This research elucidated the reason of flavor deficiency during the thermal degradation of glutamic acid(Glu)-galactose(Gal)Amadori rearrangement product(GG-ARP)and the solution.The flavor formation from GG-ARP during...This research elucidated the reason of flavor deficiency during the thermal degradation of glutamic acid(Glu)-galactose(Gal)Amadori rearrangement product(GG-ARP)and the solution.The flavor formation from GG-ARP during the thermal degradation was investigated.Compared to the volatile compounds in Glu-Gal Maillard reaction products(GG-MRP),pyrazines in the volatile compounds derived from GG-ARP were restrained.The disadvantage in evolution asynchrony and content sufficiency ofα-dicarbonyl compounds and Glu in the GG-ARP model limited the pyrazines formation.With the addition of Gal,the asynchronous effect was further exacerbated,and the furans in the GG-ARP-Gal model(956.81μg/L,120℃,60 min)were more significantly dominant among the volatile flavor compounds than in the GG-ARP model(454.98μg/L,120℃,60 min),while the pyrazines were still missing.Whereas,the extra-added Glu in the GG-ARP model could offset the deficiency of amino acids growth afterα-dicarbonyl formation and promote the formation of pyrazines(74.47μg/L,120℃,60 min).Meanwhile,the formation of diketones(92.96μg/L,120℃,60 min)was promoted.The addition of Glu enhanced both milk-like and baking flavor of the GG-ARP system simultaneously.Formulated GG-ARP-Glu mixture was proposed to promisingly achieve the controlled formation of process flavors for baked foods with both desirable milk-like and baking scent.展开更多
基金supported by National Natural Science Foundation of China 32172330National First-class Discipline Program of Food Science and Technology JUFSTR20180204Collaborative Innovation Center of Food Safety and Quality Control in Jiangsu Province.
文摘This research elucidated the reason of flavor deficiency during the thermal degradation of glutamic acid(Glu)-galactose(Gal)Amadori rearrangement product(GG-ARP)and the solution.The flavor formation from GG-ARP during the thermal degradation was investigated.Compared to the volatile compounds in Glu-Gal Maillard reaction products(GG-MRP),pyrazines in the volatile compounds derived from GG-ARP were restrained.The disadvantage in evolution asynchrony and content sufficiency ofα-dicarbonyl compounds and Glu in the GG-ARP model limited the pyrazines formation.With the addition of Gal,the asynchronous effect was further exacerbated,and the furans in the GG-ARP-Gal model(956.81μg/L,120℃,60 min)were more significantly dominant among the volatile flavor compounds than in the GG-ARP model(454.98μg/L,120℃,60 min),while the pyrazines were still missing.Whereas,the extra-added Glu in the GG-ARP model could offset the deficiency of amino acids growth afterα-dicarbonyl formation and promote the formation of pyrazines(74.47μg/L,120℃,60 min).Meanwhile,the formation of diketones(92.96μg/L,120℃,60 min)was promoted.The addition of Glu enhanced both milk-like and baking flavor of the GG-ARP system simultaneously.Formulated GG-ARP-Glu mixture was proposed to promisingly achieve the controlled formation of process flavors for baked foods with both desirable milk-like and baking scent.
