Abstract:Glyoxal and diacetyl are highly reactive α -dicarbonyl compounds produced by the degradation of sugars，which can significantly inhibit the production of heterocyclic aromatic amines.By analyzing the changes of the reaction precursors and products in the model system，the mechanism of the inhibition of PhIP（2-amino-1-methyl-6-phenylimidazo[4，5-b]pyridine）formation by glyoxal and diacety was investigated.The results showed that the phenylalanine and creatinine，the precursors of PhIP，were consumed by chemical reaction with glyoxal and diacetyl，thereby reducing the production of PhIP.And the resulting PhIP can be further consumed by reacting with glyoxal and diacetyl.At the same time，the reaction of glyoxal and diacetyl with phenylalanine will promote the production of phenylacetaldehyde，a direct precursor of PhIP，and may promote the production of PhIP.Therefore，the inhibition of PhIP by glyoxal and diacetyl is the result of a combination of complex chemical reactions in model system.