1) daidzein
黄豆苷原
1.
Biodegradation of isoflavone daidzein by intestinal microbes in different animals;
不同动物肠道微生物对黄豆苷原的转化研究
2.
C-ring cleavage of isoflavone daidzein by a newly-isolated facultative Enterococcus hirae AUH-HM195 from Crossoptilon mantchuricum feces
兼性肠球菌Enterococcus hirae AUH-HM195对黄豆苷原的开环转化
3.
Three aglycones of soy isoflavones, namely genistein, daidzein and glycitein in soy granule and the heat-processed soy milks were assayed with HPLC method to compare their thermal reliability.
将大豆加工成豆浆并分别用95、121和140℃处理不同时间,以高效液相色谱(HPLC)法检测其中的3种大豆异黄酮苷原,染料木黄酮(genistein)、黄豆苷原(daidzein)和大豆黄素(glycitein)的含量变化,与原粒大豆、生豆浆进行比较。
2) Glycitin
黄豆黄苷
1.
Synthesis of Glycitin in the Presence of Tri(3,6-dioxaheptyl) amine
相转移催化合成黄豆黄苷的研究
3) daidzein
黄豆苷元
1.
Preparation of daidzein solid lipid nanoparticles by spray drying method;
喷雾干燥法固化黄豆苷元固体脂质纳米粒的研究
2.
Bioequivalence of daidzein capsule in healthy volunteers;
黄豆苷元胶囊健康人体生物等效性研究
3.
Formulation selection and study of dissolution in vitro on liquid hard capsules of daidzein;
黄豆苷元液体硬胶囊的处方筛选及体外溶出度考察
4) daidzin
['deidzn]
黄豆苷
1.
Study on Interactions of Curcumin and Daidzin with DNA G-quadruplex;
姜黄素和黄豆苷与核酸G-四链体相互作用的研究
2.
In order to study the properties of respetive monomer of genistin and daidzin as main compounds of isoflavone extracts from soybean, their respective isolation was studied in the paper.
为了深入研究大豆提取物中主要成分染料木苷和黄豆苷单体的性质,本实验进行了二者的分离。
3.
In this paper,a method determining isoflavone including Daidzin,Glycitin and Genistin by Reverse Phase High Performance Liquid Chromatography(RP-HPLC) was investigated and erected.
研究并建立了应用反相高效液相色谱法测定大豆籽粒中黄豆苷、黄豆黄素苷和染料木苷3种异黄酮成分含量的检测方法。
5) Daidzin
['deidzn]
黄豆苷/异黄酮苷
6) daidzein
大豆苷原
1.
Study on stability of daidzein in soybean during soaking processing;
浸泡处理对大豆中的大豆苷原稳定性影响的研究
2.
Effect of daidzein on the growth of LoVo cells in vitro;
植物雌激素大豆苷原(daidzein)对结肠癌LoVo细胞生长的影响
3.
OBJECTIVE To establish a TLC scanning(TLCS)method for determination of genistein and daidzein.
目的建立染料木素和大豆苷原的薄层扫描测定方法。
补充资料:黄豆苷元
分子式:
CAS号:
性质:又称黄豆苷元,大豆黄酮,大豆苷元。淡黄色棱柱状结晶(从50%乙醇中结晶),在高真空下可升华。溶于乙醇、乙醚。熔点315~323℃(分解),紫外吸收峰250nm。片状结晶(由丙酮中结晶),熔点315~316℃。存在于豆科植物野葛[Pueraria lobata(Willd) Ohwi]的根,豆科植物红车轴草(Trifolium pratense L.)全草,紫苜蓿(Medicago sativa L.)全草中。有雌激素样作用,合成的大豆黄素有明显的抗缺氧作用。
CAS号:
性质:又称黄豆苷元,大豆黄酮,大豆苷元。淡黄色棱柱状结晶(从50%乙醇中结晶),在高真空下可升华。溶于乙醇、乙醚。熔点315~323℃(分解),紫外吸收峰250nm。片状结晶(由丙酮中结晶),熔点315~316℃。存在于豆科植物野葛[Pueraria lobata(Willd) Ohwi]的根,豆科植物红车轴草(Trifolium pratense L.)全草,紫苜蓿(Medicago sativa L.)全草中。有雌激素样作用,合成的大豆黄素有明显的抗缺氧作用。
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