Non-human animals, cells, methods and compositions for making and using the same are provided, wherein the non-human animals and cells comprise a humanized a proliferation-inducing ligand gene. Non-human animals and cells that express a human or humanized a proliferation-inducing ligand protein from an endogenous a proliferation-inducing ligand locus are described.

Described herein are anchor-modified immunoglobulin polypeptides, wherein the anchor moors the immunoglobulin polypeptide to a receptor of interest. The anchor-modified immunoglobulin polypeptides are generally characterized at the N-terminus with an anchor, e.g., the receptor binding portion of a ligand that binds a receptor. Non-human animals genetically modified with recombinant immunoglobulin segments that encode the anchor-modified immunoglobulin polypeptides are capable of making the anchor-modified immunoglobulin polypeptides. Such non-human animals also provided, along with methods and compositions for making and using the non-human animals. Methods for producing anchor-modified immunoglobulins from non-human animals are also provided, as well as anchor-modified immunoglobulins generated therefrom.

A previously uncharacterized gene and gene product are disclosed herein that increase blood glucose clearance independent of insulin. Also described is a methodology for enriching for mRNAs transcribing excreted and membrane bound proteins as well as a non-human animal expressing a labeled SEC61b protein.

The present invention comprises non-human vertebrate cells and non-human mammals having a genome comprising an introduced partially human immunoglobulin region, said introduced region comprising human V.sub.H coding sequences and non-coding V.sub.H sequences based on the endogenous genome of the non-human mammal.

Compositions and methods for improving embryo development, treating idiopathic male factor infertility, and enabling infertile/sub-fertile/sterile men to father their own genetic offspring are provided. Typically, the methods include administering into a male or female gamete or fertilized embryo an effective amount of a compound that increases bioavailability of a TET protein to improve development of an embryo resulting from fertilization of the female gamete by a male gamete. The compound can be administered into the gamete or embryo before, during, or after fertilization. The compound can be administered by an injection such as intracytoplasmic injection. The compound and the male gamete can be administered in combination by intracytoplasmic sperm injection. Methods of making male gametes, and methods of modifying the genome of a male gamete or embryo using an effective amount of a gene editing composition to correct a gene mutation or anomaly in the genome thereof are also provided.

Materials and methods for making multiplex gene edits in cells and are presented. Further methods include animals and methods of making the same. Methods of making chimeric animals are presented, as well as chimeric animals.

The present invention relates to a nucleic acid molecule encoding (I) a polypeptide having the activity of an endonuclease, which is (a) a nucleic acid molecule encoding a polypeptide comprising or consisting of the amino acid sequence of SEQ ID NO: 1; (b) a nucleic acid molecule comprising or consisting of the nucleotide sequence of SEQ ID NO: 2; (c) a nucleic acid molecule encoding an endonuclease, the amino acid sequence of which is at least 70% identical to the amino acid sequence of SEQ ID NO: 1; (d) a nucleic acid molecule comprising or consisting of a nucleotide sequence which is at least 50% identical to the nucleotide sequence of SEQ ID NO: 2; (e) a nucleic acid molecule which is degenerate with respect to the nucleic acid molecule of (d); or (f) a nucleic acid molecule corresponding to the nucleic acid molecule of any one of (a) to (e) wherein T is replaced by U; (II) a fragment of the polypeptide of (I) having the activity of an endonuclease. Also, the present invention relates to a vector comprising the nucleic acid molecule and a protein encoded by said nucleic acid molecule. Further, the invention relates to a method of modifying the genome of a eukaryotic cell and a method of producing a non-human vertebrate or mammal.

The present invention provides cells, transgenic animals, including transgenic mammals and particularly rodents, comprising engineered immunoglobulin alleles. Mutations in the alleles are designed to compromise allelic exclusion and have potential to be exploited for the isolation of bispecific antibodies.

Binding molecules that bind specifically to IL-17RA. The binding molecules are useful in the treatment of disease, for example psoriasis.

Non-human animals, cells, methods and compositions for making and using the same are provided, wherein the non-human animals and cells comprise a humanized B-cell activating factor gene. Non-human animals and cells that express a human or humanized B-cell activating factor protein from an endogenous B-cell activating factor locus are described.