Analyses of the human genome have proven extremely successful in identifying changes that contribute to human disease. Genetically engineered mice provide a powerful tool to analyze these changes, although they are slow and costly and do not always recapitulate human biology. Recent advances in genomic technologies, rodent-modeling approaches, and the production of patient-derived reprogrammed cell lines now provide a plethora of complementary systems to study disease states and test new therapies. Continued evolution and integration of these model systems will be the key to realizing the benefits of the genomic revolution and refining our understanding and treatment of human diseases
The laboratory mouse is an ideal model organism for studying disease because it is physiologically s...
As sequencing technology improves, the identification of new disease-associated genes and new allele...
In vivo research is critical to the functional dissection of multi-organ systems and whole organism ...
Analyses of the human genome have proven extremely successful in identifying changes that contribute...
The usefulness of a specific technology often hits a ceiling based on technical limitations. Then, a...
The use of mouse models in biomedical research and preclinical drug evaluation is on the rise. The a...
Mice have become the mammalian model of choice for the application of genetics in biomedical researc...
To better understand human health and disease, researchers create a wide variety of mouse models tha...
Mice are the most commonly used model organisms to study human disease. Many genetic human diseases ...
With the completion of the many genomes, genetics is positioned to meet physiology. In this review, ...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
The mouse is an ideal model organism for studies of human disease, because mouse is physiologically ...
In vivo research is critical to the functional dissection of multi-organ systems and whole organism...
Experimental animal models are essential to obtain basic knowledge of the underlying biological mech...
The mouse is the leading organism for disease research. A rich resource of genetic variation occurs ...
The laboratory mouse is an ideal model organism for studying disease because it is physiologically s...
As sequencing technology improves, the identification of new disease-associated genes and new allele...
In vivo research is critical to the functional dissection of multi-organ systems and whole organism ...
Analyses of the human genome have proven extremely successful in identifying changes that contribute...
The usefulness of a specific technology often hits a ceiling based on technical limitations. Then, a...
The use of mouse models in biomedical research and preclinical drug evaluation is on the rise. The a...
Mice have become the mammalian model of choice for the application of genetics in biomedical researc...
To better understand human health and disease, researchers create a wide variety of mouse models tha...
Mice are the most commonly used model organisms to study human disease. Many genetic human diseases ...
With the completion of the many genomes, genetics is positioned to meet physiology. In this review, ...
Mouse models have been instrumental in understanding human disease biology and proposing possible ne...
The mouse is an ideal model organism for studies of human disease, because mouse is physiologically ...
In vivo research is critical to the functional dissection of multi-organ systems and whole organism...
Experimental animal models are essential to obtain basic knowledge of the underlying biological mech...
The mouse is the leading organism for disease research. A rich resource of genetic variation occurs ...
The laboratory mouse is an ideal model organism for studying disease because it is physiologically s...
As sequencing technology improves, the identification of new disease-associated genes and new allele...
In vivo research is critical to the functional dissection of multi-organ systems and whole organism ...