In CharlesJB/ENCODExplorer-release: A compilation of ENCODE metadata
ENCODExplorer: A compilation of metadata from ENCODE
Audrey Lemacon, Charles Joly Beauparlant and Arnaud Droit.
This package and the underlying ENCODExplorer code are distributed under
the Artistic license 2.0. You are free to use and redistribute this software.
"The ENCODE (Encyclopedia of DNA Elements) Consortium is an international
collaboration of research groups funded by the National Human Genome Research
Institute (NHGRI). The goal of ENCODE is to build a comprehensive parts list of
functional elements in the human genome, including elements that act at the
protein and RNA levels, and regulatory elements that control cells and
circumstances in which a gene is active"^[1].
However, data retrieval and downloading can be really time-consuming using
the current web portal.
This package has been designed to facilitate data access by compiling the
metadata associated with file, experiment and dataset.
We first extract ENCODE schema from its public github repository.
Then we identify the main entities and their relationship with each other to
rebuild the ENCODE database into an SQLite database.
We also developped a function which can extract the essential metadata in a R
object to aid data exploration.
We implemented time-saving features to select ENCODE files by querying their
metadata and download them.
The SQLite database can be regenerated at will to query ENCODE database locally
keep it up-to-date.
This vignette will introduce the imputed ENCODE database model.
Loading ENCODExplorer package
suppressMessages(library(ENCODExplorer))
Data preparation
To generate the SQL database from ENCODE:
# the path (relative or absolute) to the future database
database_filename = "encode.sqlite"
tables = prepare_ENCODEdb(database_filename)
The process can take a few minutes.
Schema
The edges indicate relationship between two tables : an origin and a destination.
The relation is made between a column of the origin table and the id of the
destination table.
Those relations are described in the following table:
Relations table
|origin| destination|origin column|
|---------|------------|-------------|
|access_key|user|user|
|analysis_step|analysis_step|parents|
|analysis_step|document|documents|
|analysis_step_run|analysis_step|analysis_step|
|analysis_step_run|workflow_run|workflow_run|
|analysis_step|software_version|software_versions|
|antibody_approval|antibody_characterization|characterizations|
|antibody_approval|antibody_lot|antibody|
|antibody_approval|target|target|
|antibody_characterization|antibody_lot|characterizes|
|antibody_characterization|target|target|
|antibody_characterization|user|reviewed_by|
|antibody_lot|organism|host_organism|
|antibody_lot|target|targets|
|award|user|pi|
|biosample|biosample|derived_from|
|biosample|biosample|part_of|
|biosample|biosample|pooled_from|
|biosample_characterization|biosample|characterizes|
|biosample|construct|constructs|
|biosample|document|protocol_documents|
|biosample|donor|donor|
|biosample|organism|organism|
|biosample|rnai|rnais|
|biosample|talen|talens|
|biosample|treatment|treatments|
|characterization|document|documents|
|construct_characterization|construct|characterizes|
|construct|document|documents|
|construct|target|promoter_used|
|construct|target|target|
|dataset|document|documents|
|dataset|file|related_files|
|donor_characterization|donor|characterizes|
|donor|organism|organism|
|experiment|experiment|possible_controls|
|experiment|target|target|
|file|analysis_step_run|step_run|
|file|dataset|dataset|
|file|experiment|dataset|
|file|file|controlled_by|
|file|file|derived_from|
|file|file|paired_with|
|file|file|supercedes|
|file|platform|platform|
|file|replicate|replicate|
|fly_donor|document|documents|
|human_donor|human_donor|children|
|human_donor|human_donor|fraternal_twin|
|human_donor|human_donor|identical_twin|
|human_donor|human_donor|parents|
|human_donor|human_donor|siblings|
|lab|award|awards|
|lab|user|pi|
|library|biosample|biosample|
|library|dataset|spikeins_used|
|library|document|documents|
|library|treatment|treatments|
|mouse_donor|mouse_donor|littermates|
|page|page|parent|
|pipeline|analysis_step|analysis_steps|
|pipeline|analysis_step|end_points|
|pipeline|document|documents|
|publication|dataset|datasets|
|quality_metric|analysis_step_run|step_run|
|quality_metric|file|files|
|replicate|antibody_lot|antibody|
|replicate|experiment|experiment|
|replicate|library|library|
|replicate|platform|platform|
|rnai_characterization|rnai|characterizes|
|rnai|document|documents|
|rnai|target|target|
|software|publication|references|
|software_version|software|software|
|talen|document|documents|
|target|organism|organism|
|treatment|document|protocols|
|treatment|lab|lab|
|user|lab|lab|
|user|lab|submits_for|
|workflow_run|file|input_files|
|workflow_run|pipeline|pipeline|
|workflow_run|software_version|software_version|
|worm_donor|document|documents|
|worm_donor|worm_donor|outcrossed_strain|
For example:
[file ---> replicate ---> replicate] enables to write the following relation in a SQL query : file.replicate = replicate.id.
