Genetic manipulation of the mouse via gene targeting in embryonic stem cells.

A. Bradley; R. Ramírez-Solis; H. Zheng; P. Hasty; A. Davis

Genetic manipulation of the mouse via gene targeting in embryonic stem cells.

A. Bradley, R. Ramírez-Solis, H. Zheng, P. Hasty, A. Davis

Research output: Contribution to journal › Review article › peer-review

Abstract

Gene targeting applied to totipotent embryonic stem (ES) cells is a very powerful means of creating highly specific mutations of genes in the mouse. The successful application of this technology is however constrained by both the types of mutations that can be generated at a target locus and the ability to reconstruct a germline chimera from the manipulated cells. We have developed two cell lines that can be routinely transmitted through the germline of chimeras after cloning and prolonged selection in tissue culture. We have also established a variety of methods for generating non-selected mutations at the X-linked hprt locus in ES cells. Our observations at this locus have enabled us to generate successfully a subtle mutation at the non-selectable Hox-2.6 locus.

Original language	English (US)
Pages (from-to)	256-269; discussion 269-276
Journal	Ciba Foundation symposium
Volume	165
State	Published - 1992
Externally published	Yes

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title = "Genetic manipulation of the mouse via gene targeting in embryonic stem cells.",

abstract = "Gene targeting applied to totipotent embryonic stem (ES) cells is a very powerful means of creating highly specific mutations of genes in the mouse. The successful application of this technology is however constrained by both the types of mutations that can be generated at a target locus and the ability to reconstruct a germline chimera from the manipulated cells. We have developed two cell lines that can be routinely transmitted through the germline of chimeras after cloning and prolonged selection in tissue culture. We have also established a variety of methods for generating non-selected mutations at the X-linked hprt locus in ES cells. Our observations at this locus have enabled us to generate successfully a subtle mutation at the non-selectable Hox-2.6 locus.",

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T1 - Genetic manipulation of the mouse via gene targeting in embryonic stem cells.

AU - Bradley, A.

AU - Ramírez-Solis, R.

AU - Zheng, H.

AU - Hasty, P.

AU - Davis, A.

PY - 1992

Y1 - 1992

N2 - Gene targeting applied to totipotent embryonic stem (ES) cells is a very powerful means of creating highly specific mutations of genes in the mouse. The successful application of this technology is however constrained by both the types of mutations that can be generated at a target locus and the ability to reconstruct a germline chimera from the manipulated cells. We have developed two cell lines that can be routinely transmitted through the germline of chimeras after cloning and prolonged selection in tissue culture. We have also established a variety of methods for generating non-selected mutations at the X-linked hprt locus in ES cells. Our observations at this locus have enabled us to generate successfully a subtle mutation at the non-selectable Hox-2.6 locus.

AB - Gene targeting applied to totipotent embryonic stem (ES) cells is a very powerful means of creating highly specific mutations of genes in the mouse. The successful application of this technology is however constrained by both the types of mutations that can be generated at a target locus and the ability to reconstruct a germline chimera from the manipulated cells. We have developed two cell lines that can be routinely transmitted through the germline of chimeras after cloning and prolonged selection in tissue culture. We have also established a variety of methods for generating non-selected mutations at the X-linked hprt locus in ES cells. Our observations at this locus have enabled us to generate successfully a subtle mutation at the non-selectable Hox-2.6 locus.

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M3 - Review article

C2 - 1516472

AN - SCOPUS:0026437938

SN - 0300-5208

VL - 165

SP - 256-269; discussion 269-276

JO - Ciba Foundation symposium

JF - Ciba Foundation symposium

ER -

Genetic manipulation of the mouse via gene targeting in embryonic stem cells.

Abstract

ASJC Scopus subject areas

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