Background: Genes and gene products are frequently annotated with Gene Ontology concepts based on the evidence provided in genomics articles. Manually locating and curating information about a genomic entity from the biomedical literature requires vast amounts of human effort. Hence, there is clearly a need forautomated computational tools to annotate the genes and gene products with Gene Ontology concepts by computationally capturing the related knowledge embedded in textual data. Results: In this article, we present an automated genomic entity annotation system, GEANN, which extracts information about the characteristics of genes and gene products in article abstracts from PubMed, and translates the discoveredknowledge into Gene Ontology ...
A major challenge for the development of resources for functional and comparative genomics is the ex...
A major challenge for functional and comparative genomics resource development is the extraction of ...
With the advent of biological ontologies an increasing amount of methods are emerging for enriching ...
In many areas of academic publishing, there is an explosion of literature, and sub-division of field...
Motivation: Increasing rates of publication and DNA sequencing make the problem of finding relevant ...
The un-biased and reproducible interpretation of high-content gene sets from large-scale genomic exp...
Much has been written recently about the need for effective tools and methods for mining the wealth ...
Gene Ontology (GO) annotation is a common task among model organism databases (MODs) for capturing g...
This article describes our participation of the Gene Ontology Curation task (GO task) in BioCreative...
Thousands of biomedical articles are published every year containing many newly discovered biologica...
In recent years, the amount of digital data that we produce has increased exponentially. This flood ...
In this paper, we propose an approach for doing Gene Ontology (GO) annotation on biomedical texts. T...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
In this paper, we propose an approach for doing Gene Ontology (GO) annotation on full-text biomedica...
Information extraction aims to derive from free text signicant information related to a given query ...
A major challenge for the development of resources for functional and comparative genomics is the ex...
A major challenge for functional and comparative genomics resource development is the extraction of ...
With the advent of biological ontologies an increasing amount of methods are emerging for enriching ...
In many areas of academic publishing, there is an explosion of literature, and sub-division of field...
Motivation: Increasing rates of publication and DNA sequencing make the problem of finding relevant ...
The un-biased and reproducible interpretation of high-content gene sets from large-scale genomic exp...
Much has been written recently about the need for effective tools and methods for mining the wealth ...
Gene Ontology (GO) annotation is a common task among model organism databases (MODs) for capturing g...
This article describes our participation of the Gene Ontology Curation task (GO task) in BioCreative...
Thousands of biomedical articles are published every year containing many newly discovered biologica...
In recent years, the amount of digital data that we produce has increased exponentially. This flood ...
In this paper, we propose an approach for doing Gene Ontology (GO) annotation on biomedical texts. T...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
In this paper, we propose an approach for doing Gene Ontology (GO) annotation on full-text biomedica...
Information extraction aims to derive from free text signicant information related to a given query ...
A major challenge for the development of resources for functional and comparative genomics is the ex...
A major challenge for functional and comparative genomics resource development is the extraction of ...
With the advent of biological ontologies an increasing amount of methods are emerging for enriching ...