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覆盆子提取物
品名:覆盆子提取物
CAS号.:5471-51-2
提取部位:果实
颜色:棕色至白色粉末
分子式:C10H12O2
分子量:164.20
规格:30%,50%,98%
白色针状结晶或粒状固体。呈覆盆子香气和水果香甜味。熔点82~83℃。不溶于水和石油英,溶于乙醇、 和挥发性油。天然品存在于覆盆子(树莓)等中。
用途:用于调制食品香料,具有增香增甜作用,也可用于化妆品及皂用香精中,覆盆子提取物,中药的一种。具有益肾,固精,缩尿的功效。
名称:覆盆子提取物
类别:收涩药
拼音:FU PEN ZI
拉丁:Fructus Rubi
别名:覆盆、小托盘
提取部位:成熟果实
规格:5:1 10:1 20:1
检测方法:uv
性状:棕黄色粉末
网筛孔径:100目
用途:医药保健品,饮料食品添加剂等。
性味归经:温;甘、酸;归肾、膀胱经
用法用量:内服:煎汤,6~12g;或入丸、散;或浸酒、熬膏。
禁忌:肾虚火旺,小便短赤者慎服。
产品详询:13657416805
参考文献:
- 1.
Ogawa, Y., Akamatsu, M., Hotta, Y., Hosoda, A., Tamura, H.: Effect of essential oils, such as raspberry ketone and its derivatives, on antiandrogenic activity based on in vitro reporter gene assay. Med. Chem. Lett. B 20, 2111–2114 (2010)
- 2.
Kosjek, B., Stampfer, W., Deursen, R.V., Faber, K., Kroutil, W.: Efficient production of raspberry ketone via ‘green’ biocatalytic oxidation. Tetrahedron 59, 9517–9521 (2003)
- 3.
Harada, N., Okajima, K., Narimatsu, N., Kurihara, H., Nakagata, N.: Effect of topical application of raspberry ketone on dermal production of insulin-like growth factor-I in mice and on hair growth and skin elasticity in humans. Growth Horm IGF Res. 18, 335–344 (2008)
- 4.
Larsen, M., Poll, L.: Odour thresholds of some important aroma compounds in raspberries. Z. Lebensm Unters Forsch. 191, 129–131 (1990)
- 5.
Bredsdorff, L., Wedebye, E.B., Nikolov, N.G., Hallas-Møller, T., Pilegaard, K.: Raspberry ketone in food supplements – High intake, few toxicity data – a cause for safety concern? Regul. Toxicol. Pharm. 73, 196–200 (2015)
- 6.
Hoelderich, W.F., Ritzerfeld, V.: Preparation of a raspberry ketone precursor in the presence of rare earth oxide catalysts. Appl. Catal. A: General 504, 654–663 (2015)
- 7.
Shimoda, K., Harada, T., Hamada, H., Nakajima, N., Hamada, H.: Biotransformation of raspberry ketone and zingerone by cultured cells of Phytolacca americana. Phytochemistry. 68, 487–492 (2007)
- 8.
Takiyama, H.: Supersaturation operation for quality control of crystalline particles in solution crystallization. Adv. Powder Technol. 23, 273–278 (2012)
- 9.
Parimaladevi, P., Srinivasan, K.: Influence of supersaturation level on the morphology of a-lactose monohydrate crystals. Int. Dairy J. 39, 301–311 (2014)
- 10.
Jiang, L.K., Wang, L.S., Du, C.J., Sun, G.Q., Qi, C.M.: Measurement and correlation of the solubilities of tetra(5,5-dimethyl-1,3-dioxaphosphorinanyl-2-oxy) neopentane in different pure solvents. Fluid Phase Equilib. 367, 117–124 (2014)
- 11.
Matsuda, H., Mori, K., Tomioka, M., Kariyasu, N., Fukami, T., Kurihara, K., Tochigi, K., Tomono, K.: Determination and prediction of solubilities of active pharmaceutical ingredients in selected organic solvents. Fluid Phase Equilib. 406, 116–123 (2015)
- 12.
Liu, Z.K., Yin, Q.X., Zhang, X.W., Zhang, H., Gong, J.B., Wang, J.K.: Measurement and correlation of the solubility of 4,4-oxydianiline in different organic solvents. Fluid Phase Equilib. 356, 38–45 (2013)
- 13.
