Biocuration
Biocuration is the field of life sciences dedicated to organizing biomedical data, information and knowledge into structured formats, such as spreadsheets, tables and knowledge graphs.[1][2] The biocuration of biomedical knowledge is made possible by the cooperative work of biocurators, software developers and bioinformaticians and is at the base of the work of biological databases.[1]
Biocuration as a profession
A biocurator is a professional scientist who curates, collects, annotates, and validates information that is disseminated by biological and model organism databases.[3][4] It is a new profession, with the first mentions in the scientific literature dating of 2006 in the context of the work in databases like the Immune Epitope Database and Analysis Resource.[5][6] Biocurators usually are PhD-level with a mix of experiences in wet lab and computational representations of knowledge (e.g. via ontologies).[7]
The role of a biocurator encompasses quality control of primary biological research data intended for publication, extracting and organizing data from original scientific literature, and describing the data with standard annotation protocols and vocabularies that enable powerful queries and biological database interoperability. Biocurators communicate with researchers to ensure the accuracy of curated information and to foster data exchanges with research laboratories.[6]
Biocurators are present in diverse research environments, but may not self-identify as biocurators. Projects such as ELIXIR (the European life-sciences Infrastructure for biological Information) and GOBLET (Global Organization for Bioinformatics Learning, Education and Training)[8] promote training and support biocuration as a career path.[9][10]
In 2011, biocuration was already recognized as a profession, but there were no formal degree courses to prepare curators for biological data in a targeted fashion.
Organizations that employ biocurators, like Clinical Genome Resource (ClinGen), often provide specialized materials and training for biocuration.[15]
Biological knowledgebases
The role of biocurators is best known among the field of biological knowledgebases. Such databases, like UniProt[16] and PDB[17] rely on professional biocurators to organize information. Among other things, biocurators work to improve the data quality, for example, by merging duplicated entries.[18]
An important part of those knowledgebases are model organisms databases, which rely on biocurators to curate information regarding organisms of particular kinds. Some notable examples of model organism databases are FlyBase,[19] PomBase,[20] and ZFIN,[21] dedicated to curate information about Drosophila, Schizosaccharomyces pombe and zebrafish respectively.
Curation and annotation
Biocuration is the integration of biological information into on-line databases in a semantically standardized way, using appropriate unique traceable identifiers, and providing necessary metadata including source and provenance.
Ontologies, controlled vocabularies and standard names
Biocurators commonly employ and take part in the creation and development of shared biomedical
The Unified Medical Language System is one such systems that integrates and distributes millions of terms used in the life sciences domain.[23]
Biocurators enforce the consistent use of
More generally, the use of persistent identifiers is praised by the community, so to improve clarity and facilitate knowledge [24]
DNA annotation
In
Text annotation
As of 2021, life sciences communication is still done primarily via free natural languages, like English or German, which hold a degree of ambiguity and make it hard to connect knowledge. So, besides annotating biological sequences, biocurators also annotate texts, linking words to unique identifiers. This aids in disambiguation, clarifying the meaning intended, and making the texts processable by computers. One application of text annotation is to specify the exact gene a scientist is referring to.[25]
Publicly available text annotations make it possible to biologists to take further advantage of biomedical text. The Europe PMC has an Application Programming Interface which centralizes text annotations from a variety of sources and make them available in a Graphic User Interface called SciLite.[26] The PubTator Central also provides annotations, but is fully based on computerized text-mining and does not provide a user interface.[27] There are also programs that allow users to manually annotate the biomedical texts they are interested, such as the ezTag system.[28]
International Society for Biocuration (ISB)
The International Society for Biocuration (ISB) is a non-profit organisation "promotes the field of biocuration and provides a forum for information exchange through meetings and workshops." It has grown from the International Biocuration Conferences and founded in early 2009.[4]
The ISB offers the
The official journal of the ISB, Database, is a venue specialized in articles about databases and biocuration.[29]
Community curation
Traditionally, biocuration has been done by dedicated experts, which integrate data into databases. Community curation has emerged as a promising approach to improve the dissemination of knowledge from published data and provide a cost-effective way to improve the scalability of biocuration. In some cases, community help is leveraged in jamborees that introduce domain experts to curation tasks, carried during the event,[30] while others rely on asynchronous contributions of experts and non-experts.[31]
