Sortase molecules and methods described herein allow for the construction of a CAR or CAR member, e.g., in situ, on a CARX, e.g., CART, cell. For example, sortase mediated transfer of an antigen binding domain, e.g., a scFv, onto a CAR member having a sortase acceptor motif in place of an antigen binding domain can provide for a complete CAR member on a cell wherein the cell does not comprise nucleic acid that encodes the complete CAR member.

Provided are methods for efficiently and comprehensively screening antibody repertoires from B cells to obtain and produce molecules with binding characteristics and functional activities for use in human therapy.

Provided are methods for efficiently and comprehensively screening antibody repertoires from B cells to obtain and produce molecules with binding characteristics and functional activities for use in human therapy.

The present application addresses the problem of providing an Fc-binding protein having an improved antibody separation ability. The present application also addresses the problem of providing a high-accuracy antibody separation method using an insoluble carrier having the protein immobilized thereon. The problems can be solved by: an Fc-binding protein in which at least an amino acid substitution at a specific position therein occurs and which has reduced affinity for an antibody; and an antibody separation method including allowing an equilibration buffer solution to pass through a column in which an insoluble carrier having the protein immobilized thereon is filled to equilibrate the column, adding a solution containing an antibody to cause the adsorption of the antibody onto the carrier, and eluting the antibody adsorbed on the carrier using an elution solution.

The present application addresses the problem of providing an Fc-binding protein having an improved antibody separation ability. The present application also addresses the problem of providing a high-accuracy antibody separation method using an insoluble carrier having the protein immobilized thereon. The problems can be solved by: an Fc-binding protein in which at least an amino acid substitution at a specific position therein occurs and which has reduced affinity for an antibody; and an antibody separation method including allowing an equilibration buffer solution to pass through a column in which an insoluble carrier having the protein immobilized thereon is filled to equilibrate the column, adding a solution containing an antibody to cause the adsorption of the antibody onto the carrier, and eluting the antibody adsorbed on the carrier using an elution solution.

This invention relates to engineered CH2 domain molecules containing amino acids in the framework regions that confer enhanced stability and/or solubility. In particular, the invention provides engineered CH2 domain molecules containing amino acid residues that differ from a wild type CH2 domain or a template CH2 domain molecule within one or more framework regions and that result in improved stability and/or solubility.

An object of the present invention is to provide an animal cell with improved proliferation ability and survival rate, a method for producing the animal cell, and a method for producing a target protein formed of the animal cell. According to the present invention, there is provided an animal cell having a gene encoding a target protein and a foreign gene encoding an isovaleryl-CoA dehydrogenase, in which the isovaleryl-CoA dehydrogenase is overexpressed.

An object of the present invention is to provide an animal cell with improved proliferation ability and survival rate, a method for producing the animal cell, and a method for producing a target protein formed of the animal cell. According to the present invention, there is provided an animal cell having a gene encoding a target protein and a foreign gene encoding an isovaleryl-CoA dehydrogenase, in which the isovaleryl-CoA dehydrogenase is overexpressed.

Provided are compositions for increasing the half-life of a polypeptide or polypeptides in a canine and methods of their use. The compositions involve variant canine IgG Fc regions.

The invention relates generally to polypeptides that include a cleavable moiety that is a substrate for at least one protease selected from matriptase and u-plasminogen activator (uPA), to activatable antibodies and other larger molecules that include the cleavable moiety that is a substrate for at least one protease selected from matriptase and u-plasminogen activator, and to methods of making and using these polypeptides that include a cleavable moiety that is a substrate for at least one protease selected from matriptase and u-plasminogen activator in a variety of therapeutic, diagnostic and prophylactic indications.