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I have four files. File 1 (named as inupt_22.txt) is an input file containing two columns (space delimited). First column is the alphabetically sorted list of ligandcode (three letter/number code for a particular ligand). Second column is a list of PDBcodes (Protein Data Bank code) respective of each ligandcode (unsorted list though).enter image description here

File 1 (input_22.txt):

    803      1cqp    
    AMH      1b2i    
    ASC      1f9g    
    ETS      1cil    
    MIT      1dwc    
    TFP      1ctr     
    VDX      1db1     
    ZMR      1a4g      

File 2(named as SD_2.txt) is a SDF (Structure Data file) for fragments of each ligand. A ligand can contain one or more than one fragments. For instance, here 803 is the ligandcode and it has two fragments. So the file will look like: four dollar sign ($$$$) followed by ligandcode (i.e 803 in this example) in next line. every fragment follows the same thing. Next, in the 5th line of each fragment (third line from $$$$.\n803), there is a number that represents number of rows in next block of rows, like 7 in first fragment and 10 in next fragment of 803 ligand. Now, next block of rows contains a column (61-62) which contains specific number that refers to atoms in fragments. For example in first fragment of 803, these numbers are 15,16,17,19,20,21,22. These numbers need to be matched in file 3.enter image description here

File 2 (SD_2.txt) looks like:

$$$$    
803    
  SciTegic05101215222D    


  7  7  0  0  0  0            999 V2000    
    3.0215   -0.5775    0.0000 C   0  0  0  0  0  0  0  0  0 15  0  0     
    2.3070   -0.9900    0.0000 C   0  0  0  0  0  0  0  0  0 16  0  0     
    1.5926   -0.5775    0.0000 C   0  0  0  0  0  0  0  0  0 17  0  0      
    1.5926    0.2475    0.0000 C   0  0  0  0  0  0  0  0  0 19  0  0      
    2.3070    0.6600    0.0000 C   0  0  0  0  0  0  0  0  0 20  0  0      
    2.3070    1.4850    0.0000 O   0  0  0  0  0  0  0  0  0 21  0  0      
    3.0215    0.2475    0.0000 O   0  0  0  0  0  0  0  0  0 22  0  0      
  1  2  1  0      
  1  7  1  0       
  2  3  1  0     
  3  4  1  0      
  4  5  1  0      
  5  6  2  0     
  5  7  1  0      
M  END      
> <Name>      
803      

> <Num_Rings>      
1      

> <Num_CSP3>       
4     

> <Fsp3>       
0.8         

> <Fstereo>       
0      

$$$$      
803       
  SciTegic05101215222D       

 10 11  0  0  0  0            999 V2000       
   -1.7992    -1.7457    0.0000 C   0  0  0  0  0  0  0  0  0  1  0  0        
   -2.5137    -1.3332    0.0000 C   0  0  0  0  0  0  0  0  0  2  0  0        
   -2.5137    -0.5082    0.0000 C   0  0  0  0  0  0  0  0  0  3  0  0        
   -1.7992    -0.0957    0.0000 C   0  0  0  0  0  0  0  0  0  5  0  0        
   -1.0847   -0.5082    0.0000 C   0  0  0  0  0  0  0  0  0  6  0  0       
   -0.3702    -0.0957    0.0000 C   0  0  0  0  0  0  0  0  0  7  0  0        
    0.3442     -0.5082    0.0000 C   0  0  0  0  0  0  0  0  0  8  0  0       
    0.3442     -1.3332    0.0000 C   0  0  0  0  0  0  0  0  0  9  0  0        
   -0.3702     -1.7457    0.0000 C   0  0  0  0  0  0  0  0  0 11  0  0      
   -1.0847    -1.3332    0.0000 C   0  0  0  0  0  0  0  0  0 12  0  0       
  1  2  1  0        
  1 10  1  0      
  2  3  1  0      
  3  4  1  0      
  4  5  2  0      
  5  6  1  0      
  5 10  1  0     
  6  7  2  0      
  7  8  1  0      
  8  9  1  0     
 10  9  1  0      
M  END        
> <Name>       
803       

> <Num_Rings>     
2     

> <Num_CSP3>     
6     

> <Fsp3>     
0.6      

> <Fstereo>      
0.1      

File 3 is CIF (Crystallographic Information file). This file can be obtained from following link: File_3 This file is a collection of individual cif files for several ligand molecules. Each part in file starts with data_ligandcode. For our example it will be data_803. After 46 lines from the start of each small file in collection, there is a block that gives structural information about the molecule. The number of rows in this block is not fixed. However, this block ends with an Hash sign (#). In this block two columns are important which are 53-56 and 62-63. 62-63 column contains numbers that can be matched from numbers obtained from file 2. And, 53-56 contains atom names like C1 (Carbon 1) etc. This column can be used to match with file 4.

File 4 is a Grow.out file that contains information about interaction of each ligand with their target protein. The file name is the PDBcode given in file 1 against each ligand. For example for ligand 803 the PDBcode is 1cqp. So, the grow.out file will be having name of 1cqp. 1cqp In this file those rows are important those contain ligandcode (for example 803) and and the atom name obtained from 53-56 column of file three.

