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analyze_triplet_periodicity.php
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analyze_triplet_periodicity.php
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#!/usr/bin/php
<?php
/*******************************************************************************
*
* CodonPositionAnalyzer analyzes the Mutalyzer results, compared to the
* original wiggle files, checks the strand of the transcript in a third file,
* and presents the results.
*
* Created : 2013-04-16
* Modified : 2014-08-14
* Version : 0.4
*
* Copyright : 2013-2015 Leiden University Medical Center; http://www.LUMC.nl/
* Programmer : Ing. Ivo F.A.C. Fokkema <I.F.A.C.Fokkema@LUMC.nl>
*
* Changelog : 0.4
* Fixed problem with parsing the Wiggle files; we were skipping
* the chrom=NC_* header, adding its positions to the last used
* chromosome (usually chrY).
*
*
* This work is licensed under the Creative Commons
* Attribution-NonCommercial-ShareAlike 4.0 International License. To view a
* copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/4.0/
* or send a letter to:
* Creative Commons, PO Box 1866, Mountain View, CA 94042, USA.
*
*************/
$_SETT =
array(
'version' => '0.4',
'min_coverage' => 3,
'max_upstream' => 500,
'max_downstream' => 500,
);
echo 'CodonPositionAnalyzer v.' . $_SETT['version'] . "\n";
$aFiles = $_SERVER['argv'];
$sScriptName = array_shift($aFiles);
if (count($aFiles) != 4) {
die('Usage: ' . $sScriptName . ' MUTALYZER_FILE WIGGLE_FILE GENE_LIST_FILE STRAND' . "\n\n");
}
$sArgStrand = array_pop($aFiles);
if ($sArgStrand == 'F') {
$sArgStrand = '+';
} elseif ($sArgStrand == 'R') {
$sArgStrand = '-';
} elseif (!in_array($sArgStrand, array('+','-'))) {
die('Strand argument is invalid. Please choose from +, -, F or R.' . "\n\n");
}
// Check if all files can be read.
foreach ($aFiles as $sFile) {
if (!is_readable($sFile)) {
die('Unable to open ' . $sFile . '.' . "\n");
}
}
function sortPositions ($key1, $key2) {
// Sorts the positions.
if ($key1{0} == '*' && $key2{0} == '*') {
return (substr($key1, 1) < substr($key2, 1)? -1 : 1); // I know the values will never be equal.
} elseif ($key1{0} == '*' && $key2{0} != '*') {
return 1;
} elseif ($key1{0} != '*' && $key2{0} == '*') {
return -1;
} else {
return ($key1 < $key2? -1 : 1); // I know the values will never be equal.
}
}
// Prepare wiggle file, read into memory.
$aWiggleFile = file($aFiles[1], FILE_IGNORE_NEW_LINES);
$aCoverages = array();
$nChroms = 0;
$sChrom = '';
print('Parsing Wiggle file... ');
foreach ($aWiggleFile as $sLine) {
if (preg_match('/^variableStep chrom=(.+)$/', $sLine, $aRegs)) {
// Chromosome found.
// if (!preg_match('/^chr([0-9]+|[XYM])$/', $aRegs[1])) { // FOR NOW, IGNORE chrM!!!
if (!preg_match('/^chr([0-9]+|[XY])$/', $aRegs[1])) {
$sChrom = '';
} else {
$sChrom = $aRegs[1];
$nChroms ++;
}
continue;
}
if ($sChrom) {
list($nPos, $nCoverage) = explode("\t", $sLine);
$aCoverages[$sChrom . ':g.' . $nPos . 'del'] = $nCoverage; // Faking the variant.
}
}
print('done, loaded ' . $nChroms . ' chromosomes with ' . count($aCoverages) . ' positions in memory.' . "\n");
// Prepare gene file.
$aTranscriptFile = file($aFiles[2], FILE_IGNORE_NEW_LINES);
unset($aTranscriptFile[0]); // Header.
$aTranscripts = array();
print('Parsing gene file... ');
foreach ($aTranscriptFile as $sLine) {
if (!trim($sLine) || $sLine{0} == '#') {
continue;
}
list($sTranscript, $sStrand, $sGene) = explode("\t", $sLine);
$aTranscripts[$sTranscript] = $sStrand; // We'll ignore the gene name for now.
}
print('done, loaded ' . count($aTranscripts) . ' transcripts in memory.' . "\n");
// Now, loop the Mutalyzer file, find coverages in array (if not present, complain), check strand in gene list, and summarize results.
$nFiltered = 0;
$nIntronicPositions = 0;
$nUnmappable = 0;
$nIntergenic = 0;
$aTranscriptsPerPosition = array(); // Stores how many positions have how many transcripts, pure statistics.
$aCodonPositions = array();
$aUnknownTranscripts = array();
$aMutalyzerResults = file($aFiles[0]);
unset($aMutalyzerResults[0]); // Header.
print('Parsing mutalyzer results file... ');
foreach ($aMutalyzerResults as $sLine) {
$aLine = explode("\t", rtrim($sLine)); // Removing whitespace from the right.
