changeset 1:b66f4a551e25 draft

Uploaded
author antmarge
date Tue, 28 Mar 2017 21:56:04 -0400
parents bb1dbc0a1763
children 3ed885628c9f
files dataOverview.pl
diffstat 1 files changed, 392 insertions(+), 0 deletions(-) [+]
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/dataOverview.pl	Tue Mar 28 21:56:04 2017 -0400
@@ -0,0 +1,392 @@
+#!/usr/bin/perl -w
+
+#Margaret Antonio 16.08.29
+
+#use strict;
+use Getopt::Long;
+use Bio::SeqIO;
+use autodie;
+no warnings;
+
+
+
+#AVAILABLE OPTIONS. WILL print OUT UPON ERROR
+sub print_usage() {
+
+    print "\n###############################################################\n";
+    print "dataOverview: outputs basic statistics for tn-seq library files \n\n";
+
+    print "USAGE:\n";
+    print  "perl dataOverview.pl -i inputs/ -f genome.fasta -r genome.gbk\n";
+        
+    print  "\nREQUIRED:\n";
+    print  " -d\tDirectory containing all input files (results files from\n";
+    print  "   \tcalc fitness script)\n";
+    print  "   \t  OR\n";
+    print  " \tIn the command line (without a flag), input the name(s) of \n";
+    print  " \tthe files containing fitness values for individual \n\tinsertion mutants\n";
+    print  " -f\tFilename for genome sequence, in fasta format\n";
+    print  " -r\tFilename for genome annotation, in GenBank format\n";
+
+    print  "\nOPTIONAL:\n";
+    print  " -h\tprint OUT usage\n";
+    print  " -c\tCutoff average(c1+c2)>c. Default: 15\n";
+    print  " -o\tFilename for output. Default: standard output\n";
+    print  " \n~~~~Always check that file paths are correctly specified~~~~\n";
+    print  " \n###############################################################\n";
+
+}
+
+# print "What's on the commandline: ", $ARGV;
+
+sub get_time() {
+    my ($sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst) = localtime(time);
+    return "$hour:$min:$sec";
+    }
+sub mean {
+    my $sum=0;
+    foreach my $n(@_){
+    	$sum+=$n;
+    	}
+    my $total=scalar @_;
+    my $mean=$sum/$total;
+    return $mean;  	
+}
+sub minmax{
+    my @unsorted=@_;
+	my @sorted = sort { $a <=> $b } @unsorted;
+	my $min = $sorted[0];
+	my $max = $sorted[scalar @sorted -1];
+	return ($min, $max);
+	}
+sub uniq{
+    my @input=@_;
+    my @unique = do { my %seen; grep { !$seen{$_}++ } @input };
+    }
+
+#ASSIGN INPUTS TO VARIABLES
+our ($cutoff,$fastaFile, $outfile,$help,$ref,$weight_ceiling);
+GetOptions(
+'r:s' => \$ref,
+'f:s' => \$fastaFile,
+'c:i'=>\$cutoff,
+'o:s' => \$outfile,
+'h'=> \$help,
+'w:i' => \$weight_ceiling,
+);
+
+# Set defaults
+#if (!$weight_ceiling){$weight_ceiling=50;}
+#if (!$cutoff){$cutoff=10;}
+
+# If help option is specified or required files are not specified:
+
+if ($help) {
+    print print_usage();
+	print "\n";
+	exit;
+}
+
+if (!$fastaFile or !$ref){
+	print  "\nERROR: Please correctly specify reference genome fasta and genbank files\n";
+	print "Most genomes (in fasta and gbk format) are available at NCBI\n";
+    print print_usage();
+	print "\n";
+	exit;
+}
+# Redirect STDOUT to log.txt. Anything print OUTed to the terminal will go into the log file
+if (! $outfile){
+	$outfile="summary.txt";
+}
+
+open OUT, ">",$outfile;
+
+#Not sure if I'll need this but sometimes funky data inputs have hidden characters
+sub cleaner{
+    my $line=$_[0];
+    chomp($line);
+    $line =~ s/\x0d{0,1}\x0a{0,1}\Z//s;
+    return $line;
+}
+
+
+#Get the input files out of the input directory, or take off of command line
+
+my @files=@ARGV;
+foreach my $f(@files){
+	#print $f;
+	}
+my $num=(scalar @files);
+
+#print OUT "Gathering data overview for Tn-Seq experiment\n\n";
+#print OUT "Begin time: ",get_time(),"\n\n";
+
+#CREATE AN ARRAY OF DATA FROM INPUT CSV FILE(S). 
