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Creator | Title | Description | Subject | Date |
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Capecchi, Mario R.; Bernstein, Kenneth E.; Thomas, Kirk R. | Targeting genes for self-excision in the germ line | A procedure is described that directs the self-induced deletion of DNA sequences as they pass through the male germ line of mice. The testes-specific promoter from the angiotensin-converting enzyme gene was used to drive expression of the Cre-recombinase gene. Cre was linked to the selectable marker... | Cre-recombinase; Hoxa3; Chimeric mice | 1999-06-15 |
2 |
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Thomas, Kirk R.; Capecchi, Mario R. | Nonreciprocal exchanges of information between DNA duplexes coinjected into mammalian. cell nuclei | We have examined the mechanism of homologous recombination between plasmid molecules coinjected into cultured mammalian cells. Cell lines containing recombinant DNA molecules were obtained by selecting for the reconstruction of a functional Neor gene from two plasmids that bear different amber mutat... | Animals; Cells, Cultured; DNA Restriction Enzymes; Kinetics | 1985-01 |
3 |
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Thomas, Kirk R.; Capecchi, Mario R. | Efficient correction of mismatched bases in plasmid heteroduplexes injected into cultured mammalian cell nuclei. | Heteroduplexes were prepared from two plasmids, pRH4-14/TK and pRH5-8/TK, containing different amber mutations in the neomycin resistance gene (Neor). The Neor gene was engineered to be expressed in both bacterial and mammalian cells. A functional Neor gene conferred kanamycin resistance to bacteria... | Cell Nucleus; Cells, Cultured; Microinjections | 1985-01 |
4 |
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Thomas, Kirk R.; Capecchi, Mario R. | Introduction of homologous DNA sequences into mammalian cells induces mutations in the cognate gene. | Injection of homologous DNA sequences into nuclei of cultured mammalian cells induces mutations in the cognate chromosomal gene. It appears that these mutations result from incorrect repair of a heteroduplex formed between the introduced and the chromosomal sequence. This phenomenon is termed 'heter... | Animals; Cell Line; Drug Resistance, Microbial; Fibroblasts; Mice; Models, Genetic; Neomycin; Plasmids | 1986-11-06 |
5 |
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Thomas, Kirk R.; Capecchi, Mario R. | Maintenance of functional equivalence during paralogous Hox gene evolution. | Biological diversity is driven mainly by gene duplication followed by mutation and selection. This divergence in either regulatory or protein-coding sequences can result in quite different biological functions for even closely related genes. This concept is exemplified by the mammalian Hox gene comp... | Alleles; Animals; Cervical Vertebrae; Embryo; Genetic Complementation Test; Homeodomain Proteins; Homozygote; Mice | 2000-02-10 |