$sVariant = array_shift($aLine);
// Get coverage.
if (!isset($aCoverages[$sVariant])) {
die("\n" .
'Cannot find coverage for position ' . $sVariant . ', probably you selected the wrong Wiggle file for this Mutalyzer file?' . "\n");
}
$nCoverage = $aCoverages[$sVariant];
// Filter for low coverage.
if ($aCoverages[$sVariant] < $_SETT['min_coverage']) {
// NOTE: The Mutalyzer batch file has already been filtered for coverage lower than 3.
$nFiltered ++;
continue;
}
// We need at least 4 values; input, errors, chrom_var, var_on_transcript.
$nTranscripts = count($aLine) - 2;
if ($nTranscripts < 0) {
$nTranscripts = 0;
}
// Prevent notices...
if (!isset($aTranscriptsPerPosition[$nTranscripts])) {
$aTranscriptsPerPosition[$nTranscripts] = 0;
}
$aTranscriptsPerPosition[$nTranscripts] ++;
if ($nTranscripts >= 1) {
$sError = array_shift($aLine);
if ($sError) {
// If we have an error, would we ever have an array of at least 4? I think not...
die("\n" .
'Position ' . $sVariant . ' somehow generated an error: ' . $sError . "\n");
}
array_shift($aLine); // We're ignoring the mapping on the chromosome, which was our input anyways.
// What is left is an array with at least one mapping to a transcript.
$b5UTR = false;
$bCoding = false; // 'Coding region' also applies to -15 to -1.
$bIntronic = false;
$b3UTR = false;
// Store all options first, then decide what to do depending on the resulting options.
$aCodonOptions = array();
foreach ($aLine as $sVOT) {
if (preg_match('/^([NX]R_\d+)/', $sVOT)) {
// Non-coding RNA... ignore it, even though it probably doesn't do much.
continue;
} elseif (!preg_match('/^([NX][RM]_\d+)\.\d+:(.+)/', $sVOT, $aRegs)) {
die("\n" .
'Cannot parse variant ' . $sVOT . "\n");
}
$sTranscript = $aRegs[1];
$sPosition = $aRegs[2];
// Check if we have info on the transcript, then check strand and store positions!
if (!isset($aTranscripts[$sTranscript])) {
// This happens quite a lot...
if (!in_array($sTranscript, $aUnknownTranscripts)) {
$aUnknownTranscripts[] = $sTranscript;
}
continue; // On to the next VOT for this position.
}
if ($sArgStrand == $aTranscripts[$sTranscript]) {
// Correct strand!
if (preg_match('/^[cn]\.(\*)?(\-?\d+)del$/', $sPosition, $aRegs)) {
// Got one!
$aCodonOptions[] = $aRegs[1] . $aRegs[2];
if ($aRegs[1]) {
// 3'UTR!
$b3UTR = true;
} elseif ($aRegs[2] < -15) {
$b5UTR = true; // Other values >= -15 && < 0 are very valuable and not regarded 5'UTR.
} else {
$bCoding = true;
}
} elseif (preg_match('/^[cn]\.(\*)?(\-?\d+)([+-]\d+)del$/', $sPosition)) {
// Intronic, we must have got the wrong transcript here!
$bIntronic = true;
} else {
// Euh....
die($sPosition);
}
}
}
// Now, decide, based on the options, what to do.
// If we have no options, disregard position.
if (!count($aCodonOptions)) {
// Has not been mapped to any transcript on the correct strand!
if ($bIntronic) {
// We did find intronic mappings...
$nIntronicPositions ++;
} else {
// Nothing on this strand...
$nUnmappable ++;
}
continue; // Continue to next position.
}
// Now filter distances, more than 500bp up- or downstream is too much.
foreach ($aCodonOptions as $sTranscript => $sPosition) {
if ($sPosition{0} == '-' && $sPosition < -$_SETT['max_upstream']) {
unset($aCodonOptions[$sTranscript]);
} elseif ($sPosition{0} == '*' && substr($sPosition, 1) > $_SETT['max_downstream']) {
unset($aCodonOptions[$sTranscript]);
}
}
// Check if we filtered it out completely now.
if (!count($aCodonOptions)) {
// Too far from any known transcript!
$nIntergenic ++;
continue; // Continue to next position.
}
// Check if the 5' and 3' flags are still correct.
$b5UTR = false;
$b3UTR = false;
foreach ($aCodonOptions as $sPosition) {
if ($sPosition{0} == '-' && $sPosition < -15) {
$b5UTR = true;
} elseif ($sPosition{0} == '*') {
$b3UTR = true;
}
}
// If we have 5'UTR positions, but also positions in the coding region, the 5'UTR is taken out.
if ($b5UTR && $bCoding) {
foreach ($aCodonOptions as $nKey => $sPosition) {
if ($sPosition{0} == '-' && $sPosition < -15) {
unset($aCodonOptions[$nKey]);
}
}
$b5UTR = false;
}
// If we have 3'UTR positions, but also positions in the coding region, the 3'UTR is taken out.
