应用多重PCR技术鉴别3种肾源性中药的实验研究

邵博宇, 杨畅, 徐宁, 于文莹, 迟凯月, 高丽君, 夏薇, 张亚丽, 艾金霞, 高锋

中国药学杂志 ›› 2022, Vol. 57 ›› Issue (12) : 1015-1020.

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中国药学杂志
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中国药学杂志 ›› 2022, Vol. 57 ›› Issue (12) : 1015-1020. DOI: 10.11669/cpj.2022.12.011
论著

应用多重PCR技术鉴别3种肾源性中药的实验研究

  • 邵博宇, 杨畅, 徐宁, 于文莹, 迟凯月, 高丽君*, 夏薇*, 张亚丽, 艾金霞, 高锋
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An Experimental Study on the Identification of Kidney-derived Chinese Medicine by Multiplex PCR

  • SHAO Bo-yu, YANG Chang, XU Ning, YU Wen-ying, CHI Kai-yue, GAO Li-jun*, XIA Wei*, ZHANG Ya-li, AI Jin-xia, GAO Feng
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摘要

目的 建立一种应用多重聚合酶链式反应(PCR)技术鉴别3种肾源性药品的方法。方法 提取梅花鹿、驴、犬3个物种肾组织的基因组DNA,通过多重PCR对梅花鹿、驴、犬的特异性片段进行扩增,鉴别样品中是否含有梅花鹿、驴、犬3种动物源性成分。结果 通过对特异性片段的PCR扩增,可同时将梅花鹿、驴、狗的肾与其他物种进行区分。结论 本研究建立了一种基于多重PCR技术的快速、准确的同时鉴别梅花鹿、驴、犬3个物种肾源性药品方法,为解决药用性产品易混、难以鉴定的问题提供了又一个新方法。

Abstract

OBJECTIVE To establish a method for the identification of three kinds of kidney-derived medicines by using multiple polymerase chain reaction technology. METHODS The genomic DNA of kidney tissue of the three species of cervus nippon,donkey and dog was extracted,and the specific fragments of cervus nippon,donkey and dog were amplified by multiplex PCR to identify whether the sample contained three animal-derived components:cervus nippon,donkey and dog. RESULTS By amplifying PCR in specific fragments,the kidneys of cervus nippon,donkeys and dogs can be distinguished from other species at the same time. CONCLUSION This study establishes a rapid and accurate method for simultaneously identifying kidney-derived drugs from three species of cervus nippon,donkey, and dog based on multiplex PCR technology, which provides another new method for solving the problem that medicinal products are easy to mix and difficult to identify.

关键词

多重聚合酶链式反应 / 种属鉴别 / 肾源性中药

Key words

multiplex PCR / species identification / kidney-derived Chinese medicine

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邵博宇, 杨畅, 徐宁, 于文莹, 迟凯月, 高丽君, 夏薇, 张亚丽, 艾金霞, 高锋. 应用多重PCR技术鉴别3种肾源性中药的实验研究[J]. 中国药学杂志, 2022, 57(12): 1015-1020 https://doi.org/10.11669/cpj.2022.12.011
SHAO Bo-yu, YANG Chang, XU Ning, YU Wen-ying, CHI Kai-yue, GAO Li-jun, XIA Wei, ZHANG Ya-li, AI Jin-xia, GAO Feng. An Experimental Study on the Identification of Kidney-derived Chinese Medicine by Multiplex PCR[J]. Chinese Pharmaceutical Journal, 2022, 57(12): 1015-1020 https://doi.org/10.11669/cpj.2022.12.011
中图分类号: R95   

