微生物吸附-化学还原法合成金钯纳米线机理研究

采用微生物吸附-化学还原法,以大肠杆菌(ECCs)为模板、十六烷基三甲基溴化铵(CTAB)为保护剂、抗坏血酸(AA)为还原剂制备金钯纳米线(Au-PdNWs),考察不同金钯摩尔比对合成金钯纳米材料的影响,并通过SEM、TEM、XRD等技术进行了表征,研究其形成机理。结果表明,吸附还原作用使ECCs在短时间内还原生成了少量Pd(0)和Au(0),大量的钯离子和金离子聚集在ECCs表面周围;还原剂AA的加入使ECCs表面成为优先成核位点,菌体表面基团与晶核相互作用阻止其迁移;在CTAB的作用下,菌体表面的纳米颗粒逐渐形成链状纳米中间结构,中间结构通过Ostwald熟化作用进一步形成Au-Pd纳米线。通过ECCs和CTAB协同作用,有利于一维纳米结构的生长。福建省教育厅中青年教科研项目(JAT171117);;莆田市工业科技类科研项目(2016G2020

采用掺稀降粘法探索新疆超稠油的应用

随着中轻质常规油资源的消耗,如何有效、经济地开采和利用非常规的重质油和沥青资源日益受到了人们的重视。本文首先对新疆超稠油的基本性质进行分析,然后考察其在50℃和常压的条件下,甲苯和汽油的掺入对超稠油降粘效果的影响,综合考虑稀油成本、减粘效果等因素,选择适当的掺油方式和比例混合掺入甲苯和汽油,并测试混合油的主要指标,以探索利用该超稠油制备船用燃料油的可能性。结果表明,掺入甲苯能够显著降低超稠油的粘度,而掺入汽油的降粘效果远不及掺入甲苯。在同样的掺稀比例下,先加甲苯后加汽油的降粘效果更好。通过采用混合掺入稀油(汽油和甲苯)对新疆超稠油进行降粘,所得混合油可达到180~#和380~#船用燃料油的大部分指标要求,具有一定的利润空间

阻断交感神经对青年和老龄小鼠小肠T淋巴细胞活性的影响

目的探究交感神经在青年和老龄小鼠中对小肠T淋巴细胞的免疫调控机制。方法选用健康的3月龄和18月龄的雄性昆明小鼠,腹腔注射六羟多巴胺,通过石蜡切片和HE染色观察上皮内淋巴细胞的数量,MTT法测定小肠T淋巴细胞的增殖,ELISA试剂盒测定小肠T淋巴细胞分泌IL-2、IL-4水平。结果阻断交感神经后,2个年龄组上皮内淋巴细胞数量均减少,老龄组尤为突出。青年小鼠T淋巴细胞增殖在处理后第5、10天出现下降,老龄小鼠在第3天至第15天均显著下降,其中第5天下降39.4%(P<0.01)。青年小鼠损毁交感神经后主要引起淋巴细胞分泌IL-4含量降低,而老龄小鼠主要引起IL-2降低。结论损毁交感神经可导致青年和老龄小鼠小肠T淋巴细胞活性下降,老龄组下降幅度大,恢复周期长

Experimental Study of the Abalone Shell on Cataract induced by Oxidative Stress

目的研究石决明提取物对体外培养的晶状体氧化应激性白内障形成的作用及机制。方法离体培养小鼠晶状体,应用不同浓度的石决明提取物预孵育晶状体24h后,加入1mm过氧化氢,继续培养3小时后恢复正常培养,72小时后观察小鼠晶状体混浊程度,测定晶状体组织培养液中的乳酸脱氢酶(LDH)含量,晶状体组织中还原型谷胱甘肽(GSH)含量及超氧化物歧化酶(SOD)活力。结果石决明提取物在1~2 mg/ml浓度范围内减轻氧化应激造成的晶状体混浊,减少晶状体LDH的释放,提高组织内GSH含量和SOD活力。结论石决明提取物可减轻氧化应激白内障的形成,其作用主要与石决明提取物提高内源性抗氧化系统有关。Objective To study the effect of the abalone shell extract on oxidative stress induced cataract formation and its mechanism in cultured mouse lens in vitro. Methods The cultured mouse lens were pretreated with the abalone shell extract in different concentrations for24 hours,and then 1mm hydrogen peroxide was added and continued incubating for 3 hours,and they were changed to normal culture media.After 72 hours,the opacity of each lens was observed under an anatomical microscope,the content of lactate dehydrogenase( LDH)leakages,the content of the reduced glutathione( GSH) and activity of superoxide dismutase( SOD) in lens tissue were assayed. Results Abalone shell extract in the concentration range of 1 ~ 2 mg / ml reduced the lens opacity caused by oxidative stress,alleviated the release of LDH,and increased GSH content and SOD activity in cultured lens. Conclusion Abalone shell extract can alleviate the oxidative stress induced cataract formation,and this effect is mainly related to its improvement of the endogenous antioxidant system in lens.2012年福建省卫生厅中医药科研专项课题(No.WST201210);; 2013年福建省卫生厅中医药科研专项课题(No.wzhw201302);; 2014年厦门市科技局科技惠民项目课题(No.3502Z20144030

