Patent application number | Description | Published |
20080299616 | Malate Synthase Regulatory Sequences for Heterologous Gene Expression in Pichia - The present invention relates to the isolation of DNA regulatory regions of the malate synthase 1 gene (MLS1) from the yeast, | 12-04-2008 |
20090155847 | Combinatorial DNA library for producing modified N-glycans in lower eukaryotes - The present invention relates to eukaryotic host cells having modified oligosaccharides which may be modified further by heterologous expression of a set of glycosyltransferases, sugar transporters and mannosidases to become host-strains for the production of mammalian, e.g., human therapeutic glycoproteins. The invention provides nucleic acid molecules and combinatorial libraries which can be used to successfully target and express mammalian enzymatic activities such as those involved in glycosylation to intracellular compartments in a eukaryotic host cell. The process provides an engineered host cell which can be used to express and target any desirable gene(s) involved in glycosylation. Host cells with modified oligosaccharides are created or selected. N-glycans made in the engineered host cells have a Man | 06-18-2009 |
20090209024 | Combinatorial DNA library for producing modified N-glycans in lower eukaryotes - The present invention relates to eukaryotic host cells having modified oligosaccharides which may be modified further by heterologous expression of a set of glycosyltransferases, sugar transporters and mannosidases to become host-strains for the production of mammalian, e.g., human therapeutic glycoproteins. The invention provides nucleic acid molecules and combinatorial libraries which can be used to successfully target and express mammalian enzymatic activities such as those involved in glycosylation to intracellular compartments in a eukaryotic host cell. The process provides an engineered host cell which can be used to express and target any desirable gene(s) involved in glycosylation. Host cells with modified oligosaccharides are created or selected. N-glycans made in the engineered host cells have a Man | 08-20-2009 |
20100016555 | N-Acetylglucosaminyltransferase III Expression in Lower Eukaryotes - The present invention relates to eukaryotic host cells having modified oligosaccharides which may be modified further by heterologous expression of a set of glycosyltransferases, sugar transporters and mannosidases to become host-strains for the production of mammalian, e.g., human therapeutic glycoproteins. The process provides an engineered host cell which can be used to express and target any desirable gene(s) involved in glycosylation. Host cells with modified lipid-linked oligosaccharides are created or selected. N-glycans made in the engineered host cells exhibit GnTIII activity, which produce bisected N-glycan structures and may be modified further by heterologous expression of one or more enzymes, e.g., glycosyltransferases, sugar transporters and mannosidases, to yield human-like glycoproteins. For the production of therapeutic proteins, this method may be adapted to engineer cell lines in which any desired glycosylation structure may be obtained. | 01-21-2010 |
20100016561 | N-Acetylglucosaminyltransferase III Expression in Lower Eukaryotes - The present invention relates to eukaryotic host cells having modified oligosaccharides which may be modified further by heterologous expression of a set of glycosyltransferases, sugar transporters and mannosidases to become host-strains for the production of mammalian, e.g., human therapeutic glycoproteins. The process provides an engineered host cell which can be used to express and target any desirable gene(s) involved in glycosylation. Host cells with modified lipid-linked oligosaccharides are created or selected. N-glycans made in the engineered host cells exhibit GnTIII activity, which produce bisected N-glycan structures and may be modified further by heterologous expression of one or more enzymes, e.g., glycosyltransferases, sugar transporters and mannosidases, to yield human-like glycoproteins. For the production of therapeutic proteins, this method may be adapted to engineer cell lines in which any desired glycosylation structure may be obtained. | 01-21-2010 |
20100311122 | VECTORS AND YEAST STRAINS FOR PROTEIN PRODUCTION - Lower eukaryote host cells in which the function of at least one endogenous gene encoding a chaperone protein, such as a Protein Disulphide Isomerase (PDI), has been reduced or eliminated and at least one mammalian homolog of the chaperone protein is expressed are described. In particular aspects, the host cells further include a deletion or disruption of one or more O-protein mannosyltransferase genes, and/or overexpression of an endogenous or exogenous Ca2 | 12-09-2010 |
