Methods and compositions for modifying the expression of endogenous genes or modifying the coding sequence of endogenous genes.

The present disclosure relates to a composition for gene manipulation for artificially manipulating a blood coagulation inhibitory gene present in the genome of a cell to regulate a blood coagulation system. More particularly, the present invention relates to a composition for gene manipulation, which includes a guide nucleic acid capable of targeting a blood coagulation inhibitory gene, and an editor protein. Also, the present invention relates to a method of treating or improving coagulopathy using the composition for gene manipulation for artificially manipulating a blood coagulation inhibitory gene.

The present invention relates to a vaccine composition comprising an effective amount of a replication-competent controlled recombinant virus. Further encompassed are uses in immunization and methods of immunization employing compositions comprising a replication-competent controlled recombinant virus of the invention.

The present invention encompasses compositions and methods for the sequential stacking of donor nucleic acids into a single genomic locus within a cell to allow for the introduction of relatively long nucleic sequences. This allows for insertion into the genome of a donor nucleic acid sequence that exceeds the packaging capacity of a single adeno-associated viral vector.

There is provided method for making a cell composition which comprises step of transducing a population of cells with a mixture of at least two viral vectors, wherein at least one vector comprises a nucleic acid sequence which encodes a chimeric antigen receptor (CAR); and wherein at least one vector comprises a nucleic acid encoding an activity modulator which modulates the activity of the CAR, of a cell expressing the CAR, or of a target cell. There is also provided a cell composition made by such a method and its use in the treatment of diseases such as cancer.

The invention provides compositions and methods for treatment of Chromosome 10-driven age-related macular degeneration, including gene therapy to increase HTRA1 expression in retinal pigmented epithelial cells in the eye.

The present invention provides a method and components thereof of performing genetic modification under a drug-free environment. The method comprises the steps of generating a trapped mammalian cell library by trapper constructs (including the element of piggyBac terminal inverted repeats (TIRs)), reporter constructs, and helper constructs (including a sequence of an internal ribosomal entry site (IRES)). The present art allows: (1) to target & identify the silenced loci; (2) to separate genes with low-level expression at certain differentiation stages; (3) to evaluate the efficiency of gene targeting in the silent or repressed loci. The present invention avoids the biased gene targeting observed in the prior arts, and eliminates the needs of introducing antibiotic genes into the host genome which may lead to a potential threat of drifting antibiotic resistant genes into environment.

The present invention relates to a method based on the use of restriction enzyme digestion and ligation via cleavage sites, thereby to prepare two or more standardized expression cassettes.

Disclosed herein are methods and pharmaceutical compositions for the treatment of retinitis pigmentosa, macular degeneration and other retinal conditions by interfering with expression of genes, such as those encoding photoreceptor cell-specific nuclear receptor and neural retina-specific leucine zipper protein, in cells of the eye. These methods and compositions employ nucleic acid based therapies.

Described herein are donor vectors and systems for use in dual recombinase-mediated cassette exchange. Also described herein are animal models and human cells for consistent, rigorous, and facile investigation of transgene expression. Further described herein are methods of screening for therapeutic drugs using these animal models, and methods of treatment.