Mercurial > repos > bigrna > gpsrna
comparison precursors.pl @ 0:87fe81de0931 draft default tip
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| author | bigrna |
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| date | Sun, 04 Jan 2015 02:47:25 -0500 |
| parents | |
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| -1:000000000000 | 0:87fe81de0931 |
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| 1 #!/usr/bin/perl -w | |
| 2 #Filename: | |
| 3 #Author: Tian Dongmei | |
| 4 #Email: tiandm@big.ac.cn | |
| 5 #Date: 2013/7/19 | |
| 6 #Modified: | |
| 7 #Description: | |
| 8 my $version=1.00; | |
| 9 | |
| 10 use strict; | |
| 11 use Getopt::Long; | |
| 12 #use RNA; | |
| 13 | |
| 14 my %opts; | |
| 15 GetOptions(\%opts,"map=s","g=s","d:i","f:i","o=s","e:f","s=s","h"); | |
| 16 if (!(defined $opts{map} and defined $opts{g} and defined $opts{o} and defined $opts{s} ) || defined $opts{h}) { #necessary arguments | |
| 17 &usage; | |
| 18 } | |
| 19 | |
| 20 my $checkno=1; | |
| 21 my $filein=$opts{'map'}; | |
| 22 my $faout=$opts{'o'}; | |
| 23 my $strout=$opts{'s'}; | |
| 24 my $genome= $opts{'g'}; | |
| 25 | |
| 26 my $maxd=defined $opts{'d'} ? $opts{'d'} : 200; | |
| 27 my $flank=defined $opts{'f'}? $opts{'f'} : 10; | |
| 28 | |
| 29 my $MAX_ENERGY=-18; | |
| 30 if (defined $opts{'e'}) {$MAX_ENERGY=$opts{'e'};} | |
| 31 my $MAX_UNPAIR=5; | |
| 32 my $MIN_PAIR=15; | |
| 33 my $MAX_SIZEDIFF=4; | |
| 34 my $MAX_BULGE=2; | |
| 35 my $ASYMMETRY=5; | |
| 36 my $MIN_UNPAIR=0; | |
| 37 my $MIN_SPACE=5; | |
| 38 my $MAX_SPACE=$maxd; | |
| 39 my $FLANK=$flank; | |
| 40 | |
| 41 ######### load in genome sequences start ######## | |
| 42 my %genome; | |
| 43 my %lng; | |
| 44 my $name; | |
| 45 open IN,"<$genome"; | |
| 46 while (my $aline=<IN>) { | |
| 47 chomp $aline; | |
| 48 next if($aline=~/^\#/); | |
| 49 if ($aline=~/^>(\S+)/) { | |
| 50 $name=$1; | |
| 51 next; | |
| 52 } | |
| 53 $genome{$name} .=$aline; | |
| 54 } | |
| 55 close IN; | |
| 56 foreach my $key (keys %genome) { | |
| 57 $lng{$key}=length($genome{$key}); | |
| 58 } | |
| 59 ####### load in genome sequences end ########## | |
| 60 | |
| 61 my %breaks; ### reads number bigger than 3 | |
| 62 open IN,"<$filein"; #input file | |
| 63 while (my $aline=<IN>) { | |
| 64 chomp $aline; | |
| 65 my @tmp=split/\t/,$aline; | |
| 66 $tmp[0]=~/_x(\d+)$/; | |
| 67 my $no=$1; | |
| 68 next if($no<3); | |
| 69 #my $trand=&find_strand($tmp[9]); | |
| 70 #my @pos=split/\.\./,$tmp[5]; | |
| 71 my $end=$tmp[3]+length($tmp[4])-1; | |
| 72 if($tmp[1] eq "-"){$tmp[4]=revcom($tmp[4]);} | |
| 73 push @{$breaks{$tmp[2]}{$tmp[1]}},[$tmp[3],$end,$no,$tmp[4]]; ### 0 base | |
| 74 } | |
| 75 close IN; | |
| 76 | |
| 77 my %cites; ### peaks | |
| 78 foreach my $chr (keys %breaks) { | |
| 79 foreach my $strand (keys %{$breaks{$chr}}) { | |
| 80 my @array=@{$breaks{$chr}{$strand}}; | |
| 81 @array=sort{$a->[0]<=>$b->[0]} @array; | |
| 82 for (my $i=0;$i<@array;$i++) { | |
| 83 my $start=$array[$i][0];my $end=$array[$i][1]; | |
| 84 my @subarray=(); | |
| 85 push @subarray,$array[$i]; | |
| 86 | |
| 87 for (my $j=$i+1;$j<@array;$j++) { | |
| 88 if ($start<$array[$j][1] && $end>$array[$j][0]) { ###overlap | |
| 89 push @subarray,$array[$j]; | |
| 90 ($start,$end)=&newpos($start,$end,$array[$j][0],$array[$j][1]); | |
| 91 } | |
| 92 else{ | |
| 93 $i=$j-1; | |
| 94 &find_cites(\@subarray,$chr,$strand); | |
| 95 last; | |
| 96 } | |
| 97 } | |
| 98 } | |
| 99 } | |
| 100 } | |
| 101 | |
| 102 my %cluster; | |
| 103 foreach my $chr (keys %cites) { | |
