The present invention provides a genetically-modified T cell comprising in its genome a modified human T cell receptor alpha gene. The modified T cell receptor alpha gene comprises an exogenous sequence of interest inserted into an intron within the T in cell receptor alpha gene that is positioned 5 upstream of TRAC exon 1. The exogenous sequence of interest can comprise an exogenous splice acceptor site and/or a poly A signal, which disrupts expression of the T cell receptor alpha subunit. The sequence of interest can also include a coding sequence for a polypeptide, such as a chimeric antigen receptor. Additionally, the endogenous splice donor site and the endogenous splice acceptor site flanking the intron are unmodified and/or remain functional. The invention further provides compositions and methods for producing the genetically-modified cell, and populations of the cell, and methods for the treatment of a disease, such as cancer, using such cells.

The present invention relates to genetically engineered non-human mammal and cells, organs and tissues; to use thereof in medicinal and disease research; to a method for producing non-human animals and cells, organs and tissues; and to a method for researching in medicine and disease by virtue of the non-human mammals or cells, organs or tissues.

Provided is a method for screening a corynebacterium constitutive expression vector promoter on the basis of transcriptome sequencing; and further provided are the corynebacterium constitutive expression vector promoter screened on the basis of transcriptome sequencing, an expression vector comprising the promoter, a recombination strain obtained by transforming a host cell Corynebacterium glutamicum using the expression vector, and applications thereof.

Disclosed in the present invention is a long-acting recombinant human follicle-stimulating hormone-Fc fusion protein (referred to as hFSH-Fc for short) and a preparation method thereof, wherein the hFSH-Fc protein is a dimerized fusion protein and the amino acid sequence thereof successively comprises an hFSH subunit, CTP, an hFSH subunit, a flexible peptide linker and human IgG2 Fc variant from N-terminal to C-terminal. Also disclosed in the present invention is the use of the recombinant hFSH-Fc fusion protein composition in preparing drugs in the animal breeding field.

The present invention relates to genetically engineered non-human mammal and cells, organs and tissues; to use thereof in medicinal and disease research; to a method for producing non-human animals and cells, organs and tissues; and to a method for researching in medicine and disease by virtue of the non-human mammals or cells, organs or tissues.

Nucleic acid constructs and methods for rendering modifications to a genome are provided, wherein the modifications comprise null alleles, conditional alleles and null alleles comprising COINs. Multifunctional alleles (MFA) are provided, as well as methods for making them, which afford the ability in a single targeting to introduce an allele that can be used to generate a null allele, a conditional allele, or an allele that is a null allele and that further includes a COIN. MFAs comprise pairs of cognate recombinase recognition sites, an actuating sequence and/or a drug selection cassette, and a nucleotide sequence of interest, and a COIN, wherein upon action of a recombinase a conditional allele with a COIN is formed. In a further embodiment, action of a second recombinase forms an allele that contains only a COIN in sense orientation. In a further embodiment, action by a third recombinase forms an allele that contains only the actuating sequence in sense orientation.

The invention provides compositions and methods for performing mammalian cell genetics, e.g., genetic screens, using near-haploid cells. The invention further provides genes and gene products isolated using the inventive methods and methods of use thereof.

A single nucleotide polymorphism (SNP) that results in development of a Type VI collagen, alpha 1 chain-related disorder, and the use of the SNP to identify individuals at risk for developing COL6-related disorders (COL6-RD). Also provided are antisense oligomers for treating individuals at risk for developing COL6-RD, as well as methods for screening compounds for their potential as therapeutic agents.

The invention features compositions and methods for identifying orthogonal transcriptional switches derived from Tet repressor homologs for Saccharomyces cerevishiae regulated by 2,4-diacetylphloroglucinol (DAPG) and other ligands.

The invention relates to vectors and mammalian cells in a system useful for switching on or switching off gene expression in response to fatty acids, and a method of treating diet-induced obesity. In particular, a synthetic intracellular lipid-sensing receptor was constructed that constantly monitors blood fatty acid levels, processes diet-associated hyperlipidemia and coordinates reversible and adjustable expression of the anorectic peptide hormone pramlintide to reduce dietary intake, blood fat levels and body weight.