The anatomy of model species is described in ontologies, which are used to standardize the annotations of experimental data, such as gene expression patterns. To compare such data between species, we aim to establish homology relations between ontologies describing different species. We present a new algorithm, and its implementation in the software Homolonto, to create new relationships between anatomical ontologies, based on the homology concept. These relationships and the Homolonto software are available at "http://bgee.unil.ch/":http://bgee.unil.ch
An ontology is a formal representation of a domain supporting a variety of tasks. A given domain is ...
The difficulty inherent in schema matching has led to the development of several generic match algor...
Introduction: This paper describes the design, implementation, and potential use of a comparative an...
MOTIVATION: The anatomy of model species is described in ontologies, which are used to standardize t...
Motivation: The anatomy of model species is described in ontologies, which are used to standardize t...
Homolonto: alignment of anatomical ontologies More and more anatomical ontologies
There is a growing body of research on the evolution of anatomy in a wide variety of organisms. Disc...
The anatomy of model species is described in ontologies, which are used to standardize the annotatio...
This paper presents a study in the domain of semi-automated and fully-automated ontology mapping. A ...
Motivation: Most anatomical ontologies are species-specific, whereas a framework for comparative stu...
MOTIVATION: Most anatomical ontologies are species-specific, whereas a framework for comparative stu...
There is a growing body of research on the evolution of anatomy in a wide variety of organisms. Disc...
This project measures the effect of anatomical homology on phenotype similarity of orthologous genes...
Motivation: Anatomy ontologies have a growing role in bio-informatics – for example, in indexing gen...
Matching is an important step for increasing interoperability between heterogeneous ontologies. Here...
An ontology is a formal representation of a domain supporting a variety of tasks. A given domain is ...
The difficulty inherent in schema matching has led to the development of several generic match algor...
Introduction: This paper describes the design, implementation, and potential use of a comparative an...
MOTIVATION: The anatomy of model species is described in ontologies, which are used to standardize t...
Motivation: The anatomy of model species is described in ontologies, which are used to standardize t...
Homolonto: alignment of anatomical ontologies More and more anatomical ontologies
There is a growing body of research on the evolution of anatomy in a wide variety of organisms. Disc...
The anatomy of model species is described in ontologies, which are used to standardize the annotatio...
This paper presents a study in the domain of semi-automated and fully-automated ontology mapping. A ...
Motivation: Most anatomical ontologies are species-specific, whereas a framework for comparative stu...
MOTIVATION: Most anatomical ontologies are species-specific, whereas a framework for comparative stu...
There is a growing body of research on the evolution of anatomy in a wide variety of organisms. Disc...
This project measures the effect of anatomical homology on phenotype similarity of orthologous genes...
Motivation: Anatomy ontologies have a growing role in bio-informatics – for example, in indexing gen...
Matching is an important step for increasing interoperability between heterogeneous ontologies. Here...
An ontology is a formal representation of a domain supporting a variety of tasks. A given domain is ...
The difficulty inherent in schema matching has led to the development of several generic match algor...
Introduction: This paper describes the design, implementation, and potential use of a comparative an...