问题
I have a list of genes and the following information:
- Their name 'XLOC_0000...'
- The genomic scaffold on which they're located 'Scaffold...'
- The location of each feature on its Scaffold ('start', 'stop')
I've written a piece of Perl code that finds each gene in the genomic scaffolds and saves it to a file. Briefly, first I put each gene in a hash of arrays, e.g.
my %geneID = map { $xloc[$_] => [ $scaffold[$_], $start[$_], $stop[$_] ] } (0 .. $#xloc);
I then make a hash of the fasta file containing scaffolds:
open FASTA, '<', 'genome.fasta' || die "Can't open 'genome.fasta'\n"; #Read in 'fasta' file
my (@head, @sequence);
while (<FASTA>) {
chomp;
push @head, $_ if /^>/;
push @sequence, $_ if /^[A-Z]/;
}
my %scaf;
@scaf{@head} = @sequence; # All scaffolds, as ordered in FH.
Then I assign the elements of the first HoA, and using substr, find the gene's start and stop position within the scaffold of the same name
foreach my $xloc (sort keys %geneID) {
print "gene sequence for $xloc is: ";
my $chm = @{$geneID{$xloc}}[0];
my $start = @{$geneID{$xloc}}[1];
my $end = @{$geneID{$xloc}}[2];
my $seq = substr($scaf{$chm},$start-1,$end-($start-1));
print "$seq\n";
}
The problem with this is that if I have xlocs with the same name, e.g. XLOC_00001, the the hash key only takes the last value. I want to be able to add multiple 'sub-values' to each hash, find their locations using substr, and essentially join them together at the end.
Any suggestions on how to do this?
UPDATE:
This is a test example showing the sort of results I get:
'GENOME' FASTA FILE
>Scaffold1
ONEATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold2
TWOATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold3
THREEATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold4
FOURATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold5
FIVEATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold6
SIXATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold7
SEVENATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold8
EIGHTATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold9
NINEATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
>Scaffold10
TENATCGCGCTTAGTGCAGTACGTAGCTACGTGACTACTGA
KEYS and values for %geneID:
Key: XLOC_000027 contains the values: >Scaffold1 1 10
Key: XLOC_000037 contains the values: >Scaffold2 1 15
Key: XLOC_000038 contains the values: >Scaffold3 2 9
Key: XLOC_000051 contains the values: >Scaffold4 6 8
Key: XLOC_000077 contains the values: >Scaffold5 2 7
Key: XLOC_000079 contains the values: >Scaffold6 4 16
Key: XLOC_000096 contains the values: >Scaffold7 4 9
Key: XLOC_000100 contains the values: >Scaffold8 3 20
Key: XLOC_000117 contains the values: >Scaffold9 6 8
Key: XLOC_000119 contains the values: >Scaffold10 7 14
Results, showing 'gene' as substring of scaffold on which it's located for each XLOC:
gene sequence for XLOC_000027 is: ONEATCGCG
gene sequence for XLOC_000037 is: TWOATCGCGCTTAG
gene sequence for XLOC_000038 is: HREEATCG
gene sequence for XLOC_000051 is: TCGCGCT
gene sequence for XLOC_000077 is: IVEATC
gene sequence for XLOC_000079 is: ATCGCGCTTAGTGCA
gene sequence for XLOC_000096 is: ENATCGCG
gene sequence for XLOC_000100 is: GHTATCGCGCTTAGTGCAG
gene sequence for XLOC_000117 is: TCGCGCT
gene sequence for XLOC_000119 is: GCGCTTAGTGCAG
回答1:
It sounds like you need to push each set of (scaffold, start, stop) values onto an array for each element of the %geneID hash. Like this
my %geneID;
push @{ $geneID{ $xloc[$_] } }, [ $scaffold[$_], $start[$_], $stop[$_] ] for 0 .. $#xloc;
Then, once the %scaf hash has been built, you can construct a concatentation of the subsequences in a loop over all constituents of the sequence.
for my $xloc (sort keys %geneID) {
my $sequence;
for my $part (@{ $geneID{$xloc} }) {
my ($chm, $start, $end) = @$part;
my $off = $start - 1;
my $len = $end - $off;
$sequence .= substr $scaf{$chm}, $off, $len;
}
print "gene sequence for $xloc is: $sequence\n";
}
I hope this helps.
Update
By the way, you have a bug in your file open statement.
open FASTA, '<', 'genome.fasta' || die "Can't open 'genome.fasta'\n"
is the same as
open FASTA, '<', ('genome.fasta' || die "Can't open 'genome.fasta'\n")
and because the filename is always true (unless it is 0) die will never be called.
Idiomatically you should use the lower-priority or operator, together with a lexical file handle as global file handles are considered bad practice.
open my $fasta, '<', 'genome.fasta' or die "Can't open 'genome.fasta'\n"
And, if it matters to you, putting a \n on the end of your die string prevents perl from displaying the file and line number where the error occurred.
This whole loop is better written
my $fasta_file = 'genome.fasta';
open my $fasta, '<', $fasta_file or die "Can't open '$fasta_file'";
my (%scaf, $scaffold);
while (<$fasta>) {
chomp;
$scaffold = $_ if /^>/;
$scaf{$scaffold} = $_ if /^[A-Z]/;
}
回答2:
If you know you are going to have duplicates you can create your hashes in this format:
use strict;
use warnings FATAL => 'all';
use Data::Dumper;
my %hash;
push @{$hash{key1}}, 'Value1';
push @{$hash{key2}}, 'Value2';
push @{$hash{key1}}, 'Value3';
print Dumper ( \%hash );
Perl has a property called autovivification, which will allows it to create the hash value if it doesnt exist, and append to one if it does. (assuming you are using list-context)
$VAR1 = {
'key2' => [
'Value2'
],
'key1' => [
'Value1',
'Value3'
]
};
You can now get arrayref from your hash key and examine all of the Xlocs (whatever that is).
来源:https://stackoverflow.com/questions/17218110/can-a-hash-key-have-multiple-subvalues-in-perl