Integrated registry of biological databases and nomenclatures
Project description
Bioregistry
A community-driven integrative meta-registry of life science databases, ontologies, and other resources.
More information here.
The Bioregistry can be accessed, searched, and queried through its associated website at https://bioregistry.io.
📥 Download
The underlying data of the Bioregistry can be downloaded (or edited) directly
from here.
Several exports to YAML, TSV, and RDF, including consensus views over the
registry, are built on a nightly basis and can be downloaded via the
exports/
directory.
The manually curated portions of these data are available under the CC0 1.0 Universal License. Aggregated data are redistributed under their original licenses.
🙏 Contributing
Contributions are both welcomed and encouraged. Contribution guidelines for new prefix requests, record edits, record removals, and code updates are available in CONTRIBUTING.md.
The most simple contribution is to submit an issue:
- Submit a new prefix using the issue template. A new pull request will be generated automatically for you.
- Update an existing record using one of the existing issue templates (e.g., for updating a record's regular expression, merging two prefixes).
- For any updates that don't have a corresponding template, feel free to start with a blank issue.
If you want to make a direct contribution, feel free to make edits directly to the bioregistry.json file either through the GitHub interface or locally by forking the repository.
If you want to make a contribution but don't know where to start, you can check this list of curation To-Do's that's automatically generated daily, including more detailed information on how to contribute.
⚖️ Governance
The Bioregistry is maintained by a Review Team and Core Development team whose memberships and duties are described in the Project Governance.
🧹 Maintenance
🫀 Health Report
The Bioregistry runs some automated tests weekly to check that various metadata haven't gone stale. For example, it checks that the homepages are still available and that each provider URL is still able to resolve.
It has a dedicated dashboard that is not part of the main Bioregistry site.
♻️ Update
The database is automatically updated daily thanks to scheduled workflows in GitHub Actions. The workflow's configuration can be found here and the last run can be seen here. Further, a changelog can be recapitulated from the commits of the GitHub Actions bot.
If you want to manually update the database, run the following:
$ tox -e update
Make sure that you have valid environment variables or pystow
configurations
for BIOPORTAL_API_KEY
, ECOPORTAL_API_KEY
, AGROPORTAL_API_KEY
,
FAIRSHARING_LOGIN
, and FAIRSHARING_PASSWORD
.
🚀 Installation
The Bioregistry can be installed from PyPI with:
$ pip install bioregistry
It can be installed in development mode for local curation with:
$ git clone https://github.com/biopragmatics/bioregistry.git
$ cd bioregistry
$ pip install --editable .
Build the docs locally with tox -e docs
then view by opening
docs/build/html/index.html
.
💪 Usage
Normalizing Prefixes
The Bioregistry can be used to normalize prefixes across MIRIAM and all the (very plentiful) variants that pop up in
ontologies in OBO Foundry and the OLS with the normalize_prefix()
function.
from bioregistry import normalize_prefix
# Doesn't affect canonical prefixes
assert 'ncbitaxon' == normalize_prefix('ncbitaxon')
# This works for uppercased prefixes, like:
assert 'chebi' == normalize_prefix("CHEBI")
# This works for mixed case prefixes like
assert 'fbbt' == normalize_prefix("FBbt")
# This works for synonym prefixes, like:
assert 'ncbitaxon' == normalize_prefix('taxonomy')
# This works for common mistaken prefixes, like:
assert 'pubchem.compound' == normalize_prefix('pubchem')
# This works for prefixes that are often written many ways, like:
assert 'eccode' == normalize_prefix('ec-code')
assert 'eccode' == normalize_prefix('EC_CODE')
# If a prefix is not registered, it gives back `None`
assert normalize_prefix('not a real key') is None
Parsing CURIEs
The Bioregistry supports parsing a CURIE into a pair of normalized prefix
and identifier using the parse_curie()
function:
from bioregistry import parse_curie
# Obvious for canonical CURIEs
assert ('chebi', '1234') == parse_curie('chebi:1234')
# Normalize mixed case prefixes
assert ('fbbt', '00007294') == parse_curie('FBbt:00007294')
# Normalize common mistaken prefixes
assert ('pubchem.compound', '1234') == parse_curie('pubchem:1234')
# Remove the redundant prefix and normalize
assert ('go', '1234') == parse_curie('GO:GO:1234')
This will also apply the same normalization rules for prefixes from the previous section on normalizing prefixes for the remaining examples.
