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W2328161749 startingPage "10198" @default.
W2328161749 abstract "The Maillard reaction network with focus on the chemistry of dicarbonyl structures causes considerable interest of research groups in food chemistry and medical science, respectively. Dicarbonyl compounds are well established as the central intermediates in the nonenzymatic browning reaction and have been verified to be responsible for advanced glycation endproduct (AGE) formation. A multitude of Maillard dicarbonyls covering the range of the intact carbon backbone down to C3 and C2 fragments were detected in several carbohydrate systems, for example, in glucose, maltose, or ascorbic acid reactions. By definition, dicarbonyls with a C2-C5 carbon backbone must originate by fission of the original carbon skeleton. The present review deals with the five major mechanisms reported in the literature for dicarbonyl decomposition: (i) retro-aldol fragmentation, (ii) hydrolytic α-dicarbonyl cleavage, (iii) oxidative α-dicarbonyl cleavage, (iv) hydrolytic β-dicarbonyl cleavage, and (v) amine-induced β-dicarbonyl cleavage." @default.
W2328161749 created "2016-06-24" @default.
W2328161749 creator A5025209925 @default.
W2328161749 creator A5067802879 @default.
W2328161749 date "2013-02-20" @default.
W2328161749 modified "2023-10-18" @default.
W2328161749 title "Fragmentation Pathways during Maillard-Induced Carbohydrate Degradation" @default.
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W2328161749 doi "https://doi.org/10.1021/jf305117s" @default.
W2328161749 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23425499" @default.
W2328161749 hasPublicationYear "2013" @default.
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