Patent application number | Description | Published |
20090060896 | Gene repair involving in vivo excision of targeting DNA - Methods of modifying, repairing, attenuating and inactivating a gene or other chromosomal DNA in a cell are disclosed. Also disclosed are methods of treating or prophylaxis of a genetic disease in an individual in need thereof. | 03-05-2009 |
20090081788 | Nucleotide sequence encoding the enzyme I-SceI and the uses thereof - An isolated DNA encoding the enzyme I-SceI is provided. The DNA sequence can be incorporated in cloning and expression vectors, transformed cell lines and transgenic animals. The vectors are useful in gene mapping and site-directed insertion of genes. | 03-26-2009 |
20100111924 | Chromosomal Modification Involving the Induction of Double-Stranded DNA Cleavage and Homologous Recombination at the Cleavage Site - Methods of modifying, repairing, attenuating and inactivating a gene or other chromosomal DNA in a cell are disclosed. Also disclosed are methods of treating or prophylaxis of a genetic disease in an individual in need thereof. Further disclosed are chimeric restriction endonucleases. | 05-06-2010 |
20100144012 | USE OF MEGANUCLEASES FOR INDUCING HOMOLOGOUS RECOMBINATION EX VIVO AND IN TOTO IN VERTEBRATE SOMATIC TISSUES AND APPLICATION THEREOF - A single chain homing endonuclease, comprising a first variant of I-CreI having the amino acid sequence of accession number pdb 1g9y and a second variant of I-CreI variant having the amino acid sequence of accession number pdb 1g9y in a single polypeptide. | 06-10-2010 |
20100151556 | HYBRID AND SINGLE CHAIN MEGANUCLEASES AND USE THEREOF - This patent application relates to hybrid and/or single-chain rare-cutting endonucleases, called meganucleases, which recognize and cleave a specific nucleotide sequence, to polynucleotide sequences encoding for said rare-cutting endonucleases, to a vector comprising one of said polynucleotide sequences, to a cell or animal comprising one of said polynucleotide sequences or said rare-cutting endonucleases, to a process for producing one of said rare-cutting endonucleases and any use of the disclosed products and methods. More particularly, this invention contemplates any use of such rare-cutting endonuclease for genetic engineering and gene therapy. | 06-17-2010 |
20110287513 | USE OF MEGANUCLEASES FOR INDUCING HOMOLOGOUS RECOMBINATION EX VIVO AND IN TOTO IN VERTEBRATE SOMATIC TISSUES AND APPLICATION THEREOF - A single chain homing endonuclease, comprising a first variant of I-CreI having the amino acid sequence of accession number pdb 1g9y and a second variant of I-CreI variant having the amino acid sequence of accession number pdb 1g9y in a single polypeptide. | 11-24-2011 |
20140004608 | MEGANUCLEASE RECOMBINATION SYSTEM | 01-02-2014 |
20140121115 | CUSTOM-MADE MEGANUCLEASE AND USE THEREOF - New rare-cutting endonucleases, also called custom-made meganucleases, which recognize and cleave a specific nucleotide sequence, derived polynucleotide sequences, recombinant vector cell, animal, or plant comprising said polynucleotide sequences, process for producing said rare-cutting endonucleases and any use thereof, more particularly, for genetic engineering, antiviral therapy and gene therapy. | 05-01-2014 |
20140178942 | MEGANUCLEASE VARIANTS CLEAVING AT LEAST ONE TARGET IN THE GENOME OF A RETROVIRUS AND USES THEREOF - Meganuclease variants which cleave at least one target in the provirus of a retrovirus and in particular which cleave the genomic insertion of the provirus. The present invention particular relates to meganuclease variants which cleave the provirus of the Human Immunodeficiency Virus genome following genomic insertion. Vector encoding such variants, as well as to a cell or multi-cellular organism modified by such a vector and use of said meganuclease variants and derived products for genome engineering and for in vivo and ex vivo (gene cell therapy) genome therapy. | 06-26-2014 |
Patent application number | Description | Published |
