NAME

Bio::Tools::Phylo::PAML::ModelResult - A container for NSSite Model Result from PAML

SYNOPSIS

# get a ModelResult from a PAML::Result object
use Bio::Tools::Phylo::PAML;
my $paml = new Bio::Tools::Phylo::PAML(-file => 'mlc');
my $result = $paml->next_result;
foreach my $model ( $result->get_model_results ) {
  print $model->model_num, " ", $model->model_description, "\n";
  print $model->kappa, "\n";
  print $model->run_time, "\n";
# if you are using PAML < 3.15 then only one place for POS sites
 for my $sites ( $model->get_pos_selected_sites ) {
  print join("\t",@$sites),"\n";
 }
# otherwise query NEB and BEB slots
 for my $sites ( $model->get_NEB_pos_selected_sites ) {
   print join("\t",@$sites),"\n";
 }

 for my $sites ( $model->get_BEB_pos_selected_sites ) {
  print join("\t",@$sites),"\n";
 }

}

DESCRIPTION

Describe the object here

FEEDBACK

Mailing Lists

User feedback is an integral part of the evolution of this and other Bioperl modules. Send your comments and suggestions preferably to the Bioperl mailing list. Your participation is much appreciated.

bioperl-l@bioperl.org                  - General discussion
http://bioperl.org/wiki/Mailing_lists  - About the mailing lists

Reporting Bugs

Report bugs to the Bioperl bug tracking system to help us keep track of the bugs and their resolution. Bug reports can be submitted via email or the web:

http://bugzilla.open-bio.org/

AUTHOR - Jason Stajich

Email jason@open-bio.org

APPENDIX

The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _

new

 Title   : new
 Usage   : my $obj = new Bio::Tools::Phylo::PAML::ModelResult();
 Function: Builds  a new Bio::Tools::Phylo::PAML::ModelResult object 
 Returns : an instance of Bio::Tools::Phylo::PAML::ModelResult
 Args    : -model_num           => model number
           -model_description   => model description
           -kappa               => value of kappa
           -time_used           => amount of time
           -pos_sites           => arrayref of sites under positive selection
           -neb_sites           => arrayref of sites under positive selection (by NEB analysis)
           -beb_sites           => arrayref of sites under positive selection (by BEB analysis)
           -trees               => arrayref of tree(s) data for this model
           -shape_params        => hashref of parameters 
                                   ('shape' => 'alpha',
				    'gamma' => $g, 
				    'r' => $r, 
				    'f' => $f 
				    )
                                    OR
				    ( 'shape' => 'beta',
				      'p' => $p, 
				      'q' => $q
				     )
           -likelihood          => likelihood
           -num_site_classes    => number of site classes
           -dnds_site_classes   => hashref with two keys, 'p' and 'w'
                                   which each point to an array, each
                                   slot is for a different site class.
                                   'w' is for dN/dS and 'p' is probability

model_num

Title   : model_num
Usage   : $obj->model_num($newval)
Function: Get/Set the Model number (0,1,2,3...)
Returns : value of model_num (a scalar)
Args    : on set, new value (a scalar or undef, optional)

model_description

Title   : model_description
Usage   : $obj->model_description($newval)
Function: Get/Set the model description
          This is something like 'one-ratio', 'neutral', 'selection'
Returns : value of description (a scalar)
Args    : on set, new value (a scalar or undef, optional)

time_used

Title   : time_used
Usage   : $obj->time_used($newval)
Function: Get/Set the time it took to run this analysis
Returns : value of time_used (a scalar)
Args    : on set, new value (a scalar or undef, optional)

kappa

Title   : kappa
Usage   : $obj->kappa($newval)
Function: Get/Set kappa (ts/tv)
Returns : value of kappa (a scalar)
Args    : on set, new value (a scalar or undef, optional)

num_site_classes

Title   : num_site_classes
Usage   : $obj->num_site_classes($newval)
Function: Get/Set the number of site classes for this model
Returns : value of num_site_classes (a scalar)
Args    : on set, new value (a scalar or undef, optional)

dnds_site_classes

Title   : dnds_site_classes
Usage   : $obj->dnds_site_classes($newval)
Function: Get/Set dN/dS site classes, a hashref
          with 2 keys, 'p' and 'w' which point to arrays
          one slot for each site class.
Returns : value of dnds_site_classes (a hashref)
Args    : on set, new value (a scalar or undef, optional)