Zhu, L., Wang, L.Y., Li, X.C., Sha, Z.L., Wang, Y.F., Yang, L.B.: Experimental determination and correlation of the solubility of 4-hydroxy-2,5-dimethyl-3(2H)-furanone (DMHF) in six different solvents. J. Chem. Thermodyn. 91, 369–377 (2015)
- 14.
Xiao, L.P., Wang, Y.L., Yang, J.X., Yuan, F.H., Jiang, C., Hou, B.H., Xie, C.: Determination and correlation of solubility of 4′-bromomethyl-2-cyanobiphenyl in acetone + (ethanol, n-propanol, n-butanol) mixtures. J. Chem. Thermodyn. 102, 199–210 (2016)
- 15.
Apelblat, A., Manzurola, E.: Solubilities of o-acetylsalicylic, 4-aminosalicylic, 3,5-dinitrosalicylic, and p-toluic acid, and magnesium-DL-aspartate in water from T = (278 to 348) K. J. Chem. Thermodyn. 31, 85–91 (1999)
- 16.
Kai, Y.M., Hu, Y.H., Liu, Y., Liang, M.M., Yang, W.G., Xi, Y.: The solubility of mercaptosuccinic acid in water + (methanol, ethanol, acetone) mixtures from (278.15 to 333.15 K). Fluid Phase Equilib. 361, 282–288 (2014)
- 17.
Wang, G., Wang, Y.L., Ma, Y.G., Hao, H.X., Luan, Q.H., Wang, H.H.: Determination and correlation of cefuroxime acid solubility in (acetonitrile + water) mixtures. J. Chem. Thermodyn. 77, 144–150 (2014)
- 18.
Sunsandee, N., Hronec, M., Štolcová, M., Leepipatpiboon, N., Pancharoen, U.: Thermodynamics of the solubility of 4-acetylbenzoic acid in different solvents from 303.15 to 473.15 K. J. Mol. Liq. 180, 252–259 (2013)
- 19.
Buchowski, H., Ksiazczak, A., Pietrzyk, S.: Solvent activity along a saturation line and solubility of hydrogen-bonding solids. J. Phys. Chem. 84, 975–979 (1980)
- 20.
Soltanpour, S., Gharagozlu, A.: Piroxicam Solubility in binary and ternary solvents of polyethylene glycols 200 or 400 with ethanol and water at 298.2 K: experimental data report and modeling. J. Solution Chem. 44, 1407–1423 (2015)
- 21.
Morimoto, C., Satoh, Y., Hara, M., Inoue, S., Tsujita, T., Okuda, H.: Anti-obese action of raspberry ketone. Life Sci. 77, 194–204 (2005)
- 22.
Koeduka, T., Watanabe, B., Suzuki, S., Hiratake, J., Mano, J., Yazaki, K.: Characterization of raspberry ketone/zingerone synthase, catalyzing the alpha, beta-hydrogenation of phenylbutenones in raspberry fruits. Biochem. Biophys. Res. Commun. 412, 104–108 (2011)
- 23.
Meng, Z.B., Hu, Y.H., Kai, Y.M., Yang, W.G., Cao, Z., Shen, F.: Thermodynamics of solubility of thiomalic acid in different organic solvents from 278.15 K to 333.15 K. Fluid Phase Equilib. 352, 1–6 (2013)
- 24.
Moodley, K., Rarey, J., Ramjugernath, D.: Experimental solubility for betulin and estrone in various solvents within the temperature range T = (293.2 to 328.2) K. J. Chem. Thermodyn. 98, 42–50 (2016)
- 25.
Ha, E.S., Kim, J.S., Kuk, D.H., Ha, D.H., Baek, I.H., Kim, M.S.: Determination and correlation of solubility of Pranlukast hemihydrate in five organic solvents at different temperatures and its dissolution properties. J. Mol. Liq. 225, 231–234 (2017)
- 26.
Pawar, R.R., Aher, C.S., Pagar, J.D., Nikam, S.L., Hasan, M.: Solubility, density and solution thermodynamics of NaI in different pure solvents and binary mixtures. J. Chem. Eng. Data 57, 3563–3572 (2012)
- 27.
Tao, M.Y., Sun, H., Wang, Z., Cui, P.L., Wang, J.K.: Correlation of solubility of pioglitazone hydrochloride in different binary solvents. Fluid Phase Equilib. 352, 14–21 (2013)
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