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Examples of research in which knockout mice have been useful include studying and modeling different kinds of cancer, obesity, heart disease, diabetes, arthritis, substance abuse, anxiety, aging and Parkinson's disease. Knockout mice also offer a biological and scientific context in which drugs and other therapies can be developed and tested.
The International Knockout Mouse Consortium (IKMC) is a scientific endeavour to produce a collection of mouse embryonic stem cell lines that together lack every gene in the genome, and then to distribute the cells to scientific researchers to create knockout mice to study.
An example of this method in action can be seen through the production of a knockout mouse. This is accomplished through the administration of one or more transgenes into a fertilized mouse oocyte’s pronucleus. Afterwards, it is reimplanted into a host mother, who then births a transgenic mouse.
Gene knockout by mutation is commonly carried out in bacteria. An early instance of the use of this technique in Escherichia coli was published in 1989 by Hamilton, et al. [2] In this experiment, two sequential recombinations were used to delete the gene.
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.
3815 16590 Ensembl ENSG00000157404 ENSMUSG00000005672 UniProt P10721 P05532 RefSeq (mRNA) NM_000222 NM_001093772 NM_001122733 NM_021099 RefSeq (protein) NP_000213 NP_001087241 NP_001116205 NP_066922 Location (UCSC) Chr 4: 54.66 – 54.74 Mb Chr 5: 75.74 – 75.82 Mb PubMed search Wikidata View/Edit Human View/Edit Mouse Proto-oncogene c-KIT is the gene encoding the receptor tyrosine kinase ...
Conditional gene knockout is a technique used to eliminate a specific gene in a certain tissue, such as the liver. [1] [2] This technique is useful to study the role of individual genes in living organisms. It differs from traditional gene knockout because it targets specific genes at specific times rather than being deleted from beginning of life.
Each stem cell contains one mutant gene copy and one 'wild-type' (normal) gene copy. The entire library is intended to mutate 13,000 genes in total. Of these 13000 mutant genes, 8000 mutations in mouse ES Cells are 'targeted': that is, the mutation which knocks out gene function is inserted precisely into the genome.