Patent application number | Description | Published |
20090061448 | METHOD FOR IDENTIFYING OCULOSKELETAL DYSPLASIA IN DOGS - Provided are methods for identifying dogs as likely to be genetically normal, carriers of, or affected with Oculo-skeletal dysplasia (OSD) by determining the presence or absence of a drd2 COL9A2 mutation and/or a drd1 COL9A3 mutation. Also provided is a method for selective breeding of dogs and kits useful for carrying out the methods of the invention. | 03-05-2009 |
20090074723 | Method of Treating or Retarding the Development of Blindness - A method for treating an ocular disorder characterized by the defect or absence of a normal gene in the ocular cells of a human or animal subject involves administering to the subject by subretinal injection an effective amount of a recombinant adeno-associated virus carrying a nucleic acid sequence encoding the normal gene under the control of a promoter sequence which expresses the product of the gene in the ocular cells. The ocular cells are preferably retinal pigment epithelial (RPE) cells, and the gene is preferably an RPE-specific gene, e.g., RPE65. The promoter is one that can express the gene product in the RPE cells. Compositions for subretinal administration are useful in this method. | 03-19-2009 |
20090111976 | Identification of the gene and mutation responsible for progressive rod-cone degeneration in dog and a method for testing same - Tools and methods are provided for determining whether or not a dog is genetically normal, is a carrier of, or is affected with or predisposed to progressive rod-cone degeneration. The method is based on the detection of a transversion from G to A at position corresponding to nucleotide position 1298 of SEQ ID NO: 1. | 04-30-2009 |
20090176225 | DIAGNOSTIC TEST FOR COLLIE EYE ANOMALY - The invention relates to a method for identifying dogs which are genetically normal, heterozygous for, or homozygous for the mutation primarily responsible for Collie eye anomaly (CEA). The method comprises the steps of obtaining a biological sample from a dog and testing DNA in the biological sample for the presence or absence of a 7.8 kilobase deletion within chromosome 37 in which the CEA mutation is located. No deletion is indicative of a normal dog. A deletion on one allele of chromosome 37 is indicative of a dog that is heterozygous for the CEA mutation. A deletion in both alleles of chromosome 37 are indicative of a dog that is homozygous for the CEA mutation. Also provided is a kit for identifying a dog as normal, heterozygous for, or homozygous for the CEA mutation. | 07-09-2009 |
20100272688 | METHOD OF TREATING OR RETARDING THE DEVELOPMENT OF BLINDNESS - A method for treating an ocular disorder characterized by the defect or absence of a normal gene in the ocular cells of a human or animal subject involves administering to the subject by subretinal injection an effective amount of a recombinant adeno-associated virus carrying a nucleic acid sequence encoding the normal gene under the control of a promoter sequence which expresses the product of the gene in the ocular cells. The ocular cells are preferably retinal pigment epithelial (RPE) cells, and the gene is preferably an RPE-specific gene, e.g., RPE65. The promoter is one that can express the gene product in the RPE cells. Compositions for subretinal administration are useful in this method. | 10-28-2010 |
20100323349 | Identification of the Gene and Mutation Responsible for Progressive Rod-Cone Degeneration in Dog and a Method for Testing Same - Tools and methods are provided for determining whether or not a dog is genetically normal, is a carrier of, or is affected with or predisposed to progressive rod-cone degeneration. The method is based on the detection of a transversion from G to A at position corresponding to nucleotide position 1298 of SEQ ID NO: 1. | 12-23-2010 |
20120225930 | METHOD OF TREATING OR RETARDING THE DEVELOPMENT OF BLINDNESS - A method for treating an ocular disorder characterized by the defect or absence of a normal gene in the ocular cells of a human or animal subject involves administering to the subject by subretinal injection an effective amount of a recombinant adeno-associated virus carrying a nucleic acid sequence encoding the normal gene under the control of a promoter sequence which expresses the product of the gene in the ocular cells. The ocular cells are preferably retinal pigment epithelial (RPE) cells, and the gene is preferably an RPE-specific gene, e.g., RPE65. The promoter is one that can express the gene product in the RPE cells. Compositions for subretinal administration are useful in this method. | 09-06-2012 |
20130216500 | METHOD OF TREATING OR RETARDING THE DEVELOPMENT OF BLINDNESS - A method for treating an ocular disorder characterized by the defect or absence of a normal gene in the ocular cells of a human or animal subject involves administering to the subject by subretinal injection an effective amount of a recombinant adeno-associated virus carrying a nucleic acid sequence encoding the normal gene under the control of a promoter sequence which expresses the product of the gene in the ocular cells. The ocular cells are preferably retinal pigment epithelial (RPE) cells, and the gene is preferably an RPE-specific gene, e.g., RPE65. The promoter is one that can express the gene product in the RPE cells. Compositions for subretinal administration are useful in this method. | 08-22-2013 |
20140377224 | Method of Treating or Retarding the Development of Blindness - A method for treating an ocular disorder characterized by the defect or absence of a normal gene in the ocular cells of a human or animal subject involves administering to the subject by subretinal injection an effective amount of a recombinant adeno-associated virus carrying a nucleic acid sequence encoding the normal gene under the control of a promoter sequence which expresses the product of the gene in the ocular cells. The ocular cells are preferably retinal pigment epithelial (RPE) cells, and the gene is preferably an RPE-specific gene, e.g., RPE65. The promoter is one that can express the gene product in the RPE cells. Compositions for subretinal administration are useful in this method. | 12-25-2014 |