The present invention provides novel and improved stimulus responsive polymers and methods of using the same for the purification of biomolecules.

Precipitation promoters, which are an organic compound having one or more linear aliphatic hydrocarbon groups having not less than 10 carbon atoms, wherein the aliphatic hydrocarbon group has not less than 20 carbon atoms in total are useful for precipitating an organic compound protected by an organic group having one or more aliphatic hydrocarbon groups having not less than 10 carbon atoms from a solvent.

Provided herein are aptamer-polymer conjugates which are responsive to environmental stimuli and are useful in selective purification of untagged target polypeptides.

There are provided efficient and cost-effective methods for purifying biomolecules in solution phase using stimuli-responsive protein-polymer conjugates. The protein-polymer conjugates comprise a target biomolecule-binding protein conjugated to a stimuli-responsive polymer and are reusable.

There are provided efficient and cost-effective methods for purifying biomolecules in solution phase using stimuli-responsive protein-polymer conjugates. The protein-polymer conjugates comprise a target biomolecule-binding protein conjugated to a stimuli-responsive polymer and are reusable.

Processes for preparing and purifying protein from plant material, and compositions and uses comprising the same, are provided.

A method includes enriching biomolecules and removal of the biomolecules from a biological sample. In the presence of particles, an alginate solution and salts of divalent and/or polyvalent cations or an acid are added to a biological sample, and an alginate-gel-biomolecule-complex is formed on the particles. The complex is removed from the sample by separation of the particles, and from which subsequently the biomolecules or ingredients of the biomolecules are released. The biomolecules, which shall be enriched, include cell-free nucleic acids, viruses or subcellular microparticles.

In certain embodiments, the invention provides a method of purifying a protein of interest from a mixture which comprises the protein of interest and one or more contaminants, comprising: (a) contacting the mixture with a dextran polymer under conditions suitable for the dextran polymer to bind to one or more contaminants, thereby to form a contaminant precipitate; (b) separating the contaminant precipitate from the mixture to form a solution, thereby purifying the protein of interest.

In certain embodiments, the invention provides a method of purifying a protein of interest from a mixture which comprises the protein of interest and one or more contaminants, comprising: (a) contacting the mixture with a dextran polymer under conditions suitable for the dextran polymer to bind to one or more contaminants, thereby to form a contaminant precipitate; (b) separating the contaminant precipitate from the mixture to form a solution, thereby purifying the protein of interest.

A method of producing protein products including alpha-1-proteinase inhibitor, gamma globulin, albumin, and other proteins from plasma includes steps of: (1) adding a salt to the blood product to produce a first intermediate, wherein the salt comprises between 11-13 wt % of the first intermediate; (2) separating the first intermediate to produce a first supernatant and a first paste; (3) adding a salt to the first intermediate to produce a second intermediate, wherein the salt comprises between 21-23 wt % of the second intermediate; (4) separating the second intermediate to produce a second supernatant and a second paste; (5) separating a third intermediate from the second supernatant by affinity chromatography; and (6) separating the third intermediate by ion exchange chromatography to produce an eluate containing the protein product. Advantageously, the inventive methods are simple and produce alpha-1-proteinase inhibitor, gamma globulin, albumin, and other proteins in high yields.