| 104 foreach my $strand (keys %{$cites{$chr}}) { | |
| 105 my @array=@{$sites{$chr}{$strand}}; | |
| 106 @array=sort{$a->[0]<=>$b->[0]} @array; | |
| 107 for (my $i=0;$i<@array;$i++) { | |
| 108 my $start=$array[$i][0];my $end=$array[$i][1]; | |
| 109 my @subarray=(); | |
| 110 push @subarray,$array[$i]; | |
| 111 | |
| 112 for (my $j=$i+1;$j<@array;$j++) { | |
| 113 if ($end>$array[$j][0]-$maxd) { ###distance less than 200bp | |
| 114 push @subarray,$array[$j]; | |
| 115 ($start,$end)=&newpos($start,$end,$array[$j][0],$array[$j][1]); | |
| 116 } | |
| 117 else{ | |
| 118 @{$cluster{$chr}{$strand}{$i}}=@subarray; | |
| 119 $i=$j-1; | |
| 120 last; | |
| 121 } | |
| 122 } | |
| 123 } | |
| 124 | |
| 125 } | |
| 126 } | |
| 127 | |
| 128 | |
| 129 open FA,">$faout"; #output file | |
| 130 open STR,">$strout"; | |
| 131 foreach my $chr (keys %cluster) { | |
| 132 foreach my $strand (keys %{$cluster{$chr}}) { | |
| 133 foreach my $no (keys %{$cluster{$chr}{$strand}}) { | |
| 134 my @array2=@{$cluster{$chr}{$strand}{$no}}; | |
| 135 @array2=sort{$a->[0]<=>$b->[0]} @array2; | |
| 136 &excise(\@array2,$chr,$strand); | |
| 137 } | |
| 138 } | |
| 139 } | |
| 140 close FA; | |
| 141 close STR; | |
| 142 sub oneCiteDn{ | |
| 143 my ($array,$a,$chr,$strand)=@_; | |
| 144 | |
| 145 my $ss=$$array[$a][0]-$flank; | |
| 146 $ss=0 if($ss<0); | |
| 147 my $ee=$$array[$a][1]+$maxd+$flank; | |
| 148 $ee=$lng{$chr} if($ee>$lng{$chr}); | |
| 149 | |
| 150 my $seq=substr($genome{$chr},$ss,$ee-$ss+1); | |
| 151 if($strand eq "-"){$seq=revcom($seq);} | |
| 152 | |
| 153 my $val=&ffw1($seq,$$array[$a][3],$chr,$strand,$ss,$ee); | |
| 154 return $val; | |
| 155 } | |
| 156 sub oneCiteUp{ | |
| 157 my ($array,$a,$chr,$strand)=@_; | |
| 158 | |
| 159 my $ss=$$array[$a][0]-$maxd-$flank; | |
| 160 $ss=0 if($ss<0); | |
| 161 my $ee=$$array[$a][1]+$flank; | |
| 162 $ee=$lng{$chr} if($ee>$lng{$chr}); | |
| 163 | |
| 164 my $seq=substr($genome{$chr},$ss,$ee-$ss+1); | |
| 165 if($strand eq "-"){$seq=revcom($seq);} | |
| 166 | |
| 167 my $val=&ffw1($seq,$$array[$a][3],$chr,$strand,$ss,$ee); | |
| 168 return $val; | |
| 169 | |
| 170 } | |
| 171 | |
| 172 sub twoCites{ | |
| 173 my ($array,$a,$b,$chr,$strand)=@_; | |
| 174 | |
| 175 my $ss=$$array[$a][0]-$flank; | |
| 176 $ss=0 if($ss<0); | |
| 177 my $ee=$$array[$b][1]+$flank; | |
| 178 $ee=$lng{$chr} if($ee>$lng{$chr}); | |
| 179 | |
| 180 my $seq=substr($genome{$chr},$ss,$ee-$ss+1); | |
| 181 if($strand eq "-"){$seq=revcom($seq);} | |
| 182 | |
| 183 # my( $str,$mfe)=RNA::fold($seq); | |
| 184 # return 0 if($mfe>$MAX_ENERGY); ### minimum mfe | |
| 185 my $val=&ffw2($seq,$$array[$a][3],$$array[$b][3],$chr,$strand,$ss,$ee); | |
| 186 | |
| 187 return $val; | |
| 188 | |
| 189 } | |
| 190 sub excise{ | |
| 191 my ($cluster,$chr,$strand)=@_; | |
| 192 | |
| 193 if(@{$cluster}==1){ | |
| 194 $ok=&oneCiteDn($cluster,0,$chr,$strand); | |
| 195 $ok=&oneCiteUp($cluster,0,$chr,$strand); | |
| 196 }else{ | |
| 197 my $peak_pos=0; | |
| 198 | |
| 199 for (my $i=0;$i<@{$cluster};$i++) { | |
| 200 if($$cluster[$i][2]>$$cluster[$peak_pos][2]){$peak_pos=$i;} | |
| 201 } | |
| 202 | |
| 203 my $ok=0; | |
| 204 for (my $i=0;$i<@{$cluster};$i++) { | |
| 205 next if($i==$peak_pos); | |
| 206 if($i<$peak_pos){$ok=&twoCites($cluster,$i,$peak_pos,$chr,$strand);} | |
| 207 else{$ok=&twoCites($cluster,$peak_pos,$i,$chr,$strand);} | |
| 208 last if($ok); | |
| 209 } | |
| 210 if (!$ok) { | |
| 211 $ok=&oneCiteDn($cluster,$peak_pos,$chr,$strand); | |
