Methods for producing tetracycline-regulated transgenic mice
First Claim
1. A method for producing a transgenic mouse, comprising:
- a) introducing into a fertilized oocyte of a mouse a DNA molecule encoding a tetracycline-controllable transactivator (tTA), the tTA comprising a prokaryotic Tet repressor operably linked to a polypeptide which directly or indirectly activates transcription in eucaryotic cells;
b) implanting the fertilized oocyte in a pseudopregnant foster mother; and
c) allowing the fertilized oocyte to develop into a transgenic mouse to thereby produce the transgenic mouse, wherein said tTA is expressed in cells of the mouse at a level sufficient to transactivate a tet operator-linked gene.
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Abstract
Transgenic mice carrying two transgenes, the first coding for a transactivator fusion protein comprising a tet repressor and a polypeptide which directly or indirectly activates in eucaryotic cells, and the second comprising a gene operably linked to a minimal promoter operably linked to at least one tet operator sequence, are disclosed. Isolated DNA molecules (e.g., targeting vectors) for integrating a polynucleotide sequence encoding a transactivator of the invention at a predetermined location within a second target DNA molecule by homologous recombination are also disclosed. Transgenic mice having the DNA molecules of the invention integrated at a predetermined location in a chromosome by homologous recombination are also encompassed by the invention. Methods to regulate the expression of a tet operator linked-gene of interest by administering tetracycline or a tetracycline analogue to a mouse of the invention are also disclosed. The regulatory system of the invention allows for conditional inactivation or modulation of expression of a gene of interest in a host cell or mouse.
65 Citations
11 Claims
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1. A method for producing a transgenic mouse, comprising:
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a) introducing into a fertilized oocyte of a mouse a DNA molecule encoding a tetracycline-controllable transactivator (tTA), the tTA comprising a prokaryotic Tet repressor operably linked to a polypeptide which directly or indirectly activates transcription in eucaryotic cells; b) implanting the fertilized oocyte in a pseudopregnant foster mother; and c) allowing the fertilized oocyte to develop into a transgenic mouse to thereby produce the transgenic mouse, wherein said tTA is expressed in cells of the mouse at a level sufficient to transactivate a tet operator-linked gene. - View Dependent Claims (4, 6, 9)
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2. A method for producing a transgenic mouse having a transgene encoding a tetracycline-controllable transactivator (tTA) integrated at a predetermined location within chromosomal DNA of cells of the mouse, comprising:
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a) introducing into a population of embryonic stem cells of a mouse a DNA molecule encoding a tTA, the tTA comprising a prokaryotic Tet repressor operably linked to a polypeptide which directly or indirectly activates transcription in eucaryotic cells, the DNA molecule comprising a polynucleotide sequence encoding the tTA flanked at 5'"'"' and 3'"'"' ends by additional polynucleotide sequences of sufficient length for homologous recombination between the DNA molecule and a second target DNA molecule at a predetermined location within chromosomal DNA of cells of the mouse, under conditions suitable for homologous recombination between the DNA molecule encoding the tTA and chromosomal DNA within the cell; b) selecting an embryonic stem cell in which DNA encoding the tTA has integrated at a predetermined location within the chromosomal DNA of the cell; c) implanting the embryonic stem cell into a blastocyst; d) implanting the blastocyst into a pseudopregnant foster mother; and e) allowing the blastocyst to develop into a transgenic mouse to thereby produce the transgenic mouse, wherein said tTA is expressed in cells of the mouse at a level sufficient to transactivate a tet operator-linked gene. - View Dependent Claims (5, 7, 10)
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3. A method for producing a transgenic mouse having a transgene encoding a tetracycline-controllable transactivator (tTA) and a tTA-responsive promoter integrated at a predetermined location within a gene of interest in cells of the mouse, comprising:
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a) introducing into a population of embryonic stem cells of a mouse a DNA molecule encoding a tTA, the DNA molecule comprising; i) a first polynucleotide sequence comprising a 5'"'"' flanking regulatory region of the gene of interest, operably linked to; ii) a second polynucleotide sequence encoding a tTA, the tTA comprising a prokaryotic Tet repressor operably linked to a polypeptide which directly or indirectly activates transcription in eucaryotic cells; and iii) a third polynucleotide sequence comprising a tTA-responsive promoter, operably linked to; iv) a fourth polynucleotide sequence comprising at least a portion of a coding region of the gene of interest; wherein the first and fourth polynucleotide sequences are of sufficient length for homologous recombination between the DNA molecule and the gene of interest such that expression of the tTA is controlled by 5'"'"' regulatory elements of the gene of interest and expression of the gene of interest is controlled by the tTA-responsive promoter, under conditions suitable for homologous recombination between the DNA molecule encoding the tTA and the gene of interest within the cell; b) selecting an embryonic stem cell in which DNA encoding the tTA has integrated at a predetermined location within the gene of interest in the cell; c) implanting the embryonic stem cell into a blastocyst; d) implanting the blastocyst into a pseudopregnant foster mother; and e) allowing the blastocyst to develop into a transgenic mouse to thereby produce the transgenic mouse, wherein said gene of interest confers a detectable and functional phenotype on the mouse when expressed in cells of the transgenic mouse, said tTA is expressed in cells of the transgenic mouse at a level sufficient to activate transcription of the gene of interest; and in the absence of tetracycline or a tetracycline analogue in the mouse, said tTA binds to the tTA responsive promoter operably linked to the gene of interest and activates transcription of the gene of interest such that the gene of interest is expressed at a level sufficient to confer the detectable and functional phenotype on the mouse, wherein the level of expression of the gene of interest can be downmodulated by administering tetracycline or a tetracycline analogue to the mouse. - View Dependent Claims (8, 11)
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Specification