The present application relates to a method for reestablishing stem cells capable of forming chimeras, and cells obtained by the method. The method of the present invention is a technique for monocloning stem cells, for example, capable of forming chimeras from a heterogeneous cell population to obtain high-quality stem cells.

New polypeptide agonists of AT2R are disclosed, as well as pharmaceutical compositions comprising the agonists, methods of their use in the treatment of diseases, conditions or disorders characterized by insufficient AT2R activity or excessive AT1R activity, and methods of their use as laboratory reagents for research purposes.

Non-human animals comprising a human or humanized C3 and/or C5 nucleic acid sequence are provided as well as methods for using the same to identify compounds capable of modulating the complement system. Non-human animals that comprise a replacement of the endogenous C5 gene and/or C3 gene with a human or humanized C5 gene and/or C3 gene, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized C5 gene under control of non-human C5 regulatory elements is also provided, including non-human animals that have a replacement of non-human C5-encoding sequence with human C5-encoding sequence at an endogenous non-human C5 locus. Non-human animals comprising a human or humanized C3 gene under control of non-human C3 regulatory elements is also provided, including non-human animals that have a replacement of non-human C3 protein-encoding sequence with human or humanized C3 protein-encoding sequence at an endogenous non-human C3 locus. Non-human animals comprising human or humanized C3 and/or C5 sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.

Disclosed herein are methods of treating HIBM in a subject comprising identifying subject in need thereof; and administering to the subject a compound, or a pharmaceutically acceptable salt, ester, amide, glycol, peptidyl, or prodrug thereof, wherein the compound is a compound that is biosynthesized in a wild type individual along a biochemical pathway between glucose and sialic acid, inclusive. Also disclosed herein are vectors comprising a nucleic acid sequence that encodes a polypeptide having at least 80% sequence identity to the sequence set forth in SEQ ID NO:2, recombinant cells comprising these vectors, and recombinant animals comprising the cells. In addition, methods of identifying a compound having therapeutic effect for HIBM are disclosed.

The present invention provides a prophylactic or therapeutic agent for a kidney disease, comprising Apoptosis Inhibitor of Macrophage (AIM) or a partial peptide thereof, or a nucleic acid comprising a base sequence encoding the same, or a screening method for a prophylactic or therapeutic agent for a kidney disease, comprising using an animal obtained by subjecting a non-human mammal deficient in AIM expression to unilateral ureteral obstruction or transient kidney ischemia/reperfusion and the like.

Mice comprising a modified p21-activated kinase (Pak) inhibitor domain (PID*), optionally linked with GST and capable of constitutive expression of PID are provided. Also provided are cells, tissue, and organs obtainable from such mice, and methods for producing mice comprising a modified p21-activated kinase (Pak) inhibitor domain (PID*).

The invention relates to expression systems useful for regulated expression of a gene of interest based on the constitutive expression of the original TetR repressor and the expression of the polynucleotide driven by a constitutive promoter operably linked to an operator sequence for a tetracycline operator sequence. The system can be provided as two different polynucleotides or as an all-in-one vector. The invention also relates to vectors, host cells and viral particles according to the invention as well as to the uses thereof for in vitro and in vivo production of products of interest or for therapy.

Disclosed are methods for making a vascularized hollow organ derived from human intestinal organoid (HIOs). The HIOs may be obtained from human embryonic stem cells (ESC's) and/or induced pluripotent stem cells (iPSCs), such that the HIO forms mature intestinal tissue. Also disclosed are methods for making a human intestinal tissue containing a functional enteric nervous system (ENS).

The present invention relates to a method of producing a non-human, mammalian oocyte carrying a modified target sequence in its genome, the method comprising the steps of introducing into a non-human, mammalian oocyte: (a) a clustered, regularly interspaced, short palindromic repeats (CRISPR)-associated protein 9 (Cas9 protein) or a nucleic acid molecule encoding said Cas9 protein; and (b-i) a target sequence specific CRISPR RNA (crRNA) and a trans-activating crRNA (tracr RNA) or a nucleic acid molecule encoding said RNAs; or (b-ii) a chimaeric RNA sequence comprising a target sequence specific crRNA and tracrRNA or a nucleic acid molecule encoding said RNA; wherein the Cas9 protein introduced in (a) and the RNA sequence(s) introduced in (b-i) or (b-ii) form a protein/RNA complex that specifically binds to the target sequence and introduces a single or double strand break within the target sequence. The present invention further relates to the method of the invention, wherein the target sequence is modified by homologous recombination with a donor nucleic acid sequence further comprising the step: (c) introducing a nucleic acid molecule into the cell, wherein the nucleic acid molecule comprises the donor nucleic acid sequence and regions homologous to the target sequence. The present invention also relates to a method of producing a non-human mammal carrying a modified target sequence in its genome.

The present invention relates to a novel method for identifying pairs of receptors/ligands, transgenic animals useful for carrying out said method, and the use of ligands and/or modulators of the interaction between a ligand and its receptor in the food industry, fragrance industry, and health industry, for instance.