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OBO Graphs : Developer-friendly graph-oriented ontology JSON/YAML

This repo contains both a specification for a JSON/YAML format for ontology exchange, plus a reference java object model and OWL converter.

The core is a simple graph model allowing the expression of ontology relationships like forelimb SubClassOf limb:

  "nodes" : [
    {
      "id" : "UBERON:0002102",
      "lbl" : "forelimb"
    }, {
      "id" : "UBERON:0002101",
      "lbl" : "limb"
    }
  ],
  "edges" : [
    {
      "subj" : "UBERON:0002102",
      "pred" : "is_a",
      "obj" : "UBERON:0002101"
    }
  ]

Additional optional fields allow increased expressivity, without adding complexity to the core.

For more examples, see examples/ in this repo - or for real-world examples, this drive. Soon we hope to have this incorporated into release tools and visible at standard PURLs.

For the JSON Schema, see the schema/ folder

If you are familiar with OWL, skip straight to the OWL mapping specification

Motivation

Currently if a developer needs to add ontologies into a software framework or tool, there are two options for formats: obo-format and OWL (technically obo is an OWL syntax, but for pragmatic purposes we can separate these two).

This presents a number of problems: obo is simple, but employs its own syntax, resulting in a proliferation of ad-hoc parsers that are generally incomplete. It is also less expressive than OWL (but expressive enough for the majority of bioinformatics tasks). OWL is a W3 standard, but can be difficult to work with. Typically OWL is layered on RDF, but RDF level libraries can be too low-level to work with (additionally: rdflib for Python is very slow). For JVM languages, the OWLAPI can be used, but this can be abstruse for many routine tasks, leading to variety of simplifying facades each with their own assumptions (e.g. BRAIN).

Overview

OBO Graphs (OGs) are a graph-oriented way of representing ontologies or portions of ontologies in a developer-friendly JSON (or YAML) format. A typical consumer may be a Python developer using ontologies to enhance an analysis tool, database search/infrastructure etc.

The model can be understood as two levels: A basic level, that is intended to satisfy 99% of bioinformatics use cases, and is essentially a cytoscape-like nodes and edges model. On top of this is an expressive level that allows the representation of more esoteric OWL axioms.

Basic OBO Graphs (BOGs)

The core model is a property-labeled graph, comparable to the data model underlying graph databases such as Neo4j. The format is the same as BBOP-Graphs.

The basic form is:

"graphs": [
  {
     "nodes" : [...],
     "edges" : [
     ],
  },
  ...
]

Here is an example of a subgraph of Uberon consisting of four nodes, two part-of and two is_a edges:

{
  "nodes" : [
    {
      "id" : "UBERON:0002470",
      "lbl" : "autopod region"
    }, {
      "id" : "UBERON:0002102",
      "lbl" : "forelimb"
    }, {
      "id" : "UBERON:0002101",
      "lbl" : "limb"
    }, {
      "id" : "UBERON:0002398",
      "lbl" : "manus"
    }
  ],
  "edges" : [
    {
      "subj" : "UBERON:0002102",
      "pred" : "is_a",
      "obj" : "UBERON:0002101"
    }, {
      "subj" : "UBERON:0002398",
      "pred" : "part_of",
      "obj" : "UBERON:0002102"
    }, {
      "subj" : "UBERON:0002398",
      "pred" : "is_a",
      "obj" : "UBERON:0002470"
    }, {
      "subj" : "UBERON:0002470",
      "pred" : "part_of",
      "obj" : "UBERON:0002101"
    }
   ]
}

The short forms in the above (e.g. UBERON:0002470 and part_of) are mapped to unambiguous PURLs using a JSON-LD context (see below).

Edges can also be decorated with Meta objects (corresponding to reification in RDF/OWL, or edge properties in graph databases).

Formally, the set of edges correspond to OWL SubClassOf axioms of two forms:

  1. C SubClassOf D (aka is_a in obo-format)
  2. C SubClassOf P some D(aka relationship in obo-format)

For a full description, see the JSON Schema below

Nodes collect all OWL annotations about an entity.

