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本文引用的文献

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Impact of processing on odour-active compounds of a mixed tomato-onion puree.加工对番茄-洋葱混合泥中气味活性化合物的影响。
Food Chem. 2017 Aug 1;228:14-25. doi: 10.1016/j.foodchem.2017.01.135. Epub 2017 Jan 29.
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Changes in the key odorants of Italian Hazelnuts ( Coryllus avellana L. Var. Tonda Romana) induced by roasting.烘烤诱导的意大利榛子(榛树科榛属,罗马圆榛变种)关键气味物质的变化。
J Agric Food Chem. 2010 May 26;58(10):6351-9. doi: 10.1021/jf100692k.
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Identification of sulfur volatiles in canned orange juices lacking orange flavor.缺乏橙子风味的罐装橙汁中挥发性硫化物的鉴定
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Characterization of the key aroma compounds in the beverage prepared from Darjeeling black tea: quantitative differences between tea leaves and infusion.大吉岭红茶制备的饮品中关键香气化合物的表征:茶叶与茶汤之间的定量差异
J Agric Food Chem. 2006 Feb 8;54(3):916-24. doi: 10.1021/jf052495n.
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Study of both sunflower oil and its headspace throughout the oxidation process. Occurrence in the headspace of toxic oxygenated aldehydes.对整个氧化过程中的葵花籽油及其顶空进行研究。有毒氧化醛在顶空中的出现情况。
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Quantitation of odor-active compounds in rye flour and rye sourdough using stable isotope dilution assays.采用稳定同位素稀释分析法对黑麦粉和黑麦酸面团中的气味活性化合物进行定量分析。
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Determination of key aroma compounds in the crumb of a three-stage sourdough rye bread by stable isotope dilution assays and sensory studies.通过稳定同位素稀释分析和感官研究确定三段式酸面种黑麦面包面包心的关键香气化合物。
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Characterization of the most odor-active volatiles in fresh, hand-squeezed juice of grapefruit (Citrus paradisi Macfayden).新鲜手榨葡萄柚(Citrus paradisi Macfayden)汁中气味活性最强的挥发性成分的表征
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关于调味剂组评估226修订版1(FGE.226Rev1)的科学意见:对来自FGE.19化学亚组1.1.1(b)的一种α,β-不饱和醛的遗传毒性数据的审议。

Scientific Opinion on Flavouring Group Evaluation 226 Revision 1 (FGE.226Rev1): consideration of genotoxicity data on one α,β-unsaturated aldehyde from chemical subgroup 1.1.1(b) of FGE.19.

作者信息

Silano Vittorio, Bolognesi Claudia, Castle Laurence, Cravedi Jean-Pierre, Engel Karl-Heinz, Fowler Paul, Franz Roland, Grob Konrad, Husøy Trine, Kärenlampi Sirpa, Mennes Wim, Milana Maria Rosaria, Penninks André, Smith Andrew, Tavares Poças Maria de Fátima, Tlustos Christina, Wölfle Detlef, Zorn Holger, Zugravu Corina-Aurelia, Binderup Mona-Lise, Crebelli Riccardo, Marcon Francesca, Marzin Daniel, Mosesso Pasquale, Anastassiadou Maria, Carfì Maria, Saarma Siiri, Gürtler Rainer

出版信息

EFSA J. 2017 May 31;15(5):e04847. doi: 10.2903/j.efsa.2017.4847. eCollection 2017 May.

DOI:10.2903/j.efsa.2017.4847
PMID:32625501
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7010128/
Abstract

The EFSA Panel on Food Contact Materials, Enzymes, Flavourings and Processing Aids was requested to evaluate the genotoxic potential of one flavouring substance from subgroup 1.1.1(b) of FGE.19 in the Flavouring Group Evaluation 226 (FGE.226). The flavour industry provided genotoxicity studies for the substance 4,5-epoxydec-2()-enal [FL-no: 16.071]. Based on these data, the Panel concluded in FGE.226 that 4,5-epoxydec-2()-enal did not induce gene mutations in bacterial cells but was positive in an micronucleus assay, so, 4,5-epoxydec-2()-enal is considered an genotoxic agent. The negative results obtained in an micronucleus assay cannot overrule the positive results of the micronucleus assay with and without S9-mix due to the lack of demonstration of bone marrow exposure. Following this, the flavour industry has provided plasma analysis of a satellite group of rats treated with 4,5-epoxydec-2()-enal in order to investigate the systemic exposure of animals in the micronucleus assay. However, the plasma analysis did not provide enough evidence of target tissue exposure. An Comet assay in rodents was recommended in FGE.226, in order to investigate possible genotoxic effects at the first site of contact (e.g. stomach/duodenum cells) and in the liver. An Comet assay in liver and duodenum was provided that suggests that 4,5-epoxydec-2()-enal [FL-no: 16.071] did not induce DNA damage in the duodenum of rats. However, the genotoxic effect observed was confirmed in the Comet assay in the liver of rats. The Panel concluded that 4,5-epoxydec-2()-enal [FL-no: 16.071] does raise a safety concern with respect to genotoxicity and, therefore, it cannot be evaluated according to the Procedure.

摘要

应欧洲食品安全局食品接触材料、酶、香料和加工助剂小组的要求,对香料组评估226(FGE.226)中FGE.19第1.1.1(b)亚组的一种香料物质的遗传毒性潜力进行评估。香料行业提供了物质4,5 - 环氧 - 2(E) - 癸烯醛[FL编号:16.071]的遗传毒性研究。基于这些数据,小组在FGE.226中得出结论,4,5 - 环氧 - 2(E) - 癸烯醛在细菌细胞中不诱导基因突变,但在微核试验中呈阳性,因此,4,5 - 环氧 - 2(E) - 癸烯醛被认为是一种遗传毒性剂。由于缺乏骨髓暴露的证明,在体内微核试验中获得的阴性结果不能推翻在有和没有S9混合物的体内微核试验的阳性结果。在此之后,香料行业提供了用4,5 - 环氧 - 2(E) - 癸烯醛处理的大鼠卫星组的血浆分析,以研究动物在体内微核试验中的全身暴露情况。然而,血浆分析没有提供足够的靶组织暴露证据。FGE.226中建议在啮齿动物中进行体外彗星试验,以研究在第一个接触部位(如胃/十二指肠细胞)和肝脏中可能的遗传毒性作用。提供了肝脏和十二指肠的体外彗星试验,结果表明4,5 - 环氧 - 2(E) - 癸烯醛[FL编号:16.071]在大鼠十二指肠中不诱导DNA损伤。然而,在大鼠肝脏的体外彗星试验中观察到的遗传毒性作用得到了证实。小组得出结论,4,5 - 环氧 - 2(E) - 癸烯醛[FL编号:16.071]在遗传毒性方面确实引起了安全担忧,因此,不能根据该程序进行评估。