Biological databases
Several biological databases include author contributions in their functional curation strategy to some extent, which may range from associating gene identifiers with publications or free-text, to more structured and detailed annotation of sequences and functional data, outputting curation to the same standards as professional biocurators. Most community curation at
- WormBase successfully solicits first-pass annotation from users and has integrated author curation with the micropublication process.[33] WormBase also integrates text-mining to its platform, providing suggestions to community curators.[32]
- FlyBase sends email requests to authors of new publications,[34] inviting them to list the genes and data types described via an online tool and has also mobilized the community to write gene summary paragraphs.[35]
Other databases, such as PomBase, rely on publication authors to submit highly detailed, ontology-based annotations for their publications, and meta-data associated with genome-wide data-sets using controlled vocabularies. A web-based tool Canto;[36] was developed to facilitate community submissions. Since Canto is freely available, generic and highly configurable, it has been adopted by other projects.[37] Curation is subjected to review by professional curators resulting in high quality in-depth curation of all molecular data-types.[38]
The widely used UniProt knowledgebase has also a community curation mechanism that allows researchers to add information about proteins.[39]
Wiki-style resources
Bio-wikis rely on their communities to provide content and a series of wiki-style resources are available for biocuration.
The
Wikipedia
There is some overlap between the work of biocurators and
The Gene Wiki project used Wikipedia for collaborative curation of thousands of genes and gene products, such as titin and insulin.[56] Several projects also employ Wikipedia as a platform for curation of medical information.[31]
One other way that Wikipedia is used for biocuration is via its
Wikidata
The Wikimedia knowledge base Wikidata is increasingly being used by the biocuration community as an integrative repository across life sciences.[58] Wikidata is being seen by some as an alternative with better prospects of maintenance and interoperability than smaller independent biological knowledge bases.[59][60]
Wikidata has been used to curate information on
Gamified resources
An approach to involve the crowd in biocuration is via gamified platforms that use game design principles to boost engagement. A few examples are:
- Mark2Cure, a gamified platform for community curation of biomedical abstracts[66][67][68]
- Cochrane Crowd,[69] a platform by Cochrane for curation of clinical trials and to categorize and summarize biomedical literature.[70]
- CIViC, a portal for annotation of genomic variants related to cancer[71] which tracks scores and keeps leaderboards.[72]
- APICURON, a database to credit and acknowledge the work of biocurators, that collects and aggregates biocuration events from third party resources and generates achievements and leaderboards. [73]
Computational text mining for curation
During the COVID-19 pandemic, biomedical text mining was heavily used to cope with the large amount of published scientific research about the topic (over 50.000 articles).[80]
The popular NLP python package SpaCy has a modification for biomedical texts, SciSpaCy, which is maintained by the Allen Institute for AI.[81]
Among the challenges for text-mining applied to biocuration is the difficulty of accessing full texts of biomedical articles due to pay wall, linking the challenges of biocuration to those of the
A complementary approach to biocuration via text mining involves applying optical character recognition to biomedical figures, coupled to automatic annotation algorithms. This has been used to extract gene information from pathway figures, for example.[83]
Suggestions to improve the written text to facilitate annotations range from using
While challenges remain, text-mining is already an integral part of the workflow of biocuration in several biological knowledgebases.[85]
Biocreative challenges
The BioCreAtivE (Critical Assessment of Information Extraction systems in Biology) Challenge is a community-wide effort to develop and evaluate text mining and information extraction systems for the life sciences. The challenge was first launched in 2004 and has since become an important event in the biocuration and bioinformatics communities. [86] The main goal of the challenge is to foster the development of advanced computational tools that can effectively extract information from the vast amount of biological data available.
The BioCreative Challenge is organized into several subtasks that cover various aspects of text mining and information extraction in the life sciences. These subtasks include gene normalization, relation extraction, entity recognition, and document classification. Participants in the challenge are provided with a set of annotated data to develop and test their systems, and their performance is evaluated based on various metrics, such as precision, recall, and F-score.[86]
The BioCreative Challenge has led to the development of many innovative text mining and information extraction systems that have greatly improved the efficiency and accuracy of biocuration efforts. These systems have been integrated into many biocuration pipelines and have helped to speed up the curation process and enhance the quality of curated data.
