[1] 国家药典委员会. 中华人民共和国药典-一部: 2020年版[M]. 北京: 中国医药科技出版社, 2020: 169-171.
[2]

SHAN C, SHU C, NIE W, et al. RETRACTED ARTICLE: Anti-aging effect of polysaccharides from the peel of Zanthoxylum schinifolium Sieb. et Zucc. on the nematode Caenorhabditis elegans[J]. Acta Agric Scand Sect B, 2022, 72:476-484.
[3] 杨成峻, 陈明舜, 刘成梅, 等. 花椒果皮多酚类成分鉴定及降血糖活性[J]. 食品科学, 2023, 44(2):271-278.
[4]

LIANG W Y, YANG H Y, LEI H X, et al. Phytochemistry and health functions of Zanthoxylum bungeanum Maxim and Zanthoxylum schinifolium Sieb. et Zucc as pharma-foods: a systematic review[J]. Trends Food Sci Technol, 2024, 143:104225. doi:  10.1016/j.jpgs.2023.104225
[5]

ZHANG B C, LUO S H, WU S S, et al. Anti-inflammatory and anti-osteoclastogenesis activities of different kinds of Zanthoxylum bungeanum seed oil in vitro[J]. Chem Biodivers, 2023, 20(5):e202201157. doi:  10.1002/cbdv.202201157
[6] 叶倩女, 石晓峰, 杨军丽. 花椒属植物中酰胺类成分的结构与功能研究进展[J]. 中国中药杂志, 2023, 48(9):2406-2418.
[7] 吴蓉蓉, 田书璎, 陈勇, 等. 青花椒生物碱类化学成分及生物活性研究[J]. 中草药, 2019, 50(6):1305-1309.
[8] 孟亚琴, 王雅, 郭涛. 花椒生物碱活性成分研究现状[J]. 中国食品工业, 2022(10):110-113.
[9]

PENG W, HE C X, LI R L, et al. Zanthoxylum bungeanum amides ameliorates nonalcoholic fatty liver via regulating gut microbiota and activating AMPK/Nrf2 signaling[J]. J Ethnopharmacol, 2024, 318(Pt A): 116848.
[10] 胡迎丽, 夏璐, 雷福厚. 大孔吸附树脂在天然产物的分离纯化中的应用进展[J]. 化工技术与开发, 2021, 50(11):29-34.
[11] 刘岩, 陈伟豪, 亢迪, 等. 大孔树脂分离富集生物碱类成分研究进展[J]. 中草药, 2020, 51(6):1650-1659.
[12] 骆党委, 叶静, 黄雅燕, 等. AB-8大孔吸附树脂精制芦柑皮总黄酮及黄酮类化合物的分离[J]. 食品科学, 2014, 35(6):30-35.
[13] 蔡淑慧, 丁梦磊, 甘逸夫, 等. 附子总生物碱纯化工艺优化[J]. 中成药, 2023, 45(9):3023-3028.
[14] 贾凯, 刘俊, 耿晓桐, 等. 细叶十大功劳叶中总生物碱大孔树脂纯化及抗氧化研究[J]. 广西植物, 2023, 43(1):183-189.
[15]

HUANG A H, CHI Y G, LIU J W, et al. Profiling and pharmacokinetic studies of alkaloids in rats after oral administration of Zanthoxylum nitidum decoction by UPLC-Q-TOF-MS/MS and HPLC-MS/MS[J]. Molecules, 2019, 24(3):585. doi:  10.3390/molecules24030585
[16]

CHEN J H, ZHANG T, ZHANG Q B, et al. Isobutylhydroxyamides from Sichuan pepper and their protective activity on PC12 cells damaged by corticosterone[J]. J Agric Food Chem, 2018, 66(13):3408-3416. doi:  10.1021/acs.jafc.7b06057
[17]

HATANO T, INADA K, OGAWA T O, et al. Aliphatic acid amides of the fruits of Zanthoxylum piperitum[J]. Phytochemistry, 2004, 65(18):2599-2604. doi:  10.1016/j.phytochem.2004.08.018
[18]

WANG Y, LIAO Z B, CAO R, et al. Isolation, structural characterization and neurotrophic activity of alkylamides fromZanthoxylum bungeanum[J]. Nat Prod Commun, 2017, 12(7): 1934578X1701200.
[19]

HUANG A H, XU H, ZHAN R T, et al. Metabolic profile of skimmianine in rats determined by ultra-performance liquid chromatography coupled with quadrupole time-of-flight tandem mass spectrometry[J]. Molecules, 2017, 22(4):489. doi:  10.3390/molecules22040489
[20]

BADER M, STARK T D, DAWID C, et al. All-trans-configuration in Zanthoxylum alkylamides swaps the tingling with a numbing sensation and diminishes salivation[J]. J Agric Food Chem, 2014, 62(12):2479-2488. doi:  10.1021/jf500399w
[21]

LI W L, WU Y, LIU Y S, et al. Chemical profiles and screening of potential α-glucosidase inhibitors from Sichuan pepper using ultra-filtration combined with UHPLC-Q-TOF[J]. Ind Crops Prod, 2020, 143:111874. doi:  10.1016/j.indcrop.2019.111874
[22]

WANG Y, LI C H, LUO B, et al. Isobutylhydroxyamides from Zanthoxylum bungeanum and their suppression of NO production[J]. Molecules, 2016, 21(10):1416. doi:  10.3390/molecules21101416
[23]

ZHANG L L, ZHAO L, WANG H Y, et al. The relationship between alkylamide compound content and pungency intensity of Zanthoxylum bungeanum based on sensory evaluation and ultra-performance liquid chromatography-mass spectrometry/mass spectrometry(UPLC-MS/MS)analysis[J]. J Sci Food Agric, 2019, 99(4):1475-1483. doi:  10.1002/jsfa.9319
[24]

QUANBO XIONG, SHI D W, YAMAMOTO H, et al. Alkylamides from pericarps of Zanthoxylum bungeanum[J]. Phytochemistry, 1997, 46(6):1123-1126. doi:  10.1016/S0031-9422(97)84398-1
[25]

LIU Y J, MENG X L, SUN L, et al. Protective effects of hydroxy-α-sanshool from the pericarp of Zanthoxylum bungeanum Maxim. On D-galactose/AlCl3-induced Alzheimer’s disease-like mice via Nrf2/HO-1 signaling pathways[J]. Eur J Pharmacol, 2022, 914:174691. doi:  10.1016/j.ejphar.2021.174691