[1] : source : ENCODE Projet Portal
CharlesJB/ENCODExplorer-release documentation built on May 6, 2019, 9:57 a.m.
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ENCODExplorer: A compilation of metadata from ENCODE
Audrey Lemacon, Charles Joly Beauparlant and Arnaud Droit.
This package and the underlying ENCODExplorer code are distributed under the Artistic license 2.0. You are free to use and redistribute this software.
"The ENCODE (Encyclopedia of DNA Elements) Consortium is an international collaboration of research groups funded by the National Human Genome Research Institute (NHGRI). The goal of ENCODE is to build a comprehensive parts list of functional elements in the human genome, including elements that act at the protein and RNA levels, and regulatory elements that control cells and circumstances in which a gene is active"^[1].
However, data retrieval and downloading can be really time-consuming using the current web portal.
This package has been designed to facilitate data access by compiling the metadata associated with file, experiment and dataset.
We first extract ENCODE schema from its public github repository. Then we identify the main entities and their relationship with each other to rebuild the ENCODE database into an SQLite database. We also developped a function which can extract the essential metadata in a R object to aid data exploration. We implemented time-saving features to select ENCODE files by querying their metadata and download them.
The SQLite database can be regenerated at will to query ENCODE database locally keep it up-to-date.
This vignette will introduce the imputed ENCODE database model.
Loading ENCODExplorer package
suppressMessages(library(ENCODExplorer))
Data preparation
To generate the SQL database from ENCODE:
# the path (relative or absolute) to the future database database_filename = "encode.sqlite" tables = prepare_ENCODEdb(database_filename)
The process can take a few minutes.
Schema
The edges indicate relationship between two tables : an origin and a destination. The relation is made between a column of the origin table and the id of the destination table.
Those relations are described in the following table:
Relations table
|origin| destination|origin column| |---------|------------|-------------| |access_key|user|user| |analysis_step|analysis_step|parents| |analysis_step|document|documents| |analysis_step_run|analysis_step|analysis_step| |analysis_step_run|workflow_run|workflow_run| |analysis_step|software_version|software_versions| |antibody_approval|antibody_characterization|characterizations| |antibody_approval|antibody_lot|antibody| |antibody_approval|target|target| |antibody_characterization|antibody_lot|characterizes| |antibody_characterization|target|target| |antibody_characterization|user|reviewed_by| |antibody_lot|organism|host_organism| |antibody_lot|target|targets| |award|user|pi| |biosample|biosample|derived_from| |biosample|biosample|part_of| |biosample|biosample|pooled_from| |biosample_characterization|biosample|characterizes| |biosample|construct|constructs| |biosample|document|protocol_documents| |biosample|donor|donor| |biosample|organism|organism| |biosample|rnai|rnais| |biosample|talen|talens| |biosample|treatment|treatments| |characterization|document|documents| |construct_characterization|construct|characterizes| |construct|document|documents| |construct|target|promoter_used| |construct|target|target| |dataset|document|documents| |dataset|file|related_files| |donor_characterization|donor|characterizes| |donor|organism|organism| |experiment|experiment|possible_controls| |experiment|target|target| |file|analysis_step_run|step_run| |file|dataset|dataset| |file|experiment|dataset| |file|file|controlled_by| |file|file|derived_from| |file|file|paired_with| |file|file|supercedes| |file|platform|platform| |file|replicate|replicate| |fly_donor|document|documents| |human_donor|human_donor|children| |human_donor|human_donor|fraternal_twin| |human_donor|human_donor|identical_twin| |human_donor|human_donor|parents| |human_donor|human_donor|siblings| |lab|award|awards| |lab|user|pi| |library|biosample|biosample| |library|dataset|spikeins_used| |library|document|documents| |library|treatment|treatments| |mouse_donor|mouse_donor|littermates| |page|page|parent| |pipeline|analysis_step|analysis_steps| |pipeline|analysis_step|end_points| |pipeline|document|documents| |publication|dataset|datasets| |quality_metric|analysis_step_run|step_run| |quality_metric|file|files| |replicate|antibody_lot|antibody| |replicate|experiment|experiment| |replicate|library|library| |replicate|platform|platform| |rnai_characterization|rnai|characterizes| |rnai|document|documents| |rnai|target|target| |software|publication|references| |software_version|software|software| |talen|document|documents| |target|organism|organism| |treatment|document|protocols| |treatment|lab|lab| |user|lab|lab| |user|lab|submits_for| |workflow_run|file|input_files| |workflow_run|pipeline|pipeline| |workflow_run|software_version|software_version| |worm_donor|document|documents| |worm_donor|worm_donor|outcrossed_strain|
For example: [file ---> replicate ---> replicate] enables to write the following relation in a SQL query : file.replicate = replicate.id.
[1] : source : ENCODE Projet Portal
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