abrin

Molecular characteristics and clinical application prospect of abrin

相思子毒素的分子特点及其在临床中的应用前景

Rapid and quantitative detection of abrin using colloid gold immunochromatographic assay

胶体金免疫层析技术快速定量检测相思子毒素

Development of Protein Chip Technique for Detection of Abrin and Recin

蓖麻毒素和相思子毒素蛋白质芯片检测方法的建立

Objective To identify the hepatic protein targets involved in abrin toxicity in mice .

目的利用蛋白质组学技术研究相思豆毒素中毒小鼠肝脏差异表达蛋白。

Advance in Research on Anticancer of Abrin

相思子毒素抑制肿瘤活性研究进展

Here this article reviews the properties , gene cloning , structure and function of abrin , and its application in targeted cancer therapy .

本文就其性质、基因克隆、结构与功能，以及在肿瘤导向治疗方面的应用作一简要的综述。

Applications and studies of abrin

相思豆毒素研究及应用

In the human body , abrin bonds to cell membranes and prevents protein synthesis , one of the most important duties of the cell .

相思子毒素进入人体后，会附着于细胞膜上并阻止蛋白质合成，而合成蛋白质是细胞最重要的功能。

But rosary pea seeds contain the poison abrin .

然而，相思子的种子包含相思子毒素。

Extracting and Toxicity Characterization of Abrin from Abrus precatorius bean

相思豆毒蛋白的提取及毒理作用研究

Abrin , the poison found in the rosary pea seed , is more deadly than ricin .

在相思子种子中发现的有毒物质——相思子毒素，其毒性远超过蓖麻毒素。

Less than 3 micrograms of abrin in the body is enough to kill , which is less than the amount of poison in one pea .

不到3微克的相思子毒素便足以致命，而每颗相思子所含的毒素往往超过3微克。