目的:研究蜂毒素对鸡胚绒毛尿囊膜血管生成的抑制作用。
Objective: to investigate the inhibitory effect of Melittin on the angiogenesis of chick chorioallantoic membrane (CAM).
目的建立以SDS -PAGE进行蜂毒素质量控制的方法。
Object To establish a SDS PAGE method on quality control of melittin.
目的:探讨蜂毒素诱导人T淋巴细胞白血病细胞株6TCEM的凋亡作用。
Objective:To explore the role of melittin in inducing apoptosis of human acute T lymphocyte leukemia cell line 6T CEM.
方法:查阅国内外文献,对蜂毒素的结构、构效关系、药理作用作了详细的介绍。
Methods: Summarized on the structure, structure-active relationship and pharmacological action of melittin through collected literatures at home and abroad.
我们现在正利用蜂毒素分子的无毒性部位将其他药物、靶向药物、或者成像药物与纳米微粒结合起来。
We are now using a nontoxic part of the melittin molecule to hook other drugs, targeting agents, or imaging compounds onto nanoparticles.
“蜂毒素就象一匹驮马,”Wickline博士说,“它与纳米微粒结合后非常稳定,而且制作很简单,也很便宜。”
"Melittin is a workhorse," said Dr. Wickline, "it's very stable on the nanoparticles, and it's easily and cheaply produced."
蜂毒眀肽是一种由18种氨基酸构成的肽神经毒素。
胡蜂毒腺中含有多种毒素多肽,国内对这些基因的研究基本上还是空白。
There are manifold venom peptides in vespa sac, but it is a blank research square about these genes at home.
华盛顿大学医学院的研究人员在圣路易斯的说:“现在,在蜂毒毒素已被利用杀死肿瘤细胞”。
Now the toxin in bee venom has been harnessed to kill tumor cells by researchers at Washington University School of Medicine in St.
华盛顿大学医学院的研究人员在圣路易斯的说:“现在,在蜂毒毒素已被利用杀死肿瘤细胞”。
Now the toxin in bee venom has been harnessed to kill tumor cells by researchers at Washington University School of Medicine in St.
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