| 212 $ok=&oneCiteUp($cluster,$peak_pos,$chr,$strand); | |
| 213 } | |
| 214 | |
| 215 } | |
| 216 } | |
| 217 | |
| 218 sub ffw2{ | |
| 219 my ($seq,$tag1,$tag2,$chr,$strand,$ss,$ee)=@_; | |
| 220 | |
| 221 my $N_count=$seq=~tr/N//; ## precursor sequence has not more than 5 Ns | |
| 222 if ($N_count > 5) { | |
| 223 return 0; | |
| 224 } | |
| 225 | |
| 226 my $seq_length=length $seq; | |
| 227 # position tag1 and tag2 | |
| 228 my $tag1_beg=index($seq,$tag1,0)+1; | |
| 229 if ($tag1_beg < 1) { | |
| 230 warn "[ffw2] coordinate error.\n"; | |
| 231 # $fold->{reason}="coordinate error"; | |
| 232 return 0; | |
| 233 } | |
| 234 my $tag2_beg=index($seq,$tag2,0)+1; | |
| 235 if ($tag2_beg < 1) { | |
| 236 warn "[ffw2] coordinate error.\n"; | |
| 237 # $fold->{reason}="coordinate error"; | |
| 238 return 0; | |
| 239 } | |
| 240 if ($tag2_beg < $tag1_beg) { | |
| 241 # swap tag1 and tag2 | |
| 242 ($tag1,$tag2)=($tag2,$tag1); | |
| 243 ($tag1_beg,$tag2_beg)=($tag2_beg,$tag1_beg); | |
| 244 } | |
| 245 my $tag1_end=$tag1_beg+length($tag1)-1; | |
| 246 my $tag2_end=$tag2_beg+length($tag2)-1; | |
| 247 # re-clipping | |
| 248 my $beg=$tag1_beg-$FLANK; $beg=1 if $beg < 1; | |
| 249 my $end=$tag2_end+$FLANK; $end=$seq_length if $end > $seq_length; | |
| 250 $seq=substr($seq,$beg-1,$end-$beg+1); | |
| 251 $seq_length=length $seq; | |
| 252 # re-reposition | |
| 253 $tag1_beg=index($seq,$tag1,0)+1; | |
| 254 if ($tag1_beg < 1) { | |
| 255 warn "[ffw2] coordinate error.\n"; | |
| 256 # $fold->{reason}="coordinate error"; | |
| 257 return 0; | |
| 258 } | |
| 259 | |
| 260 $tag2_beg=index($seq,$tag2,0)+1; | |
| 261 if ($tag2_beg < 1) { | |
| 262 warn "[ffw2] coordinate error.\n"; | |
| 263 # $fold->{reason}="coordinate error"; | |
| 264 return 0; | |
| 265 } | |
| 266 $tag1_end=$tag1_beg+length($tag1)-1; | |
| 267 $tag2_end=$tag2_beg+length($tag2)-1; | |
| 268 | |
| 269 # fold | |
| 270 #my ($struct,$mfe)=RNA::fold($seq); | |
| 271 my $rnafold=`perl -e 'print "$seq"' | RNAfold --noPS`; | |
| 272 my @rawfolds=split/\s+/,$rnafold; | |
| 273 my $struct=$rawfolds[1]; | |
| 274 my $mfe=$rawfolds[-1]; | |
| 275 $mfe=~s/\(//; | |
| 276 $mfe=~s/\)//; | |
| 277 #$mfe=sprintf "%.2f", $mfe; | |
| 278 if ($mfe > $MAX_ENERGY) {return 0;} | |
| 279 | |
| 280 # tag1 | |
| 281 my $tag1_length=$tag1_end-$tag1_beg+1; | |
| 282 my $tag1_struct=substr($struct,$tag1_beg-1,$tag1_length); | |
| 283 my $tag1_arm=which_arm($tag1_struct); | |
| 284 my $tag1_unpair=$tag1_struct=~tr/.//; | |
| 285 my $tag1_pair=$tag1_length-$tag1_unpair; | |
| 286 my $tag1_max_bulge=biggest_bulge($tag1_struct); | |
| 287 if ($tag1_arm ne "5p") { return 0;} # tag not in stem | |
| 288 # if ($tag1_unpair > $MAX_UNPAIR) {$fold->{reason}="unpair=$tag1_unpair ($MAX_UNPAIR)"; return $pass} | |
| 289 if ($tag1_pair < $MIN_PAIR) {return 0;} | |
| 290 if ($tag1_max_bulge > $MAX_BULGE) {return 0;} | |
| 291 | |
| 292 # tag2 | |
| 293 my $tag2_length=$tag2_end-$tag2_beg+1; | |
| 294 my $tag2_struct=substr($struct,$tag2_beg-1,$tag2_length); | |
| 295 my $tag2_arm=which_arm($tag2_struct); | |
| 296 my $tag2_unpair=$tag2_struct=~tr/.//; | |
| 297 my $tag2_pair=$tag2_length-$tag2_unpair; | |
| 298 my $tag2_max_bulge=biggest_bulge($tag2_struct); | |
| 299 if ($tag2_arm ne "3p") {return 0;} # star not in stem | |
| 300 # if ($tag2_unpair > $MAX_UNPAIR) {$fold->{reason}="unpair=$tag2_unpair ($MAX_UNPAIR)"; return $pass} | |
| 301 if ($tag2_pair < $MIN_PAIR) {return 0;} | |
| 302 if ($tag2_max_bulge > $MAX_BULGE) {return 0;} | |
| 303 | |
| 304 # space size between miR and miR* | |
