摘要卵巢癌是目前死亡率最高的妇科疾病,70%的患者因在晚期确诊而难以得到有效的治疗。现在需要从天然或者合成的化合物中筛选一种强有力的、具有选择性的、安全的口服抗PDI因子,回复肿瘤细胞的药敏性,用于卵巢癌的伴侣治疗。本研究根据文献me-too合成一种抗PDI因子,用于本课题构建的抗PDI因子检测系统的验证。针对抗PDI因子细菌检测体系,本研究采用基因敲除、基因置换等技术构建大肠杆菌dsbA突变体,然后需要采用构建报告基因等手段来构建,最终通过细菌报告基因表达来指示待测物质的抗PDI活性。抗PDI因子的me-too合成和大肠杆菌dsbA突变体的成功构建为最终抗PDI因子检测系统的构建打下了坚实的基础。63953
毕业论文关键词 卵巢癌 抗PDI因子 检测系统 突变体
毕业设计说明书(论文)外文摘要
Title :The Construction of an anti-PDI factor testing system in Escherichia coli dsbA mutant
Abstract Ovarian cancer is one of the leading causes of death in women with gynecological cancers in the world. About 70% of ovarian cancer cases are diagnose data late stage and therefore, poorly treatable. With the resistant tumoral cells being appeared, it is necessary to R&D one potent, target, and safe small-molecule inhibitors of PDI from natural or synthetic compounds to recover the sensitivity of these anti-tumor drugs. In the present study, an anti-PDI factor is chemically synthesized me-too to verify the availability of anti-PDI screening system. As for the construction of anti-PDI screening system, some interdisciplinary methods were used here, such as gene deletion, gene substitution and finally construct target report gene in Escherichia coli dsbA mutant. The synthesis of anti-PDI factor and the construction of E.coli dsbA mutant are basic to test anti-PDI factor detection system next.
Keywords ovarian cancer anti-PDI factor detection system mutant
目 次
1.绪论 1
1.1卵巢癌的简介 1
1.2卵巢癌的治疗手段 1
1.3病原细胞的抗药 2
1.4人体内的PDI 3
1.5大肠杆菌内的dsbA基因 3
1.6博来霉素抗性基因ble 4
1.7研究工作的发展和应用前景 4
2.实验 5
2.1实验目的 5
2.2实验原理 5
2.3实验仪器和材料 6
2.4实验涉及的方法和技术 7
2.4.1 Ugi反应 7
2.4.2 PCR 10
2.4.3细菌转化 10
2.4.4凝胶电泳 10
2.4.5基因敲除 11
2.5实验操作和结果 11
2.5.1经典Anti-PDI因子的me-tooaa化学合成 11
2.5.2大肠杆菌中与人体PDI相对应的dsbA基因的敲除 13
3.结果与讨论 31
3.1化合物1的1H NMR谱图解析 31
3.2酶连反应载体选择的重要性 31
3.3通过正交实验获取提取质粒pDGICZ的最佳条件 抗PDI因子(Anti-PDI Factor)生物检测系统的构建:http://www.youerw.com/shengwu/lunwen_70826.html