Normalizing CURIEs
The Bioregistry supports converting a CURIE to a canonical CURIE by normalizing
the prefix and removing redundant namespaces embedded in LUIs with the
normalize_curie()
function.
from bioregistry import normalize_curie
# Idempotent to canonical CURIEs
assert 'chebi:1234' == normalize_curie('chebi:1234')
# Normalize common mistaken prefixes
assert 'pubchem.compound:1234' == normalize_curie('pubchem:1234')
# Normalize mixed case prefixes
assert 'fbbt:1234' == normalize_curie('FBbt:1234')
# Remove the redundant prefix and normalize
assert 'go:1234' == normalize_curie('GO:GO:1234')
Parsing IRIs
The Bioregistry can be used to parse CURIEs from IRIs due to its vast registry of provider URL
strings and additional programmatic logic implemented with Python. It can parse OBO Library PURLs,
IRIs from the OLS and identifiers.org, IRIs from the Bioregistry website, and any other IRIs
from well-formed providers registered in the Bioregistry. The parse_iri()
function
gets a pre-parsed CURIE, while the curie_from_iri()
function makes a canonical CURIE
from the pre-parsed CURIE.
from bioregistry import curie_from_iri, parse_iri
# First-party IRI
assert ('chebi', '24867') == parse_iri('https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:24867')
assert 'chebi:24867' == curie_from_iri('https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:24867')
# OBO Library PURL
assert ('chebi', '24867') == parse_iri('http://purl.obolibrary.org/obo/CHEBI_24867')
assert 'chebi:24867' == curie_from_iri('http://purl.obolibrary.org/obo/CHEBI_24867')
# OLS IRI
assert ('chebi', '24867') == parse_iri('https://www.ebi.ac.uk/ols/ontologies/chebi/terms?iri=http://purl.obolibrary.org/obo/CHEBI_24867')
assert 'chebi:24867' == curie_from_iri('https://www.ebi.ac.uk/ols/ontologies/chebi/terms?iri=http://purl.obolibrary.org/obo/CHEBI_24867')
# Identifiers.org IRIs (with varying usage of HTTP(s) and colon/slash separator
assert ('chebi', '24867') == parse_iri('https://identifiers.org/CHEBI:24867')
assert ('chebi', '24867') == parse_iri('http://identifiers.org/CHEBI:24867')
assert ('chebi', '24867') == parse_iri('https://identifiers.org/CHEBI/24867')
assert ('chebi', '24867') == parse_iri('http://identifiers.org/CHEBI/24867')
# Bioregistry IRI
assert ('chebi', '24867') == parse_iri('https://bioregistry.io/chebi:24867')
In general, the Bioregistry knows how to parse both the http and https variants of any given URI:
from bioregistry import parse_iri
assert ('neuronames', '268') == parse_iri("http://braininfo.rprc.washington.edu/centraldirectory.aspx?ID=268")
assert ('neuronames', '268') == parse_iri("https://braininfo.rprc.washington.edu/centraldirectory.aspx?ID=268")
Generating IRIs
You can generate an IRI from either a CURIE or a pre-parsed CURIE
(i.e., a 2-tuple of a prefix and identifier) with the get_iri()
function.