参考文献

[1] FU Y L. Seek in the same way,nourish organs with organs[J]. TCM Healthy Life-Nurtur(中医健康养生), 2015, 1(1):40-41.
[2] GUO Y S, ZHENG H Z. On the geological distribution, taxonomic status of species and evolutionary history of sika deer in China[J]. Acta Theriol Sin (兽类学报), 2000, 20(3):168-179.
[3] ZHANG Y, CHEN F Z. New research on the medicinal value of northeast sika deer[J]. Jilin J Tradit Chin Med(吉林中医药), 2012, 32(2):178-180.
[4] MA Z F, WANG W F. Antler products and medicinal value in China[J]. Dev Agric Anim Husb Prod(农牧产品开发), 2000, 21(4):23-25.
[5] HUANG Y P.Pesearch on the preparation, composition analysis and the performance of the freeze-dried powder of deer kidney[D]. Changchun: Changchun University of Technology, 2014.
[6] DENG H, XIONG F L, WEI X D. Textual research on the materia medica of donkey whip[J], Jilin J Tradit Chin Med(吉林中医药), 1991,(5):35.
[7] CAI W J. The medicinal value of dogs[J]. Cook Knowl(烹调知识), 2006, 24(3):54.
[8] WANG G X. The medicinal value of dogs[J]. J Benef Read Drug Inf Med Advices(开卷有益-求医问药), 2016, 36(10):70.
[9] DEL R A, JIMÉNEZ E, PARDO M Á. SYBR-Green real-time PCR assay with melting curve analysis for the rapid identification of Mytilus species in food samples[J]. Food Control, 2021, 130:108257.
[10] HUANG Y X, WANG S, GAO Y Q, et al. Comparison of mitochondrial genome and development of specific PCR primers for identifying two scuticociliates, Pseudocohnilembus persalinus and Uronema marinum[J]. Parasites Vectors, 2021, 14(1):1-10.
[11] KEERTI P, AHMED M, MICHAEL N K, et al. Genomic DNA extraction methods using formalin-fixed paraffin-embedded tissue[J]. Anal Biochem, 2015, 29(6):17-23.
[12] XU Y, ZHAI Y N, DUAN S Q, et al. Development and evaluation of antler DNA detection kit[J]. Chin Pharm J(中国药学杂志), 2020, 55(11):889-894.
[13] WU Y J, WANG B, LIU M C, et al. A real-time pcr to detect horse and donkey ingredients in donkey hide glue.[J]. Food Sci(食品科学).2014, 35(8):85-88
[14] CHEN W Z, ZHANG J, WANG X, et al. Establishment and application of a composite detection system for simultaneous identification of 9 meat species[J]. Chin J Foren Sic Med(中国法医学杂志), 2020, 35(2):177-181.
[15] XU F, GUO S H. Research status of sika deer medicinal products[J]. Asia-Pac Tradi Med(亚太传统医药), 2009, 5(8):181-183.
[16] LAN C. Discussion on the current situation and development prospects of sika deer breeding[J]. Mod Anim Husb(当代畜禽养殖业), 2020, 41(9):35-36.
[17] LI J F, WANG Y, LU D L. Donkey meat performance and nutritional value of donkey meat[J]. Xinjiang Anim Husb(新疆畜牧业), 2018, 33(12):11-16, 19.
[18] ANON.Inventory of Chinese medicine related to dogs in the year of the dog[J]. Tradit Chin Med J(中医药通报), 2018, 17(1):57.
[19] DONG S M. Deer antler source and sika deer antler quality evaluation system establishment[D]. Changchun: Jilin Agricultural University(吉林农业大学), 2016.
[20] KALTENBRUNNER M, HOCHEGGER R, CICHNA-MARKL M. Sika deer(Cervus nippon)-specific real-time PCR method to detect fraudulent labelling of meat and meat products.[J]. Sci Rep, 2018, 8(1):1-11.
[21] WANG F X, CHEN Y Y, REN G Q, et al. Identification of deer blood by PCR-RFLP method.[J]. China Tradit Herb Drugs(中草药), 2018, 49(8):1914-1918.
[22] ZHOU T T, AI J X, GAO L J, et al. Development and application of DNA extraction methods, pcr parameter optimization and rapid detection reagent for fetus cervi[J]. Chin Pharm J(中国药学杂志), 2019, 54(18):1481-1485.
[23] MA W M, LIU Y M, DONG B J, et al. Comparison of different analysis methods of dna barcode on recognition effect of deer animals[J]. J Changchun Norm Univ(长春师范大学学报), 2017, 36(4):54-60.
[24] JIANG C, JIN Y, ZHAO X L, et al. Rapid and robust authentication of deer antler velvet product by fast PCR-RFLP analysis.[J]. Mitochondrial DNA Part A, 2018, 29(2):266-272.
[25] HOU F X, GAO J H. Molecular authentication of sika deer(Cervus nippon) based on allele-specific PCR.[J]. Mitochondrial DNA Part B, 2019, 4(2):2231-2233.
[26] LIU D, QIAN Q N, ZHANG H Y, et al. DNA barcode molecular identification of deer Chinese medicinal materials based on COI barcode[J]. Mod Tradit Chin Med Mater Med Word(世界科学技术-中医药现代化), 2014, 16(2):274-278.
[27] ZHU T Y, ZHOU X F, ZHANG W, et al. Multiplex and real-time PCR for qualitative and quantitative donkey meat adulteration[J]. J Food Meas Charact, 2021, 15(2):1161-1168.
[28] FAN Y R. DNA molecular identification method of donkey-derived ingredients of donkey-hide gelatin[J]. Renowned Doc(名医), 2017,8(3):62-63.
[29] XU Q, WANG L, ZHANG J, et al. Origin identification of Colla Corii Asini based on H-NMR metabolomics[J]. Food Sci Technol(食品科技), 2018, 43(1):316-319.
[30] WANG T T, LIU J L, LI Y H, et al. Development and evaluation of a dog-derived DNA test kit[J]. Sci Technol Food Ind(食品工业科技), 2020, 41(10):208-212.
[31] WU Q Q, XIANG S N, WANG W J, et al. Species identification of fox-, mink-, dog-, and rabbit-derived ingredients by multiplex PCR and real-Time PCR assay[J]. Appl Biochem Biotechnol, 2018, 185(1):1-12.
[32] NATSUMI I, MAKOTO S, HIROSHI K, et al. Development of a simultaneous identification method for 13 animal species using two multiplex real-time PCR assays and melting curve analysis[J]. Leg Med, 2018, 30(1):64-71.

基金

吉林省科技厅重点科技成果转化项目资助(20170307001YY);吉林省科技发展计划项目资助(20200404152YY,20200403047SF,20200403118SF);北华大学大学生创新项目资助(202010201279);北华大学研究生创新计划项目资助(【2021】060号
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