Typically nodes will be OWL classes, but they can also be OWL individuals, or OWL properties (in which case edges can also correspond to SubPropertyOf axioms)

Nodes, edges and graphs can have optional meta objects for additional metadata (or annotations in OWL speak).

Here is an example of a meta object for a GO class (show in YAML, for compactness):

  - id: "http://purl.obolibrary.org/obo/GO_0044464"
    meta:
      definition:
        val: "Any constituent part of a cell, the basic structural and functional\
          \ unit of all organisms."
        xrefs:
        - "GOC:jl"
      subsets:
      - "http://purl.obolibrary.org/obo/go/subsets/nucleus#goantislim_grouping"
      - "http://purl.obolibrary.org/obo/go/subsets/nucleus#gosubset_prok"
      - "http://purl.obolibrary.org/obo/go/subsets/nucleus#goslim_pir"
      - "http://purl.obolibrary.org/obo/go/subsets/nucleus#gocheck_do_not_annotate"
      xrefs:
      - val: "NIF_Subcellular:sao628508602"
      synonyms:
      - pred: "hasExactSynonym"
        val: "cellular subcomponent"
        xrefs:
        - "NIF_Subcellular:sao628508602"
      - pred: "hasRelatedSynonym"
        val: "protoplast"
        xrefs:
        - "GOC:mah"
    type: "CLASS"
    lbl: "cell part"

Expressive OBO Graphs (ExOGs)

These provide ways of expressing logical axioms not covered in the subset above.

Currently the spec does not provide a complete translation of all OWL axioms. This will be driven by comments on the spec.

Currently two axiom patterns are defined:

  • equivalenceSet
  • logicalDefinitionAxiom

Note that these do not necessarily correspond 1:1 to OWL axiom types. The two above are different forms of equivalent classes axiom, the former suited to cases where we have multiple ontologies with the same concept represented using a different URI in each (for example, a DOID:nnn URI and a Orphanet:nnn URI with a direct equivalence axiom between them).

The latter is for so called 'cross-product' or 'genus-differentia' definitions found in most well-behaved bio-ontologies.

See README-owlmapping.md for mor details

Comparison with BBOP-Graphs

See bbop-graph

  • Top-level object in a bbop-graph is a graph object; in obographs a GraphDocument is a holder for multiple graphs
  • meta objects are underspecified in bbop-graphs

Comparison with SciGraph

See Neo4jMapping

The mapping is similar, particularly with respect to how SubClassOf axioms map to edges. However, for SciGraph, more advanced axioms such as EquivalenceAxioms are mapped to graph edges. In obographs, anything outside the BOG pattern is mapped to a custom object.

Note also that SciGraph returns bbop-graph objects by default from graph query operations.

Running the converter

mvn install
./bin/ogger  src/test/resources/basic.obo 

Note that the conversion will be rolled into tools like ROBOT obviating the need for this. We can also make it such that the JSON is available from a standard PURL, e.g.

Including obographs in your code:

The library is split into two modules - obographs-core which contains the model and code for reading and writing JSON and YAML graphs. The obographs-owlapi requires obographs-core and includes the owlapi and code for converting OWL to obographs.

Maven

<dependency>
    <groupId>org.geneontology.obographs</groupId>
    <artifactId>obographs-core</artifactId>
    <version>${project.version}</version>
</dependency>

Gradle

compile 'org.geneontology.obographs:obographs-core:${project.version}'

Installing a development snapshot

When developing against an unreleased snapshot version of the API, you can use Maven to install it in your local m2 repository:

mvn clean install

Developing obographs

If you find that your IDE cannot load any of the concrete classes e.g. Graph or GraphDocument you should check that your IDE has Annotation Processing enabled. Obographs uses the immutables library which requires annotation processing in the IDE. See https://immutables.github.io/apt.html for how to enable this in your IDE. You might need to restart your IDE or re-import the maven projects for this to work fully. It is not required for projects using obographs as a pre-built library.

Releasing to Central

mvn clean deploy -P release

Javascript

See bbop-graph