+#These are the "results" files from calc_fitness.pl. Insertion location, fitness, etc.
+#Go through each file from the commandline (ARGV array) and read each line as an array
+#into select array if values satisfy the cutoff
+
+
+#Store ALL insertion locations in this array. Later, get unique insertions
+my @insertions_all;
+#Store all genes with valid insertions here
+my @genes_insertions;
+#all lines that satisfied cutoff
+my @unsorted;
+#array to hold all positions of insertions. Going to use this later to match up with TA sites
+my @insertPos;
+
+#Markers
+my $rows=-1;
+my $last=0;
+
+print OUT "Library description\n\n";
+my @header=("library","file_path","ins","ins.f","genes.ins");
+print OUT join ("\t",@header),"\n";
+
+for (my $i=0; $i<$num; $i++){
+	#Temp arrays for library
+	my(@insertions_all_lib,@genes_insertions_lib,@insertPos_lib);
+    my $file=$files[$i];
+    open(DATA, '<', $file) or die "Could not open '$file' Make sure input .csv files are entered in the command line\n";
+    my $dummy=<DATA>; #read and store column names in dummy variable
+    while (my $entry = <DATA>) {
+    	chomp $entry;
+		my @line=split(",",$entry);
+        my $locus = $line[9]; #gene id (SP_0000)
+        my $w = $line[12]; #nW
+        if (!$w){ $w=0 }   # For blanks
+        my $c1 = $line[2];
+        my $c2 = $line[3];
+        my $coord= $line[0];
+        push (@insertions_all_lib,$coord);
+         #Average counts must be greater than cutoff (minimum allowed)
+        my $avg = ($c1+$c2)/2;
+        if ($avg > $cutoff) {
+        	my @select=($coord,$w,$avg,$locus);
+            my $select=\@select;
+            push(@unsorted,$select);
+            push(@insertPos_lib,$line[0]);   #keep track of actual insertion site position
+            push (@genes_insertions_lib,$locus);
+            $last=$select[0];
+            $rows++;
+        }
+        if ($avg >= $weight_ceiling) { $avg = $weight_ceiling } # Maximum weight
+    }
+    close DATA;
+    push (@insertions_all,@insertions_all_lib);
+    @genes_insertions_lib= uniq @genes_insertions_lib;
+    push (@genes_insertions,@genes_insertions_lib);
+    push (@insertPos,@insertPos_lib);
+    my @stat=($i+1,$file,scalar @insertions_all_lib,scalar @insertPos_lib,scalar @genes_insertions_lib);
+    print OUT join("\t",@stat),"\n";
+}
+
+@insertPos = sort { $a <=> $b } @insertPos;
+@insertPos= uniq @insertPos;
+@genes_insertions= uniq @genes_insertions;
+@insertions_all=uniq @insertions_all;
+my $totalAll=scalar @insertions_all;
+my $total=scalar @insertPos;
+my $temp="1-".$num;
+my @all_stat=($temp,"NA",$totalAll,$total,scalar @genes_insertions);
+print OUT join("\t",@all_stat),"\n";
+
+#Genome description: #TA sites, distance between TA sites, #TA sites in ORFS
+print OUT "\n-------------------------\n";
+print OUT "\nGenome description\n\n";
