Targeted replacement of the homeobox gene Hox-3.1 by the Escherichia coli lacZ in mouse chimeric embryos.
H Le Mouellic, Y Lallemand… - Proceedings of the …, 1990 - National Acad Sciences
H Le Mouellic, Y Lallemand, P Brulet
Proceedings of the National Academy of Sciences, 1990•National Acad SciencesThrough gene targeting based upon homologous recombination in embryonic stem cells, a
chosen gene can be inactivated and eventually a strain of mutant mice created. We have
devised a procedure to specifically replace a targeted gene by another gene. A murine
homeobox gene was disrupted at high frequency in embryonic stem cells by its replacement
with Escherichia coli lacZ. Injection of such stem cells into blastocysts yielded chimeric
embryos in which beta-galactosidase activity was driven by the Hox-3.1 promoter. This …
chosen gene can be inactivated and eventually a strain of mutant mice created. We have
devised a procedure to specifically replace a targeted gene by another gene. A murine
homeobox gene was disrupted at high frequency in embryonic stem cells by its replacement
with Escherichia coli lacZ. Injection of such stem cells into blastocysts yielded chimeric
embryos in which beta-galactosidase activity was driven by the Hox-3.1 promoter. This …
Through gene targeting based upon homologous recombination in embryonic stem cells, a chosen gene can be inactivated and eventually a strain of mutant mice created. We have devised a procedure to specifically replace a targeted gene by another gene. A murine homeobox gene was disrupted at high frequency in embryonic stem cells by its replacement with Escherichia coli lacZ. Injection of such stem cells into blastocysts yielded chimeric embryos in which beta-galactosidase activity was driven by the Hox-3.1 promoter. This technique will allow the visual assessment at the cellular level of gene inactivation effects in transgenic mice.
National Acad Sciences
