Difference between revisions of "Task6 Hemochromatosis Protocol"

From Bioinformatikpedia
(PSSM-Matrix and homolog search)
Line 1: Line 1:
  +
== Amino acid features ==
Casting Spell: Create Protocol Page
 
  +
  +
  +
<br style="clear:both;">
  +
  +
== BLOSUM62/PAM1/PAM250 ==
  +
  +
  +
<br style="clear:both;">
   
 
== PSSM-Matrix and homolog search ==
 
== PSSM-Matrix and homolog search ==

Revision as of 12:01, 17 June 2012

Amino acid features


BLOSUM62/PAM1/PAM250


PSSM-Matrix and homolog search

The PSSM-Matrix and homolog search was done by using PSI-Blast with the command:

blastpgp -i Q30201.fasta -j 5 -Q outMatrix.txt -o output.txt -d /mnt/project/pracstrucfunc12/data/big/big

To retrieve all homologous proteins, we retained only the results of the fifth iteration and used the following script to extract them:


<source lang="perl">

  1. !usr/bin/perl

use strict;

  1. use warnings;
  2. use autodie;

my $file= shift;

open (FILE, "<$file"); while (<FILE>){ my $currentLine=$_; chomp $currentLine;

if ($currentLine=~m/^..\|(.+)\|.*\d\d\d.*/gi){ print "$1\n"; } } </source>

Because we only wanted mammalian protein sequences, we used Unipot to retrieve the corresponding information to these protein by getting the Flat-formatted file.

To get only mammalian proteins we used the following script on the flat file:


<source lang="perl">

  1. !usr/bin/perl

use strict;

  1. use warnings;
  2. use autodie;

my $file= shift;

my @currentIDs=""; open (FILE, "<$file"); while (<FILE>){ my $currentLine=$_; chomp $currentLine;

if ($currentLine=~m/^AC\s(.*)/gi){ $currentLine=$1;

  1. print "$currentLine 1\n";

$currentLine=~s/\s//gi;


push(@currentIDs, split(/;/,$currentLine)); #print "$1\n"; } elsif ($currentLine=~m/^SQ\s(.*)/gi){ @currentIDs=""; } elsif ($currentLine=~m/^OC.*Mammalia/gi){ # print "Mammalian found, bitches!\n"; foreach my $entry (@currentIDs){ if ($entry ne ""){ print "$entry\n"; } } } } </source>

This way we got all mammalian protein IDs that are homologs to our protein and retrieved their sequences through Uniprot.

As some proteins have multiple IDs noted in the flat file we retained our PSIBlast found IDs by using the

uniq -d

command.

After adding our own sequence, we used these sequences in ClustalW and Muscle to retrieve the MSAs.

clustalw -align -infile=Mammals.fasta -outfile=MammalsClustalw.fasta
muscle -in Mammals.fasta -out MuscleMSAMammals.fasta