The present disclosure generally relates to compositions and methods for improving the efficiency of homologous recombination. In particular, the disclosure relates to reagents and the use of such reagents.

Genetically modified non-human animals comprising a humanized interleukin-15 (IL-15) gene. Cells, embryos, and non-human animals comprising a human IL-15 gene. Rodents that express humanized or human IL-15 protein.

The present invention relates to methods of treating cancer patients carrying one or more specific fusion genes. It is based, at least in part, on the discovery that the protein encoded by the MAN2A1-FER fusion gene exhibits kinase activity and the use of tyrosine kinase inhibitors targeting MAN2A1-FER in a cancer other than prostate, for example hepatocellular cancer, led to dramatic improvement of survival of animals xenografted with the cancer.

The invention provides for delivery, engineering and optimization of systems, methods, and compositions for manipulation of sequences and/or activities of target sequences. Provided are delivery systems and tissues or organ which are targeted as sites for delivery. Also provided are vectors and vector systems some of which encode one or more components of a CRISPR complex, as well as methods for the design and use of such vectors. Also provided are methods of directing CRISPR complex formation in eukaryotic cells to ensure enhanced specificity for target recognition and avoidance of toxicity and to edit or modify a target site in a genomic locus of interest to alter or improve the status of a disease or a condition.

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

Compositions and methods for improving embryo development, treating idiopathic male factor infertility, and enabling infertile/sub-fertile/sterile men to father their own genetic offspring are provided. Typically, the methods include administering into a male or female gamete or fertilized embryo an effective amount of a compound that increases bioavailability of a TET protein to improve development of an embryo resulting from fertilization of the female gamete by a male gamete. The compound can be administered into the gamete or embryo before, during, or after fertilization. The compound can be administered by an injection such as intracytoplasmic injection. The compound and the male gamete can be administered in combination by intracytoplasmic sperm injection. Methods of making male gametes, and methods of modifying the genome of a male gamete or embryo using an effective amount of a gene editing composition to correct a gene mutation or anomaly in the genome thereof are also provided.

The invention provides a composition comprising an extraembryonic endodermal (XEN) call and/or an embryonic fibroblast (EF) cell. The invention also provides a method of establishing a XEN cell line or a primary embryonic fibroblast (EF) cell line in vitro, the method comprising culturing a zygote or parthenote from a mammal for a time sufficient to produce one or more blastocysts; and culturing the one or more blastocysts on feeder cells in culture medium for a time sufficient to produce one or a plurality of XEN cells and/or one or a plurality of EF cells.

Described herein is a genetically modified plant or non-human animal having reduced expression of an endogenous target gene.

Genetically modified non-human animals comprising a human or humanized interleukin-7 (IL-7) gene. Cells, embryos, and non-human animals comprising a human or humanized IL-7 gene. Rodents that express human or humanized IL-7 protein. Genetically modified mice that comprise a human or humanized IL-7-encoding gene in their germline, wherein the human or humanized IL-7-encoding gene is under control of endogenous mouse IL-7 regulatory sequences.

This disclosure relates to a rodent model of Steel Syndrome. Disclosed herein are genetically modified rodent animals that carry a mutation in an endogenous rodent Col27a1 gene, equivalent to a mutation in humans causing Steel Syndrome.