1) rohferment
杏仁酶
2) emulsin
[i'mʌlsin]
苦杏仁酶
3) Armydase
苦杏仁苷酶
1.
Armydase is crude enzymes,mainly containingβ-glucosidase and Hydroxynitrile lyase,and consisting in the seed of apricot,plum,peach,apple and so on,Armydase is correlated with the aromatic of plant and the phenomena of cyanogen,the phenomena of cyanogen is related to the resistance to natural defence of plant,which protect the plant fiom disease and pest.
苦杏仁苷酶是粗酶制剂,包含β-葡萄糖苷酶(β-glucosidase,BGLu)和羟基腈裂解酶(Hydroxynitrile lyase,HNLs)等,主要存在于杏、桃、李子、苹果等多种果实的种子中,现在一般也将其作为主要含植物BGLu等糖苷酶的一般名使用,是与植物香气和产氰现象密切相关的酶。
4) apricot kernel
杏仁
1.
This paper introduced the nutritional and healty function of apricot kernel and its application in food industry, which can provide the reference for further production and development of apricot kennel.
本文介绍了杏仁的营养保健功能及在食品加工中的应用,为杏仁的深加工研究开发提供参考。
2.
A kind of pure natural tea of apricot kernel with milk which is rich in nutrients and heath function is developed and produced from apricot kernel and tea as the main material.
以杏仁和茶叶为原料,研制出具有保健功效的纯天然营养杏仁奶茶,并介绍其生产工艺。
3.
This paper studies the origin,development and clinical application of “bitter apricot kernel” for “apricot kernel”,and concludes that “bitter apricot kernel” should be replaced by “apricot kernel”.
通过考释“苦杏仁”与“杏仁”的源流,发现现代有关中药著作及《药典》中“苦杏仁”既未遵照古代主要本草命名传统,也未参考临床用药习惯,其命名欠妥,建议应以“杏仁”作为正名。
5) Semen Armeniacae Amarum
杏仁
1.
A Preliminary Exploration of Zhong Zhongjing s Application of Semen Armeniacae Amarum;
仲景运用杏仁的初步探讨
6) almond
[英]['ɑ:mənd] [美]['ɑmənd]
杏仁
1.
Processing technology for almond and soybean milk beverage;
杏仁豆奶植物蛋白饮料的加工工艺
2.
Extraction of Separated Almond Protein;
杏仁分离蛋白提取工艺的研究
3.
Study on decortication and detoxification of bitter almond and decolorization of almond oil;
杏仁脱皮去苦及杏仁油脱色研究
补充资料:苦杏仁酶
分子式:
CAS号:
性质:为由扁桃、桃子、杏、栅巴等仁打浆成乳浊液后所得多种糖苷酶的粗酶混合制剂,主要成分为β-葡萄糖苷酶及β-D-半乳糖苷酶和α-D-甘露糖苷酶等,有浆状和粉状制品。主要用于水解苦杏仁苷为苯甲醛、葡萄糖、氢氰酸及中间产物。图中(1),(2),(3)为β-葡萄糖苷酶水解的作用位点。
CAS号:
性质:为由扁桃、桃子、杏、栅巴等仁打浆成乳浊液后所得多种糖苷酶的粗酶混合制剂,主要成分为β-葡萄糖苷酶及β-D-半乳糖苷酶和α-D-甘露糖苷酶等,有浆状和粉状制品。主要用于水解苦杏仁苷为苯甲醛、葡萄糖、氢氰酸及中间产物。图中(1),(2),(3)为β-葡萄糖苷酶水解的作用位点。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条