if ($bCoding && $b3UTR) {
foreach ($aCodonOptions as $nKey => $sPosition) {
if ($sPosition{0} == '*') {
unset($aCodonOptions[$nKey]);
}
}
$b3UTR = false;
}
// If we have 5' and 3'UTR positions, but no positions in the coding region, compare the 5' and 3' positions.
if ($b5UTR && !$bCoding && $b3UTR) {
$nMin = -$_SETT['max_upstream'];
$nMax = $_SETT['max_downstream'];
// Determine the 5' and 3' positions closest to the translation start and end sites.
foreach ($aCodonOptions as $sPosition) {
if ($sPosition{0} == '*') {
// 3'
$nMax = min($nMax, substr($sPosition, 1));
} else {
// 5'
$nMin = max($nMin, $sPosition);
}
}
// Calculate the difference between each other.
if (abs($nMin) < $nMax && ($nMax + $nMin) > 100) {
// The 5' position is closer to the ATG than the 3' is to the TGA.
foreach ($aCodonOptions as $sTranscript => $sPosition) {
if ($sPosition{0} == '*') {
unset($aCodonOptions[$sTranscript]);
}
}
$b3UTR = false;
} elseif (abs($nMin) > $nMax && ($nMax + $nMin) < -100) {
// The 3' position is closer to the TGA than the 5' is to the ATG.
foreach ($aCodonOptions as $sTranscript => $sPosition) {
if ($sPosition{0} == '-') {
unset($aCodonOptions[$sTranscript]);
}
}
$b5UTR = false;
}
}
// If everything is normal, report it.
if ((!$b5UTR && $bCoding && !$b3UTR) || ($b5UTR && !$bCoding && !$b3UTR) || (!$b5UTR && !$bCoding && $b3UTR)) {
foreach ($aCodonOptions as $sPosition) {
if ($sPosition{0} != '*' && $sPosition >= -15) {
// Group reads together, store position in codon.
if ($sPosition < 0) {
// 'Coding region', but -15 to -1.
$nCodonPosition = ($sPosition%3)+4; // -6->4, -5->2, -4->3.
if ($nCodonPosition == 4) {
// Second position.
$nCodonPosition = 1;
}
} else {
// Real coding positions.
$nCodonPosition = $sPosition % 3; // 4->1, 5->2, 6->0.
if (!$nCodonPosition) {
// Third position.
$nCodonPosition = 3;
}
}
// Preventing notices...
if (!isset($aCodonPositions['%' . $nCodonPosition])) {
$aCodonPositions['%' . $nCodonPosition] = 0;
}
// Store value!
$aCodonPositions['%' . $nCodonPosition] += $aCoverages[$sVariant];
if ($sPosition > 6) {
// Not individually counted, goodbye...
continue; // To next codon position.
}
}
// Preventing notices...
if (!isset($aCodonPositions[$sPosition])) {
$aCodonPositions[$sPosition] = 0;
}
$aCodonPositions[$sPosition] += $aCoverages[$sVariant];
}
} else {
// Currently unhandled situation.
print('Not implemented:' . "\n" .
'5UTR: ' . (int) $b5UTR . ', Coding: ' . (int) $bCoding . ', 3UTR: ' . (int) $b3UTR . ', Location: ' . $sVariant . "\n");
}
} elseif (count($aLine) == 1) {
// Generated an error!
$sError = $aLine[0];
die('Position ' . $sVariant . ' somehow generated an error: ' . $sError . "\n");
} else {
// Unmappable...
$nUnmappable ++;
}
}
print('done!' . "\n");
sort($aUnknownTranscripts);
print('Total positions:' . "\t" . count($aMutalyzerResults) . "\n" .
'Filtered for low coverage:' . "\t" . $nFiltered . "\n" .
'Transcripts not found in gene file:' . "\t" . count($aUnknownTranscripts) . "\t" . implode(';', $aUnknownTranscripts) . "\n" .
'Transcripts per position:' . "\n" .
'Transcripts' . "\t" . 'Count' . "\n");
ksort($aTranscriptsPerPosition);
foreach($aTranscriptsPerPosition as $nTranscripts => $nPositions) {
print($nTranscripts . "\t" . $nPositions . "\n");
}
print("\n" .
'Positions left after filtering:' . "\t" . array_sum($aTranscriptsPerPosition) . "\n" .
'Positions not mappable:' . "\t" . $nUnmappable . "\t" . 'Possible causes: no mapping by Mutalyzer, transcript is missing, or strand is wrong' . "\n" .
'Positions intronic only:' . "\t" . $nIntronicPositions . "\t" . 'Possible causes: transcript is missing, or strand is wrong' . "\n" .
'Positions too far from known genes:' . "\t" . $nIntergenic . "\t" . 'Possible causes: transcript is missing, newly discovered transcript, or strand is wrong' . "\n" .
'Mapping to codon positions:' . "\n" .
'Position' . "\t" . 'Total coverage' . "\n");
uksort($aCodonPositions, 'sortPositions');
foreach($aCodonPositions as $nPosition => $nCoverage) {
print($nPosition . "\t" . $nCoverage . ($nPosition{0} != '%'? '' : "\t" . '(including -15 to -1)') . "\n");
}
print("\n");
exit(0);
?>