20100111924 | Chromosomal Modification Involving the Induction of Double-Stranded DNA Cleavage and Homologous Recombination at the Cleavage Site - Methods of modifying, repairing, attenuating and inactivating a gene or other chromosomal DNA in a cell are disclosed. Also disclosed are methods of treating or prophylaxis of a genetic disease in an individual in need thereof. Further disclosed are chimeric restriction endonucleases. | 05-06-2010 |
20100144012 | USE OF MEGANUCLEASES FOR INDUCING HOMOLOGOUS RECOMBINATION EX VIVO AND IN TOTO IN VERTEBRATE SOMATIC TISSUES AND APPLICATION THEREOF - A single chain homing endonuclease, comprising a first variant of I-CreI having the amino acid sequence of accession number pdb 1g9y and a second variant of I-CreI variant having the amino acid sequence of accession number pdb 1g9y in a single polypeptide. | 06-10-2010 |
20110151539 | USE OF MEGANUCLEASES FOR INDUCING HOMOLOGOUS RECOMBINATION EX VIVO AND IN TOTO IN VERTEBRATE SOMATIC TISSUES AND APPLICATION THEREOF - A single chain homing endonuclease, comprising a first variant of I-CreI having the amino acid sequence of accession number pdb 1g9y and a second variant of I-CreI variant having the amino acid sequence of accession number pdb 1g9y in a single polypeptide. | 06-23-2011 |
20110263028 | MEGANUCLEASE RECOMBINATION SYSTEM - The invention relates to a set of genetic constructs which allow the efficient and reproducible introduction of a specific nucleotide sequence at a fixed position in the genome by generating a double strand break at a specific position in the genome using a meganuclease and so stimulating a homologous recombination event at this locus between the genomic site and a transfected donor sequence. The present invention also relates to methods using these constructs and to these materials in the form of a kit. | 10-27-2011 |
20120159659 | CUSTOM-MADE MEGANUCLEASE AND USE THEREOF - New rare-cutting endonucleases, also called custom-made meganucleases, which recognize and cleave a specific nucleotide sequence, derived polynucleotide sequences, recombinant vector cell, animal, or plant comprising said polynucleotide sequences, process for producing said rare-cutting endonucleases and any use thereof, more particularly, for genetic engineering, antiviral therapy and gene therapy. | 06-21-2012 |
20120165400 | GENE REPAIR INVOLVING IN VIVO EXCISION OF TARGETING DNA - Methods of modifying, repairing, attenuating and inactivating a gene or other chromosomal DNA in a cell are disclosed. Also disclosed are methods of treating or prophylaxis of a genetic disease in an individual in need thereof. | 06-28-2012 |
20120171191 | MEGANUCLEASE VARIANTS CLEAVING THE GENOME OF A PATHOGENIC NON-INTEGRATING VIRUS AND USES THEREOF - An I-CreI variant, wherein at least one of the two 1-Cre1 monomers has at least two substitutions, one in each of the two functional subdomains of the LAGLIDADG core domain situated from positions 26 to 40 and 44 to 77 of I-CreI, said variant being able to cleave a DNA target sequence from the genome of a non-integrating virus, in particular herpes simplex virus (HSV) or Hepatitis B virus (HBV) for use in genome engineering and for in vivo and ex vivo (gene cell therapy) genome therapy as well as the treatment of a virus infection. | 07-05-2012 |
20120230971 | CHROMOSOMAL MODIFICATION INVOLVING THE INDUCTION OF DOUBLE-STRANDED DNA CLEAVAGE AND HOMOLOGOUS RECOMBINATION AT THE CLEAVAGE SITE - Methods of modifying, repairing, attenuating and inactivating a gene or other chromosomal DNA in a cell are disclosed. Also disclosed are methods of treating or prophylaxis of a genetic disease in an individual in need thereof. Further disclosed are chimeric restriction endonucleases. | 09-13-2012 |
20120260356 | MEGANUCLEASE VARIANTS CLEAVING AT LEAST ONE TARGET IN THE GENOME OF A RETROVIRUS AND USES THEREOF - Meganuclease variants which cleave at least one target in the provirus of a retrovirus and in particular which cleave the genomic insertion of the provirus. The present invention in particular relates to meganuclease variants which cleave the provirus of the Human Immunodeficiency Virus genome following genomic insertion. Vector encoding such variants, as well as to a cell or multi-cellular organism modified by such a vector and use of said meganuclease variants and derived products for genome engineering and for in vivo and ex vivo (gene cell therapy) genome therapy. | 10-11-2012 |