get_pos_selected_sites

Title   : get_pos_selected_sites
Usage   : my @sites = $modelresult->get_pos_selected_sites();
Function: Get the sites which PAML has identified as under positive
          selection (w > 1).  This returns an array with each slot
          being a site, 4 values, 
          site location (in the original alignment)
          Amino acid    (I *think* in the first sequence)
          P             (P value)
          Significance  (** indicated > 99%, * indicates >=95%)
Returns : Array
Args    : none

add_pos_selected_site

Title   : add_pos_selected_site
Usage   : $result->add_pos_selected_site($site,$aa,$pvalue,$signif);
Function: Add a site to the list of positively selected sites
Returns : count of the number of sites stored
Args    : $site   - site number (in the alignment)
          $aa     - amino acid under selection 
          $pvalue - float from 0->1 represent probability site is under selection according to this model
          $signif - significance (coded as either empty, '*', or '**'

get_NEB_pos_selected_sites

Title   : get_NEB_pos_selected_sites
Usage   : my @sites = $modelresult->get_NEB_pos_selected_sites();
Function: Get the sites which PAML has identified as under positive
          selection (w > 1) using Naive Empirical Bayes.  
          This returns an array with each slot being a site, 4 values, 
          site location (in the original alignment)
          Amino acid    (I *think* in the first sequence)
          P             (P value)
          Significance  (** indicated > 99%, * indicates > 95%)
          post mean for w
Returns : Array
Args    : none

add_NEB_pos_selected_site

Title   : add_NEB_pos_selected_site
Usage   : $result->add_NEB_pos_selected_site($site,$aa,$pvalue,$signif);
Function: Add a site to the list of positively selected sites
Returns : count of the number of sites stored
Args    : $site   - site number (in the alignment)
          $aa     - amino acid under selection 
          $pvalue - float from 0->1 represent probability site is under selection according to this model
          $signif - significance (coded as either empty, '*', or '**'
          $postmean - post mean for w

get_BEB_pos_selected_sites

Title   : get_BEB_pos_selected_sites
Usage   : my @sites = $modelresult->get_BEB_pos_selected_sites();
Function: Get the sites which PAML has identified as under positive
          selection (w > 1) using Bayes Empirical Bayes.  
          This returns an array with each slot being a site, 6 values, 
          site location (in the original alignment)
          Amino acid    (I *think* in the first sequence)
          P             (P value)
          Significance  (** indicated > 99%, * indicates > 95%)
          post mean for w (mean)
          Standard Error for w (SE)
Returns : Array
Args    : none

add_BEB_pos_selected_site

Title   : add_BEB_pos_selected_site
Usage   : $result->add_BEB_pos_selected_site($site,$aa,$pvalue,$signif);
Function: Add a site to the list of positively selected sites
Returns : count of the number of sites stored
Args    : $site   - site number (in the alignment)
          $aa     - amino acid under selection 
          $pvalue - float from 0->1 represent probability site is under selection according to this model
          $signif - significance (coded as either empty, '*', or '**'
          $postmean - post mean for w
          $SE       - Standard Error for w

next_tree

Title   : next_tree
Usage   : my $tree = $factory->next_tree;
Function: Get the next tree from the factory
Returns : L<Bio::Tree::TreeI>
Args    : none

get_trees

Title   : get_trees
Usage   : my @trees = $result->get_trees;
Function: Get all the parsed trees as an array
Returns : Array of trees
Args    : none

rewind_tree

Title   : rewind_tree_iterator
Usage   : $result->rewind_tree()
Function: Rewinds the tree iterator so that next_tree can be 
          called again from the beginning
Returns : none
Args    : none

add_tree

Title   : add_tree
Usage   : $result->add_tree($tree);
Function: Adds a tree 
Returns : integer which is the number of trees stored
Args    : L<Bio::Tree::TreeI>

shape_params

Title   : shape_params
Usage   : $obj->shape_params($newval)
Function: Get/Set shape params for the distribution, 'alpha', 'beta'
          which is a hashref 
          with 1 keys, 'p' and 'q' 
Returns : value of shape_params (a scalar)
Args    : on set, new value (a scalar or undef, optional)

likelihood

Title   : likelihood
Usage   : $obj->likelihood($newval)
Function: log likelihood
Returns : value of likelihood (a scalar)
Args    : on set, new value (a scalar or undef, optional)