Mercurial > repos > nml > assemblystats
comparison fasta_summary.pl @ 0:ad2b274663f8 draft
planemo upload for repository https://github.com/phac-nml/galaxy_tools commit 3f9ae719338c7c8db81d645b8ee09727e2d9ce23
author | nml |
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date | Tue, 07 Nov 2017 12:28:31 -0500 |
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1 #!/usr/bin/env perl | |
2 | |
3 #============================================================================================== | |
4 | |
5 # Script to output statistsics and histograms for reads and contigs/isotigs | |
6 | |
7 | |
8 # Outputs include: | |
9 # Mean, N50, StdDev or reads or contig lengths, | |
10 # Mean and Modal read or contig lengths. | |
11 # Number of reads or contigs > 1 kb in length | |
12 # Summed contig length (by number of contigs, in sorted order) | |
13 # Histogram of read or contig lengths, | |
14 # Graph of sums of read-lengths | |
15 # File of reads or contigs sorted by read or contig length | |
16 # Test for mono/di-nucelotide repeats | |
17 # Randomly selected reads or contigs | |
18 | |
19 | |
20 # Needs gnuplot installed to create the histograms: | |
21 # On Fedora/Redhat linux: sudo yum install gnuplot | |
22 # On Ubuntu/Debian: sudo apt-get install gnuplot | |
23 | |
24 # Uses a linux pipe to call gnu-plot directly, rather than as a separate shell script. | |
25 | |
26 # Original written by Sujai Kumar, 2008-09-05 University of Edinburgh | |
27 # Modified by Stephen: 29-Apr-2009: | |
28 # Last changed by Stephen: 9-Aug-2010 | |
29 | |
30 | |
31 # Usage: fasta_summary.pl -i infile.fasta -o process_reads -t read OR contig OR isotig (to use 'read' or 'contig' or 'isotig' in the output table & graphs. Isotig is for 'runAssembly -cdna ...' output file '454Isotigs.fna') [-r 1 to indicate count simple nucleotide repeats] [-n number of random reads to output] [-c cutoff_length] [-l 1 to indicate output the longest read] [-f (s or t or w) for spacer, tab or wiki format table output.] | |
32 | |
33 # Note: The parameters above in the [] are optional. | |
34 | |
35 # eg: fasta_summary.pl -i myfile.fasta -o process_reads -t read | |
36 # Where: | |
37 # -i reads or contigs as input, in fasta format. | |
38 # -o output_dir (created if it doesn't exist) | |
39 # -t read, contig or isotig | |
40 | |
41 # Gives back | |
42 # - N50 | |
43 # - num of contigs > 1 kb | |
44 # - num of contigs | |
45 # - Read or Contig Histogram and graphs. | |
46 # - Summed contig length (by number of contigs, in sorted order) | |
47 | |
48 #============================================================================================== | |
49 | |
50 | |
51 use strict; | |
52 use warnings; | |
53 use Getopt::Long; | |
54 | |
55 my $infile; | |
56 my $output_dir; | |
57 my $type='read'; # Defaults to 'read' at present | |
58 my $repeats=1; | |
59 my $num_random_reads_to_output=0; | |
60 my $cutoff_length=-1; # -1 means won't check this cutoff | |
61 my $longest_read=-1; # -1 mean's don't output the sequence for the longest read. | |
62 my $doCommify=1; # Outputs statistics numbers in format: 9,999,999 | |
63 my $format="t"; # "s"=spaces between columns, "t"=tabs between columns, "w"=wiki '||' and '|'. | |
64 my $bucket1=0; # For optional exact length histogram distribution as asked for by JH. | |
65 | |
66 if ($#ARGV==-1) {die " | |
67 Usage: | |
68 | |
69 fasta_summary.pl -i infile.fasta -o output_dir -t ( read | contig | isotig ) [ -r 0 ] [ -n num_reads ] [ -c cutoff_length ] [ -l 1 ] [ -d 0 ] [ -f (w | t ) ] [ -bucket1 ] | |
70 | |
71 where: | |
72 | |
73 -i or -infile infile.fasta : input fatsa file of raeds, contigs or isotigs, | |
74 | |
75 -o or -output_dir output_directory : directory to put output stats and graphs into. | |
76 | |
77 -t or -type (read or contig or isotig) : for displaying the graph title, where type is 'read' or 'contig' or 'isotig'. | |
78 | |
79 -r or -repeats 0 or 1 : 1=count number of reads that contain over 70% simple mono-nucleotide and di-nucleotide repeat bases; 0=don't count. | |
80 | |
81 -n or -number num_reads : For outputting specified number of randomly selected reads or contigs. | |
82 | |
83 -c or -cutoff cutoff_length : Give a number of reads to do extra analysis (calculating again the number of reads and number of bases in reads above this length) | |
84 | |
85 -l or -longest 0 or 1 : 1=Output the longest read; 0= don't output the longest read | |
86 | |
87 -d or -doCommify 0 or 1 : Output numbers formatted with commas to make easier to read: 0=no commas, default=1 | |
88 | |
89 -f or -format w or t : w=wiki_format (ie. table with || and | for column dividers), t=tabs between column symbols for the wiki pages, default is spaces between columns. | |
90 | |
