Biomaterial Database

Influence of various parameters on the browning of potassium sorbate in the presence of amines. 2000

C Ferrand, and F Marc, and P Fritsch, and G de Saint Blanquat

Laboratoire d'Analyse de la Valeur Biologique des Aliments, Département Universitaire des Sciences d'Agen, Université Bordeaux I, Avenue Michel Serres, 47000 Agen, France. c.ferrand@dus-agen.u-bordeaux.fr

Potassium sorbate can undergo oxidation to form carbonyl moieties and cause browning. This investigation studied the fate of the compounds produced by auto-oxidation of potassium sorbate and measured the browning in the presence of amines. Experimental plans in which four factors were combined (temperature, oxygen, amine and light) led to the observation that the interaction between oxygen and high temperature (75 degrees C) favoured browning, independently of the presence of amine. At 4 degrees C, the amine seemed to cause a decrease in the proportion of carbonyl-containing compounds which would appear to participate in carbonyl-amine reactions. At 75 degrees C, the amine forms adducts with the potassium sorbate. In parallel, high temperature favours auto-oxidation reactions that produce carbonyls. GC/MS and NMR analysis of the reaction products of potassium sorbate/amine mixtures led to the identification of cyclic products.

UI	MeSH Term	Description	Entries
D005520	Food Preservatives	Substances capable of inhibiting, retarding or arresting the process of fermentation, acidification or other deterioration of foods.	Preservatives, Food
D000588	Amines	A group of compounds derived from ammonia by substituting organic radicals for the hydrogens. (From Grant & Hackh's Chemical Dictionary, 5th ed)	Amine
D013011	Sorbic Acid	Mold and yeast inhibitor. Used as a fungistatic agent for foods, especially cheeses.	Hexadienoic Acid,Propenylacrylic Acid,Potassium Sorbate,Sodium Sorbate,Acid, Hexadienoic,Acid, Propenylacrylic,Acid, Sorbic,Sorbate, Potassium,Sorbate, Sodium
D013696	Temperature	The property of objects that determines the direction of heat flow when they are placed in direct thermal contact. The temperature is the energy of microscopic motions (vibrational and translational) of the particles of atoms.	Temperatures
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