亚洲免费一级无码片,色丁狠狠桃花久久综合网

苦杏仁提取物苦杏仁甙amygdalin簡(jiǎn)介-上禾生物

發(fā)布時(shí)間:2022-12-17 信息來(lái)源:admin 發(fā)布人:admin 點(diǎn)擊次數(shù):375

苦杏仁提取物苦杏仁甙amygdalin簡(jiǎn)介-上禾生物

來(lái)源: 苦杏仁籽

有效成分: 苦杏仁甙

拉丁名: Semen Armeniacae Amarum

規(guī)格: 1%-99%

檢測(cè)方式: HPLC UV

級(jí)別: 食品級(jí)別

外觀: 白色精細(xì)粉末

提取方式: 溶劑提取

編輯連結(jié)

苦杏仁甙簡(jiǎn)介
杏仁甙主要存在于苦杏、苦扁桃、桃、油桃(nectarines)、枇杷、李子、蘋果、黑櫻桃等果仁和葉子中，苦杏仁皮中不含苦杏仁甙�？嘈尤蔬坝升埬懚呛涂嘈尤示M成的β-型糖苷，分子式：C20H27NO11，分子量：457.43。其三水合物為斜方柱狀結(jié)晶，熔點(diǎn)200℃，無(wú)水物熔點(diǎn)約有20℃，[α]：20D-42℃。1g可溶于12mlH2O，900ml乙醇及11ml乙醇，易溶于沸水。

苦杏仁，味苦、微溫、歸肺、大腸經(jīng)。富含蛋白質(zhì)、糖類、胡蘿卜素、脂肪、維生素B族、維生素C、還含有苦杏仁甙、脂肪油、膳食纖維、鈣元素，鉀元素，鎂元素及8種脂肪酸等等營(yíng)養(yǎng)成分。具有止咳平喘、潤(rùn)腸通便的功效�？嘈尤手械目嘈尤受沼墟�(zhèn)痛作用，還可以殺死癌細(xì)胞，延長(zhǎng)癌癥病人壽命；含有的胡蘿卜素還有抑制肺癌、預(yù)防腫瘤的作用，能提高人體的免疫力；而且含有的脂肪油還能潤(rùn)便通腸、促進(jìn)皮膚微循環(huán)，起到美容作用。
【產(chǎn)品名稱】苦杏仁甙
【英文名稱】amygdalin
【產(chǎn)品來(lái)源】苦杏仁
【主要成分】苦杏仁甙 staherb
【提取規(guī)格】98% 99%
【產(chǎn)品性狀】白色晶體粉末
【功效用途】：鎮(zhèn)咳、平喘、鎮(zhèn)痛

編輯連結(jié)
苦杏仁甙staherb的功效：

1.鎮(zhèn)咳、平喘，抗炎、鎮(zhèn)痛作用

2.對(duì)消化系統(tǒng)的作用

3.抗腫瘤作用，能降血脂血糖

4.美容作用

苦杏仁甙的應(yīng)用：

1.制藥業(yè)

2.食品行業(yè)

3.護(hù)膚品行業(yè)

4.保健品行業(yè)

苦杏仁甙HPLC含量測(cè)定
HPLC法測(cè)定苦杏仁甙含量的操作規(guī)程

起草單位：長(zhǎng)沙上禾生物科技有限公司

日期：

目的：HPLC法測(cè)定苦杏仁甙含量的操作規(guī)程

責(zé)任人：QC員。

內(nèi) 容：

1、試劑

1.1乙腈（HPLC級(jí)）

1.2 蒸餾水（AR級(jí)）

1.3磷酸（HPLC級(jí)）

1.4 甲醇（HPLC級(jí)）

2、對(duì)照品

苦杏仁甙（購(gòu)自中國(guó)藥品生物制品檢定所）

3、儀器和用具

3.1 電子天平（1/100000）

3.2 玻璃儀器：100ml容量瓶

3.3 安捷倫1220 HPLC

4、液相條件

4.1流動(dòng)相：乙腈一0.1％磷酸溶液(8：92)

4.2檢測(cè)波長(zhǎng)：207nm

4.3流速：1ml/min

4.4柱溫：30℃

5 、操作步驟

5.1 對(duì)照品溶液的制備:取在110℃干燥至恒重的苦杏仁苷對(duì)照品適量，精密稱定，加甲醇制成每1m1含40μlg的溶液，即得。

5.2樣品溶液制備精密稱取在110℃干燥至恒重的苦杏仁甙，精密稱定，加甲醇制成每1m1含40μlg的溶液，即得。

6、檢測(cè)

取對(duì)照品溶液和樣品溶液0.22μm針孔過(guò)濾器過(guò)濾，進(jìn)樣20μl，根據(jù)峰面積計(jì)算樣品含量。

含量按以下公式計(jì)算：

A2 x C1 x T

R=------------------------- x 100

A1 x C2

C1: 對(duì)照品的參考濃度，mg/ml

C2: 樣品的參考濃度，mg/ml

A1: 對(duì)照品溶液的色譜主峰值面積

A2: 樣品溶液的色譜主峰值面積

T: 對(duì)照品的含量

參考文獻(xiàn)：

1.Akahori, A. and Kagawa, K., Enzymatic hydrolysis of amygdalin in “Tōnin,” “Kyōnin” and a traditional preparation containing “Tōnin”. Shoyakugaku Zasshi, 37, 241–247 (1983).