+print OUT "File for genome: ", $fastaFile,"\n";
+
+my @sites;
+#First read fasta file into a string
+my $seqio = Bio::SeqIO->new(-file => $fastaFile, '-format' => 'Fasta');
+my $fasta;
+while(my $seq = $seqio->next_seq) {
+	$fasta = $seq->seq;
+}
+#Just in case $fasta file is in lowercase, change it to uppercase
+$fasta=uc $fasta;
+
+#Get genomic coordinate for TA sites:
+my $x="TA";
+my $offset=0;
+my @indices;
+my $result=index($fasta,$x,$offset);
+while ($result !=-1){
+	push (@indices,$result);
+	$offset=$result+1;
+	$result=index($fasta,$x,$offset);
+}
+my $countTA=scalar @indices;
+
+#Get longest stretch with no TA sites
+my @tempta=@indices;
+my $prev=shift @tempta;
+my $current=shift @tempta;
+my $lg_dist_ta=$current-$prev;
+foreach my $site(@tempta){
+	$prev=$current;
+	$current=$site;
+	my $d=$current-$prev;
+	if ($d>$lg_dist_ta){
+		$lg_dist_ta=$d;
+	}
+}
+
+#Get longest stretch of with no insertions
+my @tempins=@insertPos;
+$prev=shift @tempins;
+$current=shift @tempins;
+my $lg_dist_ins=$current-$prev;
+foreach my $site(@tempins){
+	$prev=$current;
+	$current=$site;
+	my $d=$current-$prev;
+	if ($d>$lg_dist_ins){
+		$lg_dist_ins=$d;
+	}
+}
+
+
+my $genSize=length $fasta;
+print OUT "$genSize\tGenome size\n";
+print OUT "$countTA\tTotal number of TA sites\n\n";
+
+my $sat=sprintf("%.2f", ($total/$countTA)*100);
+my $satAll=sprintf("%.2f", ($totalAll/$countTA)*100);
+my $inscov=sprintf("%.2f", ($total/$genSize)*100);
+my $tacov=sprintf("%.2f", ($countTA/$genSize)*100);
+
+#Get GC content of genome
+
+my $sequence = ' ';
+my $Ccount = 0;
+my $Gcount = 0;
+my $identifier = ' ';
+
+my @nucleotides = split('', $fasta);
+
+foreach my $nuc (@nucleotides) {
+	if ($nuc eq 'G') {$Gcount++} 
+	elsif ($nuc eq 'C') {$Ccount++}
+}
+my $sequencelength=length $fasta;
+
+my $GCcontent = sprintf("%.2f",((($Gcount + $Ccount) / $sequencelength) * 100));
+my $ATcontent =100-$GCcontent;
+
+print OUT "$GCcontent%\tGC content of this genome\n";
+print OUT "$ATcontent%\tAT content of this genome\n";
+
+print OUT "$satAll%\tSaturation of TA sites before cutoff filter (allInsertions/TAsites)\n";
+print OUT "$sat%\tSaturation of TA sites after cutoff filter (validInsertions/TAsites)\n";
+print OUT "$inscov%\tGenome coverage by insertions (validInsertions/genomeSize)\n";
+print OUT "$tacov%\tGenome coverage by TA sites (TAsites/genomeSize)\n";
+print OUT "$lg_dist_ta\tLargest distance between TA sites\n";
+print OUT "$lg_dist_ins\tLargest distance between insertions\n";
+print OUT "\n\nOpen Reading Frames\n\n";
+
+#Store everything to be print OUTed in array
+my @table;
+
+#Find open reading frames from fasta file
+local $_  = $fasta;
+my @orfSize;
+my @allc; #numbers of TAs in the ORFS here.
+my $blank=0; #ORFS that don't have any TA sites.
+my $orfCount=0; #keep track of the number of ORFs found.
