Provided are a donor vector having an exon-humanized gene in which only exon nucleotide sequences of a mouse gene are replaced with human exon nucleotide sequences, an ES cell in which a mouse endogenous gene is replaced with the donor vector, and a mouse crated by using the ES cell.

The present disclosure provides transgenic nematode systems for assessing function of heterologous genes, their variants and drug discovery. The transgenic nematodes contain a heterologous gene that is inserted via homologous recombination at the native locus replacing and removing the nematode ortholog, wherein expression of the heterologous gene rescues function of the removed nematode ortholog and a transgenic control animal is provided. The heterologous gene may be further modified to provide a variant, such as a human clinical variant, whereby a transgenic test animal is provided. Those transgenic test animals are used in methods to assess function of the heterologous variant and drug screens to find therapeutic candidates reversing deviant activity back to wildtype.

The present disclosure provides transgenic non-human animal (e.g., nematode) systems for assessing heterologous polygenic or monogenic phenotypes, their variants and drug discovery. The transgenic non-human animals (e.g., nematodes) contain a first heterologous polypeptide coding sequence and a second heterologous polypeptide coding sequence (a plurality of heterologous polypeptide coding sequences), wherein the first and second heterologous polypeptide coding sequences are integrated into the host animal genome, and wherein expression of the first and second heterologous polypeptide coding sequence contribute to the heterologous phenotype. The plurality of heterologous polypeptide coding sequences are interrelated wherein their expression products, directly or indirectly, contribute or lead to an observable phenotype.

Methods for treating amyotrophic lateral sclerosis (ALS). The methods include administering to a subject in need thereof a therapeutically effective amount of at least one small conductance calcium-activated potassium (SK) channel activator or a pharmaceutically acceptable salt or solvate thereof. Pharmaceutical compositions for the treatment of ALS, including a therapeutically effective amount of at least one SK channel activator, or a pharmaceutically acceptable salt or solvate thereof, and at least one excipient, adjuvant, or pharmaceutically acceptable carrier.

There are provided to a Rag-2 (Recombination activating gene 2) gene targeting vector, a method for producing SCID-like miniature pigs introduced with the vector, and a use thereof.

This invention relates to the engineering of animal cells, preferably mammalian, more preferably rat, that are deficient due to the disruption of tumor suppressor gene(s) or gene product(s). In another aspect, the invention relates to genetically modified rats, as well as the descendants and ancestors of such animals, which are animal models of human cancer and methods of their use.

The present disclosure relates to a dwarfism animal model carrying an IGF-1 gene mutation and a method for generating the same. According to the present disclosure, the problem that an animal dies immediately after birth is overcome, the majority of phenotypes seen in Laron syndrome patients may be observed in the dwarfism animal model, and the dwarfism animal model has decreased expression of personality genes. Thus, the dwarfism animal model may be effectively used as a dwarfism-related disease model.

This invention relates to the engineering of animal cells, preferably mammalian, more preferably rat, that are deficient due to the disruption of tumor suppressor gene(s) or gene product(s). In another aspect, the invention relates to genetically modified rats, as well as the descendants and ancestors of such animals, which are animal models of human cancer and methods of their use.

The present invention relates to an isolated transgenic pig beta cell wherein the PKC and the PKA pathway are constitutively activated; to a transgenic pig islet comprising said transgenic pig beta cell; and to a transgenic pig comprising said transgenic pig beta cell or said transgenic pig islet. Another object of the invention is a device comprising a transgenic pig beta cell or a transgenic pig islet of the invention. The present invention also relates to the use of said transgenic pig beta cell, said transgenic pig islet, or said device for treating a disease, disorder or condition related to the impaired function of endocrine pancreas or of beta cell.

The present invention provides a platform for in vitro or in vivo study of the correlation between a Purkinje cell-specific, circadian clock gene and ataxia, in particular, a non-human transgenic animal model induced by genetic modification to knockdown the circadian clock gene, Bmal1, which causes abnormal diurnality and loss of certain motor skills and learning ability in a subject. The present invention also relates to methods of making and using the platform for various applications. A composition including a vector carrying the Bmal1 gene for restoring expression thereof in the subject's cerebellum to potentially treat ataxia arising from the Bmal1 gene deficiency is also provided.