91 -b or -bucket1 : To also output histogram file of exact read lengths (ie. bucket size of 1) | |
92 | |
93 | |
94 eg: For 454 reads: fasta_summary.pl -i RawReads.fna -o read_stats -t read | |
95 For 454 isotigs: fasta_summary.pl -i 454Isotigs.fna -o isotig_stats -t isotig | |
96 | |
97 ";} | |
98 | |
99 GetOptions ( | |
100 "infile=s" => \$infile, | |
101 "output_dir=s" => \$output_dir, | |
102 "type=s" => \$type, ## type is 'read' or 'contig' or 'isotig' - for displaying the graph title | |
103 "repeats=i" => \$repeats, # To count simple repeats | |
104 "number=i" => \$num_random_reads_to_output, # For outputting specified number of random reads | |
105 "cutoff=i" => \$cutoff_length, # Give a number of reads to do extra analysis (calculating again the number of reads and number of bases in reads above this length) | |
106 "longest=i" => \$longest_read, # Output the longest read. | |
107 "doCommify=i" => \$doCommify, # Output numbers formatted with commas to make easier to read: 0=no commas, default=1 | |
108 "format=s" => \$format, # "w"=wiki_format (ie. table with || and | for column dividers), "t"=tabs between column symbols for the wiki pages, default is spaces between columns. | |
109 "bucket1" => \$bucket1, # To also output histogram file of exact read lengths (ie. bucket size of 1) | |
110 ); | |
111 if ($#ARGV>-1) {die "Unused options specified: @ARGV\n";} | |
112 if ( (! defined $infile) || ($infile eq '') ) {die "\nPlease give input fasta file, preceeded by the '-i' option\n\n";} | |
113 if ( (! defined $output_dir) || ($output_dir eq '') ) {die "Please give output_directory, preceeded by the '-o' option\n\n";} | |
114 if ( (! defined $type) || (($type ne 'contig') && ($type ne 'read') && ($type ne 'isotig')) ) {die "ERROR: On commandline: -t type must be 'contig' or 'read' or 'isotig'\n\n";} | |
115 | |
116 | |
117 my ($L,$M,$R, $Lh,$Mh,$Rh, $Lhnewline,$Mhnotab); | |
118 if ($format eq 's') {($L,$M,$R, $Lh,$Mh,$Rh, $Lhnewline,$Mhnotab)=('',' ','', '',' ','', "\n",'');} | |
119 elsif ($format eq 't') {($L,$M,$R, $Lh,$Mh,$Rh, $Lhnewline,$Mhnotab)=("\t","\t",'', "","\t",'', "\n",'');} # There is correctly a tab for the $L, but not the $Lh. | |
120 elsif ($format eq 'w') {($L,$M,$R, $Lh,$Mh,$Rh, $Lhnewline,$Mhnotab)=('| ',' | ',' |', '|| ',' || ',' ||', '|| ',' || ');} | |
121 else {die "\nInvalid output format code: '$format'. Should be 's', 't' or 'w'.\n\n";} | |
122 | |
123 ### create output_dir if it doesn't exist | |
124 if (-d $output_dir) { | |
125 print STDERR " Directory '$output_dir' exists, so the existing fasta_summary.pl output files will be overwritten\n"; | |
126 } else { | |
127 mkdir $output_dir; | |
128 print STDERR " Directory '$output_dir' created\n"; | |
129 } | |
130 | |
131 my $gc_count = 0; | |
132 | |
133 #--------------- Read in contigs from fasta file ------------------- | |
134 | |
135 open INFILE, "<$infile" or die "Failed to open file: '$infile' : $!"; | |
136 open STATS, ">$output_dir/stats.txt" or die "Failed to open $output_dir/stats.txt: '' : $!"; | |
137 | |
138 my $header = <INFILE>; | |
139 if (! defined($header) ) {print "\n** ERROR: First line of input fasta file is undefined - so file must be empty **\n\n"; print STATS "No sequences found\n"; exit 1;} | |
140 if ($header!~/^>/) {print "\nERROR: First line of input fasta file should start with '>' BUT first line is: '$header'\n"; print STATS "No sequences found\n"; exit 1;} | |
141 | |
142 my $seq = ""; | |
143 my @sequences; | |
144 | |
145 while (<INFILE>) { | |
146 if (/^>/) { | |
147 push @sequences, [length($seq), $header, $seq]; | |
148 $header = $_; | |
149 $seq = ""; | |
150 } else { | |
151 chomp; | |
152 $gc_count += tr/gcGC/gcGC/; | |
153 $seq .= $_; | |
154 } | |
155 } | |
156 push @sequences, [length($seq), $header, $seq]; | |
157 close INFILE; | |
158 if ($#sequences==-1) {print "\nERROR: There are zero sequences in the input file: $infile\n\n"; print STATS "No sequences found\n"; exit 1;} | |
159 | |
160 | |
161 my $all_contigs_length=0; | |
162 foreach (@sequences) {$all_contigs_length += $_->[0];} | |
163 if ($all_contigs_length==0) {print "\nERROR: Length of all contigs is zero\n\n"; exit 2;} | |
164 | |
165 # Find number and number of bases in reads greater than the optional cut-off length given at command-line. | |
166 my $num_reads_above_cutoff=0; | |
167 my $num_of_bases_in_reads_above_cutoff=0; | |
168 if ($cutoff_length>0) | |
169 { | |
170 foreach (@sequences) | |
171 { | |
172 if ($_->[0]>=$cutoff_length) {$num_of_bases_in_reads_above_cutoff+= $_->[0]; $num_reads_above_cutoff++;} | |
173 } | |
174 } | |
175 | |
176 | |
177 #--------------- Gather Plots Data, Find N50, Print sorted contig file ------------------- | |
178 | |
179 my $summed_contig_length = 0; | |
