Abstract
BackgroundEnzymatic and chemical reactions are key for understanding biological processes in cells. Curated databases of chemical reactions exist but these databases struggle to keep up with the exponential growth of the biomedical literature. Conventional text mining pipelines provide tools to automatically extract entities and relationships from the scientific literature, and partially replace expert curation, but such machine learning frameworks often require a large amount of labeled training data and thus lack scalability for both larger document corpora and new relationship types.ResultsWe developed an application of Snorkel, a weakly supervised learning framework, for extracting chemical reaction relationships from biomedical literature abstracts. For this work, we defined a chemical reaction relationship as the transformation of chemical A to chemical B. We built and evaluated our system on small annotated sets of chemical reaction relationships from two corpora: curated bacteria-related abstracts from the MetaCyc database (MetaCyc_Corpus) and a more general set of abstracts annotated with MeSH (Medical Subject Headings) term Bacteria (Bacteria_Corpus; a superset of MetaCyc_Corpus). For the MetaCyc_Corpus, we obtained 84% precision and 41% recall (55% F1 score). Extending to the more general Bacteria_Corpus decreased precision to 62% with only a four-point drop in recall to 37% (46% F1 score). Overall, the Bacteria_Corpus contained two orders of magnitude more candidate chemical reaction relationships (nine million candidates vs 68,0000 candidates) and had a larger class imbalance (2.5% positives vs 5% positives) as compared to the MetaCyc_Corpus. In total, we extracted 6871 chemical reaction relationships from nine million candidates in the Bacteria_Corpus.ConclusionsWith this work, we built a database of chemical reaction relationships from almost 900,000 scientific abstracts without a large training set of labeled annotations. Further, we showed the generalizability of our initial application built on MetaCyc documents enriched with chemical reactions to a general set of articles related to bacteria.
Highlights
Enzymatic and chemical reactions are key for understanding biological processes in cells
Since unintentional drug transformations in the human gut can affect drug response and side effects in patients [1], understanding the space of chemical reactions in bacteria is necessary for predicting and cataloging enzymatic transformations of drugs in the human gut microbiome. Databases such as MetaCyc [2] and KEGG (Kyoto Encyclopedia of Genes and Genomes) [3] contain high quality pathways with metabolic reactions that are manually annotated by human experts
Using the Snorkel framework, we primarily focused on two tasks: extracting candidate entities and relationships and designing labeling functions
Summary
Enzymatic and chemical reactions are key for understanding biological processes in cells. Since unintentional drug transformations in the human gut can affect drug response and side effects in patients [1], understanding the space of chemical reactions in bacteria is necessary for predicting and cataloging enzymatic transformations of drugs in the human gut microbiome Databases such as MetaCyc [2] and KEGG (Kyoto Encyclopedia of Genes and Genomes) [3] contain high quality pathways with metabolic reactions that are manually annotated by human experts. Manual human annotation restricts the coverage and growth of the database with respect to the biomedical literature This inability to scale to larger and larger corpora is a limiting factor in large data-driven studies. The computationally inaccessible nature of literature text presents a challenge for relationship extraction
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