20110053214 | PRODUCTION OF GALACTOSYLATED GLYCOPROTEINS IN LOWER EUKARYOTES - The present invention provides a novel lower eukaryotic host cell producing human-like glycoproteins characterized as having a terminal β-galactose residue and essentially lacking fucose and sialic acid residues. The present invention also provides a method for catalyzing the transfer of a galactose residue from UDP-galactose onto an acceptor substrate in a recombinant lower eukaryotic host cell, which can be used as a therapeutic glycoprotein. | 03-03-2011 |
20110143396 | VECTORS AND YEAST STRAINS FOR PROTEIN PRODUCTION: CA2+ ATPASE OVEREXPRESSION - Lower eukaryote host cells in which an endogenous or heterologous Ca | 06-16-2011 |
20110312032 | VECTORS AND YEAST STRAINS FOR PROTEIN PRODUCTION - Lower eukaryote host cells in which the function of at least one endogenous gene encoding a chaperone protein, such as a Protein Disulphide Isomerase (PDI), has been reduced or eliminated and at least one mammalian homolog of the chaperone protein is expressed are described. In particular aspects, the host cells further include a deletion or disruption of one or more O-protein mannosyltransferase genes, and/or overexpression of an endogenous or exogenous Ca2 | 12-22-2011 |
20120121630 | RECOMBINANT ECTODOMAIN EXPRESSION OF HERPES SIMPLEX VIRUS GLYCOPROTEINS IN YEAST - The present invention provides Herpes Simplex Virus (HSV) gD, gC, gB and/or gE recombinant glycoproteins having a particular pre-selected N-linked glycosylation pattern as the predominant N-glycoform. The present invention also provides methods of producing these recombinant glycoproteins in yeast, preferably | 05-17-2012 |
20130011875 | METHODS FOR THE PRODUCTION OF RECOMBINANT PROTEINS WITH IMPROVED SECRETION EFFICIENCIES - The present invention is related to methods and for producing higher titers of recombinant protein in a modified yeast host cell, for example | 01-10-2013 |
20130316403 | VECTORS AND YEAST STRAINS FOR PROTEIN PRODUCTION: CA2+ ATPASE OVEREXPRESSION - Lower eukaryote host cells in which an endogenous or heterologous Ca | 11-28-2013 |
20140329276 | METHODS FOR INCREASING N-GLYCAN OCCUPANCY AND REDUCING PRODUCTION OF HYBRID N-GLYCANS IN PICHIA PASTORIS STRAINS LACKING ALG3 EXPRESSION - Methods for increasing the yield and N-glycosylation site occupancy of paucimannose or complex N-glycans of recombinant glycoproteins produced in a recombinant host cell lacking dolichyl-P-Man:Man5GlcNAc2-PP-dolichyl alpha-1,3 mannosyltransferase (Alg3p) activity are disclosed. In particular, recombinant host cells are provided that comprise a disruption of the expression of an OS-9 family gene in the host cell. These recombinant host cells may then be used for producing recombinant glycoproteins. In further embodiments, the recombinant host cells further overexpress at least one heterologous single-subunit oligosaccharyltransferase, which in particular embodiments is capable of functionally suppressing the lethal phenotype of a mutation of at least one essential protein of the yeast oligosaccharyltransferase (OTase) complex. | 11-06-2014 |
20140342932 | FUNCTIONAL CELL SURFACE DISPLAY OF LIGANDS FOR THE INSULIN AND/OR INSULIN GROWTH FACTOR 1 RECEPTOR AND APPLICATIONS THEREOF - Systems for making, identifying, and selecting recombinant cells that express a ligand for the insulin receptor (IR) or insulin growth factor I (IGF-1) receptor are described. In general, libraries of recombinant cells are constructed that are capable of displaying a plurality of ligand molecules on the cell surface. Recombinant cells that display a ligand in a form accessible for binding to the IR and/or IGF-1 receptor can be detected and the recombinant cells displaying said ligands can be selected and isolated using cell sorting technologies. In particular aspects, the system is useful for constructing and screening libraries of recombinant cells that express and displaying insulin analogue precursors molecules to identify and select recombinant cells in the library that bind the IR and/or IGF-1 receptor with a desired affinity and/or avidity. | 11-20-2014 |
20150079633 | PRODUCTION OF MODIFIED GLYCOPROTEINS HAVING MULTIPLE ANTENNARY STRUCTURES - The present invention relates to lower eukaryotic host cells having modified oligosaccharides which may be modified further by heterologous expression of a set of glycosyltransferases, sugar and sugar nucleotide transporters to become host-strains for the production of mammalian, e.g., human therapeutic glycoproteins. The process provides an engineered host cell which can be used to express and target any desirable gene(s) involved in glycosylation. Host cells with modified lipid-linked oligosaccharides are created or selected. N-glycans made in the engineered host cells exhibit GnTIV, GnTV, GnT VI or GnTIX activity, which produce multiantennary N-glycan structures and may be modified further by heterologous expression of one or more enzymes, e.g., glycosyltransferases, sugar, sugar nucleotide transporters, to yield human-like glycoproteins. For the production of therapeutic proteins, this method may be adapted to engineer cell lines in which any desired glycosylation structure may be obtained. | 03-19-2015 |