Event extraction of bacteria biotopes: a knowledge-intensive NLP-based approach

Event extraction of bacteria biotopes: a knowledge-intensive NLP-based approach

Bacteria biotopes cover a wide range of diverse habitats including animal and plant hosts, natural, medical and industrial environments. The high volume of publications in the microbiology domain provides a rich source of up-to-date information on bacteria biotopes. This information, as found in sci...

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Bibliographic Details
Published in:BMC bioinformatics 2012-06, Vol.13 Suppl 11 (Suppl 11), p.S8-S8, Article S8
Main Authors: Ratkovic, Zorana, Golik, Wiktoria, Warnier, Pierre
Format: Article
Language:eng
Subjects:
Bacteria - classification
Bacteria - metabolism
Bioinformatics
Computer Science
Data processing
Development
Ecosystem
Environmental Microbiology
Food
Habitat
Humans
Information Storage and Retrieval
Knowledge Bases
Language
Life Sciences
Mathematics
Natural Language Processing
Proceedings
Semantics
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Summary:Bacteria biotopes cover a wide range of diverse habitats including animal and plant hosts, natural, medical and industrial environments. The high volume of publications in the microbiology domain provides a rich source of up-to-date information on bacteria biotopes. This information, as found in scientific articles, is expressed in natural language and is rarely available in a structured format, such as a database. This information is of great importance for fundamental research and microbiology applications (e.g., medicine, agronomy, food, bioenergy). The automatic extraction of this information from texts will provide a great benefit to the field. We present a new method for extracting relationships between bacteria and their locations using the Alvis framework. Recognition of bacteria and their locations was achieved using a pattern-based approach and domain lexical resources. For the detection of environment locations, we propose a new approach that combines lexical information and the syntactic-semantic analysis of corpus terms to overcome the incompleteness of lexical resources. Bacteria location relations extend over sentence borders, and we developed domain-specific rules for dealing with bacteria anaphors. We participated in the BioNLP 2011 Bacteria Biotope (BB) task with the Alvis system. Official evaluation results show that it achieves the best performance of participating systems. New developments since then have increased the F-score by 4.1 points. We have shown that the combination of semantic analysis and domain-adapted resources is both effective and efficient for event information extraction in the bacteria biotope domain. We plan to adapt the method to deal with a larger set of location types and a large-scale scientific article corpus to enable microbiologists to integrate and use the extracted knowledge in combination with experimental data.
ISSN:1471-2105
1471-2105