The invention relates to the uses of a new characterized TET protein showed restricted to N-terminus glycine residues exopeptidase. The invention also relates to a method comprising said use of said new characterized TET protein as a N-terminus glycine residues specific exopeptidase. The invention further relates to a support wherein it is immobilized on said new characterized TET protein as a N-terminus glycine residues specific exopeptidase.

The present invention provides methods for extraction of amino acid-rich fractions from keratin-containing biological materials, and to amino acid-rich protein fractions generated by the methods described herein. The methods involve forming a reaction mixture with keratin containing material at a pH of 1.1 to 6.9. The reaction mixture is exposed to an energy source, such as microwaves, sufficient to degrade the keratin. The amino acid mixture which is subsequently extracted is substantially insoluble.

The present invention provides a method for producing a rice protein peptide including (1) preparing a slurry of rice residue protein, followed by sterilizing the rice residue protein; (2) first crushing; (3) undergoing a first proteolysis; (4) second crushing; (5) undergoing a second proteolysis; (6) conducting solid-liquid separation; (7) concentrating; (8) membrane filtering; (9) providing an anti-microbial treatment; (10) performing spray drying. The present method performing super-fine grinding on the proteolytic rice residue protein. During the process of second proteolysis, the protease fully contacts with the substrate, thereby promoting the proteolytic efficiency and taste.

The invention relates to the uses of a new characterized TET protein showed restricted to N-terminus glycine residues exopeptidase. The invention also relates to a method comprising said use of said new characterized TET protein as a N-terminus glycine residues specific exopeptidase. The invention further relates to a support wherein it is immobilized on said new characterized TET protein as a N-terminus glycine residues specific exopeptidase.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. A product is produced by a method comprising de-solubilizing protein in a first material comprising oilcake to produce a processed material comprising an insoluble protein fraction by extruding the first material in a pressure range of 10 bar to 80 bar. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into the product by extruding the insoluble protein fraction in a pressure range of 10 bar to 80 bar.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. The method comprises de-solubilizing protein in a material comprising oilcake to produce a processed material comprising an insoluble protein fraction. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into a product.

Methods of manufacturing products from material comprising oilcake, compositions produced from materials comprising processed oilcake, and systems for processing oilcake are provided herein. The method comprises de-solubilizing protein in a material comprising oilcake to produce a processed material comprising an insoluble protein fraction. The processed material is hydrolyzed to produce a mixture comprising the insoluble protein fraction and a hydrolyzed fraction. The insoluble protein fraction is separated from the hydrolyzed fraction. The insoluble protein fraction is processed into a product.

The invention relates to the uses of a new characterized TET protein showed restricted to N-terminus glycine residues exopeptidase. The invention also relates to a method comprising said use of said new characterized TET protein as a N-terminus glycine residues specific exopeptidase. The invention further relates to a support wherein it is immobilized on said new characterized TET protein as a N-terminus glycine residues specific exopeptidase.

The present invention provides methods for extraction of amino acid-rich fractions from keratin-containing biological materials, and to amino acid-rich protein fractions generated by the methods described herein. The methods involve forming a reaction mixture with keratin containing material at a pH of 1.1 to 6.9. The reaction mixture is exposed to an energy source, such as microwaves, sufficient to degrade the keratin. The amino acid mixture which is subsequently extracted is substantially insoluble.

A process for treating rice bran, preferably defatted rice bran, to produce a high value protein product and a cellulosic residue both from rice bran. The high value protein product is useful as a protein supplement or feed for livestock and poultry and the cellulosic residue has value as a feedstock for a thermochemical process unit for the production of a biofuel. The rice bran is subjected protein hydrolysis and a resulting liquid stream containing hydrolyzed proteins is sent through a two membrane filtration stages, the first being a microfiltration and the second being a nanofiltration stage.