| 305 my $space=$tag2_beg-$tag1_end-1; | |
| 306 if ($space < $MIN_SPACE) {return 0;} | |
| 307 if ($space > $MAX_SPACE) {return 0;} | |
| 308 | |
| 309 # size diff of miR and miR* | |
| 310 my $size_diff=abs($tag1_length-$tag2_length); | |
| 311 if ($size_diff > $MAX_SIZEDIFF) {return 0;} | |
| 312 | |
| 313 # build base pairing table | |
| 314 my %pairtable; | |
| 315 &parse_struct($struct,\%pairtable); # coords count from 1 | |
| 316 | |
| 317 my $asy1=get_asy(\%pairtable,$tag1_beg,$tag1_end); | |
| 318 my $asy2=get_asy(\%pairtable,$tag2_beg,$tag2_end); | |
| 319 my $asy=($asy1 < $asy2) ? $asy1 : $asy2; | |
| 320 if ($asy > $ASYMMETRY) {return 0} | |
| 321 | |
| 322 # duplex fold, determine whether two matures like a miR/miR* ike duplex | |
| 323 my ($like_mir_duplex1,$duplex_pair,$overhang1,$overhang2)=likeMirDuplex1($tag1,$tag2); | |
| 324 # parse hairpin, determine whether two matures form miR/miR* duplex in hairpin context | |
| 325 my ($like_mir_duplex2,$duplex_pair2,$overhang_b,$overhang_t)=likeMirDuplex2(\%pairtable,$tag1_beg,$tag1_end,$tag2_beg,$tag2_end); | |
| 326 if ($like_mir_duplex1==0 && $like_mir_duplex2==0) { | |
| 327 return 0; | |
| 328 } | |
| 329 | |
| 330 print FA ">$chr:$strand:$ss..$ee\n$seq\n"; | |
| 331 print STR ">$chr:$strand:$ss..$ee\n$seq\n$struct\t($mfe)\n"; | |
| 332 | |
| 333 return 1; | |
| 334 } | |
| 335 | |
| 336 sub ffw1{ | |
| 337 my ($seq,$tag,$chr,$strand,$ss,$ee)=@_; | |
| 338 my $pass=0; | |
| 339 | |
| 340 my $N_count=$seq=~tr/N//; | |
| 341 if ($N_count > 5) { | |
| 342 return 0; | |
| 343 } | |
| 344 | |
| 345 my $seq_length=length $seq; | |
| 346 my $tag_length=length $tag; | |
| 347 | |
| 348 # position | |
| 349 my $tag_beg=index($seq,$tag,0)+1; | |
| 350 if ($tag_beg < 1) { | |
| 351 warn "[ffw1] coordinate error.\n"; | |
| 352 return $pass; | |
| 353 } | |
| 354 my $tag_end=$tag_beg+length($tag)-1; | |
| 355 | |
| 356 | |
| 357 # define candidate precursor by hybrid short arm to long arm, not solid enough | |
| 358 my($beg,$end)=define_precursor($seq,$tag); | |
| 359 if (not defined $beg) { | |
| 360 return $pass; | |
| 361 } | |
| 362 if (not defined $end) { | |
| 363 return $pass; | |
| 364 } | |
| 365 $seq=substr($seq,$beg-1,$end-$beg+1); | |
| 366 $seq_length=length $seq; | |
| 367 | |
| 368 | |
| 369 # fold | |
| 370 #my ($struct,$mfe)=RNA::fold($seq); | |
| 371 my $rnafold=`perl -e 'print "$seq"' | RNAfold --noPS`; | |
| 372 my @rawfolds=split/\s+/,$rnafold; | |
| 373 my $struct=$rawfolds[1]; | |
| 374 my $mfe=$rawfolds[-1]; | |
| 375 $mfe=~s/\(//; | |
| 376 $mfe=~s/\)//; | |
| 377 | |
| 378 if ($mfe > $MAX_ENERGY) { | |
| 379 $pass=0; | |
| 380 return $pass; | |
| 381 } | |
| 382 | |
| 383 # reposition | |
| 384 $tag_beg=index($seq,$tag,0)+1; | |
| 385 if ($tag_beg < 1) { | |
| 386 warn "[ffw1] coordinate error.\n"; | |
| 387 return 0; | |
| 388 } | |
| 389 $tag_end=$tag_beg+length($tag)-1; | |
| 390 | |
| 391 my $tag_struct=substr($struct,$tag_beg-1,$tag_length); | |
| 392 my $tag_arm=which_arm($tag_struct); | |
| 393 my $tag_unpair=$tag_struct=~tr/.//; | |
| 394 my $tag_pair=$tag_length-$tag_unpair; | |
| 395 my $tag_max_bulge=biggest_bulge($tag_struct); | |
| 396 if ($tag_arm eq "-") { return $pass;} | |
| 397 # if ($tag_unpair > $MAX_UNPAIR) {$fold->{reason}="unpair=$tag_unpair ($MAX_UNPAIR)"; return $pass} | |
| 398 if ($tag_pair < $MIN_PAIR) { return $pass;} | |
| 399 if ($tag_max_bulge > $MAX_BULGE) {return $pass;} | |
| 400 | |
| 401 # build base pairing table | |
| 402 my %pairtable; | |
