1) 14C erythromycin
14C红霉素
2) erythromycin
[英][i,riθrə'maisin] [美][ɪ,rɪθrə'maɪsɪn]
红霉素
1.
Study on preparation of erythromycin nanoemulsion and its pharmacy in vitro;
红霉素纳米乳的制备及其药效学研究
2.
Study on the Separation of Erythromycin from Fermentation Liquid by New Absorption Resin;
用新型分子模版吸附树脂从发酵液中分离红霉素的研究
3.
Adsorption of erythromycin in a fixed bed with macroporous resin HZ816;
大孔吸附树脂HZ816对红霉素的固定床吸附过程研究
3) erythromycin oxime
红霉素肟
1.
The E configuration of erythromycin oxime was found to transfer easily to the Z configuration to equilibrium under the condition of alkalescence.
碱性条件下红霉素肟容易由E构型转化为Z构型从而达到平衡。
2.
The main impurity involved in the synthesis of erythromycin oxime was separated and purified, which was identified as the very compound formed in the acidic hydrolysis of erythromycin A, i.
分离和鉴定了在合成红霉素肟的过程中产生的一种主要杂质 ,通过 IR,UV,MS,1 H NMR和 1 3C NMR确证它和红霉素在酸性水解时生成的红霉素 A 8,9-脱水 - 6,9-半缩酮为同一化合物 。
4) roxithromycin
罗红霉素
1.
Supercritical fluid assisted atomization introduced by hydrodynamic cavitation mixer for micronization of roxithromycin;
水力空化混合强化超临界流体辅助雾化制备罗红霉素超细微粒
2.
Rapid Determination of Two Main Components in Roxithromycin by Near Infrared Spectrometry;
近红外光谱法快速分析罗红霉素中两种主要成分
3.
Preparation and Quality Control of Compound Roxithromycin Gel;
复方罗红霉素凝胶剂的制备与质量控制
5) Daunorubicin
[,dɔ:nə'ru:bisin]
柔红霉素
1.
Interaction Between Daunorubicin and DNA at Co Ion Implanted Modified Glass Carbon Electrode;
柔红霉素在钴离子注入修饰玻碳电极上与DNA相互作用
2.
Electrochemical behavior of daunorubicin at Co/GC ion implantation modified electrode and the application of the electrode;
柔红霉素在钴离子注入修饰电极上的电化学行为及其应用
3.
Synthesis and Antitumor Activities of Spin Labeled Derivatives of Daunorubicin and Doxorubicin;
柔红霉素和阿霉素自旋标记衍生物的合成与抗肿瘤活性
6) Erythromycin A
红霉素A
1.
Erythromycin A Prepares for Erythromycin Oxime;
红霉素A制备红肟的研究
2.
Solvent systems with different compositions were compared by measuring their partition(coefficients) and settling times at different temperatures and pH in separating erythromycin A by high-speed counter current chromatography.
改变溶剂系统中各组分的比例、体系的温度、pH,通过测定分配系数和分层时间选择适宜于高速逆流色谱(HSCCC)分离红霉素A的溶剂系统。
3.
A high-speed counter-current chromatography was used to separate and prepare of erythromycin A and erythromycin B from erythromycin.
应用高速逆流色谱法,以正己烷-乙酸乙酯-甲醇-水(5:5:5:5)为两相溶剂系统,从红霉素中分离制得红霉素A和红霉素B,纯度分别为98。
补充资料:14一羟柔红霉素盐酸盐
[分子式]C27H29O11N·HCl
[分子量]579.9871
[CAS号]25316-40-9
[性状]为橙红色结晶, 熔点 204 - 205 ℃(dec)。 易溶于水、甲醇、乙醇,不溶于丙酮、
[用途]与正定霉素相似,但其抗瘤谱较广,治疗指数高,对增殖细胞各期均有杀伤作用。
临床主要用于急、慢性白血病、恶性淋巴瘤,对正定霉素耐药者对本品仍敏感,对肺癌、绒毛膜上皮癌、乳腺癌、膀胱癌、甲状腺癌和软组织肿瘤也有一定疗效。与阿糖胞甙、醒基长春碱、氟脲嘧啶等合用可增加其疗效。
[分子量]579.9871
[CAS号]25316-40-9
[性状]为橙红色结晶, 熔点 204 - 205 ℃(dec)。 易溶于水、甲醇、乙醇,不溶于丙酮、
[用途]与正定霉素相似,但其抗瘤谱较广,治疗指数高,对增殖细胞各期均有杀伤作用。
临床主要用于急、慢性白血病、恶性淋巴瘤,对正定霉素耐药者对本品仍敏感,对肺癌、绒毛膜上皮癌、乳腺癌、膀胱癌、甲状腺癌和软组织肿瘤也有一定疗效。与阿糖胞甙、醒基长春碱、氟脲嘧啶等合用可增加其疗效。
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