The invention discloses a method for screening a therapeutic target of acute radiation-induced gastrointestinal syndrome and use of TIGAR target in the preparation of a medicine for treating radiation-induced gastrointestinal syndrome. The CreERT-loxP transgenic mouse model is used, in which quiescent intestinal crypt stem cells are effectively promoted to proliferate after exposure to high-dose ionizing radiation, to screen a therapeutic target that still has a therapeutic effect for radiation-induced gastrointestinal syndrome 18-24 h after ionizing radiation. Gene splicing occurs in particular cells in the CreERT-loxP transgenic mice only after the injection of tamoxifen, thereby regulating gene expression. The actual situation of initial exposure and then treatment after a nuclear accident is well simulated, so the invention is of great practical significance. The screened therapeutic target is developed into a medicine for treatment after nuclear accidents, to save precious time for the treatment after nuclear accidents.

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) CD38, and methods of use thereof.

This document relates to methods and materials involved in the deconvolution of serum. For example, transgenic non-human animals (e g , transgenic mice) that secrete tagged (e.g., biotinylated) molecules from a particular tissue are provided.

The invention relates to nucleic acid constructs for expression in mice for the reproduction of heavy chain only antibodies and V.sub.H domains, transgenic mice, related methods and uses.

Provided herein are compositions and methods for selective expression of a transgene. Compositions and methods for selective expression of a transgene comprise one or more human regulatory elements, which, when operably linked to a transgene, can facilitate selective expression of a transgene (for example, cell-type selective expression) in a target cell as compared to at least one or more non-target cells.

The technology relates to a method for inducing cardiomyogenesis comprising administering a therapeutically effective amount of either or both of KLF1 and KLF2b to increase the level of KLF1 and/or KLF2b in the cardiomyocytes thereby inducing cardiomyogenesis.

Provided is a pharmaceutical composition for treating a degenerative brain disease, including a glycine transporter as an active ingredient. A composition including, as an active ingredient, a glycine transporter protein, a fragment thereof or a nucleic acid molecule encoding the protein or the fragment thereof, a vector including the nucleic acid molecule, or a cell transformed with the vector including the nucleic acid molecule, according to an embodiment, not only can achieve excellent effect(s) of inhibiting amyloid-beta aggregation and/or degrading aggregated amyloid-beta, but also degrades tau protein (and/or inhibition of the aggregation thereof), inhibits the hyperphosphorylation of tau protein, and has excellent blood-brain barrier permeability, thus making it possible to successively act on brain tissues. Therefore, the composition can be effectively applied to the prevention and/or treatment of various degenerative brain diseases associated with amyloid-beta aggregation, tau protein aggregation, and/or hyperphosphorylated tau protein.

Among the various aspects of the present disclosure is the provision of engineered cells, animal models, and uses thereof for modeling low grade glioma (LGG). An aspect of the present disclosure provides for a population of cells engineered to silence, downregulate, knock out, or reduce or knock down Cxcl10 expression. Another aspect of the present disclosure provides for an animal engineered to be deficient in Cxcl10, downregulate or reduce expression of Cxcl10, knock out Cxcl10, or knock down Cxcl10 (e.g., Cxcl10.sup.−/− mice). Yet another aspect of the present disclosure provides for a method of growing tumor cell lines or patient-derived xenografts for LGG tumors in an animal (e.g., mouse, rat) including providing a mouse or rat harboring somatic homozygous deletion in the Rag1 or Cxcl10 gene, and implanting an amount of the cells in mice sufficient to grow a tumor.

Provided herein are methods and compositions related to non-human animals that express exogenous Terminal Deoxynucleotidyltransferase (TdT).

A genetically modified rodent is provided that comprises a modified Acvr1 gene that comprises a conditional altered exon 7 encoding R258G in antisense orientation, flanked by site-specific recombinase recognition sites, wherein the altered exon is inverted to sense orientation upon action of a recombinase, resulting in ectopic bone formation.