| 403 &parse_struct($struct,\%pairtable); # coords count from 1 | |
| 404 | |
| 405 # get star | |
| 406 my ($star_beg,$star_end)=get_star(\%pairtable,$tag_beg,$tag_end); | |
| 407 my $star=substr($seq,$star_beg-1,$star_end-$star_beg+1); | |
| 408 my $star_length=$star_end-$star_beg+1; | |
| 409 my $star_struct=substr($struct,$star_beg-1,$star_end-$star_beg+1); | |
| 410 my $star_arm=which_arm($star_struct); | |
| 411 my $star_unpair=$star_struct=~tr/.//; | |
| 412 my $star_pair=$star_length-$star_unpair; | |
| 413 my $star_max_bulge=biggest_bulge($star_struct); | |
| 414 if ($star_arm eq "-") { return $pass;} | |
| 415 # if ($star_unpair > $MAX_UNPAIR) {$fold->{reason}="unpair=$star_unpair ($MAX_UNPAIR)"; return $pass} | |
| 416 if ($star_pair < $MIN_PAIR) {return $pass;} | |
| 417 if ($star_max_bulge > $MAX_BULGE) {return $pass;} | |
| 418 | |
| 419 if ($tag_arm eq $star_arm) {return $pass;} | |
| 420 | |
| 421 # space size between miR and miR* | |
| 422 my $space; | |
| 423 if ($tag_beg < $star_beg) { | |
| 424 $space=$star_beg-$tag_end-1; | |
| 425 } | |
| 426 else { | |
| 427 $space=$tag_beg-$star_end-1; | |
| 428 } | |
| 429 if ($space < $MIN_SPACE) { return $pass;} | |
| 430 if ($space > $MAX_SPACE) { return $pass;} | |
| 431 | |
| 432 # size diff | |
| 433 my $size_diff=abs($tag_length-$star_length); | |
| 434 if ($size_diff > $MAX_SIZEDIFF) { return $pass;} | |
| 435 | |
| 436 # asymmetry | |
| 437 my $asy=get_asy(\%pairtable,$tag_beg,$tag_end); | |
| 438 if ($asy > $ASYMMETRY) {return $pass;} | |
| 439 | |
| 440 $pass=1; | |
| 441 print FA ">$chr:$strand:$ss..$ee\n$seq\n"; | |
| 442 print STR ">$chr:$strand:$ss..$ee\n$seq\n$struct\t($mfe)\n"; | |
| 443 return $pass; | |
| 444 | |
| 445 } | |
| 446 sub get_star { | |
| 447 my($table,$beg,$end)=@_; | |
| 448 | |
| 449 my ($s1,$e1,$s2,$e2); # s1 pair to s2, e1 pair to e2 | |
| 450 foreach my $i ($beg..$end) { | |
| 451 if (defined $table->{$i}) { | |
| 452 my $j=$table->{$i}; | |
| 453 $s1=$i; | |
| 454 $s2=$j; | |
| 455 last; | |
| 456 } | |
| 457 } | |
| 458 foreach my $i (reverse ($beg..$end)) { | |
| 459 if (defined $table->{$i}) { | |
| 460 my $j=$table->{$i}; | |
| 461 $e1=$i; | |
| 462 $e2=$j; | |
| 463 last; | |
| 464 } | |
| 465 } | |
| 466 # print "$s1,$e1 $s2,$e2\n"; | |
| 467 | |
| 468 # correct terminus | |
| 469 my $off1=$s1-$beg; | |
| 470 my $off2=$end-$e1; | |
| 471 $s2+=$off1; | |
| 472 $s2+=2; # 081009 | |
| 473 $e2-=$off2; $e2=1 if $e2 < 1; | |
| 474 $e2+=2; $e2=1 if $e2 < 1; # 081009 | |
| 475 ($s2,$e2)=($e2,$s2) if ($s2 > $e2); | |
| 476 return ($s2,$e2); | |
| 477 } | |
| 478 | |
| 479 sub define_precursor { | |
| 480 my $seq=shift; | |
| 481 my $tag=shift; | |
| 482 | |
| 483 my $seq_length=length $seq; | |
| 484 my $tag_length=length $tag; | |
| 485 my $tag_beg=index($seq,$tag,0)+1; | |
| 486 my $tag_end=$tag_beg+$tag_length-1; | |
| 487 | |
| 488 # split the candidate region into short arm and long arm | |
| 489 my $tag_arm; | |
| 490 my ($larm,$larm_beg,$larm_end); | |
| 491 my ($sarm,$sarm_beg,$sarm_end); | |
| 492 if ($tag_beg-1 < $seq_length-$tag_end) { # on 5' arm | |
| 493 $sarm=substr($seq,0,$tag_end); | |
| 494 $larm=substr($seq,$tag_end); | |
| 495 $sarm_beg=1; | |
| 496 $sarm_end=$tag_end; | |
| 497 $larm_beg=$tag_end+1; | |
| 498 $larm_end=$seq_length; | |
| 499 $tag_arm="5p"; | |
| 500 } | |
| 501 else { | |
| 502 $larm=substr($seq,0,$tag_beg-1); # on 3' arm | |
| 503 $sarm=substr($seq,$tag_beg-1); | |
| 504 $larm_beg=1; | |
| 505 $larm_end=$tag_beg-1; | |
| 506 $sarm_beg=$tag_beg; | |
