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Chemistry::MidasPattern(3) User Contributed Perl Documentation Chemistry::MidasPattern(3)

Chemistry::MidasPattern - Select atoms in macromolecules

    use Chemistry::MidasPattern;
    use Chemistry::File::PDB;

    # read a molecule
    my $mol = Chemistry::MacroMol->read("test.pdb");

    # define a pattern matching carbons alpha and beta
    # in all valine residues
    my $str  = ':VAL@CA,CB';
    my $patt = Chemistry::MidasPattern->new($str);

    # apply the pattern to the molecule
    $patt->match($mol);

    # extract the results
    for my $atom ($patt->atom_map) {
        printf "%s\t%s\n",  $atom->attr("pdb/residue_name"), $atom->name;
    }
    printf "FOUND %d atoms\n", scalar($patt->atom_map);

This module partially implements a pattern matching engine for selecting atoms in macromolecules by using Midas/Chimera patterns. See <http://www.cmpharm.ucsf.edu/~troyer/troff2html/midas/Midas-uh-3.html#sh-2.1> for a detailed description of this language.

This module shares the same interface as Chemistry::Pattern; to perform a pattern matching operation on a molecule, follow these steps.

1) Create a pattern object, by parsing a string. Let's assume that the pattern object is stored in $patt and that the molecule is $mol.

2) Execute the pattern on the molecule by calling $patt->match($mol).

3) If $patt->match() returns true, extract the "map" that relates the pattern to the molecule by calling $patt->atom_map. These method returns a list of the atoms in the molecule that are matched by the pattern. Thus $patt->atom_map(1) would be analogous to the $1 special variable used for regular expresion matching. The difference between Chemistry::Pattern and Perl regular expressions is that atoms are always captured, and that each atom always uses one "slot".

The current implementation does not have the concept of a model, only of residues and atoms.

What follows is not exactly a formal grammar specification, but it should give a general idea:

SELECTOR = ((:RESIDUE(.CHAIN)?)*(@ATOM)*)*

The star here means "zero or more", the question mark means "zero or one", and the parentheses are used to delimit the effect of the star. All other characters are used verbatim.

RESIDUE can be a name (e.g., LYS), a sequence number (e.g., 108), a range (e.g., 1-10), or a comma-separated list of RESIDUEs (e.g. 1-10,6,LYS).

ATOM is an atom name, a serial number (this is a non-standard extension) or a comma-separated list of ATOMs.

Names can have wildcards: * matches the whole name; ? matches one character; and = matches zero or more characters. An @ATOM specification is asociated with the closest preceding residue specification.

DISTANCE_SELECTOR = SELECTOR za< DISTANCE

Atoms within a certain distance of those that are matched by a selector can be selected by using the za< operator, where DISTANCE is a number in Angstroms.

EXPR = ( SELECTOR | DISTANCE_SELECTOR ) (& (SELECTOR | DISTANCE_SELECTOR))*

The result of two or more selectors can be intersected using the & operator.

    :ARG                All arginine atoms
    :ARG.A              All arginine atoms in chain 'A'
    :ARG@*              All arginine atoms
    @CA                 All alpha carbons
    :*@CA               All alpha carbons
    :ARG@CA             Arginine alpha carbons
    :VAL@C=             Valine carbons
    :VAL@C?             Valine carbons with two-letter names
    :ARG,VAL@CA         Arginine and valine alpha carbons
    :ARG:VAL@CA         All arginine atoms and valine alpha carbons
    :ARG@CA,CB          Arginine alpha and beta carbons
    :ARG@CA@CB          Arginine alpha and beta carbons
    :1-10               Atoms in residues 1 to 10
    :48-*               Atoms in residues 11 to the last one
    :30-40@CA & :ARG    Alpha carbons in residues 1-10 which are
                        also arginines.
    @123                Atom 123
    @123 za<5.0         Atoms within 5.0 Angstroms of atom 123
    @123 za>30.0        Atoms not within 30.0 Angstroms of atom 123
    @CA & @123 za<5.0   Alpha carbons within 5.0 Angstroms of atom 123

If a feature does not appear in any of the examples, it is probably not implemented. For example, the zr< zone specifier, atom properties, and various Chimera extensions.

The zone specifiers (selection by distance) currently use a brute-force N^2 algorithm. You can optimize an & expression by putting the most unlikely selectors first; for example

    :1-20 zr<10.0 & :38         atoms in residue 38 within 10 A of atoms
                                in residues 1-20 (slow)

    :38 & :1-20 zr<10.0         atoms in residue 38 within 10 A of atoms
                                in residues 1-20 (not so slow)

In the first case, the N^2 search measures the distance between every atom in the molecule and every atom in residues 1-20, and then intersects the results with the atom list of residue 28; the second case only measures the distance between every atom in residue 38 with every atom in residues 1-20. The second way is much, much faster for large systems.

Some day, a future version may implement a smarter algorithm...

0.11

Chemistry::File::MidasPattern, Chemistry::Pattern

The PerlMol website <http://www.perlmol.org/>

Ivan Tubert <itub@cpan.org>

Copyright (c) 2005 Ivan Tubert. All rights reserved. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
2005-05-16 perl v5.32.1

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