skip to navigation
skip to content

Not Logged In

gse 0.1.9

extract metadata and dataset from GEO Series Matrix format data

GEO Datasets

The National Center for Biotechnology Information makes microarray datasets available for free download that are used by researchers world-wide. This module was written to facilite processing of these datasets from within applications written in python.

1. File Structure

Files containing data for this dataset are organized into TAB-separated columns of data. All files contain a certain amount of metadata encoded in the beginning lines of the file. Metadata records begin with a descriptive record label that begins with "!", !Series_title, for example.

The actual expression data may be found in this same file, or in separeate files, one per sample, the names of which can be found in the associated metadata. For purposes of simplicity, it is assumed that the expression data follows the metadata in this same file, between the descriptor labels:

!series_matrix_table_begin

and:

!series_matrix_table_end

1.1 gse (script)

A command-line script, called gse is provided that uses the classes defined in this module to render data, both to the console and into files, depending on the switches used in the command line. The output tacitly includes a file with the same name as the input, but with the extension changed to a '.P' to denote python pickled contents. This will contain the pickled GEOSeries object, which can be unpickled using the cPickle.load function, later.

gse will try to interpret the input file as a pickled GEOSeries instance. Failing that, it will then try to create a new instance from what will be assumed to be a GSE_series_matrix.txt file. The upshot is that if you've already have a pickled instance, you can use this for subsequent operations (show-levels, for instance) without having to process the original input all over again, thereby saving a bit of time.

2. Metadata

There are two kinds of metadata in the GSE series matrix: series metadata and sample metadata. Series metadata generally have two fields or columns, separated by a tab. The first column is the metadata descriptor and always begins with !Series_, and the second column is the associated value. For instance:

!Series_title <TAB> "Reconstruction of the dynamic regulatory ..."

Note that sometimes the value, which is of type string may be enclosed in quotation marks. This isn't entirely consistent, but seems to be the case more often than not.

Sample metadata is of rougly similar format, with the first column being the descriptor, which always begins with !Sample_. There will be as many columns after this first one as there are samples in the dataset, and are supposed to appear in the same order as the expression data columns (i.e. samples) in the dataset proper. However, to be certain that the metadata are correctly associated with the corresponding sample, one of the sample metadata rows contains the sample ID as found in the dataset proper, so an association of all other sample metadata with corresponding sample should be done, indirectly, through this sample_id metadata row.

2.1 Displaying Metadata

The --show-metadata switch will cause series and sample metadata to be emitted to stdout. There are three formats: pretty, json, and html, with pretty being the default format. Format is selected with the --metadata-format= switch.

3. Dataset Output

If no output file is specified, no expression data will be emitted at all. Usin the --output= or -o switch to specify output destination. If you want output to go to stdout, use --output=- or -i - (i.e., use a hyphen for the filename.)

3.1 Raw vs Log Expressioin values

Some datasets contain "raw" data (or read counts.) Typically, we want expression values to be given as log2 values. The --log2 flag will cause expression data to be thusly converted.

3.1 Grouping Sample Output

If there are multiple levels of metadata, these can be used to group the samples, aggregating them by taking the arithmetic mean of the column values for samples that are in the same group. Say, for instance that you have ten samples and that are actually two groups of five replicates each. There will be sample metadata that defines these groups. The putput will then be two columns (plus the index column, which is typically is typically the probe ID for each row) the values of which being the mean of the group of values in each of the two groups.

The available sample metadata levels can be displayed using the --list-levels switch, which prints out an enumerated list starting at 0. The zeroth level is just the individual samples, ungrouped.

Grouping the samples is requested with the --group-by=``*level* or ``-g level switch. If not specified, this obviously defaults to zero. The level may be specified either with a non-negative integer or the metadata descriptor. If using the descriptor, remember to enclose it in quotes if there are embedded spaces in the descriptor label.

4. GSE Classes

There are three classes defined in this module, two of which act as containsers for the others.

4.1 GSESeries

This is the top-level class that contains both the data and metadata for specified dataset. It is passed a file-like object from which it reads and parses the (expected) GSE series matrix. The resulting instance offers several methods for displaying the metadata or emiting TSV files containing the dataset as a table in which the columns are, perhaps, grouped according to column index metadata.

4.2 GSESeriesMetadata

The metadata for the series matrix is accessed throught the metadata attribute of the GSESeries instance. Attributes can be listed using the attribute property. These can and will, of course, vary with each particular dataset.

4.3 GSESampleMetadata

The metadata for each sample in the series matrix can be accessed through the samples attribute of the GSESeries instance. This is actually a property that returns a generator that can be used to iterate through the samples in "sample order", that is, the order in which they appear in the matrix. To obtain a specific sample from its index, use the generator to create a list, then index that list. For example:

fifth_sample = list(series_instance.samples)[4]

5. MAGMA2

The older web applications, called Guide (see below) used an in-house-designed SQL database schema called MAGMA. (It was an acronym, but, just think of it as the molten aglomeration of a bunch of stuff swirling around in a great maelstrom, throwing off lots of heat and causing tremors now and then.) MAGMA was completely re-designed for Guide's successor, HaemoSphere, and is called MAGMA2.

