Biomaterial Database

Emulsifying and physicochemical properties of soy hull hemicelluloses-soy protein isolate conjugates. 2017

Li Wang, and Min Wu, and Hua-Min Liu

Province Key Laboratory of Transformation and Utilization of Cereal Resource & College of Food Science and Technology, Henan University of Technology, Zhengzhou 450001, China; Institute of Physical Science and Engineering, Zhengzhou University, Zhengzhou 450001, China.

Protein-polysaccharide conjugates could potentially combine the excellent emulsification properties of the protein with the stabilizing effect of the polysaccharide. The investigation aimed to prepare soy hull hemicelluloses-soy protein isolate (SHH-SPI) conjugates by Maillard reaction in a controlled dry state condition and assess the suitability of the conjugates in stabilizing oil-in-water (O/W) emulsion. Results indicated that Maillard reactions occurred between amino groups and carbonyl, resulting in consumption of some functional groups and the appearance of new groups in the conjugates. The conjugates of SHH-SPI obtained at the SPI content of 30% and 40% exhibited substantially improved emulsification capacity in maintaining the physical stability of O/W emulsions for a prolong storage period at heat treatment, compared with SHH and SPI alone. Overall, these results demonstrated that SHH and SPI could generate novel emulsions with improved physical and chemical stability by Mallsird reaction for application in food and pharmaceutical products.

UI	MeSH Term	Description	Entries
D011134	Polysaccharides	Long chain polymeric CARBOHYDRATES composed of MONOSACCHARIDES linked by glycosidic bonds.	Glycan,Glycans,Polysaccharide
D004655	Emulsions	Colloids formed by the combination of two immiscible liquids such as oil and water. Lipid-in-water emulsions are usually liquid, like milk or lotion. Water-in-lipid emulsions tend to be creams. The formation of emulsions may be aided by amphiphatic molecules that surround one component of the system to form MICELLES.	Emulsion
D015416	Maillard Reaction	A group of nonenzymatic reactions in which ALDEHYDES; KETONES; or reducing sugars react with the amino groups of AMINO ACIDS; PEPTIDES; PROTEINS; LIPIDS; or NUCLEIC ACIDS.The reaction with reducing sugars (glycation) results in formation of Schiff bases which undergo Amadori rearrangement and other reactions that result in the irreversible formation of ADVANCED GLYCATION END PRODUCTS (AGEs). Food browning, such as occurs when cooking with high heat (grilling, frying, roasting, etc.) is attributed to the Maillard reaction. Non-enzymatic glycation and subsequent formation of AGEs also occurs in vivo and is accelerated under hyperglycemic and inflammatory conditions, and OXIDATIVE STRESS.	Browning Reaction,Food Browning,Fructation,Glucation,Glycation,Lipid Glycation,Non-Enzymatic Glycation,Non-Enzymatic Glycosylation,Nonenzymatic Protein Glycation,Protein Glycation,Ribation,Browning Reactions,Browning, Food,Glycation, Lipid,Glycation, Non-Enzymatic,Glycation, Protein,Glycosylation, Non-Enzymatic,Non Enzymatic Glycation,Non Enzymatic Glycosylation,Protein Glycation, Nonenzymatic,Reaction, Browning,Reaction, Maillard,Reactions, Browning
D030262	Soybean Proteins	Proteins which are present in or isolated from SOYBEANS.	Dietary Soybean Protein,Soy Bean Protein,Soybean Protein,Dietary Soybean Proteins,Soy Bean Proteins,Soy Protein,Soy Proteins,Bean Protein, Soy,Protein, Dietary Soybean,Protein, Soy,Protein, Soy Bean,Protein, Soybean,Proteins, Dietary Soybean,Proteins, Soy,Soybean Protein, Dietary,Soybean Proteins, Dietary