^Gene/) { next; } my @F = split(/\t/, $_); $orthos{$F[1]}{$F[0]} = $F[0]; } close IN; %pep = get_sequences ($proteins); if ($coding_sequences) { %cds = get_sequences ($coding_sequences); } my ($ortho_id, $seq_id); foreach $ortho_id (keys %orthos) { open (PEP, ">$orthogroup_fasta/$ortho_id.faa") or die "Can't open $orthogroup_fasta/$ortho_id.faa file\n"; if ($coding_sequences) { open (CDS, ">$orthogroup_fasta/$ortho_id.fna") or die "Can't open $orthogroup_fasta/$ortho_id.fna file\n"; } foreach $seq_id (sort keys %{$orthos{$ortho_id}}) { $pep{$seq_id} =~ s/.{80}(?=.)/$&\n/g; print PEP ">$seq_id\n$pep{$seq_id}\n"; if ($coding_sequences) { $cds{$seq_id} =~ s/.{80}(?=.)/$&\n/g; print CDS ">$seq_id\n$cds{$seq_id}\n"; } } close PEP; close CDS; } my @files; my $formated_fasta = "$orthogroup_fasta/formated_fasta"; make_directory($formated_fasta); opendir(DIR, "$orthogroup_fasta") or die "Can't open $orthogroup_fasta directory\n"; while(my $filename = readdir(DIR)) { if($filename =~ /\d+\.fna/ or $filename =~ /\d+\.faa/){ push (@files, $filename); } } closedir(DIR); foreach my $file (@files) { open (IN, "$orthogroup_fasta/$file") or die "Can't open $orthogroup_fasta/$file file\n"; open (OUT, ">$formated_fasta/$file") or die "Can't open $formated_fasta/$file file\n"; while (<IN>) { chomp; if(/^>/){ s/\|/_/g; print OUT "$_\n"; } else { print OUT "$_\n"; } } close IN; close OUT; } my $integrated_orthogroup_fasta = "$method_dir/integrated_orthogroup_fasta"; make_directory($integrated_orthogroup_fasta); integrate_orthogroup_fasta ( $formated_fasta, $method, $integrated_orthogroup_fasta, $scaffold_dir ); } sub get_sequences { my ( $file ) = @_; my (%sequences, $id); open (IN, "$file") or die "Can't open $file file\n"; while (<IN>) { if ($_ =~ />(\S+)/){ $id = $1; } else { s/\s+//g; $sequences{$id} .= $_; } } close IN; return %sequences; } sub integrate_orthogroup_fasta { my ( $formated_fasta, $method, $integrated_orthogroup_fasta, $scaffold_dir) = @_; log_msg("Integrating orthogroup fasta files."); my (%pep, %cds); opendir (DIR, "$formated_fasta") or die "Can't open $formated_fasta directory\n"; while ( my $filename = readdir(DIR) ) { if ($filename =~ /^(\d+)\.faa$/) { $pep{$1} = $1; } if ($filename =~ /^(\d+)\.fna$/) { $cds{$1} = $1; } } closedir DIR; if (keys(%cds) and (keys(%pep) != keys(%cds))) { die "Exiting...!\nOrthogroup classification protein and CDS fasta files not equivalent in $formated_fasta directory\n\n"; } foreach my $ortho_id (keys %pep) { my $merging_call = system "cat $scaffold_dir/fasta/$method/$ortho_id.faa $formated_fasta/$ortho_id.faa > $integrated_orthogroup_fasta/$ortho_id.faa"; if ($merging_call != 0) { stop_err("Merging orthogroup $ortho_id failed."); } if (keys(%cds) and $cds{$ortho_id}) { my $merging_call = system "cat $scaffold_dir/fasta/$method/$ortho_id.fna $formated_fasta/$ortho_id.fna > $integrated_orthogroup_fasta/$ortho_id.fna"; if ($merging_call != 0) { stop_err("Merging orthogroup $ortho_id failed."); } } } } sub update_scaffold_data { my ( $proteins, $scaffold, $method, $num_threads, $method_dir, $species_name, $working_dir, $scaffold_dir ) = @_; log_msg("Updating scaffold data files."); # update orthogroup annotation files log_msg("Updating orthogroup annotation files."); my %annot; open (OUT, ">>$working_dir/$scaffold/annot/$method.list") or die "Can't open $working_dir/$scaffold/annot/$method.list file\n"; opendir (DIR, "$method_dir/orthogroups_fasta") or die "Can't open $method_dir/orthogroups_fasta directory\n"; while ( my $filename = readdir(DIR) ) { my $seq_count = 0; my $ortho_id; if ($filename =~ /^(\d+)\.faa$/) { $ortho_id = $1; open (IN, "$method_dir/orthogroups_fasta/$filename") or die "Can't open $method_dir/orthogroups_fasta/$filename file\n"; while (<IN>) { chomp; if (/^>(\S+)/) { print OUT "$ortho_id\t$1\n"; $seq_count++; } } close IN; } else { next; } $annot{$ortho_id} = $seq_count; } closedir DIR; close OUT; my ($fields, %avg_summary, %min_summary); if (File::Spec->file_name_is_absolute($proteins)) { $proteins = basename($proteins); } open (IN, "$working_dir/$scaffold/annot/$method.avg_evalue.summary") or die "Can't open $working_dir/$scaffold/annot/$method.avg_evalue.summary file\n"; while (<IN>) { chomp; if (/^Orthogroup\s+ID\s+(.*)/) { $fields = "Orthogroup ID\t$species_name\t$1"; next; } else { /(\d+)\s+(.*)/; $avg_summary{$1} = $2; } } close IN; open (OUT, ">$working_dir/$scaffold/annot/$method.avg_evalue.summary") or die "Can't open $working_dir/$scaffold/annot/$method.avg_evalue.summary file\n"; print OUT "$fields\n"; foreach (sort {$a<=>$b} keys %avg_summary) { if ($annot{$_}) { print OUT "$_\t$annot{$_}\t$avg_summary{$_}\n"; } else { print OUT "$_\t0\t$avg_summary{$_}\n"; } } close OUT; open (IN, "$working_dir/$scaffold/annot/$method.min_evalue.summary") or die "Can't open $working_dir/$scaffold/annot/$method.min_evalue.summary file\n"; while (<IN>) { chomp; if (/^Orthogroup\s+ID\s+(.*)/) { $fields = "Orthogroup ID\t$species_name\t$1"; next; } else { /(\d+)\s+(.*)/; $min_summary{$1} = $2; } } close IN; open (OUT, ">$working_dir/$scaffold/annot/$method.min_evalue.summary") or die "Can't open $working_dir/$scaffold/annot/$method.min_evalue.summary file\n"; print OUT "$fields\n"; foreach (sort {$a<=>$b} keys %min_summary) { if ($annot{$_}) { print OUT "$_\t$annot{$_}\t$min_summary{$_}\n"; } else { print OUT "$_\t0\t$min_summary{$_}\n"; } } close OUT; # update orthogroup fasta files log_msg("Updating orthogroup fasta files."); opendir (DIR, "$method_dir/integrated_orthogroup_fasta") or die "Can't open $method_dir/integrated_orthogroup_fasta directory\n"; while ( my $filename = readdir(DIR) ) { if (($filename =~ /^(\d+)\.faa$/) or ($filename =~ /^(\d+)\.fna$/)) { my $update_orthogroup_fasta = system "cp $method_dir/integrated_orthogroup_fasta/$filename $working_dir/$scaffold/fasta/$method/$filename >/dev/null"; if ($update_orthogroup_fasta != 0) { stop_err("Updating orthogroup fasta $filename failed."); } } } close IN; closedir DIR; # update orthogroup alignments log_msg("Updating alignments."); opendir (DIR, "$method_dir/orthogroups_fasta/formated_fasta") or die "Can't open $method_dir/orthogroups_fasta/formated_fasta directory\n"; while ( my $filename = readdir(DIR) ) { if ($filename =~ /^(\d+)\.faa$/) { my $ortho_id = $1; my $align_fasta = system "mafft --thread $num_threads --add $method_dir/orthogroups_fasta/formated_fasta/$filename $working_dir/$scaffold/alns/$method/$ortho_id.aln > $method_dir/orthogroups_fasta/formated_fasta/$ortho_id.aln 2>/dev/null"; if ($align_fasta != 0) { stop_err("Aligning orthogroup fasta file $filename failed."); } my $update_orthogroup_alignment = system "mv $method_dir/orthogroups_fasta/formated_fasta/$ortho_id.aln $working_dir/$scaffold/alns/$method/$ortho_id.aln >/dev/null"; if ($update_orthogroup_alignment != 0) { stop_err(" - Updating orthogroup alignment $ortho_id.aln failed."); } } } closedir DIR; # update orthogroup hmm profiles log_msg("Updating hmm profiles."); opendir (DIR, "$working_dir/$scaffold/alns/$method") or die "Can't open $working_dir/$scaffold/alns/$method directory\n"; while ( my $filename = readdir(DIR) ) { if ($filename =~ /^(\d+)\.aln$/) { my $ortho_id = $1; my $update_orthogroup_hmm = system "hmmbuild -n $ortho_id --amino --cpu $num_threads $working_dir/$ortho_id.hmm $working_dir/$scaffold/alns/$method/$ortho_id.aln >/dev/null"; if ($update_orthogroup_hmm != 0) { stop_err("Updating orthogroup hmm profile $ortho_id.hmm failed."); } my $convert_hmm_format = system "hmmconvert $working_dir/$ortho_id.hmm > $working_dir/$scaffold/hmms/$method/$ortho_id.hmm"; if ($convert_hmm_format != 0) { stop_err("Converting orthogroup hmm profile $ortho_id.hmm format failed."); } my $remove_tmp_file = system "rm $working_dir/$ortho_id.hmm >/dev/null"; if ($remove_tmp_file != 0) { stop_err("Could not remove temporary hmm profile $ortho_id.hmm."); } } } # update orthogroup blast and hmm databases log_msg("Updating blast and hmm databases."); my $update_blast_database = system "find $method_dir/orthogroups_fasta/ -name \"*.faa\" -print0 | xargs -0 cat >> $working_dir/$scaffold/db/blast/$method"; if ($update_blast_database != 0) { stop_err("Updating blast database failed."); } my $index_blast_database = system "makeblastdb -in $working_dir/$scaffold/db/blast/$method -dbtype prot >/dev/null"; if ($index_blast_database != 0) { stop_err("Indexing blast database failed."); } my $update_hmm_database = system "find $working_dir/$scaffold/hmms/$method/ -name \"*.hmm\" -print0 | xargs -0 cat > $working_dir/$scaffold/db/hmm/$method"; if ($update_hmm_database != 0) { stop_err("Updating hmm database failed."); } my $index_hmm_database = system "hmmpress -f $working_dir/$scaffold/db/hmm/$method >/dev/null"; if ($index_hmm_database != 0) { stop_err("Indexing hmm database failed."); } } sub update_database_tables { my ( $dbh, $proteins, $scaffold, $methods, $species_name, $species_family, $species_order, $species_group, $species_clade, $scaffold_dir, $working_dir ) = @_; log_msg("Updating for database tables."); my ( $species_code, %method_genes, %gene_sequences, %dna, %aa ); my $gsot_association_prep_file = "$working_dir/gene_scaffold_orthogroup_taxon_association.tsv"; my $num_recs = 0; # Output a prep file that stores information for updating # the gene_scaffold_orthogroup_taxon_association table. open (ASSOC, ">$gsot_association_prep_file") or die "Can't open $gsot_association_prep_file file\n"; print ASSOC "gene_id\tscaffold_id\tclustering_method\torthogroup_id\tspecies_name\n"; # get new species name and code if (File::Spec->file_name_is_absolute($proteins)) { $proteins = basename($proteins); } $species_name =~ s/\_/ /g; my $rooting_order_config = "$scaffold_dir/$scaffold.rootingOrder.config"; open(IN, "$rooting_order_config") or die "Can't open $rooting_order_config file\n"; while (<IN>){ chomp; if (/^\#/ or /^\s+/ or /^\[/){ next; } if (/(\w+\s+\w+)\=(\w+)/) { if ($species_name eq $1) { $species_code = $2;} } } close IN; foreach my $clustering_method (keys %$methods) { # Updating orthogroup database table