180 my @summed_contig_data; # <-- For graph of summed length (in number of bases) versus number of contigs. | |
181 my @summed_contig_data_contigLens; # <-- Added by SJBridgett to get graph of summed contig length versus min. contig length included (ie. X-axis is sort of inverse of above) | |
182 | |
183 my $contig1k_count = 0; | |
184 my $contig1k_length = 0; | |
185 | |
186 open SORTED, ">$output_dir/sorted_contigs.fa" or die $!; | |
187 | |
188 # top row in stats file | |
189 #print STATS "N50\nMax contig size\nNumber of bases in contigs\nNumber of contigs\nNumber of contigs >=1kb\nNumber of contigs in N50\nNumber of bases in contigs >=1kb\nGC Content of contigs\n"; | |
190 | |
191 my $N50size=-1; | |
192 my $N50_contigs = 0; | |
193 | |
194 my @sorted_by_contig_length = sort {$b->[0] <=> $a->[0]} @sequences; | |
195 | |
196 ### variables and initialization for histogram (stored in @bins) | |
197 my $max = $sorted_by_contig_length[0][0]; | |
198 my $mean= $all_contigs_length/($#sequences+1); # <-- Added by Stephen Bridgett. Note: as $# gives the highest index number, so add 1 as arrays are zero-based. | |
199 | |
200 # Calculate standard deviation | |
201 my $sumsquares = 0; | |
202 foreach (@sequences) {$sumsquares += ($_->[0] - $mean) ** 2;} # <-- Taken from John's "mean_fasta_length.pl" script. | |
203 my $stddev = ( $sumsquares/($#sequences+1) ) ** 0.5; | |
204 | |
205 my $min = 0; | |
206 # Aim for approximately 100 bins, so | |
207 | |
208 my $bin_size=1; | |
209 my $min_max_range=$max - $min; | |
210 # $bin_size = ($min_max_range)/(99); # (99 is 100-1) so 1000/100 | |
211 if ($min_max_range>=100000000) {$bin_size=1000000;} | |
212 elsif ($min_max_range>=10000000) {$bin_size=100000;} | |
213 elsif ($min_max_range>=1000000) {$bin_size=10000;} | |
214 elsif ($min_max_range>=100000) {$bin_size=1000;} | |
215 elsif ($min_max_range>=10000) {$bin_size=100;} | |
216 else {$bin_size=10;} # elsif ($min_max_range>=1000) {$bin_size=10;} | |
217 #elsif ($min_max_range>=100) {$bin_size=1;} | |
218 #elsif ($min_max_range>=10) {} | |
219 #elsif ($min_max_range>=1) {} | |
220 # WAS: my $bin_size = ($type eq 'contig') ? 1000 : 10; | |
221 | |
222 my @bins; | |
223 $#bins = int(($min_max_range)/$bin_size) + 1; # <-- Set the bins array size. | |
224 foreach (@bins) {$_ = 0}; | |
225 | |
226 foreach (@sorted_by_contig_length) { | |
227 | |
228 my $curr_contig_length = $_->[0]; | |
229 push @summed_contig_data_contigLens, $curr_contig_length; # <-- added by Stephen. | |
230 | |
231 $bins[int(($curr_contig_length + 1 - $min)/$bin_size)]++; | |
232 | |
233 $summed_contig_length += $curr_contig_length; | |
234 push @summed_contig_data, $summed_contig_length; | |
235 | |
236 ### sorted contigs file | |
237 print SORTED $_->[1] . $_->[2] . "\n"; | |
238 | |
239 if ($curr_contig_length >= 1000) { | |
240 $contig1k_count++; | |
241 $contig1k_length += $curr_contig_length; | |
242 } | |
243 | |
244 $N50_contigs++ unless ($N50size>-1); # Was unless $N50_found | |
245 | |
246 if ($summed_contig_length > ($all_contigs_length / 2) and $N50size == -1) { | |
247 $N50size = $curr_contig_length; | |
248 } | |
249 } | |
250 | |
251 | |
252 if ($bucket1!=0) | |
253 { | |
254 =pod | |
255 # This firsdt method works and agress with the second, but the lengths are in reverse order, at the @sorted_by_contig_length array was sorted with longest contig first. | |
256 open BUCKET1, ">$output_dir/lengths_hist1.txt" or die "Failed to open file '$output_dir/lengths_hist1.txt' : $!\n"; | |
257 print BUCKET1 "Length\tFrequency\n"; | |
258 my $len=-1; | |
259 my $count=0; | |
260 foreach (@sorted_by_contig_length) | |
261 { | |
262 if ( $len != $_->[0] ) {if ($len>-1) {print BUCKET1 "$len\t$count\n";} $len=$_->[0]; $count=0;} | |
263 $count++; | |
264 } | |
265 if ($len>-1) {print BUCKET1 "$len\t$count\n";} # Print length of final length grouping. | |
266 close BUCKET1; | |
267 =cut | |
268 open BUCKET1, ">$output_dir/lengths_hist1_with_zeros.txt" or die "Failed to open file '$output_dir/lengths_hist1_with_zeros.txt' : $!\n"; | |
269 print BUCKET1 "Length\tFrequency\n"; | |
270 my @bucket=(); # To check the result by using array. | |
271 foreach (@sequences) | |
272 { | |
273 my $len=$_->[0]; | |
274 if (defined $bucket[$len]) {$bucket[$len]++;} | |
275 else {$bucket[$len]=1;} | |
276 } | |
277 for (my $i=0; $i<=$#bucket; $i++) | |
278 # for (my $i=$#bucket; $i>=0; $i--) # <-- for reverse order | |
279 { | |
280 if (defined $bucket[$i]) {print BUCKET1 "$i\t$bucket[$i]\n";} | |
281 else {print BUCKET1 "$i\t0\n";} # Can uncomment this later if don't want zeros in the output. | |
282 } | |
283 close BUCKET1; | |
284 } | |
285 | |
286 | |
287 my $type_plural=$type.'s'; | |
288 print STATS $Lh."Statistics for $type lengths:".$Mhnotab.$Rh."\n"; | |