+my $minSize=0; 
+#Read somewhere that 99 is a good min but there is an annotated 86 bp gene for 19F
+while ( /ATG/g ) {
+   my $start = pos() - 3;
+   if ( /T(?:AA|AG|GA)/g ) {
+     my $stop = pos;
+     my $size=$stop - $start;
+     if ($size>=$minSize){
+		 push (@orfSize,$size);
+		 my $seq=substr ($_, $start, $stop - $start); 
+		 my @ctemp = $seq =~ /$x/g;
+		 my $countTA = @ctemp;
+		 if ($countTA==0){$blank++}
+		 push (@allc,$countTA);  
+		 $orfCount++;  
+	   }
+	}
+}
+
+print OUT "\nORFs based on Fasta sequence and start (ATG) and end (TAA,TAG,TGA) codons\n";
+push (@table,["Set minimum size for an ORF",$minSize]);
+print OUT "$orfCount\tTotal number of ORFs found\n";
+my ($minORF, $maxORF) = minmax(@orfSize);
+print OUT "$minORF\tSmallest ORF\n";
+print OUT "$maxORF\tLargest ORF\n";
+my ($mintaORF,$maxtaORF) = minmax(@allc);
+print OUT "$mintaORF\tFewest # TA sites in an ORF\n";
+print OUT "$maxtaORF\tGreatest # TA sites in an ORF\n";
+print OUT "$blank\tNumber of ORFs that don't have any TA sites\n";
+
+
+print OUT "\nGenes using the genbank annotation file\n\n";
+###Get genbank file. Find all start and stop for genes
+#See how many insertions fall into genes vs intergenic regions
+#Get array of coordinates for all insertions then remove insertion if it is
+#within a gene region
+my $gb = Bio::SeqIO->new(-file => $ref, -format => 'genbank');
+my $refseq = $gb->next_seq;
+
+#store number of insertions in a gene here
+my @geneIns;
+my @allLengths;
+my $blankGene=0; #Number of genes that don't have any insertions in them
+my @genomeSeq=split('',$fasta);
+
+
+#keep a copy to remove insertions that are in genes
+my @insertPosCopy=@insertPos;
+
+my @features = $refseq->get_SeqFeatures(); # just top level
+foreach my $feature ( @features ) {
+	if ($feature->primary_tag eq "gene"){
+		my $start=$feature->start;
+		my $end=$feature->end;
+		my $length=$end-$start;
+		push (@allLengths,$length);
+		#turn this into a for loop
+		my $i=0;
+		my $ins=0;
+		my $current=$insertPos[$i];;
+		while ($current<=$end && $i<scalar @insertPos){
+			if ($current>=$start){
+				splice(@insertPosCopy, $i, 1);
+				$ins++;			
+			}
+			$current=$insertPos[$i++];
+		}
+		if ($ins==0){$blankGene++}
+		push (@geneIns,$ins);
+	}
+}
+my $avgLength=sprintf("%.2f",mean(@allLengths));
+
+my ($minLength, $maxLength) = minmax @allLengths;
+my $avgInsGene=sprintf("%.2f",mean(@geneIns));
+
+
+
+
+
+my ($minInsGene, $maxInsGene) = minmax @geneIns;
+my $nonGeneIns=scalar @insertPosCopy;
+my $totalIns=scalar @insertPos;
+my $percNon=sprintf("%.2f",($nonGeneIns/$totalIns)*100);
+
+print OUT "Length of a gene\n";
+print OUT "$avgLength\tAverage","\n$minLength\tMininum","\n$maxLength\tMaximum\n";
+print OUT "\nFor insertions in a gene:\n";
+print OUT "$avgInsGene\tAverage","\n$minInsGene\tMininum","\n$maxInsGene\tMaximum\n";
+print OUT "Number of genes that do not have any insertions: ",$blankGene,"\n";
+print OUT "\n$nonGeneIns\tInsertions that are not in genes","\n$percNon% of all insertions\n";
+#How many insertions are in genes and how many are in non-gene regions?
+
+
+