The present invention relates to a method for continuous recovering of a protein from a fluid, comprising precipitating the protein in the fluid and separating the precipitated protein from the fluid. The invention also provides an inclined plate settler that can be used for such continuous protein recovering.

The present invention relates to a method for continuous recovering of a protein from a fluid, comprising precipitating the protein in the fluid and separating the precipitated protein from the fluid. The invention also provides an inclined plate settler that can be used for such continuous protein recovering.

The present disclosure provides, among other aspects, codon-altered polynucleotides encoding Factor VIII variants for expression in mammalian cells. In some embodiments, the disclosure also provides mammalian gene therapy vectors and methods for treating hemophilia A.

The invention provides adeno-associated virus (AAV) Factor VIII (FVIII)-encoding/expressing vectors and virus, including AAV FVIII vectors with high expression activity and AAV FVIII vectors that express full-length or truncated functional FVIII protein. The invention also relates to methods of making the herein described AAV FVIII vectors, recombinant AAV FVIII virus particles comprising or expressing such vectors, associated pharmaceutical formulations comprising the same and therapeutic uses thereof.

The invention provides adeno-associated virus (AAV) Factor VIII (FVIII)-encoding/expressing vectors and virus, including AAV FVIII vectors with high expression activity and AAV FVIII vectors that express full-length or truncated functional FVIII protein. The invention also relates to methods of making the herein described AAV FVIII vectors, recombinant AAV FVIII virus particles comprising or expressing such vectors, associated pharmaceutical formulations comprising the same and therapeutic uses thereof.

The present invention relates to the field of chromatography. More closely, the invention relates to a chromatographic method for purification of plasmaproteins, such as Factor VIII, von Willebrand factor and Factor IX. The chromatographic method is performed on a matrix comprising an inner porous core and outer porous lid surrounding said core.

The present invention relates to the field of chromatography. More closely, the invention relates to a chromatographic method for purification of plasmaproteins, such as Factor VIII, von Willebrand factor and Factor IX. The chromatographic method is performed on a matrix comprising an inner porous core and outer porous lid surrounding said core.

The present disclosure provides expression constructs designed to provide for stable and/or inducible, tightly controlled production of genetically encoded payloads from engineered cells. These cassettes allow cells to be engineered to express genetically encoded payloads despite epigenetic silencing. As such, provided herein are expression systems for use in methods to engineer cells using CRISPR dCas9-activator systems such that expression of genetically encoded payloads (e.g., therapeutic proteins) can be optimized to overcome epigenetic silencing. In addition, provided herein are engineered cells comprising the expression systems.

The present disclosure provides expression constructs designed to provide for stable and/or inducible, tightly controlled production of genetically encoded payloads from engineered cells. These cassettes allow cells to be engineered to express genetically encoded payloads despite epigenetic silencing. As such, provided herein are expression systems for use in methods to engineer cells using CRISPR dCas9-activator systems such that expression of genetically encoded payloads (e.g., therapeutic proteins) can be optimized to overcome epigenetic silencing. In addition, provided herein are engineered cells comprising the expression systems.

Factor VIII variants and methods of use thereof are disclosed. In accordance with the present invention, compositions and methods for the modulation of hemostasis in patients in need thereof are provided. More specifically. Factor VIII (FVIII) variants which modulate (e.g., increase) hemostasis are provided. In a particular embodiment, the Factor VIII variant comprises at least one mutation at position 336 and/or 562.