5.1 gse-magma (script)

The command-line script gse-magma takes the pickled GEOSeries object produced by gse and emits the DDL that will enter the datasets metadata into MAGMA2.

The output filename will also include a version that can be set using the --version switch (default: 1.0).

The file containing the DDL for rows to add to the MAGMA2 dataset metadata will be found in:

<handle>.<version>_DDL.sql

5.2 gse-magma (advanced configuration)

Creating the DDL is particularly tricky since not all GSE files will contain the same kinds of metadata, nor will we always want to use the same metadata for any given dataset. It is therefore possible to specify configuration options, encoded as python objects, using the --magma2-config= switch.

This file can contain customised settings for callable objects that will take a GEOSeries instance as an argument and return a string. For example, the dataset_handle object might look like this:

dataset_handle = lambda gseObj: gseObj.accession

There are also dataset_version and dataset_description objects that can be defined as well.

Sample metadata are referecned somewhat the same -- as callable python objects -- but the argument passed is the GSESampleMetadata instance. This will be called in a loop that iterates through each of the samples so metadata pertaining to each is available to these callable objects. For instance:

sample_metadata_description = lambda samp_inst: samp_inst.title

returns the descriptive text for the given sample samp_inst.

These callable objects can be full-blown functions, not just anonymous lambda functions. Other, scaffolding or supporting code can also be included in this configuration file. Care should be taken in naming variables that should NOT be treated as configuration variables: their names should always begin with an underscore (_). See the documentation for the cfgparse module for further information.

A template configuration file can be generated by using the --template switch. This simply prints out the default configuration, in which all valus are set to empty strings or zeros.

6. GUIDE

WEHI had an internally-developed web application called Guide that was a sort of genome browser married to a collection of datasets commonly used by our scientists. This module was written first and foremost to support and facilitate the addition of new datasets to this Guide collection.

Guide has now been superceded by HaemoSphere which uses an updated version of MAGMA called, appropriately enough, MAGMA2. This section is included ONLY for historical purposes. As of 1/1/2014, Guide is no longer supported in GSE.

6.1 gse-guide (script)

The command-line script gse-guide takes the pickled GEOSeries object produced by gse and emits three files that will then be incorporated into the Guide application's database. Guide expects to see two files containing a picked object called a matricks which is a bit like a pandas DataFrame. (Newer versions of guide will deprecate matricks in favor of pandas.)

Using the --handle= switch will cause these two files to be created. Originally, these contained the raw (i.e. unaggregated) samples and the samples aggregated according to the celltype from which they were extracted. Here, "celltype" may be a misnomer but it is still used for historical reasons. The celltype grouping is specified by the --group-by= switch, defaulting to the second (--group-by=1) metadata level value.

The output filenames will also include a version that can be set using the --version switch (default: 1.0).

The result will be two files named:

SampleSignalProfiles.<handle>.<version>.pickled

and:

CelltypeSignalProfiles.<handle>.<version>.pickled

Also, a file containing the DDL for rows to add to the guide databaset tables will be found in:

<handle>.<version>_DDL.sql

6.2 gse-guide (advanced configuration)

Creating the DDL is particularly tricky since not all GSE files will contain the same kinds of metadata, nor will we always want to use the same metadata for any given dataset. It is therefore possible to specify configuration options, encoded as python objects, using the --guide-config= switch.

This file can contain customised settings for callable objects that will take a GEOSeries instance as an argument and return a string. For example, the dataset_handle object might look like this:

dataset_handle = lambda gseObj: gseObj.accession

There are also dataset_version and dataset_description objects that can be defined as well.

Sample metadata are referecned somewhat the same -- as callable python objects -- but the argument passed is the GSESampleMetadata instance. This will be called in a loop that iterates through each of the samples so metadata pertaining to each is available to these callable objects. For instance:

sample_description = lambda samp_inst: samp_inst.title

returns the descriptive text for the given sample samp_inst.

These callable objects can be full-blown functions, not just anonymous lambda functions. Other, scaffolding or supporting code can also be included in this configuration file. Care should be taken in naming variables that should NOT be treated as configuration variables: their names should always begin with an underscore (_). See the documentation for the cfgparse module for further information.

A template configuration file can be generated by using the --template switch. This simply prints out the default configuration, in which all valus are set to empty strings or zeros.

 
File Type Py Version Uploaded on Size
gse-0.1.9-py2.7.egg (md5) Python Egg 2.7 2014-02-10 34KB
  • Downloads (All Versions):
  • 15 downloads in the last day
  • 44 downloads in the last week
  • 252 downloads in the last month