Methods and compositions are provided for integrating coding sequences for antigen-binding proteins such as broadly neutralizing antibodies into a safe harbor locus such as an albumin locus in an animal in vivo.

Compositions and methods are provided for modifying a genomic locus of interest in a eukaryotic cell, a mammalian cell, a human cell or a non-human mammalian cell using a large targeting vector (LTVEC) comprising various endogenous or exogenous nucleic acid sequences as described herein. Further methods combine the use of the LTVEC with a CRISPR/Cas system. Compositions and methods for generating a genetically modified non-human animal comprising one or more targeted genetic modifications in their germline are also provided.

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*).

Genetically modified non-human animals and methods and compositions for making and using the same are provided, wherein the genetic modification comprises a humanization of an endogenous signal-regulatory protein gene, in particular a humanization of a SIRP gene. Genetically modified mice are described, including mice that express a human or humanized SIRP protein from an endogenous SIRP locus.

Genetically modified non-human animals comprising a humanized interleukin-15 (IL-15) gene. Cells, embryos, and non-human animals comprising a human IL-15 gene. Rodents that express humanized or human IL-15 protein.

This disclosure provides non-human animal models for age-related disorders and age-sensitive traits, particularly those caused by senescence-inducing stimuli, wherein the models comprise transgenes selectively expressed by senescent cells. The disclosure further provides methods for identifying therapeutic agents effective for treating or preventing age-related disorders and age-sensitive traits using the animal models, therapeutic agents identified using such methods, pharmaceutical compositions comprising the identified therapeutic agents, and methods of treating or preventing age-related disorders and age-sensitive traits.

A cell model for in vitro evaluation of compound-induced skin sensitization and a constructing method therefor. The method for constructing the cell model comprises the steps of: designing and constructing an sgRNA expression vector based on CRISPR/Cas9 vector system; designing and constructing a homologous recombinant vector capable of knocking a reporter gene linked to a self-cleaving peptide sequence into a specific site of the expression frame of the HMOX1 gene; co-transfecting the homologous recombinant vector, an hCas9 plasmid and the sgRNA expression vector into a cell, and carrying out monoclonal expansion to obtain the cell model. The present invention obtains a HaCaT cell model in which a luciferase gene is knocked in before the stop codon of the HMOX1 gene by combination of CRISPR/CAS9 and a monoclonal cell technique. The cell model realizes synchronous expression of the luciferase gene and the HMOX1 gene, thereby effectively distinguishing sensitizing compounds from non-sensitizing compounds.

This disclosure describes exemplary embodiments of a method of creating a YY animal broodstock, preferably in a single generation, wherein the broodstock includes only sperm-producing YY males and egg-producing YY males, the method comprising the steps of: (a) creating YY males via androgenesis; (b) exposing selected ones of the YY males created in step (a) to a feminizing hormone; and (c) identifying sperm-producing YY males and egg-producing YY males from among the YY males created in steps (a) and (b). In other embodiments, the method further comprises: (d) repeating steps (a) through (c) N times in order to produce N unrelated families of sperm-producing YY males and egg-producing YY males; and (e) cross-breeding various ones of the unrelated families produced in step (d) in order to produce a genetically-diverse YY progeny. In some embodiments, N may be about 60.

The present disclosure provides compositions and methods for controlling pain. The present disclosure provides methods for identifying agents that control pain.

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*).