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.

A non-human transgenic animal expressing ApoL1 is provided as well as a method for generating the same. Also provided is a method for identifying an agent capable of reducing the progression of an ApoL1 mediated nephropathy. Furthermore, an isolated antibody is provided which binds to the human variants of ApoL1.

The present invention relates to the field of anastasis, i.e., the process of reversal of apoptosis. More specifically, the present invention provides methods and compositions useful for studying anastasis. In one embodiment, the present invention provides an in vivo biosensor comprising (a) a transcription factor complex comprising the Gal4 transcription factor linked to an enzyme cleavable linker, wherein the transcription factor complex is tethered to the plasma membrane via a transmembrane domain; and (b) a reporter system comprising (1) a first nucleic acid encoding flippase operably linked to the upstream activating sequence that binds Gal4; and (2) a second nucleic acid comprising an FRT-flanked stop codon cassette separating a constitutive promoter and a fluorescent protein open reading frame.

Provided is gRNA specifically targeting β4GalNT2 gene. The gRNA specifically binds to the nucleotide sequence shown in any one of SEQ ID NOs. 1 and 2. Also provided are an animal model constructed using the gRNA, and an application thereof in the field of biomedicine.

Disclosed herein are rodents (such as, but not limited to, mice and rats) genetically modified to comprise a humanized Cxcl13 gene. The rodents disclosed herein have been shown to support better engraftment and proliferation of human cells such as chronic lymphocytic leukemic cells. Compositions and methods for making such genetically modified rodents, as well as methods of using such genetically modified rodents for testing candidate therapeutic agents (e.g., candidate anti-cancer drugs), are provided.

Establishment of pancreatic islet-like insulin producing cells by inducing differentiation of ES/iPS cells has been reported. However, no technique has been developed so far for producing functional pancreatic islet insulin-positive cells in a large amount. In addition, there are concerns regarding rejection responses, accidental immune responses, etc. The present invention provides pancreatic islet-like cells having Mycl gene introduced thereinto and a method that comprises inducing proliferation of pancreatic islet-like cells by transient expression of Mycl gene and then inducing degradation thereof into insulin producing cells.

A new DNA knock-in approach is provided based on the usage of three single guide RNA (sgRNA) to increase the integration efficiency of donor DNA based on the CRISRP-Cas system. The approach uses a pair of universal sgRNAs complementary to the donor DNA and a single sgRNA that targets the locus of interest. In various embodiments, targeting is achieved by pre-forming a DNA:RNA:protein (DNA:RNP) complex in vitro and introducing the complex into the embryo or cells of interest either by microinjection or transfection.

Methods for treating, and for identifying novel treatments for, neurodegenerative diseases, as well as animal and cellular models. The present disclosure shows that age dependent accumulation of genomic lesions leads to the production of RNA molecules within neurons that mimic viruses and intrinsically activate innate immune signaling, which triggers neurodegeneration. This hypothesis is supported by the results shown herein elucidating the mechanism of neurodegeneration in two mouse lines that specifically express different isoforms of the human amyloid precursor protein (hAPP) gene, which is associated with Alzheimer's disease (AD), exclusively in olfactory sensory neurons (OSNs) in the nose.

A transgenic animal model that is suitable for the cell or tissue specific assessing of thyroid hormone (TH) action in vivo is described. The recombinant DNA construct and methods suitable to generate such an animal are also provided. The assessment of TH action is based on a reporter that is dependent on an endogenously expressed thyroid hormone receptor (TR) and coregulators of said receptor.

Disclosed are a therapeutic agent for muscular dystrophy employing pluripotent stem cells obtained from dental pulp and a method for preparation thereof. The therapeutic agent for muscular dystrophy comprises pluripotent stem cell-enriched human dental pulp-derived cells as the active ingredient, and is prepared by a method of preparation comprising the steps of: (a) adding dental pulp-derived cells contained in a dental pulp suspension, in a culture vessel containing feeder cells whose proliferative ability is suppressed, onto a membrane having micropores that can block feeder cells from passing therethrough and supported within the vessel in a manner that avoids direct contact of the lower side face thereof with the feeder cells, and culturing the dental pulp-derived cells on the membrane while preventing direct contact with the feeder cells, and (b) recovering the cells having grown on the membrane as the pluripotent stem cell-enriched human dental pulp-derived cells.