289 print STATS $L."Min $type length:".$M.&commify_if($sorted_by_contig_length[$#sequences][0],$doCommify).$R."\n"; | |
290 print STATS $L."Max $type length:".$M.&commify_if($max,$doCommify).$R."\n"; | |
291 printf STATS $L."Mean %s length:".$M."%.2f".$R."\n", $type,$mean; # <-- Added by Stephen Bridgett, April 2009. | |
292 printf STATS $L."Standard deviation of %s length:".$M."%.2f".$R."\n", $type,$stddev; ## <-- Added by Stephen Bridgett, May 2009. | |
293 print STATS $L."Median $type length:".$M.&commify_if($sorted_by_contig_length[int($#sequences/2)][0],$doCommify).$R."\n"; | |
294 print STATS $L."N50 $type length:".$M.&commify_if($N50size,$doCommify).$R."\n"; | |
295 | |
296 print STATS $Lhnewline."Statistics for numbers of $type_plural:".$Mhnotab.$Rh."\n"; | |
297 print STATS $L."Number of $type_plural:".$M.&commify_if($#sequences+1,$doCommify).$R."\n"; | |
298 print STATS $L."Number of $type_plural >=1kb:".$M.&commify_if($contig1k_count,$doCommify).$R."\n"; | |
299 print STATS $L."Number of $type_plural in N50:".$M.&commify_if($N50_contigs,$doCommify).$R."\n"; | |
300 | |
301 print STATS $Lhnewline."Statistics for bases in the $type_plural:".$Mhnotab.$Rh."\n"; | |
302 print STATS $L."Number of bases in all $type_plural:".$M.&commify_if($all_contigs_length,$doCommify).$R."\n"; | |
303 print STATS $L."Number of bases in $type_plural >=1kb:".$M.&commify_if($contig1k_length,$doCommify).$R."\n"; | |
304 printf STATS $L."GC Content of %s:".$M."%.2f %%".$R."\n", $type_plural,(100*$gc_count/$all_contigs_length); | |
305 | |
306 if ($cutoff_length>0) | |
307 { | |
308 print STATS $Lhnewline."Statistics for $type_plural >= $cutoff_length bp in length:".$Mhnotab.$Rh."\n"; | |
309 print STATS $L."Number of $type_plural >= $cutoff_length bp:".$M.&commify($num_reads_above_cutoff,$doCommify).$R."\n"; | |
310 print STATS $L."\tNumber of bases in $type_plural >= $cutoff_length bp:".$M.&commify($num_of_bases_in_reads_above_cutoff,$doCommify).$R."\n"; | |
311 } | |
312 | |
313 if ($repeats==1) {&countRepeats();} | |
314 | |
315 print STATS "\n"; | |
316 | |
317 | |
318 # Output random selection of reads if requested on commandline: | |
319 my $fastaLineLen=60; # <-- The line length used for 454 sffinfo output, but could use a value read from input file (but be careful not to read a short line) | |
320 if ($num_random_reads_to_output>0) | |
321 { | |
322 my @randlist; | |
323 if ($num_random_reads_to_output<($#sequences+1)) | |
324 { | |
325 print STATS "\nSome randomly selected reads:\n\n"; | |
326 @randlist= &getListOfRandomNumbers($#sequences, $num_random_reads_to_output); # Don't use ($#sequences + 1), just ($#sequences) otherwise would be outside the array. | |
327 } | |
328 else # Just print all the sequences: | |
329 { | |
330 print STATS "\nAll ".($#sequences+1)." reads:\n\n"; | |
331 for (my $i=0;$i<=$#sequences;$i++) {push @randlist,$i;} | |
332 } | |
333 &print_sequences(\@randlist) | |
334 } | |
335 | |
336 | |
337 # Print the longest read: | |
338 if ($longest_read>0) | |
339 { | |
340 my $length_of_longest_read=-1; | |
341 my @longest_read=(); | |
342 my $i=0; | |
343 foreach (@sequences) | |
344 { | |
345 if ($_->[0]>$length_of_longest_read) {$length_of_longest_read=$_->[0]; $longest_read[0]=$i;} | |
346 $i++; | |
347 } | |
348 if ($length_of_longest_read>0) {print STATS "\nLongest read:\n"} | |
349 &print_sequences(\@longest_read); | |
350 } | |
351 | |
352 | |
353 =pod | |
354 print STATS "\n$type\tSummed\nlength\tlength\n"; # <-- Added by Stephen Bridgett, but better to produce a graph instead. | |
355 | |
356 my $i=0; | |
357 foreach (@summed_contig_data) { | |
358 # print STATS $sorted_by_contig_length[$i]->[0]."\t".$summed_contig_data_contigLens[$i]."\t".$_."\t".$summed_contig_data[$i]."\n"; | |
359 print STATS $sorted_by_contig_length[$i]->[0]."\t".$_."\n"; | |
360 $i++; | |
361 } | |
362 =cut | |
363 | |
364 open SUMMED, ">$output_dir/summed_contig_lengths.dat" or die $!; | |
365 print SUMMED join "\n",@summed_contig_data; | |
366 close SUMMED; | |
367 | |
368 open HISTOGRAMBINS, ">$output_dir/histogram_bins.dat" or die $!; | |
369 my $bin_size_counter = 0; | |
370 foreach (@bins) { | |
371 print HISTOGRAMBINS eval($bin_size_counter++ * $bin_size + $bin_size/2) . "\t$_\n"; | |
372 } | |
373 close HISTOGRAMBINS; | |
374 | |
375 | |
376 # Graph of cumulative (summed) number of reads on y-axis, versus length of read (decending order) on x-axis | |
377 open SUMREAD_READLEN, ">$output_dir/sum_reads_vs_read_len.dat" or die $!; | |
378 #my $read_counter= 0; | |
379 my $read_counter= $#sorted_by_contig_length+1; | |
380 | |
381 foreach (@sorted_by_contig_length) { | |
382 # $read_counter++; | |
383 $read_counter--; | |
384 print SUMREAD_READLEN "$_->[0]\n"; # $read_counter | |
385 } | |
386 close SUMREAD_READLEN; | |
