Abstract: Disclosed are RNA-targeting gene therapy compositions and methods for destroying or blocking toxic target CUG repeat RNA and treating DM1.

Abstract: SnRNA systems comprising engineered stem loops are disclosed herein.

Abstract: Disclosed are RNA-targeting gene therapy compositions and methods for destroying or blocking toxic target CAG repeat RNA and treating CAG repeat disorders such as Huntington's Disease (HD) and Spinocerebellar Ataxia Type 1 (SCA1).

Abstract: Cas9 polypeptides which target RNA and methods of using them are provided.

Abstract: SnRNA systems comprising engineered stem loops are disclosed herein.

Abstract: Cas9 polypeptides which target RNA and method of using them are provided.

Abstract: Disclosed are compositions comprising: (a) a sequence comprising a guide RNA (gRNA) that specifically binds a target sequence within an RNA molecule and (b) a sequence encoding a fusion protein, the sequence comprising a sequence encoding a first RNA-binding polypeptide and a sequence encoding a second RNA-binding polypeptide, wherein neither the first RNA-binding polypeptide nor the second RNA-binding polypeptide comprises a significant DNA-nuclease activity, wherein the first RNA-binding polypeptide and the second RNA-binding polypeptide are not identical, and wherein the second RNA-binding polypeptide comprises an RNA-nuclease activity. Methods of making and methods of using compositions of the disclosure are also provided. For example, compositions of the disclosure may be used in the treatment of a disease or disorder in a subject. Exemplary disease or disorders of the disclosure include genetic and epigenetic diseases or disorders.

Abstract: Disclosed are compositions and methods for specifically targeting and knocking down pathogenic RNA molecules which lead to toxic gain-or-loss-of-function mutations while also replacing the targeted, and knocked down, gene with a therapeutic replacement gene.

Abstract: Disclosed are compositions comprising: a sequence encoding a fusion protein, the sequence comprising a sequence encoding a first RNA-binding polypeptide and a sequence encoding a second RNA-binding polypeptide, wherein neither the first RNA-binding polypeptide nor the second RNA-binding polypeptide comprises a significant DNA-nuclease activity, wherein the first RNA-binding polypeptide and the second RNA-binding polypeptide are not identical, and wherein the second RNA-binding polypeptide comprises an RNA-nuclease activity. Methods of making and methods of using compositions of the disclosure are also provided. For example, compositions of the disclosure may be used in the treatment of a disease or disorder in a subject. Exemplary disease or disorders of the disclosure include genetic and epigenetic diseases or disorders.

Abstract: Cas9 polypeptides which target RNA and methods of using them are provided

Abstract: Disclosed are compositions comprising: (a) a sequence comprising a guide RNA (gRNA) that specifically binds a target sequence within an RNA molecule and (b) a sequence encoding a fusion protein, the sequence comprising a sequence encoding a first RNA-binding polypeptide and a sequence encoding a second RNA-binding polypeptide, wherein neither the first RNA-binding polypeptide nor the second RNA-binding polypeptide comprises a significant DNA-nuclease activity, wherein the first RNA-binding polypeptide and the second RNA-binding polypeptide are not identical, and wherein the second RNA-binding polypeptide comprises an RNA-nuclease activity. Methods of making and methods of using compositions of the disclosure are also provided. For example, compositions of the disclosure may be used in the treatment of a disease or disorder in a subject. Exemplary disease or disorders of the disclosure include genetic and epigenetic diseases or disorders.

Abstract: Disclosed are compositions comprising: (a) a sequence comprising a guide RNA (gRNA) that specifically binds a target sequence within an RNA molecule and (b) a sequence encoding a fusion protein, the sequence comprising a sequence encoding a first RNA-binding polypeptide and a sequence encoding a second RNA-binding polypeptide, wherein neither the first RNA-binding polypeptide nor the second RNA-binding polypeptide comprises a significant DNA-nuclease activity, wherein the first RNA-binding polypeptide and the second RNA-binding polypeptide are not identical, and wherein the second RNA-binding polypeptide comprises an RNA-nuclease activity. Methods of making and methods of using compositions of the disclosure are also provided. For example, compositions of the disclosure may be used in the treatment of a disease or disorder in a subject. Exemplary disease or disorders of the disclosure include genetic and epigenetic diseases or disorders.

Abstract: Disclosed are compositions and methods for simultaneously providing a gene therapy and preventing an adaptive immune response to a cell modified by the gene therapy by the immune system of a subject. In some embodiments, compositions of the disclosure modify a level of expression of an RNA molecule associated with a disease or disorder as well as inhibit expression or activity of a component of an adaptive immune response to mask the modified cell from a subject's immune system.

Abstract: Cas9 polypeptides which target RNA and methods of using them are provided.

Abstract: Cas9 polypeptides which target RNA and methods of using them are provided.