DNA recombination in eukaryotic cells by the bacteriophage PHIC31 recombination system
First Claim
1. A plant or yeast eukaryotic cell that comprisesa prokaryotic recombinase polypeptide or a nucleic acid that encodes the prokaryotic recombinase, wherein the recombinase is capable of mediating site-specific recombination in the eukaryotic cell between an attB recombination site and an attP recombination site to form an attL and an attR site;
- and wherein the recombinase is not capable of mediating in the eukaryotic cell recombination between the attL site and the attR site, wherein the recombinase is a bacteriophage Φ
C31 integrase; and
only one attP or only one attB recombination site of bacteriophage Φ
C31 integrase integrated in its genome.
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Abstract
This invention provides methods for obtaining specific and stable integration of nucleic acids into eukaryotic cells. The invention makes use of site-specific recombination systems that use prokaryotic recombinase polypeptides, such as the ΦC31 integrase, that can mediate recombination between the recombination sites, but not between hybrid recombination sites that are formed upon the recombination. Thus, the recombination is irreversible in the absence of additional factors. Eukaryotic cells that contain the recombinase polypeptides, or genes that encode the recombinases, are also provided.
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Citations
20 Claims
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1. A plant or yeast eukaryotic cell that comprises
a prokaryotic recombinase polypeptide or a nucleic acid that encodes the prokaryotic recombinase, wherein the recombinase is capable of mediating site-specific recombination in the eukaryotic cell between an attB recombination site and an attP recombination site to form an attL and an attR site; - and wherein the recombinase is not capable of mediating in the eukaryotic cell recombination between the attL site and the attR site, wherein the recombinase is a bacteriophage Φ
C31 integrase; and
only one attP or only one attB recombination site of bacteriophage Φ
C31 integrase integrated in its genome. - View Dependent Claims (2, 3, 4, 5, 6, 19)
- and wherein the recombinase is not capable of mediating in the eukaryotic cell recombination between the attL site and the attR site, wherein the recombinase is a bacteriophage Φ
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7. A plant or yeast eukaryotic cell that comprises:
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an attP or attB recombination site of bacteriophage Φ
C31 integrase integrated in its genome; anda non-genomic nucleic acid comprising a heterologous nucleic acid or a transgene, and only one attP site of bacteriophage Φ
C31 integrase if the cell has the genomic attB site or only one attB site of bacteriophage Φ
C31 integrase if the cell has the genomic attP site;
wherein the eukaryotic cell further comprises a Φ
C31 integrase polypeptide. - View Dependent Claims (8, 9, 10, 11, 12, 20)
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13. A eucaryotic somatic cell in culture comprising:
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a prokaryotic recombinase polypeptide or a nucleic acid that encodes the prokaryotic recombinase, wherein the recombinase is capable of mediating site-specific recombination in the eukaryotic cell between an attB recombination site and an attP recombination site to form an attL and an attR site, and is not capable of mediating in the eukaryotic cell recombination between the attL site and the attR site; the attP or attB recombination site integrated in its genome; a non-genomic nucleic acid comprising a transgene or a heterologous nucleic acid and only one attP site if the cell has the genomic attB site or only one attP site if the cell has the genomic attB site; wherein the recombinase is a bacteriophage Φ
C31 integrase and the attP and attB sites are bacteriophage Φ
C31 integrase recombination sites.
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14. A method for obtaining site-specific recombination in a eukaryotic cell, the method comprising:
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providing a eukaryotic cell that comprises an attB recombination site or an attP recombination site of bacteriophage Φ
C31 integrase integrated in its genome and a non-genomic nucleic acid comprising a transgene or a heterologous nucleic acid and only one attP site if the cell has the genomic attB site or only one attP site if the cell has the genomic attB site;contacting the attB and the attP recombination sites with a prokaryotic recombinase polypeptide, resulting in recombination between the recombination sites, thereby forming an attR and an attL recombination site; wherein the recombinase polypeptide can mediate site-specific recombination between the attB and attP recombination sites, but cannot mediate recombination between the attR and attL recombination sites; wherein the recombinase is-a bacteriophage Φ
C31 integrase. - View Dependent Claims (15)
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16. The method for obtaining site-specific recombination in a eukaryotic cell, the method comprising:
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providing a eukaryotic cell that comprises an attB recombination site and-an attP recombination site of bacteriophage Φ
C31 integrase, wherein the attB recombination site and the attP recombination site are present on a single nucleic acid molecule;contacting the attB and the attP recombination sites with a prokaryotic recombinase polypeptide, resulting in recombination between the recombination sites, thereby forming an attR and an attL recombination site; wherein the recombinase polypeptide can mediate site-specific recombination between the attB and attP recombination sites, but cannot mediate recombination between the attR and attL recombination sites; and wherein the recombinase is-a bacteriophage Φ
C31 integrase. - View Dependent Claims (17, 18)
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Specification