See also
- AgBase
- Biological database
- Digital curation
- International Society for Biocuration
- Model Organism Database
- OBO Foundry
References
- ^ a b "What is biocuration? | International Society for Biocuration". www.biocuration.org. Retrieved 2020-09-06.
- PMID 18769432.
- PMID 22434828.
- ^ PMID 20305270.
- PMID 17411327.
- ^ PMID 17069454.
- PMID 29659566.
- ^ "GOBLET | The Global Organisation for Bioinformatics Learning, Education & Training". Retrieved 2020-12-19.
- Wikidata Q101217428.
- ^ EMBL-EBI. "Biocuration | EMBL-EBI Training". www.ebi.ac.uk. Retrieved 2022-05-06.
- PMID 21348148.
- ^ Anonymous (2019-10-30). "Postgraduate Certificate in Biocuration". www.ice.cam.ac.uk. Retrieved 2020-10-06.
- PMID 31048830.
- PMID 30239679.
- ^ "Biocurator - ClinGen | Clinical Genome Resource". www.clinicalgenome.org. Retrieved 2021-05-26.
- PMID 27899622.
- PMID 10592235.
- PMID 32652120.
- PMID 9399806.
- PMID 30321395.
- PMID 30407545.
- PMID 26867217.
- PMID 14681409.
- PMID 28662064.
- PMID 15941477.
- PMID 28948232.
- PMID 31114887.
- PMID 29788413.
- PMID 20157475.
- PMID 30649295.
- ^ Wikidata Q85632863.
- ^ S2CID 212750405.
- PMID 29069413.
- PMID 22554788.
- PMID 31960022.
- PMID 24574118.
- ^ "pombase/canto". PomBase. 25 September 2020.
- PMID 32353878.
- PMID 27899622.
- PMID 25888696.
- ^ PMID 22144683.
- PMID 23732274.
- PMID 24136999.
- ^ "Os01g0883800 - RiceWiki". 2017-10-20. Archived from the original on 2017-10-20. Retrieved 2020-09-06.
- PMID 29040563.
- ^ PMID 18507872.
- S2CID 4410783.
- ^ "WikiPathways - WikiPathways". www.wikipathways.org. Retrieved 2020-10-14.
- PMID 22479174.
- PMID 21516242.
- PMID 21062808.
- PMID 18945806.
- PMID 17069453.
- PMID 20941386.
- .
- PMID 19755503.
- PMID 31665441.
- S2CID 212739087.
- S2CID 249064853.
- bioRxiv 10.1101/2021.02.28.433265.
- ^ Turki, Houcemeddine; Taieb, Mohamed Ali Hadj; Shafee, Thomas; Lubiana, Tiago; Jemielniak, Dariusz; Aouicha, Mohamed Ben; Gayo, José Emilio Labra; Youngstrom, Eric; Banat, Mossab; Das, Diptanshu; Mietchen, Daniel (2021-02-18). Haller, Armin (ed.). "Representing COVID-19 information in collaborative knowledge graphs: the case of Wikidata" (PDF).
- PMID 33482803.
- PMID 26989148.
- , retrieved 2021-04-14
- Wikidata Q21503276.
- PMID 30416754.
- PMID 31504205.
- ^ "Play Mark2Cure, help identify key terms in biomedical research abstracts". Citizen Science Games. Retrieved 2020-09-06.
- ^ "Cochrane Crowd". crowd.cochrane.org. Retrieved 2020-09-25.
- PMID 31972274.
- PMID 28138153.
- ^ "CIViC - Clinical Interpretation of Variants in Cancer". civicdb.org. Retrieved 2021-04-14.
- PMID 33882120.
- PMID 29490008.
- PMID 22513129.
- PMID 17045684.
- PMID 19060303.
- PMID 29490008.
- Wikidata Q96032351.
- PMID 33279995.
- S2CID 67788603.
- PMID 18834498.
- PMID 33168034.
- ^ ISBN 978-3-540-36593-8.
- PMID 28025348.
- ^ S2CID 5119495.