log_msg("Updating $clustering_method records for the plant_tribes_orthogroup database table."); my ( $stmt, $sth, $rv, $scaffold_id ); $stmt = qq(SELECT id FROM plant_tribes_scaffold WHERE scaffold_id = '$scaffold' AND clustering_method = '$clustering_method';); $sth = $dbh->prepare( $stmt ); $rv = $sth->execute() or die $DBI::errstr; if ($rv < 0) { print $DBI::errstr; } while (my @row = $sth->fetchrow_array()) { $scaffold_id = $row[0]; } my $scaffold_annotation_dir = "$scaffold_dir/annot"; opendir (DIR, $scaffold_annotation_dir) or die "Can't open $scaffold_annotation_dir directory\n"; $num_recs = 0; while ( my $filename = readdir(DIR) ) { if ($filename =~ /$clustering_method.min_evalue\.summary/) { open (IN, "$scaffold_annotation_dir/$filename") or die "Can't open $scaffold_annotation_dir/$filename file\n"; while (<IN>){ chomp; if (/^Orthogroup/){ next; } my @fields = split(/\t/, $_); my $num_species = 0; my $num_genes = 0; $scaffold =~ /(\d+)Gv\d+\.\d+/; # 22Gv1.1 my $genomes = $1 + 1; for (1..$genomes){ if ($fields[$_] > 0){ $num_species++; } $num_genes += $fields[$_]; } $stmt = qq(UPDATE plant_tribes_orthogroup SET num_species = $num_species, num_genes = $num_genes WHERE orthogroup_id = $fields[0] AND scaffold_id = $scaffold_id;); $rv = $dbh->do($stmt) or die $DBI::errstr; if($rv < 0) { print $DBI::errstr; } $num_recs = $num_recs + 1; } close IN; } if ($filename =~ /$clustering_method\.list/) { open (IN, "$scaffold_annotation_dir/$filename") or die "Can't open $scaffold_annotation_dir/$filename file\n"; while (<IN>){ chomp; my @fields = split(/\t/, $_); my @gene_id = split(/\|/, $fields[1]); if ($gene_id[1] =~ /$species_code/) { $fields[1] =~ s/\|/_/g; $method_genes{$clustering_method}{$fields[0]}{$fields[1]} = $fields[1]; } } close IN; } } close DIR; log_msg("$num_recs records for $scaffold $clustering_method were successfully updated in the plant_tribes_orthogroup table."); # Updating taxon database table log_msg("Inserting $clustering_method records into the plant_tribes_taxon database table."); my $num_genes = 0; foreach my $ortho_id (keys %{$method_genes{$clustering_method}}){ foreach (keys %{$method_genes{$clustering_method}{$ortho_id}}){ $num_genes++; } } my $taxa_lineage_config = "$scaffold_dir/$scaffold.taxaLineage.config"; open(IN, "$taxa_lineage_config") or die "Can't open $taxa_lineage_config file\n"; $num_recs = 0; while (<IN>){ chomp; my @fields = split(/\t/, $_); if ($fields[0] ne $species_name) { next; } $stmt = qq(INSERT INTO plant_tribes_taxon (species_name, scaffold_id, num_genes, species_family, species_order, species_group, species_clade) VALUES ('$fields[0]', $scaffold_id, $num_genes, '$fields[1]', '$fields[2]', '$fields[3]', '$fields[4]')); $rv = $dbh->do($stmt) or die $DBI::errstr; $num_recs = $num_recs + 1; } close IN; log_msg("$num_recs records for $species_name $scaffold $clustering_method were successfully inserted into the plant_tribes_taxon table."); my ($dna_id, $aa_id); my $orthogroups_fasta_dir = "$working_dir/$clustering_method/orthogroups_fasta/formated_fasta"; opendir (DIR, $orthogroups_fasta_dir) or die "Can't open $orthogroups_fasta_dir directory\n"; while ( my $filename = readdir(DIR) ) { if ($filename =~ /^(\d+)\.fna$/) { my $ortho_id = $1; open(IN, "$orthogroups_fasta_dir/$filename") or die "Can't open $orthogroups_fasta_dir/$filename file\n"; while(<IN>){ chomp; if (/^>(\S+)/){ $dna_id = $1; print ASSOC "$dna_id\t$scaffold\t$clustering_method\t$ortho_id\t$species_name\n"; next; } else { s/\s+//g; $dna{$dna_id} .