Patent application number | Description | Published |
20110009280 | MULTI-CHAIN EUKARYOTIC DISPLAY VECTORS AND USES THEREOF - A eukaryotic expression vector capable of displaying a multi-chain polypeptide on the surface of a host cell is provided, such that the biological activity of the multi-chain polypeptide is exhibited at the surface of the host cell. Such a vector allows for the display of complex biologically active polypeptides, e.g., biologically active multi-chain polypeptides such as immunoglobulin Fab fragments. The present invention describes and enables the successful display of a multi-chain polypeptide on the surface of a eukaryotic host cell. Preferred vectors are described for expressing the chains of a multi-chain polypeptide in a host cell separately and independently (e.g., under separate vector control elements, and/or on separate expression vectors, thus forming a matched vector set). The use of such matched vector sets provides flexibility and versatility in the generation of eukaryotic display libraries, for example the ability to generate and to display multi-chain polypeptides by combining and recombining vectors that express variegations of the individual chains of a multi-chain polypeptide. Entire repertoires of novel chain combinations can be devised using such vector sets. | 01-13-2011 |
20110190159 | MULTI-CHAIN EUKARYOTIC DISPLAY VECTORS AND USES THEREOF - A eukaryotic expression vector capable of displaying a multi-chain polypeptide on the surface of a host cell is provided, such that the biological activity of the multi-chain polypeptide is exhibited at the surface of the host cell. Such a vector allows for the display of complex biologically active polypeptides, e.g., biologically active multi-chain polypeptides such as immunoglobulin Fab fragments. The present invention describes and enables the successful display of a multi-chain polypeptide on the surface of a eukaryotic host cell. Preferred vectors are described for expressing the chains of a multi-chain polypeptide in a host cell separately and independently (e.g., under separate vector control elements, and/or on separate expression vectors, thus forming a matched vector set). The use of such matched vector sets provides flexibility and versatility in the generation of eukaryotic display libraries, for example the ability to generate and to display multi-chain polypeptides by combining and recombining vectors that express variegations of the individual chains of a multi-chain polypeptide. Entire repertoires of novel chain combinations can be devised using such vector sets. | 08-04-2011 |
20110281360 | MULTI-CHAIN EUKARYOTIC DISPLAY VECTORS AND USES THEREOF - A eukaryotic expression vector capable of displaying a multi-chain polypeptide on the surface of a host cell is provided, such that the biological activity of the multi-chain polypeptide is exhibited at the surface of the host cell. Such a vector allows for the display of complex biologically active polypeptides, e.g., biologically active multi-chain polypeptides such as immunoglobulin Fab fragments. The present invention describes and enables the successful display of a multi-chain polypeptide on the surface of a eukaryotic host cell. Preferred vectors are described for expressing the chains of a multi-chain polypeptide in a host cell separately and independently (e.g., under separate vector control elements, and/or on separate expression vectors, thus forming a matched vector set). The use of such matched vector sets provides flexibility and versatility in the generation of eukaryotic display libraries, for example the ability to generate and to display multi-chain polypeptides by combining and recombining vectors that express variegations of the individual chains of a multi-chain polypeptide. Entire repertoires of novel chain combinations can be devised using such vector sets. | 11-17-2011 |
20110281761 | MULTI-CHAIN EUKARYOTIC DISPLAY VECTORS AND USES THEREOF - A eukaryotic expression vector capable of displaying a multi-chain polypeptide on the surface of a host cell is provided, such that the biological activity of the multi-chain polypeptide is exhibited at the surface of the host cell. Such a vector allows for the display of complex biologically active polypeptides, e.g., biologically active multi-chain polypeptides such as immunoglobulin Fab fragments. The present invention describes and enables the successful display of a multi-chain polypeptide on the surface of a eukaryotic host cell. Preferred vectors are described for expressing the chains of a multi-chain polypeptide in a host cell separately and independently (e.g., under separate vector control elements, and/or on separate expression vectors, thus forming a matched vector set). The use of such matched vector sets provides flexibility and versatility in the generation of eukaryotic display libraries, for example the ability to generate and to display multi-chain polypeptides by combining and recombining vectors that express variegations of the individual chains of a multi-chain polypeptide. Entire repertoires of novel chain combinations can be devised using such vector sets. | 11-17-2011 |