缩氨基硫脲化合物的合成及对菜青虫酚氧化酶抑制作用研究

菜青虫是危害农作物的主要害虫,酚氧化酶在昆虫的生长发育过程中起着重要的调节作用,高效的酚氧化酶抑制剂对于发展新型"环境友好"杀虫剂有着重要的意义.设计合成了4种缩氨基硫脲类化合物,采用红外光谱、质谱和核磁共振谱对其进行结构鉴定,进一步研究了它们对菜青虫酚氧化酶的抑制作用,结果表明,4种化合物均有显著的抑制作用,其半抑制率IC50分别为2.88,0.93,3.60和0.22μmol/L,有可能进一步开发成为以酚氧化酶为靶点的新型生物农药.同时,为基于缩氨基硫脲母核的酚氧化酶抑制剂的设计提供了数据基础

Preparation and biological safety of basic fibroblast growth factor/double-layered collagen composite

背景:胶原特殊的分子结构和生物活性有利于多种细胞黏附、增殖和分化,并可降解为新生组织提供足够空间。目的:制备一种复合负载碱性成纤维细胞生长因子的壳聚糖-肝素纳米粒子双层胶原基复合材料,并评价其生物安全性。方法:制备交联风干胶原膜和交联冻干胶原膜。将壳聚糖-肝素纳米粒滴于交联冻干胶原膜上,再将湿态交联风干胶原膜置于复合纳米粒子的交联冻干胶原膜上风干,即碱性成纤维细胞生长因子/双层胶原基复合材料。采用急性全身毒性试验、溶血试验、热原试验和细胞毒性试验评价其生物安全性。结果与结论:碱性成纤维细胞生长因子/双层胶原基复合材料为双层结构,一侧表面致密,另一侧疏松多孔。在其中间负载碱性成纤维细胞生长因子的壳聚糖-肝素纳米粒子呈不规则球形分布于胶原膜内侧面;急性全身毒性试验、热原试验、溶血试验均为阴性,细胞毒性为0级。说明碱性成纤维细胞生长因子/双层胶原基复合材料具有良好的生物安全性,对机体无毒,符合ISO10993-1评价标准。BACKGROUND: Collagen is a common used scaffold in tissue engineering, its specific molecular structure and biological activity are conducive to a variety of cell adhesion, proliferation and differentiation, and can speed up wound healing and degradation to provide sufficient space for new tissues.OBJECTIVE: To prepare a kind of inhomogeneous double layered collagen composite incorporated with basic fibroblast growth factor (bFGF) loaded chitosan-heparin (CS-Hep) nanoparticles, and to evaluate its biological safety.METHODS: The air-dried dense layer collagen membranes and freeze-dried loose layer collagen membrane were prepared respectively and then cross-linked by D-ribose (termed as CAM and CFM respectively).CS-Hep nanoparticles were prepared and then dropped on the surface of CFM.The wet CAM was laid on the surface of CFM with nanoparticles, and then air dried completely at 4 ℃.The obtained material was termed as bDM.Its physical and chemical properties were investigated.In addition, its bio-safety was also examined through acute systemic toxicity, pyrogen, hemolysis and cellular toxicity tests.RESULTS AND CONCLUSION: The bFGF/double-layered collagen composite was made up of double layers with one dense layer (CAM) and another loose layer (CFM).As part of bDM, CS-Hep nanopartiles with irregular global shape were aligned in the scope of D-period structure of the inner surface of CFM; the bFGF/double-layered collagen composite had no systemic acute toxicity, no cytotoxicity and pyrogen reactions as well as no hemolytic effect.The bFGF/double-layered collagen composite is prepared and found to have good biocompatibility and safety.Moreover, this material conforms to the ISO 10993-1, and can be used as a basic scaffold material in tissue engineering天津市科技支撑计划重点项目(08ZCKFSF02100);博士点基金项目(20101106110042)---

Study of soil Cd fractionation and its bioavailability on the Loess Plateau

研究黄土高原主要农田土壤重金属Cd的形态与生物有效性的关系,为评价本区土壤重金属Cd污染程度及其生物有效性提供一定的理论与数据依据。【方法】以黄土高原自北向南采集的12个0~20 cm耕层土壤为供试土样,通过室内分析和盆栽试验,研究了黄土高原石灰性土壤中不同形态Cd的分布特征及其生物有效性。【结果】黄土高原农田土壤Cd各形态总体分布特征为:有机结合态Cd、铁锰氧化物结合态Cd&gt;碳酸盐结合态Cd&gt;交换态Cd&gt;残渣态Cd,自北向南各形态Cd含量均呈不同程度的增加趋势。各土壤类型间铁锰氧化物结合态Cd及碳酸盐结合态Cd平均含量均表现为:干润砂质新成土&lt;黄土正常新成土&lt;简育干润均腐土&lt;土垫旱耕人为土,自北向南依次增加。碳酸盐结合态Cd和全Cd含量主要受到全氮、有效磷和砂粒含量的影响,且全氮和有效磷含量对其的影响为正效应。铁锰氧化物结合态Cd含量主要受全氮、有效磷、砂粒和粉砂粒含量的影响,且全氮、有效磷和粉砂粒含量对其的影响为正效应。土壤中各形态Cd含量与有机质、C/N、pH、CaCO3、粘粒含量的相关性均不显著,其中与C/N、pH、粘粒含量呈负相关。Cd在小麦茎叶层的含量小于根系;而作物不同部位Cd累积量表现..