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通过该属植物中存在的抗氧化剂对羟基-α-山嵛酸酰胺进行稳定化处理 。

Stabilization of Hydroxy-α-Sanshool by Antioxidants Present in the Genus .

作者信息

Mitani Takahiko, Yawata Yasuko, Yamamoto Nami, Okuno Yoshiharu, Sakamoto Hidefumi, Nishide Mitsunori, Kayano Shin-Ichi

机构信息

Center of Regional Revitalization, Research Center for Food and Agriculture, Wakayama University, Wakayama 640-8510, Japan.

Faculty of Education, Wakayama University, Wakayama 640-8510, Japan.

出版信息

Foods. 2023 Sep 15;12(18):3444. doi: 10.3390/foods12183444.

DOI:10.3390/foods12183444
PMID:37761152
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10529024/
Abstract

Japanese pepper (sansho, ) contains several types of sanshools belonging to -alkylamides. Because of the long-chain unsaturated fatty acids present in their structure, sanshools are prone to oxidative deterioration, which poses problems in processing. In this paper, we evaluated the effects of antioxidants from the genus in preventing sanshool degradation using accelerated tests. An ethanolic extract of segment membranes of the sansho fruit pericarp was incubated at 70 °C for 7 days with different antioxidants to determine the residual amount of hydroxy-α-sanshool (HαS) in the extract. α-Tocopherol (α-Toc) showed excellent HαS-stabilizing activity at low concentrations. Among phenolic acids, we noted that the HαS-stabilizing activity increased with the number of hydroxy groups per molecule. For example, gallic acid and its derivatives exhibited excellent sanshool-stabilizing activity. Quercetin was found to be a superior HαS stabilizer compared with hesperetin and naringenin. However, the effective concentration was much higher for phenolic compounds than for α-Toc. These substances are believed to play a role in preventing the decomposition of sanshools in the pericarp of sansho. These sanshool stabilizers should be useful in the development of new beverages, foods, cosmetics, and pharmaceuticals that take advantage of the taste and flavor of sansho.

摘要

日本花椒(山椒)含有几种属于α-烷基酰胺的山椒素。由于其结构中存在长链不饱和脂肪酸,山椒素易于氧化变质,这在加工过程中会带来问题。在本文中,我们使用加速试验评估了来自[具体属名缺失]属的抗氧化剂对防止山椒素降解的效果。将山椒果实果皮的分段膜乙醇提取物与不同的抗氧化剂在70℃下孵育7天,以测定提取物中羟基-α-山椒素(HαS)的残留量。α-生育酚(α-Toc)在低浓度下表现出优异的HαS稳定活性。在酚酸中,我们注意到HαS稳定活性随每分子羟基数量的增加而增强。例如,没食子酸及其衍生物表现出优异的山椒素稳定活性。与橙皮素和柚皮苷相比,槲皮素被发现是一种更优异的HαS稳定剂。然而,酚类化合物的有效浓度比α-Toc高得多。这些物质被认为在防止山椒果皮中山椒素的分解中发挥作用。这些山椒素稳定剂在开发利用山椒味道和风味的新饮料、食品、化妆品和药品方面应该会很有用。

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本文引用的文献

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Classification of Japanese Pepper ( DC.) from Different Growing Regions Based on Analysis of Volatile Compounds and Sensory Evaluation.基于挥发性化合物分析和感官评价的不同产地日本花椒(DC.)分类。
Molecules. 2022 Aug 3;27(15):4946. doi: 10.3390/molecules27154946.
2
Effects of Hydroxy-Alpha-Sanshool on Intestinal Metabolism in Insulin-Resistant Mice.羟基-α-山苍子辣素对胰岛素抵抗小鼠肠道代谢的影响。
Foods. 2022 Jul 10;11(14):2040. doi: 10.3390/foods11142040.
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Design of hydroxy-α-sanshool loaded nanostructured lipid carriers as a potential local anesthetic.
Foods. 2023 Sep 27;12(19):3589. doi: 10.3390/foods12193589.
羟基-α-山椒素载纳米结构脂质载体的设计作为一种潜在的局部麻醉剂。
Drug Deliv. 2022 Dec;29(1):743-753. doi: 10.1080/10717544.2022.2039808.
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An Improved and Practical Method for Synthesizing of α-Sanshools and Spilanthol.一种改进的合成α-三硫醚和毛叶花椒素的实用方法。
Front Chem. 2020 Mar 17;8:187. doi: 10.3389/fchem.2020.00187. eCollection 2020.
5
Antiobesity, Regulation of Lipid Metabolism, and Attenuation of Liver Oxidative Stress Effects of Hydroxy--sanshool Isolated from on High-Fat Diet-Induced Hyperlipidemic Rats.从 中分离得到的羟基-三甲氧基菔酚对高脂饮食诱导的高血脂大鼠的抗肥胖、调节脂代谢和减轻肝脏氧化应激作用。
Oxid Med Cell Longev. 2019 Aug 27;2019:5852494. doi: 10.1155/2019/5852494. eCollection 2019.
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Polyunsaturated fatty acid amides from the Zanthoxylum genus - from culinary curiosities to probes for chemical biology.从花椒属中提取的多不饱和脂肪酸酰胺——从烹饪珍品到化学生物学探针。
Nat Prod Rep. 2018 Jan 25;35(1):54-74. doi: 10.1039/c7np00044h.
7
Zanthoxylum bungeanum Maxim. (Rutaceae): A Systematic Review of Its Traditional Uses, Botany, Phytochemistry, Pharmacology, Pharmacokinetics, and Toxicology.花椒(芸香科):其传统用途、植物学、植物化学、药理学、药代动力学和毒理学的系统评价。
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