以语义Web格式提供来自AOP Wiki的不利结果路径，以提高内容的可用性和可访问性

Q2 Health Professions

Applied In Vitro Toxicology Pub Date : 2021-01-06 DOI:10.1089/aivt.2021.0010

Marvin Martens, C. Evelo, Egon Willighagen

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引用次数: 12

摘要

简介:AOP-Wiki是不良结果通路(adverse outcome pathways, AOPs)开发和存储的主要平台。这些aop描述了有关毒性动力学过程的机制信息，可用于制定有效的风险评估策略。然而，自动和系统地解析、过滤和使用其内容是一项挑战。我们探索了更好地构建AOP-Wiki内容的解决方案，并将其与化学和生物资源联系起来。总之，这允许更详细的探索，这可以自动化。材料和方法:我们将完整的AOP-Wiki内容转换为资源描述框架(RDF)三元组。我们使用bbb20本体对属性-对象关系进行语义标注，包括化学信息本体、都柏林核心和AOP本体。结果:得到的RDF包含>122,000个三元组，描述>15,000个独特主题的158个独特属性。此外，在12个化学数据库中添加了>3500个链接，在4个基因和蛋白质数据库中添加了>7500个链接。AOP-Wiki RDF已在https://aopwiki.rdf.bigcat-bioinformatics.org上提供:SPARQL查询可用于回答生物学和毒理学问题，例如列出导致相关不良结果的所有关键事件的测量方法。当使用联邦查询将内容与外部数据库结合在一起时，使用这个新资源所提供的全部功能就变得显而易见了。总结:总的来说，AOP- wiki RDF提供了探索快速增长的AOP知识的新方法，并使该数据库集成到自动化工作流中成为可能，使AOP- wiki更加公平。

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Providing Adverse Outcome Pathways from the AOP-Wiki in a Semantic Web Format to Increase Usability and Accessibility of the Content

Introduction: The AOP-Wiki is the main platform for the development and storage of adverse outcome pathways (AOPs). These AOPs describe mechanistic information about toxicodynamic processes and can be used to develop effective risk assessment strategies. However, it is challenging to automatically and systematically parse, filter, and use its contents. We explored solutions to better structure the AOP-Wiki content, and to link it with chemical and biological resources. Together, this allows more detailed exploration, which can be automated. Materials and Methods: We converted the complete AOP-Wiki content into resource description framework (RDF) triples. We used >20 ontologies for the semantic annotation of property–object relations, including the Chemical Information Ontology, Dublin Core, and the AOP Ontology. Results: The resulting RDF contains >122,000 triples describing 158 unique properties of >15,000 unique subjects. Furthermore, >3500 link-outs were added to 12 chemical databases, and >7500 link-outs to 4 gene and protein databases. The AOP-Wiki RDF has been made available at https://aopwiki.rdf.bigcat-bioinformatics.org Discussion: SPARQL queries can be used to answer biological and toxicological questions, such as listing measurement methods for all Key Events leading to an Adverse Outcome of interest. The full power that the use of this new resource provides becomes apparent when combining the content with external databases using federated queries. Conclusion: Overall, the AOP-Wiki RDF allows new ways to explore the rapidly growing AOP knowledge and makes the integration of this database in automated workflows possible, making the AOP-Wiki more FAIR.

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来源期刊

Applied In Vitro Toxicology Health Professions-Medical Laboratory Technology

CiteScore

2.70

自引率

0.00%

发文量

期刊介绍： Applied In Vitro Toxicology is a peer-reviewed journal providing the latest research on the application of alternative in vitro testing methods for predicting adverse effects in the pharmaceutical, chemical, and personal care industries. This Journal aims to address important issues facing the various chemical industries, including regulatory requirements; the reduction, refinement, and replacement of animal testing; new screening methods; evaluation of new cell and tissue models; and the most appropriate methods for assessing safety and satisfying regulatory demands. The Journal also delivers the latest views and opinions of developers of new models, end users of the models, academic laboratories that are inventing new tools, and regulatory agencies in the United States, Europe, Latin America, Australia and Asia. Applied In Vitro Toxicology is the journal that scientists involved with hazard identification and risk assessment will read to understand how new and existing in vitro methods are applied, and the questions for which these models provide answers. Applied In Vitro Toxicology coverage includes: -Applied in vitro toxicology industry standards -New technologies developed for applied in vitro toxicology -Data acquisition, cleaning, distribution, and best practices -Data protection, privacy, and policy -Business interests from research to product -The changing role of in vitro toxicology -Visualization and design principles of applied in vitro toxicology infrastructures -Physical interfaces and robotics -Opportunities around applied in vitro toxicology