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 methods and compositions for improving the productivity of recombinant vitamin K dependent protein expression in host cells.

The present invention provides a stable cell line overexpressing a recombinant vitamin K-dependent (VKD) protein and both a recombinant vitamin K epoxide reductase (VKOR) and a recombinant vitamin K dependent gamma carboxylase (VKGC), wherein the amount of fully carboxylated VKD protein produced in the cell is increased 10% as compared to the amount of fully carboxylated VKD protein produced in the cell in the absence of the recombinant VKOR and the recombinant VKGC.

Provided herein are host cells or host cellular expression systems that express a membrane protein. Also, methods are provided that use such host cells or host cellular expression systems to produce higher amounts of the membrane proteins. Further, the cells or cellular systems can be used as tools for the functional characterization of membrane proteins, as well as for screening and drug discovery efforts targeting membrane proteins.

The invention relates to commercially viable methods for producing biologically active vitamin K dependent proteins, particularly Factor IX. Factor IX is produced at a level of at least about 15 mg/L and is at least 25% biologically active. The method relies upon co-expression of one or more of paired basic amino acid converting enzyme (PACE), vitamin K dependent epoxide reductase (VKOR) and vitamin K dependent γ-glutamyl carboxylase (VKGC) at a preferred ratio so that the vitamin K dependent protein is efficiently produced and processed by a recombinant cell.

The present invention provides a stable cell line overexpressing a recombinant vitamin K-dependent (VKD) protein and both a recombinant vitamin K epoxide reductase (VKOR) and a recombinant vitamin K dependent gamma carboxylase (VKGC), wherein the amount of fully carboxylated VKD protein produced in the cell is increased 10% as compared to the amount of fully carboxylated VKD protein produced in the cell in the absence of the recombinant VKOR and the recombinant VKGC.

The present invention relates to methods and compositions for improving the productivity of recombinant vitamin K dependent protein expression in host cells.

The invention relates to commercially viable methods for producing biologically active vitamin K dependent protein, particularly Factor IX. Factor IX is produced at a level of at least about 15 mg/L and is at least 25% biologically active. The method relies upon co-expression of one or more of paired basic amino acid converting enzyme (PACE), vitamin K dependent epoxide reductase (VKOR) and vitamin K dependent γ-glutamyl carboxylase (VKGC) at a preferred ratio so that the vitamin K dependent protein is efficiently produced and processed by a recombinant cell.

The present invention relates to methods and compositions for improving the productivity of recombinant vitamin K dependent protein expression in host cells.

The present invention provides a stable cell line overexpressing a recombinant vitamin K-dependent (VKD) protein and both a recombinant vitamin K epoxide reductase (VKOR) and a recombinant vitamin K dependent gamma carboxylase (VKGC), wherein the amount of fully carboxylated VKD protein produced in the cell is increased 10% as compared to the amount of fully carboxylated VKD protein produced in the cell in the absence of the recombinant VKOR and the recombinant VKGC.