387 | |
388 | |
389 | |
390 | |
391 my $properType=ucfirst($type); # Makes the first letter an upper case letter, ie. 'Config' or 'Read' | |
392 #if ($type eq 'contig') | |
393 # { | |
394 # print the outcome of the gnu_plot as may have a write permissions error sometimes. | |
395 my $YHistogramScaleType = ($type eq 'read') ? '' : 'log y'; # Not using log scale for reads, just for contig/isotigs. | |
396 &plot_graph('histogram', "$output_dir/histogram_bins.dat", "Histogram of $type lengths", "$properType length", "Number of $type_plural", '0.9', $YHistogramScaleType); | |
397 &plot_graph('line', "$output_dir/summed_contig_lengths.dat", "Summed $type lengths", "Number of $type_plural", "Summed $type length in bases", '0.9', ''); | |
398 &plot_graph('line', "$output_dir/sum_reads_vs_read_len.dat", "X-axis gives the Number of $type_plural that are greater than the $properType-length given on the Y-axis", "$properType length", "Cummulative number of $type_plural", '0.9', ''); | |
399 | |
400 =pod | |
401 # print `gnuplot_histogram.sh $output_dir/histogram_bins.dat`; | |
402 | |
403 &plot_graph("$output_dir/summed_contig_lengths.dat", 'Summed contig lengths', 'Number of contigs', 'Summed contig length in bases', '0.9', ''); | |
404 # print `gnuplot_summedcontigs.sh $output_dir/summed_contig_lengths.dat`; | |
405 | |
406 &plot_graph('line', "$output_dir/sum_reads_vs_read_len.dat", 'X-axis gives the Number of contigs that are greater than the Contig-length given on the Y-axis', 'Contig length', 'Cummulative number of contigs', '0.9', ''); | |
407 # print `gnuplot_sum_contig_vs_contig_len.sh $output_dir/sum_reads_vs_read_len.dat`; | |
408 } | |
409 elsif ($type eq 'read') | |
410 { | |
411 | |
412 # print `gnuplot_readshistogram_logY.sh $output_dir/histogram_bins.dat`; # There's also optionally a "...._linearY.sh" | |
413 | |
414 &plot_graph('line', "$output_dir/summed_contig_lengths.dat",'Summed read lengths', 'Number of reads', 'Summed read length in bases', '0.9', ''); | |
415 # print `gnuplot_summedreads.sh $output_dir/summed_contig_lengths.dat`; | |
416 | |
417 &plot_graph('line', "$output_dir/sum_reads_vs_read_len.dat", 'X-axis gives the Number of reads that are greater than the Read-length given on the Y-axis', 'Read length', 'Cummulative number of reads', '0.9', ''); | |
418 # print `gnuplot_sum_reads_vs_read_len.sh $output_dir/sum_reads_vs_read_len.dat`; | |
419 } | |
420 else {die "\n** ERROR: Invalid type='$type' **\n\n";} | |
421 =cut | |
422 | |
423 close SORTED; | |
424 close STATS; | |
425 | |
426 | |
427 # Use pipe to plot directly with gnuplot, rather than calling a separate shell script: | |
428 # http://www.vioan.ro/wp/2008/09/30/calling-gnuplot-from-perl/ | |
429 # http://forums.devshed.com/perl-programming-6/plotting-with-gnuplot-within-perl-script-549682.html | |
430 # Another option is the perl module: GnuplotIF: http://lug.fh-swf.de/perl/GnuplotIF.html OR: http://lug.fh-swf.de/perl/ | |
431 | |
432 # PlPlot: Perl: http://search.cpan.org/~dhunt/PDL-Graphics-PLplot-0.47/plplot.pd | |
433 # http://plplot.sourceforge.net/ | |
434 # dislin: http://www.mps.mpg.de/dislin/overview.html | |
435 # MathGL: http://mathgl.sourceforge.net/index.html | |
436 | |
437 | |
438 sub plot_graph | |
439 { | |
440 # Plots a histogram or xy-line graph | |
441 # Parameters: GraphType (histogram/line) DataFile, Title, X-label, Y-label, Y-range | |
442 # Graphfile should end with '.png' | |
443 # The $yloglinear is 'log y' for log, or '' for linear | |
444 my ($graphtype, $datafile, $title,$xlabel,$ylabel,$yrange,$yloglinear)=@_; # yrange for reads: 0.1, and for contigs: 0.9 | |
445 | |
446 my $graphstyle=''; | |
447 if ($graphtype eq 'histogram') {$graphstyle="plot \"$datafile\" using 1:2 with boxes";} | |
448 elsif ($graphtype eq 'line') {$graphstyle="plot \"$datafile\" using 1 with lines";} | |
449 else {die "\n** ERROR: Invalid graphtype='$graphtype'\n\n";} | |
450 my $yloglinearscale= ($yloglinear eq '') ? '' : "set $yloglinear"; | |
451 | |
452 # To capture any errors that are normally sent from gnuplot to stderr, could use: open3 pipe interface: | |
453 # http://www.clintoneast.com/articles/perl-open3-example.php | |
454 # http://hell.org.ua/Docs/oreilly/perl2/prog/ch16_03.htm | |
455 # But the following should be fine, as the stderr will display when running the script anyway. | |
456 # If needed a simpler way would be to sent the output to a file using eg: open (GNUPLOT, "|gnuplot > gnu_out.txt 2>&1") or die .... The read the resulting file. | |
457 open (GNUPLOT, "|gnuplot") or die "\n**ERROR: Failed to open gnuplot : $!\n\n **"; | |
458 print GNUPLOT <<ENDPLOT; | |
459 set terminal png | |
460 set output "$datafile.png" | |
461 set nokey | |
462 $yloglinearscale | |
463 set xlabel "$xlabel" | |