By default, it uses the following priorities:
- Custom prefix map (
custom
) - First-party IRI (
default
) - Identifiers.org / MIRIAM (
miriam
) - Ontology Lookup Service (
ols
) - OBO PURL (
obofoundry
) - Name-to-Thing (
n2t
) - BioPortal (
bioportal
)
from bioregistry import get_iri
assert get_iri("chebi", "24867") == 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:24867'
assert get_iri("chebi:24867") == 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:24867'
It's possible to change the default priority list by passing an alternate
sequence of metaprefixes to the priority
keyword (see above). For example, if
you're working with OBO ontologies, you might want to make OBO PURLs the highest
priority and when OBO PURLs can't be generated, default to something else:
from bioregistry import get_iri
priority = ["obofoundry", "default", "miriam", "ols", "n2t", "bioportal"]
assert get_iri("chebi:24867", priority=priority) == 'http://purl.obolibrary.org/obo/CHEBI_24867'
assert get_iri("hgnc:1234", priority=priority) == 'https://bioregistry.io/hgnc:1234'
Even deeper, you can add (or override) any of the Bioregistry's default prefix
map with the prefix_map
keyword:
from bioregistry import get_iri
prefix_map = {
"myprefix": "https://example.org/myprefix/",
"chebi": "https://example.org/chebi/",
}
assert get_iri("chebi:24867", prefix_map=prefix_map) == 'https://example.org/chebi/24867'
assert get_iri("myprefix:1234", prefix_map=prefix_map) == 'https://example.org/myprefix/1234'
A custom prefix map can be supplied in combination with a priority list, using
the "custom"
key for changing the priority of the custom prefix map.
from bioregistry import get_iri
prefix_map = {"lipidmaps": "https://example.org/lipidmaps/"}
priority = ["obofoundry", "custom", "default", "bioregistry"]
assert get_iri("chebi:24867", prefix_map=prefix_map, priority=priority) == \
'http://purl.obolibrary.org/obo/CHEBI_24867'
assert get_iri("lipidmaps:1234", prefix_map=prefix_map, priority=priority) == \
'https://example.org/lipidmaps/1234'
Alternatively, there are direct functions for generating IRIs for different registries:
import bioregistry as br
# Bioregistry IRI
assert br.get_bioregistry_iri('chebi', '24867') == 'https://bioregistry.io/chebi:24867'
# Default Provider
assert br.get_default_iri('chebi', '24867') == 'https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:24867'
# OBO Library
assert br.get_obofoundry_iri('chebi', '24867') == 'http://purl.obolibrary.org/obo/CHEBI_24867'
# OLS IRI
assert br.get_ols_iri('chebi', '24867') ==
'https://www.ebi.ac.uk/ols/ontologies/chebi/terms?iri=http://purl.obolibrary.org/obo/CHEBI_24867'
# Bioportal IRI
assert br.get_bioportal_iri('chebi', '24867') == \
'https://bioportal.bioontology.org/ontologies/CHEBI/?p=classes&conceptid=http://purl.obolibrary.org/obo/CHEBI_24867'
# Identifiers.org IRI
assert br.get_identifiers_org_iri('chebi', '24867') == 'https://identifiers.org/CHEBI:24867'
# Name-to-Thing IRI
assert br.get_n2t_iri('chebi', '24867') == 'https://n2t.net/chebi:24867'
Each of these functions could also return None
if there isn't a provider available or if the prefix
can't be mapped to the various resources.
Prefix Map
The Bioregistry can be used to generate prefix maps with various flavors depending on your context. Prioritization works the same way as when generating IRIs.
from bioregistry import get_prefix_map
# Standard
prefix_map = get_prefix_map()
# Prioritize OBO prefixes over bioregistry
priority = ["obofoundry", "default", "miriam", "ols", "n2t", "bioportal"]
prefix_map = get_prefix_map(uri_prefix_priority=priority)
# Provide custom remapping that doesn't have prioritization logic
remapping = {"chebi": "CHEBI"}
prefix_map = get_prefix_map(remapping=remapping)
Getting Metadata
The pattern for an entry in the Bioregistry can be looked up quickly with get_pattern()
if
it exists. It prefers the custom curated, then MIRIAM, then Wikidata pattern.