| 507 $sarm_end=$seq_length; | |
| 508 $tag_arm="3p"; | |
| 509 } | |
| 510 | |
| 511 # print "$sarm_beg,$sarm_end $sarm\n"; | |
| 512 # print "$larm_beg,$larm_end $larm\n"; | |
| 513 | |
| 514 # clipping short arm | |
| 515 if ($tag_arm eq "5p") { | |
| 516 $sarm_beg=$tag_beg-$flank; $sarm_beg=1 if $sarm_beg < 1; | |
| 517 $sarm=substr($seq,$sarm_beg-1,$sarm_end-$sarm_beg+1); | |
| 518 } | |
| 519 else { | |
| 520 $sarm_end=$tag_end+$flank; $sarm_end=$seq_length if $sarm_end > $seq_length; | |
| 521 $sarm=substr($seq,$sarm_beg-1,$sarm_end-$sarm_beg+1); | |
| 522 } | |
| 523 # print "$sarm_beg,$sarm_end $sarm\n"; | |
| 524 # print "$larm_beg,$larm_end $larm\n"; | |
| 525 | |
| 526 # define the precursor by hybriding short arm to long arm | |
| 527 =cut #modify in 2014-10-28 | |
| 528 my $duplex=RNA::duplexfold($sarm,$larm); | |
| 529 my $struct=$duplex->{structure}; | |
| 530 my $energy=sprintf "%.2f", $duplex->{energy}; | |
| 531 my ($str1,$str2)=split(/&/,$struct); | |
| 532 my $pair=$str1=~tr/(//; | |
| 533 # print "pair=$pair\n"; | |
| 534 my $beg1=$duplex->{i}+1-length($str1); | |
| 535 my $end1=$duplex->{i}; | |
| 536 my $beg2=$duplex->{j}; | |
| 537 my $end2=$duplex->{j}+length($str2)-1; | |
| 538 =cut | |
| 539 ###### new codes begin | |
| 540 my $duplex=`perl -e 'print "$sarm\n$larm"' | RNAduplex`; | |
| 541 #(.(.(((.....(((.&))))))...).). 1,16 : 1,13 (-7.20) | |
| 542 my @tmpduplex=split/\s+/,$duplex; | |
| 543 my $struct=$tmpduplex[0]; | |
| 544 $tmpduplex[-1]=~s/[(|)]//g; | |
| 545 my $energy=$tmpduplex[-1]; | |
| 546 my ($str1,$str2)=split(/&/,$struct); | |
| 547 my $pair=$str1=~tr/(//; | |
| 548 my ($beg1,$end1)=split/,/,$tmpduplex[1]; | |
| 549 my ($beg2,$end2)=split/,/,$tmpduplex[3]; | |
| 550 ######## new codes end | |
| 551 | |
| 552 # print "$beg1:$end1 $beg2:$end2\n"; | |
| 553 # transform coordinates | |
| 554 $beg1=$beg1+$sarm_beg-1; | |
| 555 $end1=$end1+$sarm_beg-1; | |
| 556 $beg2=$beg2+$larm_beg-1; | |
| 557 $end2=$end2+$larm_beg-1; | |
| 558 # print "$beg1:$end1 $beg2:$end2\n"; | |
| 559 | |
| 560 my $off5p=$beg1-$sarm_beg; | |
| 561 my $off3p=$sarm_end-$end1; | |
| 562 $beg2-=$off3p; $beg2=1 if $beg2 < 1; | |
| 563 $end2+=$off5p; $end2=$seq_length if $end2 > $seq_length; | |
| 564 | |
| 565 # print "$beg1:$end1 $beg2:$end2\n"; | |
| 566 | |
| 567 my $beg=$sarm_beg < $beg2 ? $sarm_beg : $beg2; | |
| 568 my $end=$sarm_end > $end2 ? $sarm_end : $end2; | |
| 569 | |
| 570 return if $pair < $MIN_PAIR; | |
| 571 # print "$beg,$end\n"; | |
| 572 return ($beg,$end); | |
| 573 } | |
| 574 | |
| 575 | |
| 576 # duplex fold, judge whether two short seqs like a miRNA/miRNA* duplex | |
| 577 sub likeMirDuplex1 { | |
| 578 my $seq1=shift; | |
| 579 my $seq2=shift; | |
| 580 my $like_mir_duplex=1; | |
| 581 | |
| 582 my $length1=length $seq1; | |
| 583 my $length2=length $seq2; | |
| 584 =cut | |
| 585 my $duplex=RNA::duplexfold($seq1, $seq2); | |
| 586 my $duplex_struct=$duplex->{structure}; | |
| 587 my $duplex_energy=sprintf "%.2f", $duplex->{energy}; | |
| 588 my ($str1,$str2)=split(/&/,$duplex_struct); | |
| 589 my $beg1=$duplex->{i}+1-length($str1); | |
| 590 my $end1=$duplex->{i}; | |
| 591 my $beg2=$duplex->{j}; | |
| 592 my $end2=$duplex->{j}+length($str2)-1; | |
| 593 =cut | |
| 594 my $duplex=`perl -e 'print "$seq1\n$seq2"' | RNAduplex`; | |
| 595 #(.(.(((.....(((.&))))))...).). 1,16 : 1,13 (-7.20) | |
| 596 my @tmpduplex=split/\s+/,$duplex; | |
| 597 my $duplex_struct=$tmpduplex[0]; | |
| 598 $tmpduplex[-1]=~s/[(|)]//g; | |
| 599 my $duplex_energy=$tmpduplex[-1]; | |