= $_; } } close IN; } if ($filename =~ /^(\d+)\.faa$/) { open(IN, "$orthogroups_fasta_dir/$filename") or die "Can't open $orthogroups_fasta_dir/$filename file\n"; while(<IN>){ chomp; if (/^>(\S+)/){ $aa_id = $1; next; } else { s/\s+//g; $aa{$aa_id} .= $_; } } close IN; } } close DIR; } close ASSOC; # Updating gene database table log_msg("Inserting records into the plant_tribes_gene database table."); $num_recs = 0; foreach my $gene_id (sort keys %dna) { my $stmt = qq(INSERT INTO plant_tribes_gene (gene_id, dna_sequence, aa_sequence) VALUES ('$gene_id', '$dna{$gene_id}', '$aa{$gene_id}')); my $rv = $dbh->do($stmt) or die $DBI::errstr; $num_recs = $num_recs + 1; } log_msg("$num_recs records for $species_name $scaffold were successfully inserted into the plant_tribes_gene table."); # Updaing gene-scaffold-orthogroup-taxon-association database table log_msg("Inserting records into the gene_scaffold_orthogroup_taxon_association database table."); open(IN, "$gsot_association_prep_file") or die "Can't open $gsot_association_prep_file file\n"; $num_recs = 0; my ( $stmt, $sth, $rv, $scaffold_id, $clustering_method, $orthogroup_id, $taxon_id, $gene_id ); my ( $gene_id_db, $scaffold_id_db, $orthogroup_id_db, $taxon_id_db ); while(<IN>){ chomp; if (/^gene_id/) { # gene_id scaffold_id clustering_method orthogroup_id species_name next; } my @fields = split(/\t/, $_); # gnl_Fakge_v1.0_AT1G03390.1 22Gv1.1 orthomcl 3 Fake genome $gene_id = $fields[0]; $scaffold_id = $fields[1]; $clustering_method = $fields[2]; $orthogroup_id = $fields[3]; $species_name = $fields[4]; $stmt = qq(SELECT id FROM plant_tribes_scaffold WHERE scaffold_id = '$scaffold_id' AND clustering_method = '$clustering_method';); $sth = $dbh->prepare( $stmt ); $rv = $sth->execute() or die $DBI::errstr; if ($rv < 0) { print $DBI::errstr; } while (my @row = $sth->fetchrow_array()) { $scaffold_id_db = $row[0]; } $stmt = qq(SELECT id FROM plant_tribes_orthogroup WHERE orthogroup_id = '$orthogroup_id' AND scaffold_id = '$scaffold_id_db';); $sth = $dbh->prepare( $stmt ); $rv = $sth->execute() or die $DBI::errstr; if ($rv < 0) { print $DBI::errstr; } while (my @row = $sth->fetchrow_array()) { $orthogroup_id_db = $row[0]; } $stmt = qq(SELECT id FROM plant_tribes_taxon WHERE species_name = '$species_name' AND scaffold_id = '$scaffold_id_db';); $sth = $dbh->prepare( $stmt ); $rv = $sth->execute() or die $DBI::errstr; if ($rv < 0) { print $DBI::errstr; } while (my @row = $sth->fetchrow_array()) { $taxon_id_db = $row[0]; } $stmt = qq(SELECT id FROM plant_tribes_gene WHERE gene_id = '$gene_id' ); $sth = $dbh->prepare( $stmt ); $rv = $sth->execute() or die $DBI::errstr; if ($rv < 0) { print $DBI::errstr; } while (my @row = $sth->fetchrow_array()) { $gene_id_db = $row[0]; } $stmt = qq(INSERT INTO gene_scaffold_orthogroup_taxon_association (gene_id, scaffold_id, orthogroup_id, taxon_id) VALUES ($gene_id_db, $scaffold_id_db, $orthogroup_id_db, $taxon_id_db)); $rv = $dbh->do($stmt) or die $DBI::errstr; $num_recs = $num_recs + 1; } close IN; log_msg("$num_recs records for $scaffold $clustering_method were successfully inserted into the gene_scaffold_orthogroup_taxon_association table."); $dbh->disconnect(); }