Add to ORKGMouse models are increasingly popular tools to study and characterize the molecular and physiological bases for human diseases. Due to the readily available genetic tools to construct mouse models of complex diseases, the flow of efficient and vigilant mouse phenotyping has now become the bottleneck in mouse functional genomics. This unit addresses the importance of minimizing and defining confounding genetic and environmental sources of variabilit
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
To evaluate the contribution of genetic background to phenotypic variation, we compared a large rang...
Mouse model production and their systemic characterization are bottlenecks in the process of proper ...
The mouse is the leading mammalian model organism for basic genetic research and for studying human ...
The mouse is widely considered as a toolbox for modeling human diseases: mice are easy to handle and...
Small differences in our genome distinguish us from each other. Although diversity is a good thing, ...
To overcome the bottleneck of standardized, comprehensive phenotyping in mouse genetics, we establis...
Due to its rapid reproductive cycle, short life span and and genetic and physiological similarity to...
The German Mouse Clinic (GMC), located at the GSF Research Centre in Munich, offers a comprehensive,...
Model organisms like the mouse are important tools to learn more about gene function in man. Within ...
The German Mouse Clinic (GMC) is a large scale phenotyping center where mouse mutant lines are analy...
The mouse has many advantages over human beings for the study of genetics, including the unique prop...
International audienceTo evaluate the contribution of genetic background to phenotypic variation, we...
In science it is imperative that the basic reagents and materials are defined and uniform. Unlike ch...
To overcome the bottleneck of standardized, comprehensive phenotyping in mouse genetics, we establis...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
To evaluate the contribution of genetic background to phenotypic variation, we compared a large rang...
Mouse model production and their systemic characterization are bottlenecks in the process of proper ...
The mouse is the leading mammalian model organism for basic genetic research and for studying human ...
The mouse is widely considered as a toolbox for modeling human diseases: mice are easy to handle and...
Small differences in our genome distinguish us from each other. Although diversity is a good thing, ...
To overcome the bottleneck of standardized, comprehensive phenotyping in mouse genetics, we establis...
Due to its rapid reproductive cycle, short life span and and genetic and physiological similarity to...
The German Mouse Clinic (GMC), located at the GSF Research Centre in Munich, offers a comprehensive,...
Model organisms like the mouse are important tools to learn more about gene function in man. Within ...
The German Mouse Clinic (GMC) is a large scale phenotyping center where mouse mutant lines are analy...
The mouse has many advantages over human beings for the study of genetics, including the unique prop...
International audienceTo evaluate the contribution of genetic background to phenotypic variation, we...
In science it is imperative that the basic reagents and materials are defined and uniform. Unlike ch...
To overcome the bottleneck of standardized, comprehensive phenotyping in mouse genetics, we establis...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
To evaluate the contribution of genetic background to phenotypic variation, we compared a large rang...
Mouse model production and their systemic characterization are bottlenecks in the process of proper ...