| 600 my ($str1,$str2)=split(/&/,$duplex_struct); | |
| 601 #my $pair=$str1=~tr/(//; | |
| 602 my ($beg1,$end1)=split/,/,$tmpduplex[1]; | |
| 603 my ($beg2,$end2)=split/,/,$tmpduplex[3]; | |
| 604 | |
| 605 # revise beg1, end1, beg2, end2 | |
| 606 $str1=~/^(\.*)/; | |
| 607 $beg1+=length($1); | |
| 608 $str1=~/(\.*)$/; | |
| 609 $end1-=length($1); | |
| 610 $str2=~/^(\.*)/; | |
| 611 $beg2+=length($1); | |
| 612 $str2=~/(\.*)$/; | |
| 613 $end2-=length($1); | |
| 614 | |
| 615 my $pair_num=$str1=~tr/(//; | |
| 616 my $overhang1=($length2-$end2)-($beg1-1); # 3' overhang at hairpin bottom | |
| 617 my $overhang2=($length1-$end1)-($beg2-1); # 3' overhang at hairpin neck | |
| 618 # print $pair_num,"\n"; | |
| 619 # print $overhang1,"\n"; | |
| 620 # print $overhang2,"\n"; | |
| 621 if ($pair_num < 13) { | |
| 622 $like_mir_duplex=0; | |
| 623 } | |
| 624 if ($overhang1 < 0 || $overhang2 < 0 ) { | |
| 625 $like_mir_duplex=0; | |
| 626 } | |
| 627 if ($overhang1 > 4 || $overhang2 > 4) { | |
| 628 $like_mir_duplex=0; | |
| 629 } | |
| 630 return ($like_mir_duplex,$pair_num,$overhang1,$overhang2); | |
| 631 } | |
| 632 | |
| 633 # judge whether two matures form miR/miR* duplex, in hairpin context | |
| 634 sub likeMirDuplex2 { | |
| 635 my ($table,$beg1,$end1,$beg2,$end2)=@_; | |
| 636 my $like_mir_duplex=1; | |
| 637 | |
| 638 # s1 e1 | |
| 639 # 5 ----------------------------3 | |
| 640 # | | |||| ||| | | |
| 641 #3 -------------------------------5 | |
| 642 # e2 s2 | |
| 643 | |
| 644 my $pair_num=0; | |
| 645 my $overhang1=0; | |
| 646 my $overhang2=0; | |
| 647 my ($s1,$e1,$s2,$e2); | |
| 648 foreach my $i ($beg1..$end1) { | |
| 649 if (defined $table->{$i}) { | |
| 650 my $j=$table->{$i}; | |
| 651 if ($j <= $end2 && $j >= $beg2) { | |
| 652 $s1=$i; | |
| 653 $e2=$j; | |
| 654 last; | |
| 655 } | |
| 656 } | |
| 657 } | |
| 658 foreach my $i (reverse ($beg1..$end1)) { | |
| 659 if (defined $table->{$i}) { | |
| 660 my $j=$table->{$i}; | |
| 661 if ($j <= $end2 && $j >= $beg2) { | |
| 662 $e1=$i; | |
| 663 $s2=$j; | |
| 664 last; | |
| 665 } | |
| 666 } | |
| 667 } | |
| 668 | |
| 669 # print "$beg1,$end1 $s1,$e1\n"; | |
| 670 # print "$beg2,$end2 $s2,$e2\n"; | |
| 671 | |
| 672 foreach my $i ($beg1..$end1) { | |
| 673 if (defined $table->{$i}) { | |
| 674 my $j=$table->{$i}; | |
| 675 if ($j <= $end2 && $j >= $beg2) { | |
| 676 ++$pair_num; | |
| 677 } | |
| 678 } | |
| 679 } | |
| 680 if (defined $s1 && defined $e2) { | |
| 681 $overhang1=($end2-$e2)-($s1-$beg1); | |
| 682 } | |
| 683 if (defined $e1 && defined $s2) { | |
| 684 $overhang2=($end1-$e1)-($s2-$beg2); | |
| 685 } | |
| 686 | |
| 687 if ($pair_num < 13) { | |
| 688 $like_mir_duplex=0; | |
| 689 } | |
| 690 if ($overhang1 < 0 && $overhang2 < 0) { | |
| 691 $like_mir_duplex=0; | |
| 692 } | |
| 693 return ($like_mir_duplex,$pair_num,$overhang1,$overhang2); | |
| 694 } | |
| 695 sub parse_struct { | |
| 696 my $struct=shift; | |
| 697 my $table=shift; | |
| 698 | |
| 699 my @t=split('',$struct); | |
| 700 my @lbs; # left brackets | |
| 701 foreach my $k (0..$#t) { | |
| 702 if ($t[$k] eq "(") { | |
| 703 push @lbs, $k+1; | |
| 704 } | |
| 705 elsif ($t[$k] eq ")") { | |
| 706 my $lb=pop @lbs; | |
| 707 my $rb=$k+1; | |
| 708 $table->{$lb}=$rb; | |
| 709 $table->{$rb}=$lb; | |
| 710 } | |
| 711 } | |
| 712 if (@lbs) { | |
| 713 warn "unbalanced RNA struct.\n"; | |
| 714 } | |
| 715 } | |
| 716 sub which_arm { | |
| 717 my $substruct=shift; | |
| 718 my $arm; | |
| 719 if ($substruct=~/\(/ && $substruct=~/\)/) { | |
