A genetically modified mouse is provided, wherein the mouse expresses an immunoglobulin light chain repertoire characterized by a limited number of light chain variable domains. Mice are provided that present a choice of two human light chain variable gene segments such that the immunoglobulin light chains expresses by the mouse comprise one of the two human light chain variable gene segments. Methods for making bispecific antibodies having universal light chains using mice as described herein, including human light chain variable regions, are provided. Methods for making human variable regions suitable for use in multispecific binding proteins, e.g., bispecific antibodies, and host cells are provided.

Binding molecules to IL-17A. The binding molecules are useful in the treatment of disorders, for example psoriasis.

The invention discloses methods for the generation of chimaeric human-non-human antibodies and chimaeric antibody chains, antibodies and antibody chains so produced, and derivatives thereof including fully humanized antibodies; compositions comprising the antibodies, antibody chains and derivatives, as well as cells, non-human mammals and vectors, suitable for use in the methods.

A human artificial chromosome vector comprising a gene encoding a human antibody heavy chain, a gene encoding a human antibody light chain, and a gene encoding an IgM heavy chain constant region derived from a nonhuman animal.

Disclosed is a mouse artificial chromosome vector, comprising: a natural centromere derived from a mouse chromosome; a mouse-chromosome-derived long-arm fragment formed by deleting a long-arm distal region at a mouse chromosome long-arm site proximal to the centromere; and a telomere sequence, wherein the vector is stably retained in a cell and/or tissue of a mammal. In addition, disclosed are cells or non-human animals comprising the vector, and use of the cells or non-human animals.

The invention relates to an approach for introducing one or more desired insertions and/or deletions of known sizes into one or more predefined locations in a nucleic acid (e.g., in a cell or organism genome). They developed techniques to do this either in a sequential fashion or by inserting a discrete DNA fragment of defined size into the genome precisely in a predefined location or carrying out a discrete deletion of a defined size at a precise location. The technique is based on the observation that DNA single-stranded breaks are preferentially repaired through the HDR pathway, and this reduces the chances of indels (e.g., produced by NHEJ) in the present invention and thus is more efficient than prior art techniques. The invention also provides sequential insertion and/or deletions using single- or double-stranded DNA cutting.

Non-human animals, methods and compositions for making and using the same, are provided, wherein said non-human animals comprise a mutant L-kynurenine hydrolase (or kynureninase) gene. Said non-human animals may be described, in some embodiments, as having a genetic modification in an endogenous kynureninase gene so that said non-human animals express a kynureninase polypeptide that includes an amino acid substitution that results in the elimination of an epitope in said kynureninase polypeptide that is present in the membrane proximal external region of human immunodeficiency virus-1 gp41.

The invention provides non-human cells and mammals having a genome encoding chimeric antibodies and methods of producing transgenic cells and mammals. Certain aspects of the invention include chimeric antibodies, humanized antibodies, pharmaceutical compositions and kits. Certain aspects of the invention also relate to diagnostic and treatment methods using the antibodies of the invention.

The invention relates to a novel polypeptide vitamin K epoxide recycling polypeptide (VKORC1) as a target for coumarin and its derivatives. The invention further provides methods for identifying coumarin derivatives, and also claims VKORC1 polypeptides and VKORC1 nucleic acids containing a sequence abnormality associated with a VKORC1 associated deficiency such as warfarin resistance, wherein the VKORC1 polypeptides and VKORC1 nucleic acids can be used for diagnosing these deficiencies. Moreover, the invention relates to methods for identifying coumarin derivatives usable in pest control of rodents.

The present invention relates to polyclonal antibodies directed against at least one non-human biological pathogen, or against at least one molecule derived from said pathogen, towards a human or a non-human animal organism, wherein the said polyclonal antibodies are devoid of an antigenic determinant selected in a group comprising (i) N-glycolneuraminic acid (Neu5Gc) and/or (ii) a-1,3-galactose, and their use as a medicament.