A genetically modified mouse is provided that comprises a conditional Acvr1 allele that comprises a mutated exon that, upon induction, converts to a mutant exon phenotype, wherein the mutant exon phenotype includes ectopic bone formation. Mice comprising a mutant Acvr1 exon 5 in antisense orientation, flanked by site-specific recombinase recognition sites, are provided, wherein the mice further comprise a site-specific recombinase that recognizes the site-specific recombinase recognitions sites, wherein the recombinase is induced upon exposure of the mouse to tamoxifen. Upon exposure to tamoxifen, the recombinase is expressed and acts on the RRS-flanked mutant exon 5 and places the mutant exon 5 in sense orientation and deletes the wild-type exon.

Disclosed herein, are inducible immunodeficient animals and methods to make them by adding an IL2Rg/RAG2 rescue cassette (RG-reg) or an IL2Rg/RAG2/FAH rescue cassette (FRG-reg) to a line of IL2Rg/RAG2 knockout (RG-KO) or IL2Rg/RAG2/FAH knockout (FRG-KO) swine. The rescue cassette enables line breeding of immunocompetent (regRG-KO) or (regFRG-KO) swine for rapid propagation. The rescue cassette can be excised, specifically in germ cells of regRG-KO or regFRG-KO swine, such that offspring of animals do not possess the rescue cassette and are immunodeficient. The immunodeficient swine also provide host embryos having genetic ablations to provide a niche for organ complementation by human stem cells.

It was found that bacteria belonging to the genus Clostridium induce accumulation of regulatory T cells (Treg cells) in the colon. Moreover, the present inventors found that regulatory T cells (Treg cells) induced by from these bacteria suppressed proliferation of effector T-cells. From these findings, the present inventors found that the use of bacteria belonging to the genus Clostridium or a physiologically active substance derived therefrom made it possible to induce proliferation or accumulation of regulatory T cells (Treg cells), and further to suppress immune functions.

A genetically modified mouse is provided that comprises a conditional Acvr1 allele that comprises a mutated exon that, upon induction, converts to a mutant exon phenotype, wherein the mutant exon phenotype includes ectopic bone formation. Mice comprising a mutant Acvr1 exon 5 in antisense orientation, flanked by site-specific recombinase recognition sites, are provided, wherein the mice further comprise a site-specific recombinase that recognizes the site-specific recombinase recognitions sites, wherein the recombinase is induced upon exposure of the mouse to tamoxifen. Upon exposure to tamoxifen, the recombinase is expressed and acts on the RRS-flanked mutant exon 5 and places the mutant exon 5 in sense orientation and deletes the wild-type exon.

It is intended to develop and provide a technique of conveniently allowing a transgenic silkworm by itself and at an individual level to produce a recombinant protein having a mammalian-type sugar chain sialic acid attached thereto, without the need of a baculovirus expression system or oral and transdermal administration of sialic acid. An expression vector was developed which can induce the expression of a mammalian-type glycosylation-related gene group only in a silk gland such that the recombinant protein modified with the mammalian-type sugar chain has no adverse effect on the silkworm itself. A transgenic silkworm harboring the expression vector was prepared.

It was found that bacteria belonging to the genus Clostridium induce accumulation of regulatory T cells (Treg cells) in the colon. Moreover, the present inventors found that regulatory T cells (Treg cells) induced by from these bacteria suppressed proliferation of effector T-cells. From these findings, the present inventors found that the use of bacteria belonging to the genus Clostridium or a physiologically active substance derived therefrom made it possible to induce proliferation or accumulation of regulatory T cells (Treg cells), and further to suppress immune functions.

Provided herein are methods and compositions for selectively promoting inflammasome activity in myeloid cells.

The present disclosure is directed, in some embodiments, to compositions and methods for inducible modification of a cell genome.

Provided are MYC-reporters and MYC-reporter expression vectors having MYC-reporter activity. Also provided are cells containing MYC-reporters and/or MYC-reporter expression vectors as well as animals containing such cells and/or genetically modified to contain one or more MYC-reporters and/or expression vectors. Also provided are methods of screening, including methods of screening a candidate agent for MYC repression. The subject methods may, in some instances, employ one or more of the provided MYC-reporters, expression vectors, cells and/or transgenic animals.

A knock-in non-human mammal comprising a recombinant androgen receptor (AR) cassette containing an exogenous human polyglutamine (polyQ) tract encoding sequence in exon 1, wherein the human polyQ tract encoding sequence is stably integrated into the genome of the animal. Also provided are recombinant cells, fertilized eggs and tissues. The resulting animal displays a wide range of phenotypes, best characterized as Metabolic Syndrome and can be used in screening and other assays.