464 set ylabel "$ylabel" | |
465 set yrange [$yrange:] | |
466 set title "$title" | |
467 $graphstyle | |
468 ENDPLOT | |
469 close(GNUPLOT); | |
470 if ($? != 0) {print "\n** WARNING: GNUplot pipe returned non-zero status: '$?'\n\n";} # $? is the status returned by the last pipe close (or backtick or system operator) | |
471 if (! -e "$datafile.png") {die "\n** ERROR: Failed to create '$datafile.png'**\n\n";} | |
472 | |
473 =pod | |
474 #PNG | |
475 set term png small xFFFFFF | |
476 set output "$file.png" | |
477 set size 1 ,1 | |
478 set nokey | |
479 set data style line | |
480 set xlabel "frequency" font "VeraMono,10" | |
481 set title "Fast Fourier Transform" font "VeraMono,10" | |
482 set grid xtics ytics | |
483 set xtics 100 | |
484 plot "$file" using 1:2 w lines 1 | |
485 =cut | |
486 | |
487 #WAS PREVIOUSLY AS .sh script | |
488 =pod | |
489 # The 'gnuplot_readshistogram_logY.sh' is: | |
490 set terminal png | |
491 set output "$1.png" | |
492 set log y | |
493 set xlabel "Read length" | |
494 set ylabel "Frequency" | |
495 set yrange [0.9:] | |
496 set title "Histogram of read lengths" | |
497 plot "$1" using 1:2 with boxes | |
498 =cut | |
499 } | |
500 | |
501 | |
502 # Was previously a separate .sh file: | |
503 =pod | |
504 #!/bin/sh | |
505 gnuplot << EOF | |
506 set terminal png | |
507 set output "$1.png" | |
508 set xlabel "Number of contigs" | |
509 set ylabel "Summed contig length in bases" | |
510 set yrange [0.9:] | |
511 set title "Summed contig lengths" | |
512 plot "$1" using 1 with lines | |
513 EOF | |
514 =cut | |
515 | |
516 | |
517 | |
518 | |
519 # Added function to count number of simple dinucleotide repeats: | |
520 sub countRepeats | |
521 { | |
522 # To count the number of sequences that contain mostly repeats. | |
523 # This would be faster if called a C program on the file. | |
524 | |
525 # Common simple repeats are listed here: http://www.bioinfo.de/isb/2005/05/0041/ | |
526 # Dinucleotide | |
527 # AT/TA | |
528 # AC/TG | |
529 # AG/TC | |
530 # CG/GC | |
531 # Trinucleotide | |
532 # AAT/TTA | |
533 # CTA/GAT | |
534 # ATG/TAC | |
535 # ACT/TGA | |
536 # CTC/GAG | |
537 # AGG/TCC | |
538 # CAG/GTC | |
539 # AAG/TTC | |
540 # ATA/TAT | |
541 # CAA/GTT | |
542 # AGC/TCG | |
543 # ACA/TGT | |
544 # ACG/TGC | |
545 # AGA/TCT | |
546 # ACC/TGG | |
547 # Other | |
548 # Tetranucleotide | |
549 # AAAT | |
550 # AAAC | |
551 # CACG | |
552 # AACA | |
553 # AATA | |
554 # AAGA | |
555 # TGAA | |
556 # AAAG | |
557 # ACAT | |
558 # AATG | |
559 # AGCC | |
560 # Other | |
561 # Pentanucleotide | |
562 # AAAAC | |
563 # AATTG | |
564 # GCTAA | |
565 # ATAAT | |
566 # AAAAT | |
567 # AAACA | |
568 # ATATA | |
569 # TTGCC | |
570 # Other | |
571 | |
572 # I also add mono-nucleotide repeats: - ie. just all T's, or A's, etc | |
573 # Just consider the dinucleotide repeats for now: | |
574 my ($ATseq,$CGseq,$ACseq,$TGseq,$AGseq,$TCseq)=(0,0,0,0,0,0); | |
575 my ($AAseq,$TTseq,$CCseq,$GGseq)=(0,0,0,0); | |
576 foreach (@sequences) | |
577 { | |
578 my $seq_len=$_->[0]; | |
579 my $seq=$_->[2]; # This copy might be slow, maybe should just stick with using the reference. | |
580 my $mnt=0.35*$seq_len; # Mononucleotide threshold: HERE 0.35 also means 70%; 0.4 means 80% dinucleotide repeats, as really one base so 0.5 = 100% | |
581 my $dnt=0.35*$seq_len; # Dinucleotide threshold: 0.35 means 70%; 0.4 means 80% dinucleotide repeats, as two bases so 0.5 = 100% | |
582 my ($AT,$CG,$AC,$TG,$AG,$TC)=(0,0,0,0,0,0); | |
583 my ($AA,$TT,$CC,$GG)=(0,0,0,0); | |
584 # See: http://www.allinterview.com/showanswers/76719.html | |
585 | |
586 # AT/TA seems most common repeat so process it first to save time: | |
587 while ($seq=~/AT/g) {$AT++;} if ($AT>$dnt) {$ATseq++; next;} # AT is same as TA. If has 80% AT's then won't have 80% AC etc. | |
588 while ($seq=~/CG/g) {$CG++;} if ($CG>$dnt) {$CGseq++; next;} # CG is same as GC. | |
589 # AC,TG | |
590 while ($seq=~/AC/g) {$AC++;} if ($AC>$dnt) {$ACseq++; next;} | |
591 while ($seq=~/TG/g) {$TG++;} if ($TG>$dnt) {$TGseq++; next;} | |
592 # AG/TC | |
593 while ($seq=~/AG/g) {$AG++;} if ($AG>$dnt) {$AGseq++; next;} | |
594 while ($seq=~/TC/g) {$TC++;} if ($TC>$dnt) {$TCseq++; next;} | |
595 | |
596 # Added my simple mononucleotde repeat count: | |
597 while ($seq=~/AA/g) {$AA++;} if ($AA>$mnt) {$AAseq++; next;} | |
598 while ($seq=~/TT/g) {$TT++;} if ($TT>$mnt) {$TTseq++; next;} | |
599 while ($seq=~/CC/g) {$CC++;} if ($CC>$mnt) {$CCseq++; next;} | |
600 while ($seq=~/GG/g) {$GG++;} if ($GG>$mnt) {$GGseq++; next;} | |
601 } | |
602 | |
603 my $num_seq=($#sequences+1); | |
604 my $total_din_repeats_seq= $ACseq+$TGseq+$ATseq+$AGseq+$TCseq+$CGseq; | |
605 my $percent_din_repeats=100*$total_din_repeats_seq/$num_seq; | |
