Egon Willighagen; Andra Waagmeester; Ola Spjuth; Peter Ansell; Antony Williams; Valery Tkachenko; Janna Hastings; Bin Chen; David Wild
Journal of Cheminformatics, 2013
doi: 10.1186/1758-2946-5-23
discovery-gemini-llm-reviewed-20260524
BACKGROUND: Making data available as Linked Data using Resource Description Framework (RDF) promotes integration with other web resources. RDF documents can natively link to related data, and others can link back using Uniform Resource Identifiers (URIs). RDF
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makes the data machine-readable and uses extensible vocabularies for additional information, making it easier to scale up inference and data analysis. RESULTS: This paper describes recent developments in an ongoing project converting data from the ChEMBL database into RDF triples. Relative to earlier versions, this updated version of ChEMBL-RDF uses recently introduced ontologies, including CHEMINF and CiTO; exposes more information from the database; and is now available as dereferencable, linked data. To demonstrate these new features, we present novel use cases showing further integration with other web resources, including Bio2RDF, Chem2Bio2RDF, and ChemSpider, and showing the use of standard ontologies for querying. CONCLUSIONS: We have illustrated the advantages of using open standards and ontologies to link the ChEMBL database to other databases. Using those links and the knowledge encoded in standards and ontologies, the ChEMBL-RDF resource creates a foundation for integrated semantic web cheminformatics applications, such as the presented decision support.
Egon Willighagen; Andra Waagmeester; Ola Spjuth; Peter Ansell; Antony Williams; Valery Tkachenko; Janna Hastings; Bin Chen; David Wild; The ChEMBL database as linked open data; Journal of Cheminformatics; 2013; doi:10.1186/1758-2946-5-23
Added by matportal-botMay 24, 2026
The Chemical Information Ontology: Provenance and Disambiguation for Chemical Data on the Biological Semantic Web
Janna Hastings, Leonid Chepelev, Egon Willighagen, Nico Adams, Christoph Steinbeck, Michel Dumontier
PLoS ONE - 2011
doi: 10.1371/journal.pone.0025513
openalex
Cheminformatics is the application of informatics techniques to solve chemical problems in silico. There are many areas in biology where cheminformatics plays an important role in computational research, including metabolism, proteomics, and systems biology.
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One critical aspect in the application of cheminformatics in these fields is the accurate exchange of data, which is increasingly accomplished through the use of ontologies. Ontologies are formal representations of objects and their properties using a logic-based ontology language. Many such ontologies are currently being developed to represent objects across all the domains of science. Ontologies enable the definition, classification, and support for querying objects in a particular domain, enabling intelligent computer applications to be built which support the work of scientists both within the domain of interest and across interrelated neighbouring domains. Modern chemical research relies on computational techniques to filter and organise data to maximise research productivity. The objects which are manipulated in these algorithms and procedures, as well as the algorithms and procedures themselves, enjoy a kind of virtual life within computers. We will call these information entities. Here, we describe our work in developing an ontology of chemical information entities, with a primary focus on data-driven research and the integration of calculated properties (descriptors) of chemical entities within a semantic web context. Our ontology distinguishes algorithmic, or procedural information from declarative, or factual information, and renders of particular importance the annotation of provenance to calculated data. The Chemical Information Ontology is being developed as an open collaborative project. More details, together with a downloadable OWL file, are available at http://code.google.com/p/semanticchemistry/ (license: CC-BY-SA).
Janna Hastings; Leonid Chepelev; Egon Willighagen; Nico Adams; Christoph Steinbeck; Michel Dumontier; The Chemical Information Ontology: Provenance and Disambiguation for Chemical Data on the Biological Semantic Web; PLoS ONE; 2011; doi:10.1371/journal.pone.0025513
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