Task: I need a script that reads ligandcode from File 1, goes to file 2 search for $$$$ . \nLigandcode and then obtain numbers from column 61-62 for each fragment. Then in next step my script should pass these number to file 3 and match the rows containing these number in column 62-63 of file 3 and then pull out the information in column 53-56 (atom names). And last step will be opening of file 4 with the name of PDBcode and then printing the rows containing ligandcode and the atom names obtained from file 3. The printing should be done in an output file.

I am a Biomedical Research student. I don't have computer science background. However, I have to use Perl programming for some task. For the above mentioned task I wrote a script, but it is not working properly and I can not find the reason behind it. The script I wrote is :

#!/usr/bin/perl
use strict;
use warnings;
use Text::Table;
use Carp qw(croak);

{

    my $a;
    my $b;
    my $input_file = "input_22.txt";
    my @lines = slurp($input_file);
    for my $line (@lines){
        my ($ligandcode, $pdbcode) = split(/\t/, $line);
        my $i=0;
        my $k=0;

        my @array;
        my @array1;

        open (FILE, '<', "SD_2.txt");


        while (<FILE>) {
            my $i=0;
            my $k=0;

            my @array;
            my @array1;

            if ( $_=~/\x24\x24\x24\x24/ . /\n$ligandcode/) {


                my $nextline1 = <FILE>;
                my $nextline2 = <FILE>;
                my $nextline3 = <FILE>;
                my $nextline4= <FILE>;

                my $totalatoms= substr( $nextline4, 1,2);
                print $totalatoms,"\n";
                while ($i<$totalatoms)
                  {

                      my $nextlines= <FILE>;

                      my $sub= substr($nextlines, 61, 2);
                      print $sub;
                      $array[$i] = $sub;
                      open (FH, '<', "components.txt");

                      while (my $ship=<FH>) {
                          my $var="data_$ligandcode";
                          if ($ship=~/$var/)


                            {

                                while ($k<=44)
                                  {
                                      $k++;
                                      my $nextline = <FH>;

                                  }

                                my $j=0;
                                my $nextline3;
                                do
                                  {

                                      $nextline3=<FH>;
                                      print $nextline3;

                                      my $part= substr($nextline3, 62, 2);
                                      my $part2= substr($nextline3, 53, 4);
                                      $array1[$j] = $part;
                                      if ($array1[$j] eq $array[$i])
                                        {
                                            print $part2, "\n";
                                            open (GH, '<', "$pdbcode"); 
                                            open (OH, ">>out_grow.txt");
                                            while (my $grow = <GH>)
                                              {
                                                  if ( $grow=~/$ligandcode/){
                                                      print OH $grow if $grow=~/$part2/; 
                                                  }}
                                            close (GH);
                                            close (OH);
                                        }

                                      $j++;
                                  } while $nextline3 !~/\x23/;
                            }
                      }
                      $i++;
                      close (FH);
                  }

            }}

        close (FILE);

    }
}


##Slurps a file into a list
sub slurp {
    my ($file) = @_;
    my (@data, @data_chomped);
    open IN, "<", $file or croak "can't open $file\n";
    @data = <IN>;
    for my $line (@data){
        chomp($line);
        push (@data_chomped, $line);
    }
    close IN;
    return (@data_chomped);
}

I want to make it a script that works fast and works for 1000 fragments altogether, if I make a list of 400 molecules in file 1. Kindly help me to make this script working. I ll be grateful.

share|improve this question
1  
Thank you for clearly laying out your needs and posting your attempt! – Zaid Jun 6 '12 at 2:05
1  
Post input_22.txt and SD_2.txt also as text (see editing help). No one has the patience to transcribe that long data from screen-shots. – daxim Jun 6 '12 at 8:22
    
Is there a reason you're not using Chemistry-Mol, and Chemistry::File::SDF? – Brad Gilbert Jun 6 '12 at 16:33
    
@Brad Gilbert: No there is no reason. It is just like I am new to perl, so don't know much about it. If you see my script I have used really basic syntax. – shpr Jun 6 '12 at 17:31

You need to break your code into manageable steps.

  1. Create data-structures from the files

    use Slurp;
    
    my @input = map{
      [ split /\s+/, $_, 2 ]
    } slurp $input_filename;
    
    # etc
    
  2. Process each element of input_22.txt, using those data structures.

I really think you should look into PerlMol. After all, half the reason to use Perl is CPAN.


Things you did well

  • Using 3-arg open
  • use strict;
  • use warnings;

Things you shouldn't have done

  • (Re)defined $a and $b
    They are already defined for you.
  • Reimplemented slurp (poorly)
  • Read the same file in multiple times.
    You opened SD_2.txt once for every line of input_22.txt.
  • Defined symbols outside of the scope where you use them.
    $j, $k, @array and @array1 are defined twice, but only one of the definitions is being used.
  • Used open and close without some sort of error checking.
    Either open ... or die; or use autodie;
  • You used bareword filehandles. IN, FILE etc
    Instead use open my $FH, ...

Most of those aren't that big of a deal though, for a one-off program.

share|improve this answer
    
Thanks alot. I ll work on these points. – shpr Jun 6 '12 at 22:30

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