NAME

get_relative_data.pl

A script to collect data in bins around a relative position.

SYNOPSIS

get_relative_data.pl --in <in_filename> --out <out_filename> [--options]

Options for existing files:
--in <filename>                  (txt bed gff gtf refFlat ucsc)

Options for new files:
--db <name|file>
--feature <type | type:source | alias>, ...

Options for data collection:
--ddb <name|file>
--data <dataset_name | filename>
--method [mean|median|stddev|min|max|range|sum|          (mean)
          count|pcount|ncount]
--strand [all|sense|antisense]                            (all)
--force_strand
--avoid
--avtype [type,type,...]
--long

Bin specification:
--win <integer>                                           (50)
--num <integer>                                           (20)
--pos [5|m|3]                                             (5)

Post-processing:
--(no)sum                                                 (true)
--smooth

General Options:
--out <filename>
--gz
--cpu <integer>                                           (2)
--version
--help                              show extended documentation

OPTIONS

The command line flags and descriptions:

--in <filename>

Specify an input file containing either a list of database features or genomic coordinates for which to collect data. Any tab-delimited text file with recognizable headers is supported. Gene annotation file formats are also supported, including bed, gtf, gff3, refFlat, and UCSC native formats such as gene prediction tables are all supported. Gene annotation files will be parsed as sequence features. Files may be gzipped compressed.

--out <filename>

Specify the output file name. Required for new files; otherwise, input files will be overwritten unless specified.

--db <name | filename>

Specify the name of a Bio::DB::SeqFeature::Store annotation database from which gene or feature annotation may be derived. A database is required for generating new data files with features. This option may skipped when using coordinate information from an input file (e.g. BED file), or when using an existing input file with the database indicated in the metadata. For more information about using annotation databases, see https://code.google.com/p/biotoolbox/wiki/WorkingWithDatabases.

--feature [type, type:source]

Specify the type of feature to map data around. The feature may be listed either as GFF type or GFF type:source. The list of features will be automatically generated from the database. This is only required when an input file is not specified.

--ddb <name | filename>

If the data to be collected is from a second database that is separate from the annotation database, provide the name of the data database here. Typically, a second Bio::DB::SeqFeature::Store or BigWigSet database is provided here.

--data <dataset_name | filename>

Specify the name of the data set from which you wish to collect data. If not specified, the data set may be chosen interactively from a presented list. Other features may be collected, and should be specified using the type (GFF type:source), especially when collecting alternative data values. Alternatively, the name of a data file may be provided. Supported file types include BigWig (.bw), BigBed (.bb), or single-end Bam (.bam). The file may be local or remote.

--method <text>

Specify the method for combining all of the dataset values within the genomic region of the feature. Accepted values include:

  • mean (default)

  • median

  • sum

  • stddev Standard deviation of the population (within the region)

  • min

  • max

  • range Returns difference of max and min

  • count

    Counts the number of overlapping items.

  • pcount (precise count)

    Counts the number of items that precisely fall within the query region. Partially overlapping are not counted.

  • ncount (name count)

    Counts unique names. Useful when spliced alignments overlap more than one exon and you want to avoid double-counting.

--strand [sense|antisense|all]

Specify whether stranded data should be collected for each of the datasets. Either sense or antisense (relative to the feature) data may be collected. The default value is 'all', indicating all data will be collected.

--force_strand

For features that are not inherently stranded (strand value of 0) or that you want to impose a different strand, set this option when collecting stranded data. This will reassign the specified strand for each feature regardless of its original orientation. This requires the presence of a "strand" column in the input data file. This option only works with input file lists of database features, not defined genomic regions (e.g. BED files). Default is false.

--avoid

Indicate whether neighboring features should be avoided when calculating values in a window. After collecting the data, each window is checked for overlapping features; if the window overlaps another feature, no value is reported for that window. This option requires using an annotation database (--db option). This is useful to avoid scoring windows that overlap a neighboring gene, for example. The default is false (return all values regardless of overlap).

--avtype [type,type,...]

Provide a feature type (primary_tag or primary_tag:source) or a comma-delimited list of types to be used when avoiding neighboring features. The default is to avoid features of the same type as that of the query, i.e. collecting data around a feature of type 'gene' will avoid other 'gene' features. This option allows you to avoid other features too, such as 'tRNA' or 'repeat'.

--long

Indicate that the dataset from which scores are collected are long features (counting genomic annotation for example) and not point data (microarray data or sequence coverage). Normally long features are only recorded at their midpoint, leading to inaccurate representation at some windows. This option forces the program to collect data separately at each window, rather than once for each file feature or region and subsequently assigning scores to windows. This may result in counting features more than once if it overlaps more than one window, a result that may or may not be desired. Execution time will likely increase. Default is false.

--win <integer>

Specify the window size. The default is 50 bp.

--num <integer>

Specify the number of windows on either side of the feature position (total number will be 2 x [num]). The default is 20, or 1 kb on either side of the reference position if the default window size is used.

--pos [5|m|3]

Indicate the relative position of the feature around which the data is mapped. Three values are accepted: "5" indicates the 5' prime end is used, "3" indicates the 3' end is used, and "m" indicates the middle of the feature is used. The default is to use the 5' end, or the start position of unstranded features.

--(no)sum

Indicate that the data should be averaged across all features at each position, suitable for graphing. A separate text file will be written with the suffix '_summed' with the averaged data. Default is true (sum).

--smooth

Indicate that windows without values should (not) be interpolated from neighboring values. The default is false (nosmooth).

--gz

Specify whether (or not) the output file should be compressed with gzip.

--cpu <integer>

Specify the number of CPU cores to execute in parallel. This requires the installation of Parallel::ForkManager. With support enabled, the default is 2. Disable multi-threaded execution by setting to 1.

--version

Print the version number.

--help

Display this help

DESCRIPTION

This program will collect data around a relative coordinate of a genomic feature or region. The data is collected in a series of windows flanking the feature start (5' position for stranded features), end (3' position), or the midpoint position. The number and size of windows are specified via command line arguments, or the program will default to 20 windows on both sides of the relative position (40 total) of 50 bp size, corresponding to 2 kb total (+/- 1 kb). Windows without a value may be interpolated (smoothed) from neigboring values, if available.

Stranded data may be collected. If the feature does not have an inherent strand, one may be specified to enforce stranded collection or a particular orientation.

When features overlap, or the collection windows of one feature overlaps with another feature, then data may be ignored and not collected (--avoid).

EXAMPLES

These are some examples of some common scenarios for collecting data.

Collect scores in intervals around start

You want to collect the mean score from a bigWig file in twenty 50 bp intervals flanking the start position of each feature in Bed file.

get_relative_data.pl --data scores.bw --in input.bed
Collect scores in intervals around middle

You want to collect median scores in 20 bp intervals extending 500 bp from the midpoint of each feature.

get_relative_data.pl --win 20 --num 25 --pos m --data scores.bw --in \
input.txt
Collect scores in intervals from annotation database

You want to collect scores in intervals around the transcription start site of genes in an annotation database, but also avoid intervals that may overlap neighboring genes. You want to collect alignment counts from a Bam file in a stranded fashion.

get_relative_data.pl --db annotation --feature gene --avoid --strand \
sense --method count --data alignments.bam --out gene_tss
  

AUTHOR

Timothy J. Parnell, PhD
Howard Hughes Medical Institute
Dept of Oncological Sciences
Huntsman Cancer Institute
University of Utah
Salt Lake City, UT, 84112

This package is free software; you can redistribute it and/or modify it under the terms of the Artistic License 2.0.