606 print STATS "\nSimple Dinucleotide repeats:\n"; | |
607 printf STATS "\tNumber of %s with over 70%% dinucleotode repeats:\t%.2f %% (%d %s)\n", $type_plural, $percent_din_repeats, $total_din_repeats_seq, $type_plural; | |
608 printf STATS "\tAT:\t%.2f %% (%d %s)\n", (100*$ATseq/$num_seq),$ATseq,$type_plural; | |
609 printf STATS "\tCG:\t%.2f %% (%d %s)\n", (100*$CGseq/$num_seq),$CGseq,$type_plural; | |
610 printf STATS "\tAC:\t%.2f %% (%d %s)\n", (100*$ACseq/$num_seq),$ACseq,$type_plural; | |
611 printf STATS "\tTG:\t%.2f %% (%d %s)\n", (100*$TGseq/$num_seq),$TGseq,$type_plural; | |
612 printf STATS "\tAG:\t%.2f %% (%d %s)\n", (100*$AGseq/$num_seq),$AGseq,$type_plural; | |
613 printf STATS "\tTC:\t%.2f %% (%d %s)\n", (100*$TCseq/$num_seq),$TCseq,$type_plural; | |
614 | |
615 my $total_mono_repeats_seq= $AAseq+$TTseq+$CCseq+$GGseq; | |
616 my $percent_mono_repeats=100*$total_mono_repeats_seq/$num_seq; | |
617 print STATS "\nSimple mononucleotide repeats:\n"; | |
618 printf STATS "\tNumber of %s with over 50%% mononucleotode repeats:\t%.2f %% (%d %s)\n", $type_plural, $percent_mono_repeats, $total_mono_repeats_seq, $type_plural; | |
619 printf STATS "\tAA:\t%.2f %% (%d %s)\n", (100*$AAseq/$num_seq),$AAseq,$type_plural; | |
620 printf STATS "\tTT:\t%.2f %% (%d %s)\n", (100*$TTseq/$num_seq),$TTseq,$type_plural; | |
621 printf STATS "\tCC:\t%.2f %% (%d %s)\n", (100*$CCseq/$num_seq),$CCseq,$type_plural; | |
622 printf STATS "\tGG:\t%.2f %% (%d %s)\n", (100*$GGseq/$num_seq),$GGseq,$type_plural; | |
623 | |
624 return $percent_din_repeats+$percent_mono_repeats; | |
625 } | |
626 | |
627 | |
628 sub commify_if | |
629 { | |
630 # If doCommify is >0 then converts output to commas. | |
631 # Formats '1234567890.01' with commas as "1,234,567,890.01 | |
632 # Based on: http://www.perlmonks.org/?node_id=110137 | |
633 my ($number,$doCommify)=@_; | |
634 if ($doCommify > 0) {$number =~ s/(\d)(?=(\d{3})+(\D|$))/$1\,/g;} | |
635 return $number; | |
636 } | |
637 | |
638 | |
639 #--------------- Produce ordered list of random numbers ------------------- | |
640 # This is copied from: my_random_contigs.pl | |
641 | |
642 sub getListOfRandomNumbers | |
643 { | |
644 # Use: @list=getListOfRandomNumbers(200,20); to return sorted list of 20 numbers in range from 0 to 200 inclusive. | |
645 my %list2=(); | |
646 my $i=0; | |
647 my $MaxNumber=$_[0]; | |
648 my $NumToPick=$_[1]; | |
649 while ($i<$NumToPick) | |
650 { | |
651 my $intRand = int(rand($MaxNumber+1)); # For Zero-based perl-arrays. The +1 means this generates random integers between 0 and $MaxNumber. (See: http://perldoc.perl.org/functions/rand.html ) | |
652 if ($intRand>$MaxNumber) {$intRand=$MaxNumber} # Just to be extra sure that don't exceed $MaxNumber. | |
653 if ( !exists($list2{$intRand}) ) {$list2{$intRand}=1; $i++;} | |
654 } | |
655 #foreach my $key(keys %list2) {print "$key ";} | |
656 # Sort the list of numbers: | |
657 #my @SortedList2 = sort { $a <=> $b } keys(%list2); | |
658 #return @SortedList2; | |
659 return (sort { $a <=> $b } keys(%list2)); | |
660 #print "Sorted list of ".$NumToPick." random numbers:\n"; | |
661 #foreach my $num(@SortedList2) {print "$num\n";} | |
662 #print "\n\n"; | |
663 } | |
664 | |
665 | |
666 sub print_sequences | |
667 { | |
668 # Print the sequences wrapping sequences using index array, at line length of '$fastaLineLen' characters: | |
669 # Uses the global '@sequences' array. | |
670 my $sequence_indexes_list=$_[0]; # This is an array reference, not the array itself. | |
671 foreach my $num(@{$sequence_indexes_list}) | |
672 { | |
673 #print "$num (max=$#sequences)\n"; | |
674 print STATS $sequences[$num]->[1]; # Prints the header, no "\n" needed after it. | |
675 my $pos=0; | |
676 my $seqlen=$sequences[$num]->[0]; | |
677 while ($pos<$seqlen) | |
678 { | |
679 print STATS substr($sequences[$num]->[2],$pos,$fastaLineLen)."\n"; | |
680 $pos+=$fastaLineLen; | |
681 } | |
682 print STATS "\n"; | |
683 } | |
684 } | |
685 | |
686 | |
687 =pod | |
688 # Some test runs for mono-nucleotides and dinucelotides: | |
689 >FUOMOGO01AQV42DUMMYA length=339 xy=0189_0676 region=1 run=R_2009_04_23_17_54_06_ | |
690 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
691 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
692 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
693 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
694 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
695 >FUOMOGO01AQV42DUMMYB length=339 xy=0189_0676 region=1 run=R_2009_04_23_17_54_06_ | |
696 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
697 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
698 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
699 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
