| Patent application number | Description | Published |
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| 20100016553 | Internalization - A target internalized within a cell (and a binding member that specifically binds thereto) can be identified in an efficient manner by segregating (or substantially segregating) genetic material encoding the binding member from genetic material encoding a binding member that binds to a target that is not internalized. This can be achieved by employing a display library of binding members having a genotype/phenotype linkage via a non-fusion protein format, whereby genetic material encoding non-in-ternalized targets can be segregated (or substantially segregated) without lysing the cells. Internalized genetic material subsequently can be isolated and amplified. | 01-21-2010 |
| 20100317546 | Display Vectors and Methods and Uses Thereof - The present invention relates, in one aspect, to a vector comprising (a) a first polynucleotide capable of encoding a first (poly)peptide comprising at least one cysteine residue, and (b) a second polynucleotide capable of encoding a second (poly)peptide which is a cell surface anchor comprising at least one cysteine residue, wherein the vector is operable in a eukaryotic host cell to express and to cause or allow the attachment of said first (poly)peptide to said second (poly)peptide by formation of a disulfide bond between said cysteine residues comprised within said first (polypeptide and said second (poly)peptide, respectively, wherein said first (poly)peptide is exhibited at the surface of a eukaryotic host cell. | 12-16-2010 |
| 20100330577 | METHODS FOR IDENTIFICATION OF AN ANTIBODY OR A TARGET - This disclosure relates to methods for identifying an antibody, a target molecule, or an agent by analyzing the immunoglobulin repertoire sequence data in a sample and by determining the most dominant VH and VL chains present in said sample, as well as materials used therewith. | 12-30-2010 |
| 20110200589 | DECONVOLUTION METHOD - The present invention relates generally to novel applications in combating infectious disease, cancer, allergy and autoimmune diseases. In one aspect, the invention relates to identifying one or more protein binding moieties of interest. In another aspect, the present invention relates to identifying one or more candidate vaccines. | 08-18-2011 |
| Patent application number | Description | Published |
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| 20080236669 | MICROFABRICATED ELASTOMERIC VALVE AND PUMP SYSTMES - A method of fabricating an elastomeric structure, comprising: forming a first elastomeric layer on top of a first micromachined mold, the first micromachined mold having a first raised protrusion which forms a first recess extending along a bottom surface of the first elastomeric layer; forming a second elastomeric layer on top of a second micromachined mold, the second micromachined mold having a second raised protrusion which forms a second recess extending along a bottom surface of the second elastomeric layer; bonding the bottom surface of the second elastomeric layer onto a top surface of the first elastomeric layer such that a control channel forms in the second recess between the first and second elastomeric layers; and positioning the first elastomeric layer on top of a planar substrate such that a flow channel forms in the first recess between the first elastomeric layer and the planar substrate. | 10-02-2008 |
| 20080277005 | MICROFABRICATED ELASTOMERIC VALVE AND PUMP SYSTEMS - A method of fabricating an elastomeric structure, comprising: forming a first elastomeric layer on top of a first micromachined mold, the first micromachined mold having a first raised protrusion which forms a first recess extending along a bottom surface of the first elastomeric layer; forming a second elastomeric layer on top of a second micromachined mold, the second micromachined mold having a second raised protrusion which forms a second recess extending along a bottom surface of the second elastomeric layer; bonding the bottom surface of the second elastomeric layer onto a top surface of the first elastomeric layer such that a control channel forms in the second recess between the first and second elastomeric layers; and positioning the first elastomeric layer on top of a planar substrate such that a flow channel forms in the first recess between the first elastomeric layer and the planar substrate. | 11-13-2008 |
| 20090151422 | MICROFABRICATED ELASTOMERIC VALVE AND PUMP SYSTEMS - A method of fabricating an elastomeric structure, comprising: forming a first elastomeric layer on top of a first micromachined mold, the first micromachined mold having a first raised protrusion which forms a first recess extending along a bottom surface of the first elastomeric layer; forming a second elastomeric layer on top of a second micromachined mold, the second micromachined mold having a second raised protrusion which forms a second recess extending along a bottom surface of the second elastomeric layer; bonding the bottom surface of the second elastomeric layer onto a top surface of the first elastomeric layer such that a control channel forms in the second recess between the first and second elastomeric layers; and positioning the first elastomeric layer on top of a planar substrate such that a flow channel forms in the first recess between the first elastomeric layer and the planar substrate. | 06-18-2009 |
