Add to ORKGAlthough it is well-recognized that non-insulin-dependent diabetes-mellitus (NIDDM) shown a strong genetic component the search for candidate genes has been very difficult since NIDDM is a complex, heterogeneous, multifactorial syndrome resulting from both genetic susceptibility and environmental risk factors. Therefore, the use of inbred animal models is an essential component of genetic investigations in this field. As these lines are genetically homogeneous, it is possible to direct mating for optimal genetic crosses and control environmental factors. Strains with spontaneous NIDDM may be constituted from animals with one or several genetic mutation(s) transmitted generation to generation or selected from non-diabetic outbred animals by ...
Although no single animal model replicates all aspects of diabetes mellitus in humans, animal models...
Although no single animal model replicates all aspects of diabetes mellitus in humans, animal models...
The TallyHo (TH) mouse strain is a newly established model for non-insulin-dependent diabetes mellit...
Although it is well-recognized that non-insulin-dependent diabetes-mellitus (NIDDM) shown a strong g...
Efforts to identify human genes with major effects on insulin resistance and type II diabetes have y...
The factors associated with a diabetes-susceptible genotype in mice exhibiting various forms of heri...
Genetically defined animal models of diabetes have many advantages over models in which the genetic ...
Genetically defined animal models of diabetes have many advantages over models in which the genetic ...
Several different rodent models are available for metabolic studies on the development of diabetes. ...
Goto-Kakizaki (GK) rats are a well characterized model for non-insulin dependent diabetes mellitus (...
It is emphasized that animal models should be used to study specific genotypic or phenotypic express...
We used mouse genetics to model how polygenic thresholds for the transition from impaired glucose to...
Several animal species, mostly rodents, were described to exhibit spontaneously diabetes mellitus on...
The polygenic background of selectively bred diabetes models mimics the etiology of type 2 diabetes....
The polygenic background of selectively bred diabetes models mimics the etiology of type 2 diabetes....
Although no single animal model replicates all aspects of diabetes mellitus in humans, animal models...
Although no single animal model replicates all aspects of diabetes mellitus in humans, animal models...
The TallyHo (TH) mouse strain is a newly established model for non-insulin-dependent diabetes mellit...
Although it is well-recognized that non-insulin-dependent diabetes-mellitus (NIDDM) shown a strong g...
Efforts to identify human genes with major effects on insulin resistance and type II diabetes have y...
The factors associated with a diabetes-susceptible genotype in mice exhibiting various forms of heri...
Genetically defined animal models of diabetes have many advantages over models in which the genetic ...
Genetically defined animal models of diabetes have many advantages over models in which the genetic ...
Several different rodent models are available for metabolic studies on the development of diabetes. ...
Goto-Kakizaki (GK) rats are a well characterized model for non-insulin dependent diabetes mellitus (...
It is emphasized that animal models should be used to study specific genotypic or phenotypic express...
We used mouse genetics to model how polygenic thresholds for the transition from impaired glucose to...
Several animal species, mostly rodents, were described to exhibit spontaneously diabetes mellitus on...
The polygenic background of selectively bred diabetes models mimics the etiology of type 2 diabetes....
The polygenic background of selectively bred diabetes models mimics the etiology of type 2 diabetes....
Although no single animal model replicates all aspects of diabetes mellitus in humans, animal models...
Although no single animal model replicates all aspects of diabetes mellitus in humans, animal models...
The TallyHo (TH) mouse strain is a newly established model for non-insulin-dependent diabetes mellit...