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Although the BioMart software is primarily used by the biomedical research community, it is designed in such a way that any type of data can be incorporated into the BioMart framework. The BioMart project originated at the European Bioinformatics Institute as a data management solution [1] for the Human Genome Project. [2]
A mouse-human hybrid is a genetically modified mouse whose genome has both mouse and human genes, thus being a murine form of a human-animal hybrid. For example, genetically modified mice may be born with human leukocyte antigen genes in order to provide a more realistic environment when introducing human white blood cells into them in order to ...
The Ts65Dn mouse model was first introduced in 1993, [4] and more specifically resembles human trisomy 21 than the Ts16 model. In Ts65Dn, cells possess an extra copy of a segment of genes on chromosome 16 as well as a segment of genes on chromosome 17.
An animal model (short for animal disease model) is a living, non-human, often genetic-engineered animal used during the research and investigation of human disease, for the purpose of better understanding the disease process without the risk of harming a human. Although biological activity in an animal model does not ensure an effect in humans ...
A knockout mouse (left) that is a model for obesity, compared with a normal mouse. There are several thousand different strains of knockout mice. [3] Many mouse models are named after the gene that has been inactivated.
A genetically modified mouse, genetically engineered mouse model (GEMM) [1] or transgenic mouse is a mouse (Mus musculus) that has had its genome altered through the use of genetic engineering techniques. Genetically modified mice are commonly used for research or as animal models of human diseases and are also used for research on genes.
The Mouse Genetics Project (MGP) is a large-scale mutant mouse production and phenotyping programme aimed at identifying new model organisms of disease. [1] [2] [3] [4]Based at the Wellcome Trust Sanger Institute, the project uses knockout mice most of which were generated by the International Knockout Mouse Consortium.
Jirtle's early research examined the influence of radiation on biological systems. He developed the first in vivo clonogenic assay for hepatocytes, [3] and used it to quantify their survival when exposed to X-rays [4] [5] and neutrons. [6] Jirtle also used this clonal assay to study the phenomenon of liver regeneration. [7]