Aoyagi Kanji, Kato Shunji, Isaka Daisuke, Sekiguchi Yoshinori, Otoki Yurika, Uehara Hidetaka, Nakagawa Kiyotaka
Laboratory of Food Function Analysis, Graduate School of Agricultural Science, Tohoku University, 468-1, Aoba, Aramaki-aza, Aoba-ku, Sendai, Miyagi 980-8572, Japan.
Central Research Laboratory, Technical Division, The Nisshin OilliO Group, Ltd., 1 Shinmori-cho, Isogo-ku, Yokohama, Kanagawa 235-8558, Japan.
Food Chem X. 2023 Dec 18;21:101074. doi: 10.1016/j.fochx.2023.101074. eCollection 2024 Mar 30.
As known for quite a long time now, even saturated fatty acids can be oxidized at high temperatures to produce unique aroma compounds, such as 2-alkanones and lactones. Hydroperoxide positional isomers with a hydroperoxy group at the 2-, 3-, 4-, or 5-position are hypothesized to be responsible for the formation of these aroma components, but this hypothesis has not been verified. For the first time, this study successfully prepared a series of glyceryl trioctanoate hydroperoxide (C8TG;OOH) isomers. The isomers were thermally decomposed, proving that 2-heptanone was selectively formed from C8TG;3-OOH, and γ- and δ-octalactones were mainly formed from C8TG;4- and 5-OOH, respectively. C8TG;2-OOH was also involved in lactone formation, whereas C8TG;6- and 7-OOH were not. This proves the long-standing hypothesis. The mechanism revealed in this work is expected to be useful to create favorable aromas (i.e., 2-alkanones and lactones) from saturated fatty acids.
长期以来,人们都知道即使是饱和脂肪酸在高温下也能被氧化,从而产生独特的香气化合物,比如2-链烷酮和内酯。据推测,在2-、3-、4-或5-位带有氢过氧基的氢过氧化物位置异构体是这些香气成分形成的原因,但这一假设尚未得到证实。本研究首次成功制备了一系列甘油三辛酸酯氢过氧化物(C8TG;OOH)异构体。这些异构体经过热分解,证明2-庚酮是由C8TG;3-OOH选择性形成的,而γ-和δ-辛内酯分别主要由C8TG;4-OOH和C8TG;5-OOH形成。C8TG;2-OOH也参与内酯的形成,而C8TG;6-OOH和C8TG;7-OOH则不参与。这证实了这一长期存在的假设。这项工作中揭示的机制有望用于从饱和脂肪酸中创造出宜人的香气(即2-链烷酮和内酯)。
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