| 720 $arm="-"; | |
| 721 } | |
| 722 elsif ($substruct=~/\(/) { | |
| 723 $arm="5p"; | |
| 724 } | |
| 725 else { | |
| 726 $arm="3p"; | |
| 727 } | |
| 728 return $arm; | |
| 729 } | |
| 730 sub biggest_bulge { | |
| 731 my $struct=shift; | |
| 732 my $bulge_size=0; | |
| 733 my $max_bulge=0; | |
| 734 while ($struct=~/(\.+)/g) { | |
| 735 $bulge_size=length $1; | |
| 736 if ($bulge_size > $max_bulge) { | |
| 737 $max_bulge=$bulge_size; | |
| 738 } | |
| 739 } | |
| 740 return $max_bulge; | |
| 741 } | |
| 742 sub get_asy { | |
| 743 my($table,$a1,$a2)=@_; | |
| 744 my ($pre_i,$pre_j); | |
| 745 my $asymmetry=0; | |
| 746 foreach my $i ($a1..$a2) { | |
| 747 if (defined $table->{$i}) { | |
| 748 my $j=$table->{$i}; | |
| 749 if (defined $pre_i && defined $pre_j) { | |
| 750 my $diff=($i-$pre_i)+($j-$pre_j); | |
| 751 $asymmetry += abs($diff); | |
| 752 } | |
| 753 $pre_i=$i; | |
| 754 $pre_j=$j; | |
| 755 } | |
| 756 } | |
| 757 return $asymmetry; | |
| 758 } | |
| 759 | |
| 760 sub peaks{ | |
| 761 my @cluster=@{$_[0]}; | |
| 762 | |
| 763 return if(@cluster<1); | |
| 764 | |
| 765 my $max=0; my $index=-1; | |
| 766 for (my $i=0;$i<@cluster;$i++) { | |
| 767 if($cluster[$i][2]>$max){ | |
| 768 $max=$cluster[$i][2]; | |
| 769 $index=$i; | |
| 770 } | |
| 771 } | |
| 772 # &excise(\@cluster,$index,$_[1],$_[2]); | |
| 773 return($index); | |
| 774 } | |
| 775 | |
| 776 sub find_cites{ | |
| 777 my @tmp=@{$_[0]}; | |
| 778 my $i=&peaks(\@tmp); | |
| 779 | |
| 780 my $start=$tmp[$i][0]; | |
| 781 my $total=0; my $node5=0; | |
| 782 for (my $j=0;$j<@tmp ;$j++) { | |
| 783 $total+=$tmp[$j][2]; | |
| 784 $node5 +=$tmp[$j][2] if($tmp[$j][0]-$start<=2 && $tmp[$j][0]-$start>=-2); | |
| 785 } | |
| 786 push @{$cites{$_[1]}{$_[2]}},$tmp[$i] if($node5/$total>0.80 && $tmp[$i][2]/$node5>0.5); | |
| 787 } | |
| 788 | |
| 789 sub newpos{ | |
| 790 my ($a,$b,$c,$d)=@_; | |
| 791 my $s= $a>$c ? $c : $a; | |
| 792 my $e=$b>$d ? $b : $d; | |
| 793 return($s,$e); | |
| 794 } | |
| 795 | |
| 796 sub rev{ | |
| 797 | |
| 798 my($sequence)=@_; | |
| 799 | |
| 800 my $rev=reverse $sequence; | |
| 801 | |
| 802 return $rev; | |
| 803 } | |
| 804 | |
| 805 sub com{ | |
| 806 | |
| 807 my($sequence)=@_; | |
| 808 | |
| 809 $sequence=~tr/acgtuACGTU/TGCAATGCAA/; | |
| 810 | |
| 811 return $sequence; | |
| 812 } | |
| 813 | |
| 814 sub revcom{ | |
| 815 | |
| 816 my($sequence)=@_; | |
| 817 | |
| 818 my $revcom=rev(com($sequence)); | |
| 819 | |
| 820 return $revcom; | |
| 821 } | |
| 822 | |
| 823 sub find_strand{ | |
| 824 | |
| 825 #A subroutine to find the strand, parsing different blast formats | |
| 826 my($other)=@_; | |
| 827 | |
| 828 my $strand="+"; | |
| 829 | |
| 830 if($other=~/-/){ | |
| 831 $strand="-"; | |
| 832 } | |
| 833 | |
| 834 if($other=~/minus/i){ | |
| 835 $strand="-"; | |
| 836 } | |
| 837 | |
| 838 return($strand); | |
| 839 } | |
| 840 sub usage{ | |
| 841 print <<"USAGE"; | |
| 842 Version $version | |
| 843 Usage: | |
| 844 $0 -map -g -d -f -o -s -e | |
| 845 options: | |
| 846 -map input file# align result # bst. format | |
| 847 -g input file # genome sequence fasta format | |
| 848 -d <int> Maximal space between miRNA and miRNA* (200) | |
| 849 -f <int> Flank sequence length of miRNA precursor (10) | |
| 850 -o output file# percursor fasta file | |
| 851 -s output file# precursor structure file | |
| 852 -e <folat> Maximal free energy allowed for a miRNA precursor (-18 kcal/mol) | |
| 853 | |
| 854 -h help | |
| 855 USAGE | |
| 856 exit(1); | |
| 857 } | |
| 858 |