A mixed-mode chromatography method for the determination of phosphorylated sugars in a sample is provided. The mixed-mode chromatography method includes obtaining a sample comprising at least one phosphorylated sugar. The sample is introduced onto a chromatography system. The chromatography system includes a column having a stationary phase material contained inside the column. The stationary phase material has a surface comprising a hydrophobic surface group and at least one ionizable modifier. The sample with a mobile phase eluent is flowed through the column, where the at least one phosphorylated sugar is substantially resolved and retained within seven minutes. The mobile phase eluent includes water with an additive and acetonitrile with the additive. The mobile phase eluent has a pH less than 6. The at least one phosphorylated sugar is detected using a detector.

A mixed-mode chromatography method for the determination of phosphorylated sugars in a sample is provided. The mixed-mode chromatography method includes obtaining a sample comprising at least one phosphorylated sugar. The sample is introduced onto a chromatography system. The chromatography system includes a column having a stationary phase material contained inside the column. The stationary phase material has a surface comprising a hydrophobic surface group and at least one ionizable modifier. The sample with a mobile phase eluent is flowed through the column, where the at least one phosphorylated sugar is substantially resolved and retained within seven minutes. The mobile phase eluent includes water with an additive and acetonitrile with the additive. The mobile phase eluent has a pH less than 6. The at least one phosphorylated sugar is detected using a detector.

An oyster peptide with an effect of improving sexual function and a preparation method thereof are provided, the oyster peptide at least includes peptide segments RI, IR and VR in its composition. Based on a mass of the oyster peptide, a content of the RI is ≥3.60 mg/100 g, a content of the IR is ≥7.60 mg/100 g, and a content of the VR is ≥6.50 mg/100 g.

A bioprocessing system for protein manufacturing from human blood is provided that is compact, integrated and suited for on-demand production and delivery of therapeutic proteins to patients. The patient's own blood can be used as the source of cell extracts for the production of the therapeutic proteins.

Provided are a medium composition for culturing animal cells for producing a recombinant extracellular matrix protein, a method of producing the recombinant extracellular matrix protein with high purity, and a method of assaying a monomer of the recombinant extracellular matrix protein.

In some aspects, the present disclosure pertains to sample treatment methods that comprise: contacting an acidic elution solution that is free of primary amine, secondary amine and thiol groups with a sorbent having bound target antibody and separating the elution solution from the sorbent, thereby releasing bound target antibody from the sorbent and forming a first collection fraction that comprises the elution solution and released target antibody; contacting the sorbent with a neutralization buffer solution that is free of primary amine, secondary amine and thiol groups and separating the neutralization buffer solution from the sorbent, thereby forming a second collection fraction that comprises the neutralization buffer solution; and forming a neutralized solution that comprises the first collection fraction and the second collection fraction. In other aspects, the present disclosure pertains to kits for performing such sample treatment methods.

The present invention relates to a method for purifying a Factor VIII (FVIII) subspecies from a composition comprising FVIII, said method comprising an anion exchange chromatography step, a size exclusion chromatography step, and a concentration step. The invention also relates to a composition comprising a purified FVIII subspecies.

The present invention relates to a method for purifying a Factor VIII (FVIII) subspecies from a composition comprising FVIII, said method comprising an anion exchange chromatography step, a size exclusion chromatography step, and a concentration step. The invention also relates to a composition comprising a purified FVIII subspecies.

To provide a method for purifying an antibody to a sufficient degree of purity for therapeutic use in humans by removing impurities contained in a solution efficiently while reducing production cost and the purification period in the purification of the antibody. It was found that an antibody can be reliably purified to a high degree of purity by an activated carbon material, regardless of the amounts or species of impurities co-present, and that high viral clearance can be attained reliably. Based on the finding, a treatment with an activated carbon material could be used in place of AEX chromatography achieving viral clearance in a step of purifying a therapeutic antibody using CHO cells. As a result, an antibody can be simply and effectively purified to a sufficient degree of purity for therapeutic use in humans compared to a conventional purification method, while reducing production cost.

The present application provides methods and systems for viral clearance for purifying an antibody from a sample comprising one or more impurities including viral particles. The method is conducted in a system which includes a hydrophobic interaction chromatography (HIC) column and a virus retentive filtration (VRF) system. The HIC column and the VRF system are connected inline in a continuous processing system, and the VRF system comprises at least two filter trains in parallel.