A method for preparing pluripotent stem cell-derived hematopoietic stem cells and a method of constructing a humanized mouse model with the prepared hematopoietic stem cells. The method of preparing the hematopoietic stem cells identified an optimal differentiation condition according to a combination of low-molecular-weight compounds and protein growth factors without gene insertion, and thus may differentiate hematopoietic stem cells from pluripotent stem cells at high yield.

The invention features methods, kits, and compositions for mitochondrial replacement in the treatment of disorders arising from mitochondrial dysfunction. The invention also features methods of diagnosing neuropsychiatric (e.g., bipolar disorder) and neurodegenerative disorders based on mitochondrial structural abnormalities.

Disclosed are fish with impaired reproductive capacity and methods and compositions for producing the same. The reproductively impaired fish may include catfish, such as Ictalurus punctatus. The disclosed methods may be generally useful for mitigating environmental impact of escaped genetically engineered fish.

The invention provides double knockout transgenic pigs (GT/CMAH-KO pigs) lacking expression of any functional aGAL and CMAH. Double knockout GT/CMAH-KO transgenic organs, tissues and cells are also provided. Methods of making and using the GT/CMAH-KO pigs and tissue are also provided.

Provided are non-human animals comprising a mutation in the Fbn1 gene to model neonatal progeroid syndrome with congenital lipodystrophy (NPSCL). Also provided are methods of making such non-human animal models. The non-human animal models can be used for screening compounds for activity in inhibiting or reducing NPSCL or ameliorating NPSCL-like symptoms or screening compounds for activity potentially harmful in promoting or exacerbating NPSCL as well as to provide insights in to the mechanism of NPSCL and potentially new therapeutic and diagnostic targets.

The invention relates to methods of treating an individual suffering from a structural cardiac muscle defect, comprising providing cardiomyocytes of at least part of the cardiac muscle of the individual with a high mobility group A (HMGA) protein to thereby promote proliferation of said cardiomyocytes. The invention further relates to an expression construct for functional expression of said HMGA protein, a pharmaceutical composition, comprising HMGA or said expression construct, and to a method of culturing cardiomyocytes in vitro, comprising providing cardiomyocytes with a HMGA protein or the expression construct.

The invention features methods, kits, and compositions for mitochondrial replacement in the treatment of disorders arising from mitochondrial dysfunction. The invention also features methods of diagnosing neuropsychiatric (e.g., bipolar disorder) and neurodegenerative disorders based on mitochondrial structural abnormalities.

The present invention refers to a method for reconstructing a non-human animal embryo, to a method for generating a nonhuman animal and to a non-human animal or non-human animal reconstructed embryo obtainable by the methods according to the invention. The method of somatic cell nuclear transfer (SCNT) has a step of transiently expressing or inducing the uptake of a protein involved in male sperm maturation, such as protamine or transition protein, in the somatic donor cell before nuclear transfer.

The invention concerns a non-human animal model useful for modeling complex human diseases; compositions comprising cell populations from the animal model having different genotypes for the same gene; methods for producing the animal model; and methods for studying a phenotype using an animal model or compositions of the invention.

The present invention provides GPCR polypeptides and polynucleotides, recombinant materials, and transgenic mice, as well as methods for their production. The polypeptides and polynucleotides are useful, for example, in methods of diagnosis and treatment of diseases and disorders. The invention also provides methods for identifying compounds (e.g., agonists or antagonists) using the GPCR polypeptides and polynucleotides of the invention, and for treating conditions associated with GPCR dysfunction with the GPCR polypeptides, polynucleotides, or identified compounds. The invention also provides diagnostic assays for detecting diseases or disorders associated with inappropriate GPCR activity or levels.