2.Cairns, T., Froberg, J. E., Gonzales, S., Langham, W. S., Stamp, J. J., Howie, J. K., and Sawyer, D. T., Analytical chemistry of amygdalin. Anal. Chem., 50, 317–322 (1978).
3.Culliton, B. J. and Sloan-Kettering: The Trials of an Apricot Pit. Science, 182, 1000–1001 (1973).
4.Dybowski, R., Examination of amygdalin preparations. Anal. Proc., 18, 316–318(1978).
5.Fischer, E., Ueber ein neudes dem amygdalin ahnliches glucosid. Ber. Deut. Chem. Ges., 28, 1508–1511(1985).
6.Heisman, D. R. and Knight, D. J., The enzymic hydrolysis of amygdalin. Biochem. J., 103, 528–534(1967).
7.Hwang, E. Y., Lee, J. H., Lee, Y. M., and Hong, S. P., Reversephase HPLC separation of D-amygdalin and neoamygdalin and optimum conditions for inhibition of racemization of amygdalin. Chem. Pharm. Bull., 50, 1373–1375 (2002).
8.Isozaki, T., Matano, Y., Yamamoto, K., Kosaka, N., and Tani, T., Quantitative determination of amygdalin epimers by cyclodextrin-modified micellar electrokinetic chromatography. J. Chromatogr. A, 923, 249–254 (2001).
9.Koo, J. Y., Hwang, E. Y., Cho, S. H., Lee, J. H., Lee, Y. M., and Hong, S. P., Quantitative determination of amygdalin epimers from armeniacae semen by liquid chromatography. J. Chromatogr. B, 814, 69–73 (2005).
10.Smith, D. J. and Weber, J. D., Preparative and analytical separation of amygdalin and related compounds in injectables and tablets by reversed-phase HPLC and the effect of temperature on the separation. J. Chromatogr. Sci., 22, 94–98 (1984).
11.Stobaugh, J. E., Sternson, L. A., and Repta, A. J., Clinical method for analysis of amygdalin in human-plasma. Anal. Lett., 9, 753–764 (1978).
12.Takayama, Y. and Kawai, S., Improved gas chromatography of amygdalin and its diastereomer. J. Chromatogr., 197, 240–245 (1980).
13.Takayama, Y. and Kawai, S., Study on the prevention of racemization of amygdalin. Chem. Pharm. Bull., 32, 778–781(1984).
14.Xu, L. and Wang, W., Xing Ren (apricot kernel, semen pruni armeniacae). Chin. Mater. Med., 431–432 (2002).
15.The Pharmacokinetics of Amygdalin
A. G. Rauws, M. Olling, A. Timmerman in Archives of Toxicology (1982)
16.Improvement of the extraction efficiency of d-amygdalin from Armeniacae Semen powder through inactivating emulsin and suppressing the epimerization of d-amygdalin
Armeniacae Semen contains not only amygdalin but also emulsin, which is an enzyme that hydrolyzes amygdalin. This hydrolysis reaction has been a major...d-amygdalin, the extraction time was kept to less...d-amygdalin
Ha-Jeong Kwon, Je-Hyun Lee, Seon-Pyo Hong in Archives of Pharmacal Research (2010)

17.THE AMYGDALIN (‘LAETRILE’) CLINICAL TRIAL BY THE NCI
InPharma (1981)

18.Apricot kernal extract (amygdalin): serious health risks
Reactions Weekly (2016)

19.Pharmacology of amygdalin (laetrile) in cancer patients
Plasma and urine concentrations of amygdalin, whole-blood concentrations of cyanide, and...2...) and oral (500-mg tablet) administration of amygdalin. To measure low plasma concentrations of amygdalin following o...

Matthew M. Ames, Thomas P. Moyer, John S. Kovach… in Cancer Chemotherapy and Pharmacology (1981)

20.Prevention of epimerization and quantitative determination of amygdalin in Armeniacae Semen with Schizandrae Fructus solution
Armeniacae Semen not only contains amygdalin, but emulsin also, which is an enzyme that hydrolyzes amygdalin. The extraction yield of amygdalin from Armeniacae Semen was low, due to ... solution was used as the e...