700 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | |
701 >FUOMOGO01AQV42DUMMYC length=339 xy=0189_0676 region=1 run=R_2009_04_23_17_54_06_ | |
702 TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT | |
703 TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT | |
704 TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT | |
705 TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT | |
706 >FUOMOGO01AQV42DUMMYD length=339 xy=0189_0676 region=1 run=R_2009_04_23_17_54_06_ | |
707 GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG | |
708 GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG | |
709 | |
710 >FUOMOGO01AQV42 length=339 xy=0189_0676 region=1 run=R_2009_04_23_17_54_06_ | |
711 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
712 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
713 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
714 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
715 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
716 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT | |
717 >FUOMOGO01AUK0D length=214 xy=0231_0843 region=1 run=R_2009_04_23_17_54_06_ | |
718 ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC | |
719 ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC | |
720 ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC | |
721 ACACACACACACACACACACACGACGACGACGAC | |
722 >FUOMOGO01AUB7C length=64 xy=0228_1718 region=1 run=R_2009_04_23_17_54_06_ | |
723 ATATATATATATATATATATATATATATATATATATATATATATATATATAGTACGTACG | |
724 TACG | |
725 >FUOMOGO01AU00B length=213 xy=0236_1097 region=1 run=R_2009_04_23_17_54_06_ | |
726 ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC | |
727 ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC | |
728 ACACACACACACACACACACACACACACACACACACACACACACACACACACACACACAC | |
729 ACACACACACACACACACACGACGACGACGACG | |
730 >FUOMOGO01ATYRT length=169 xy=0224_0695 region=1 run=R_2009_04_23_17_54_06_ | |
731 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
732 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
733 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT | |
734 >FUOMOGO01ARMLN length=400 xy=0197_2201 region=1 run=R_2009_04_23_17_54_06_ | |
735 TATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA | |
736 TATAGTAGTAGTAGTATATATATATATATATATATATATATATATATATATATATATATA | |
737 TATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA | |
738 TATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA | |
739 TATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA | |
740 TATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA | |
741 TATATATATATATATATATATATATATATATATATATATA | |
742 >FUOMOGO01AVGRX length=44 xy=0241_1051 region=1 run=R_2009_04_23_17_54_06_ | |
743 TATATATATATATATATATATATATATATATATATATATATATA | |
744 >FUOMOGO01ASZ6K length=315 xy=0213_0922 region=1 run=R_2009_04_23_17_54_06_ | |
745 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
746 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
747 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
748 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
749 TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG | |
750 TGTGTGTGTGTGTGT | |
751 >FUOMOGO01ARSZF length=65 xy=0199_2281 region=1 run=R_2009_04_23_17_54_06_ | |
752 TATATATATATATATATATATATATATATATATATATATATATATATATATAGTACGTAC | |
753 GTACG | |
754 >FUOMOGO01AYV8U length=49 xy=0280_1324 region=1 run=R_2009_04_23_17_54_06_ | |
755 ATATATATATATATATATATATATATATATATATATATATATATATATA | |
756 >FUOMOGO01AYV9X length=40 xy=0280_1363 region=1 run=R_2009_04_23_17_54_06_ | |
757 TATATATATATATATATATATATATATATATATATATATA | |
758 >FUOMOGO01AUX4M length=40 xy=0235_1460 region=1 run=R_2009_04_23_17_54_06_ | |
759 TATATATATATATATATATATATATATATATATATATATA | |
760 >FUOMOGO01AWOTU length=54 xy=0255_0800 region=1 run=R_2009_04_23_17_54_06_ | |
761 ATATATATATATATATATATATATATATATATATATATATATATATATATAGTA | |
762 >FUOMOGO01A11TC length=66 xy=0316_1054 region=1 run=R_2009_04_23_17_54_06_ | |
763 ATATATATATATATATATATATATATATATATATATATATATATATATATATAGTACGTA | |
764 CGTACG | |
765 >FUOMOGO01ASRJP length=401 xy=0210_2019 region=1 run=R_2009_04_23_17_54_06_ | |
766 TATATATATATATATATATATATATATATATATATATATATATATATATATATAGTATAT | |
767 AGTAGTAGTAGTATATATATATATATATATATATATATATATATATATATATATATATAT | |
768 ATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAT | |
769 ATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAT | |
770 ATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAT | |
771 ATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAT | |
772 ATATATATATATATATATATATATATATATATATATATATA | |
773 >FUOMOGO01AU1ZH length=67 xy=0236_2363 region=1 run=R_2009_04_23_17_54_06_ | |
774 TATATATATATATATATATATATATATATATATATATATATATATATATATATAGTACGT | |
775 ACGTACG | |
776 =cut |