20110287971 | MULTI-CHAIN EUKARYOTIC DISPLAY VECTORS AND USES THEREOF - A eukaryotic expression vector capable of displaying a multi-chain polypeptide on the surface of a host cell is provided, such that the biological activity of the multi-chain polypeptide is exhibited at the surface of the host cell. Such a vector allows for the display of complex biologically active polypeptides, e.g., biologically active multi-chain polypeptides such as immunoglobulin Fab fragments. The present invention describes and enables the successful display of a multi-chain polypeptide on the surface of a eukaryotic host cell. Preferred vectors are described for expressing the chains of a multi-chain polypeptide in a host cell separately and independently (e.g., under separate vector control elements, and/or on separate expression vectors, thus forming a matched vector set). The use of such matched vector sets provides flexibility and versatility in the generation of eukaryotic display libraries, for example the ability to generate and to display multi-chain polypeptides by combining and recombining vectors that express variegations of the individual chains of a multi-chain polypeptide. Entire repertoires of novel chain combinations can be devised using such vector sets. | 11-24-2011 |
20130331289 | MULTI-CHAIN EUKARYOTIC DISPLAY VECTORS AND USES THEREOF - A eukaryotic expression vector capable of displaying a multi-chain polypeptide on the surface of a host cell is provided, such that the biological activity of the multi-chain polypeptide is exhibited at the surface of the host cell. Such a vector allows for the display of complex biologically active polypeptides, e.g., biologically active multi-chain polypeptides such as immunoglobulin Fab fragments. The present invention describes and enables the successful display of a multi-chain polypeptide on the surface of a eukaryotic host cell. Preferred vectors are described for expressing the chains of a multi-chain polypeptide in a host cell separately and independently (e.g., under separate vector control elements, and/or on separate expression vectors, thus forming a matched vector set). The use of such matched vector sets provides flexibility and versatility in the generation of eukaryotic display libraries, for example the ability to generate and to display multi-chain polypeptides by combining and recombining vectors that express variegations of the individual chains of a multi-chain polypeptide. Entire repertoires of novel chain combinations can be devised using such vector sets. | 12-12-2013 |
Patent application number | Description | Published |
20100113304 | COMPATIBLE DISPLAY VECTOR SYSTEMS - The present invention provides a polynucleotide vector system used during polypeptide display that can be used to facilitate transfer of pools of polynucleotides encoding antigen binding proteins of interest. The present invention also provides methods that allow seamless conversion of pools of polynucleotides encoding antigen binding proteins using a restriction enzyme digestion and ligation strategy. | 05-06-2010 |
20100120634 | COMPATIBLE DISPLAY VECTOR SYSTEMS - The present invention provides a polynucleotide vector system used during polypeptide display that can be used to facilitate transfer of pools of polynucleotides encoding antigen binding proteins of interest. The present invention also provides methods that allow seamless conversion of pools of polynucleotides encoding antigen binding proteins using a restriction enzyme digestion and ligation strategy. | 05-13-2010 |
20100124764 | SINGLE CHAIN ANTIBODY LIBRARY DESIGN - The invention provides polynucleotide vectors and linkers and methods for designing and making single chain variable fragment (“ScFv”) libraries. The invention also provides polynucleotide vectors and linkers and methods for reformatting the ScFv library into Fab and IgG formats for high throughput production and screening. | 05-20-2010 |
20100143349 | HUMANIZED ANTI-RAGE ANTIBODY - Compositions comprising antigen binding polypeptides that bind specifically to Receptor For Advanced Glycation End-product (RAGE) and comprises: one or more complementarity determining regions (CDRs) with improved binding efficiency over a parental monoclonal antibody to RAGE are described. Antibodies containing the CDR's and methods of treating a RAGE-related disease or disorder comprising administering to the subject a therapeutically effective amount of the compositions of the invention are also provided. | 06-10-2010 |
20130217597 | Compatible Display Vector Systems - The present invention provides a polynucleotide vector system used during polypeptide display that can be used to facilitate transfer of pools of polynucleotides encoding antigen binding proteins of interest. The present invention also provides methods that allow seamless conversion of pools of polynucleotides encoding antigen binding proteins using a restriction enzyme digestion and ligation strategy. | 08-22-2013 |