import bioregistry
assert '^GO:\\d{7}$' == bioregistry.get_pattern('go')
Entries in the Bioregistry can be checked for deprecation with the is_deprecated()
function. MIRIAM and OBO Foundry
don't often agree - OBO Foundry takes precedence since it seems to be updated more often.
import bioregistry
assert bioregistry.is_deprecated('nmr')
assert not bioregistry.is_deprecated('efo')
Entries in the Bioregistry can be looked up with the get_resource()
function.
import bioregistry
entry = bioregistry.get_resource('taxonomy')
# there are lots of mysteries to discover in this dictionary!
The full Bioregistry can be read in a Python project using:
import bioregistry
registry = bioregistry.read_registry()
🕸️ Resolver App
After installation with the [web]
extras, the Bioregistry web application
can be run with the following code:
$ python -m pip install bioregistry[web]
$ bioregistry web
to run a web app that functions like Identifiers.org, but backed by the Bioregistry. A public instance of this app is hosted by the Gyori Lab for Computational Biomedicine at https://bioregistry.io.
👋 Attribution
⚖️ License
The code in this repository is licensed under the MIT License.
📛 Badge
If you use the Bioregistry in your code, support us by including our badge in your project's README.md:
[![Powered by the Bioregistry](https://img.shields.io/static/v1?label=Powered%20by&message=Bioregistry&color=BA274A&style=flat&logo=image/png;base64,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)](https://github.com/biopragmatics/bioregistry)
If your README uses reStructuredText (.rst), use this instead:
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:target: https://github.com/biopragmatics/bioregistry
:alt: Powered by the Bioregistry
📖 Citation
Unifying the identification of biomedical entities with the Bioregistry
Hoyt, C. T., Balk, M., Callahan, T. J., Domingo-Fernandez, D., Haendel, M. A., Hegde, H. B., Himmelstein, D. S., Karis, K., Kunze, J., Lubiana, T., Matentzoglu, N., McMurry, J., Moxon, S., Mungall, C. J., Rutz, A., Unni, D. R., Willighagen, E., Winston, D., and Gyori, B. M. (2022)
Nature Scientific Data, s41597-022-01807-3
@article{Hoyt2022Bioregistry,
author = {Hoyt, Charles Tapley and Balk, Meghan and Callahan, Tiffany J and Domingo-Fern{\'{a}}ndez, Daniel and Haendel, Melissa A and Hegde, Harshad B and Himmelstein, Daniel S and Karis, Klas and Kunze, John and Lubiana, Tiago and Matentzoglu, Nicolas and McMurry, Julie and Moxon, Sierra and Mungall, Christopher J and Rutz, Adriano and Unni, Deepak R and Willighagen, Egon and Winston, Donald and Gyori, Benjamin M},
doi = {10.1038/s41597-022-01807-3},
issn = {2052-4463},
journal = {Sci. Data},
number = {1},
pages = {714},
title = {{Unifying the identification of biomedical entities with the Bioregistry}},
url = {https://doi.org/10.1038/s41597-022-01807-3},
volume = {9},
year = {2022}
}
Talks on the Bioregistry:
- Future Curation in the Bioregistry (WPCI, December 2022)
- The Bioregistry - Governance and Review Team (WPCI, December 2022)
- Development, Maintenance, and Expansion of the Bioregistry (Sorger Lab Meeting, October 2022)
- The Bioregistry, CURIEs, and OBO Community Health (ICBO 2022 (September))
- Introduction to the Bioregistry (Sorger Lab Meeting, July 2021)
🎁 Support
The Bioregistry was primarily developed by the Gyori Lab for Computational Biomedicine at Northeastern University, which was previously a part of the Laboratory of Systems Pharmacology in the Harvard Program in Therapeutic Science (HiTS) at Harvard Medical School.
💰 Funding
- Chan Zuckerberg Initiative (CZI) 2023-329850
- DARPA Automating Scientific Knowledge Extraction and Modeling (ASKEM) HR00112220036
- DARPA Young Faculty Award W911NF2010255 (PI: Benjamin M. Gyori).
Project details
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