Woo-Sang Joo, Ji-Seon Jeong, Hyogeun Kim, Yong-Moon Lee… in Archives of Pharmacal Research (2006)

21.Application of a quantitative 1H-NMR method for the determination of amygdalin in Persicae semen, Armeniacae semen, and Mume fructus
A quantitative 1H-NMR method (qHNMR) was used to measure the amygdalin content of Persicae semen, Armeniacae semen, and Mume fructus, in each of which amygdalin constitutes a major component. The purity of amygdalin

Rie Tanaka, Akane Nitta, Akito Nagatsu in Journal of Natural Medicines (2014)

22.Simple screening procedure for microorganisms to degrade amygdalin
Amygdalin is a cyanogenic glycoside occurring among others ... screening microbial cultures for their ability to degrade amygdalin is a convenient micro-titre version based...

L. Brimer, G. Tunçel, M. J. R. Nout in Biotechnology Techniques (1993)

23.Pharmacokinetic Effects of Cinnamic Acid, Amygdalin, Glycyrrhizic Acid and Liquiritin on Ephedra Alkaloids in Rats
Ephedra alkaloids, including (EP), pseudo (PEP) and methyl (MEP), are sympathomimetic compounds with known toxicities but many Ephedra (Ephedrae herba...) preparations, such as Ephedra...

Yinghong Tang, Mengkai Zheng, Yu-Lin Chen… in European Journal of Drug Metabolism and Ph… (2017)

24.Cyanide formation in preparations from Chlorella vulgaris Beijerinck: Effect of sonication and amygdalin addition
A critical evaluation of a method for recovering HCN from cell extracts is presented. Since crude extracts often bind or metabolize HCN extensively, the HCN recovered by distillation at room temperature repres...

Hans-Siegfried Gewitz, Elfriede K. Pistorius, Helga Voss, Birgit Vennesland in Planta (1976)

25.In vitro and in silico anticancer activity of amygdalin on the SK-BR-3 human breast cancer cell line
In spite of several studies that have shown the cytotoxic effects of amygdalin on the different cancer cell lines, however, the chemopreventive potential of amygdalin on the breast cancer cell line is ... complet...

Bahman Moradipoodeh, Mostafa Jamalan, Majid Zeinali… in Molecular Biology Reports (2019)

26.über ein neues, dem Amygdalin ähnliches Glucosid
Das Amygdalin, welches bekanntlich durch Emulsin im Sinne der... gespalten wird, ist schon vor 25 Jahren von Hrn. Hugo Schiff1) mit dem ...

Emil Fischer in Untersuchungen über Kohlenhydrate und Fermente (1884–1908) (1909)

27.Sensitive Monitoring of Amygdalin and 5-Hydroxytryptamine in Food Supplements Using HILIC OH5 Chromatography
Amygdalin is a cyanogenic glycoside found in pits ... Recently, in some countries, food supplements containing amygdalin have been offered for the use in the alternative cancer treatment. The effectivity of amygdalin

Lucie Havlíková, Martina Parmová, Petr Chocholouš, Petr Solich in Food Analytical Methods (2016)

28.The anti-cancer effect of amygdalin on human cancer cell lines
Derived from rosaceous plant seed, amygdalin belongs to aromatic cyanogenic glycoside group, and ... In this study, we objected to investigate amygdalin effect on two antiapoptotic genes (Survivin, XIAP) and two ...

Asghar Arshi, Sayed Mostafa Hosseini… in Molecular Biology Reports (2019)

29.The pharmacokinetics of amygdalin
Amygdalin (d-mandelonitrile-β-d...-gentiobioside) is a cyanogenic glycoside claimed to show anti-cancer activity, sold under the incorrect name “Laetrile”. For a sensible discussion of its alleged activity and it...

A. G. Rauws, M. Olling, A. Timmerman in Archives of Toxicology (1982)

30.Synergistic and protective effect of atorvastatin and amygdalin against histopathological and biochemical alterations in Sprague-Dawley rats with experimental endometriosis
The aim of the present study was to evaluate the protective effects of combined atorvastatin and amygdalin in a rat model of endometriosis. Tumor ... suggested that combined treatment consisting of atorvastatin a...

Fang Hu, Yichuan Hu, Fangxin Peng in AMB Express (2019)

免責(zé) 申明：

上禾生物是一家專業(yè)的標(biāo)準(zhǔn)化植物提取物生產(chǎn)企業(yè)。
平臺(tái)所發(fā)布的資訊為科研資料，僅可做行業(yè)知識(shí)參考，不對(duì)其準(zhǔn)確性及完整性做保證。任何信息所產(chǎn)生風(fēng)險(xiǎn)，應(yīng)自行承擔(dān)。如有侵權(quán)，請(qǐng)聯(lián)系我們刪除！
上禾生物所生產(chǎn)的植物提取物系列產(chǎn)品，僅提供給相關(guān)企業(yè)，外貿(mào)，學(xué)�；蜓邪l(fā)機(jī)構(gòu)，不面向個(gè)人客戶銷售。

999国内精品视频免费_国产真人作爱免费视頻_口口亚洲国产综合Av_99Re国产精品视频