树鼩NKT细胞新型抗原递呈分子CD1d的分子克隆及初步分析

目前多数学者认为树鼩（Tree shrews）是灵长目攀居目树鼩科的一种小型哺乳动物。因其具有体型小、易饲养、价格低、新陈代谢和解剖结构与人类非常接近等优点，树鼩已经成为多种人类疾病研究的良好动物模型。树鼩作为乙型肝炎病毒（HBV）感染的动物模型已经被广泛应用。 自然杀伤性T细胞（Natrual killer T cells, NKT cells）可同时表达NK细胞和T细胞的表面标记，是CD1d限制性的特殊的淋巴细胞亚群，在机体的免疫反应中起重要作用。研究表明，在HBV感染及乙型肝炎的发病过程中，NKT细胞既有抑制和清除病毒的作用，也有加重肝炎及相关病症的负作用。因此，对NKT细胞的研究及恰当地调节将有助于理解和解决在研究乙肝防治中遇到的问题，但在树鼩中，至今尚无NKT细胞的相关报道。 目前公认的检测NKT细胞的手段是用加载了α-GalCer的CD1d四聚体检测。但至今尚无树鼩特异的相关抗体，给树鼩NKT细胞的研究造成很大障碍。因此，获得树鼩特异的CD1d四聚体是研究其NKT细胞特征和功能的前提。本论文作为其中一部分，目的是克隆树鼩CD1d编码区全长序列，为今后抗体的制备奠定基础。 本论文中，我们完成了相关工作并得到了以下结果：1、首次克隆得到了树鼩CD1d基因编码区的全长序列（1002bp），并预测了其氨基酸序列；2、通过比对分析得知其与灵长类的CD1d同源性较高，达到80％以上；同时，通过系统进化树分析，得知树鼩与灵长类亲缘关系较其它物种更近；3、首次分析了树鼩的CD1d mRNA在不同组织中的表达情况，发现树鼩的肝，肺中CD1d表达量较高，外周血和脾脏中也有少量表达。 总之，我们首次克隆得到了树鼩CD1d的编码区的全长序列，为今后制备CD1d四聚体进而研究树鼩的NKT细胞奠定了基础；同时首次分析了CD1d mRNA在树鼩的部分组织中的表达情况，结合以往其它物种中CD1d组织分布情况的检测结果，为树鼩中CD1d分子的研究提供了材料和数据基础。

恒河猴CD1d基因的克隆及其组织表达差异性分析

目的:克隆非人灵长类疾病动物模型-恒河猴的CD1d基因并检测其在不同组织中的表达差异情况.方法:提取恒河猴血液及各组织的RNA, 以反转录得到的cDNA为模板, 用特异性引物扩增CD1d;以管家基因GAPDH为内参, 用半定量RT-PCR的方法对CD1d的组织表达差异性进行分析.结果:成功扩增了恒河猴CD1d基因的编码区序列;首次用半定量RT-PCR的方法检测了CD1d mRNA在恒河猴部分组织中的表达情况, 发现其表达水平存在明显的组织差异性, 其中, 在肝脏、脾脏和心脏中的表达水平较高, 在血液、小肠和肺中次之, 在脑中表达最少.结论:研究结果为今后表达恒河猴CD1d蛋白并制备其四聚体进而研究恒河猴NKT细胞在众多疾病中的作用奠定了基础;组织表达差异的研究结果提示其在相关疾病的发生发展过程中可能扮演着重要的角色, 具体作用还有待深入研究.

广西合山固体废弃物制备地质聚合物胶凝材料

Geopolymer gelatinous material was prepared by ferroalloy slag (signed with NKT in laboratory) and circulating fluidization bed slag (CFB slag, signed with NM in laboratory) produced from Heshan city, Guangxi zhuang autonomous region, China. The mechanical properties of the geopolymer made of high content ferroalloy slag can reach the standard of 42.5# portland blastfurnace-slag cement, and it’s processing technology is more simple and not need of mill and burn and will not produce harmful gas. By means of chemical and XRD analyses, it is concluded that NKT is a kind of acidity water-granulated slag with better activation and fit to be activated by alkali activators. Low-cost industrial gypsum (signed with NG in laboratory), analytic reagent oxide(signed with NH in laboratory) and sulfate(signed with NS in laboratory) were selected as alkali activation in the experiment. The results showed NH is a good alkali activator for NKT. Both NH and NG can activate ferroally slag’s activities, but NS can’t alone. The activation effect of superimposing activation of NH and NG excel by separateness. Based on those experiments, optimization compounds were carried out: (1) NKT: NH: NG = 80: 10: 10 and (2) NM: NKT: NS: NG: NH = 10: 70: 2: 8: 10。. The soundness of the test blocks is good by boiling examination. Through XRD, SEM, IR, NMR analyses of geopolymer, the reaction mechanism of geopolymer prepared by alkalescent activating in solid wastes was discussed in the thesis first. It is point out, there is difference in reaction mechanism between traditional geopolymer preparation and the preparation of alkalescent activating solid wastes because NG is a industry product. There is the similar process of depolymerization and reunion of Si-O bond. The latter preparation process generate new subtance but the former doesn’t. In the experiment, we found a performance of NKT that the water requirement of normal consistency of geopolymer reduces with increasing content of NKT. The result shows NKT has some ability to reduce water requirement. The performance is worthy of further research and utilization. Making use of solid wastes to prepare geopolymer, not only can settle environment problem caused by a great deal of dump of NKT, but also settle the shortage of natural resources. Moreover it could take economic, environmental and social benefits and settle thoroughly contradiction in the environment protection and regional economy development and promote circulation economy development.