A major challenge of the post-genomic era is coding phenotype data from humans and model organisms such as the mouse, to permit the meaningful translation of phenotype descriptions between species. This ability is essential if we are to facilitate phenotype-driven gene function discovery and empower comparative pathobiology. Here, we review the current state of the art for phenotype and disease description in mice and humans, and discuss ways in which the semantic gap between coding systems might be bridged to facilitate the discovery and exploitation of new mouse models of human diseases
The mouse has long been an important model for the study of human genetic disease. Through the appli...
The use of model organisms such as the mouse, fruitfly and zebrafish has been key in driving our und...
Phenotypes are investigated in model organisms to understand and reveal the molecular mechanisms und...
A major challenge of the post-genomic era is coding phenotype data from humans and model organisms s...
A major challenge of the post-genomic era is coding phenotype data from humans and model organisms s...
A major challenge of the post-genomic era is coding phenotype data from humans and model organisms s...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
Abstract Now that the laboratory mouse genome is sequenced and the annotation of its gene content is...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
The mouse has long been an important model for the study of human genetic disease. Through the appli...
The use of model organisms such as the mouse, fruitfly and zebrafish has been key in driving our und...
Phenotypes are investigated in model organisms to understand and reveal the molecular mechanisms und...
A major challenge of the post-genomic era is coding phenotype data from humans and model organisms s...
A major challenge of the post-genomic era is coding phenotype data from humans and model organisms s...
A major challenge of the post-genomic era is coding phenotype data from humans and model organisms s...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
The systematic investigation of the phenotypes associated with genotypes in model organisms holds th...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
Abstract Now that the laboratory mouse genome is sequenced and the annotation of its gene content is...
Now that the laboratory mouse genome is sequenced and the annotation of its gene content is improvin...
The mouse has long been an important model for the study of human genetic disease. Through the appli...
The use of model organisms such as the mouse, fruitfly and zebrafish has been key in driving our und...
Phenotypes are investigated in model organisms to understand and reveal the molecular mechanisms und...
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