根癌农杆菌对单子叶植物竹子的细胞转化

本实验证明:具有重要经济价值的禾本科植物——竹子(bamboo)可被根癌农杆菌转化。在经有毒性的根癌农杆菌C_(580、A_(348)感染的竹子材料中,分别测到了专性的胭脂碱和章鱼碱,而对照处理及无毒性的根癌农杆菌VirA~-_(211)mx、NTI感染的竹子材料中,测不到冠瘿碱。     

以技术为主线开设药学类专业微生物学综合实验

以技术为主线开设药学类专业微生物学综合实验,能够帮助药学专业的学生更好地掌握微生物最基本的操作技能,了解微生物实验的基本流程,加深对微生物知识的理解,增强学习兴趣和创新能力,培养出药学微生物生产实践、教学科研全面的人才。     

HBV前S1蛋白与HepG2细胞膜蛋白结合位点鉴定

为鉴定HepG2细胞膜蛋白识别HBV包膜蛋白preS1区的位点.通过删除突变的方法构建preS1的不同区域片段与GST融合的重组表达质粒,将表达质粒转入E.coli BL21菌株中原核表达,以生物素标记HepG2细胞膜蛋白,pull down试验分析HepG2细胞膜蛋白识别preS1的位点.结果表明,21～33位氨基酸是HepG2细胞膜蛋白识别preS1的主要位点.通过对HepG2细胞膜蛋白与preS1结合的位点的分析,为进一步研究preS1在HBV早期感染中的作用和HBV包膜蛋白受体打下基础.     

雷公藤悬浮细胞原生质体的制备及瞬时转化体系的建立

为探索药用植物雷公藤(Tripterygium wilfordii)悬浮细胞原生质体提取的最优条件,并建立雷公藤原生质体瞬时转化体系,以雷公藤悬浮细胞为材料,对酶解液配比、酶解时间、甘露醇浓度及处理转速进行考察。用PEG介导的瞬时转化法将外源基因转化到雷公藤原生质体中。结果表明,以雷公藤悬浮细胞为材料提取原生质体的最佳条件是酶液配比为2.0%纤维素酶+0.5%果胶酶+0.5%离析酶,甘露醇浓度为0.6 mol·L–1,酶解10小时,处理转速为67×g;用PEG介导法将含有编码GFP的植物表达载体转化雷公藤悬浮细胞原生质体,激光共聚焦扫描显微镜下细胞显示绿色荧光。通过实验筛选得到雷公藤悬浮细胞原生质体的最佳提取条件,建立了雷公藤悬浮细胞原生质体的瞬时转化体系,为进一步开展雷公藤功能基因及合成生物学研究奠定了基础。     

Expression profile of circular RNA in rat intimal hyperplasia and target gene prediction

Intimal hyperplasia is an important cause of stenosis or occlusion after vascular injury. Circular RNAs (circRNAs) are known to be related to various cardiovascular diseases. However, the expression profile of circRNAs in the neointima has not been reported in detail. In this study, we established a rat common carotid artery (CCA) injury model. A microarray detection showed significant differences in circRNA expression between the normal and injured CCA. Real-time quantitative polymerase chain reaction verified the differences. We used bioinformatics to predict the microRNAs that possibly interact with the differentially expressed (DE) circRNAs and linked the potential functions of circRNAs to the target genes of the microRNAs. We believe that the DE circRNA in neointima may affect the differentiation, proliferation, and migration of vascular cells through a variety of target genes. The intervention or utilization of certain circRNAs should be a new method for preventing and treating intimal hyperplasia.     

转Cry1Ac活性杀虫蛋白及慈菇蛋白酶抑制剂B基因的棉花

根据植物基因的结构特征。合成了Cry1Ac活性杀虫蛋白的编码序列并与内质网定位肽编码序列组成嵌合杀虫蛋白基因Bt29K。构建了含Bt29K基因及慈菇蛋白酶抑制剂B（API-B）基因表达框的双抗虫基因植物表达载体。通过根癌土壤杆菌（Agrobacterium trmefaciens(Smith et TOwnsend)ConnLBA4404)介导转化了棉花（Gossypium hirsu-tunL.)的两个生产品种（系）。根据抗棉铃虫（Heliothis armigera)试验及农艺性状的观察调查结果。经6代筛选,获得了抗棉铃虫90.0%_99.7%且农艺性状优良的9个双价抗虫棉纯合品系。分子生物学分析结果表明,两个抗虫基因在棉花基因组中的插入拷贝数为1个或2个,活性Cry1Ac和API-B蛋白在转基因抗虫棉株系中的表达量分别约占总可溶性蛋白的0.17%和0.09%。对双抗纯合系植株及仅转Bt基因的棉花纯合系抗虫性检测结果表明前者的抗虫性明显高于后者,因此推断本研究采用的双抗虫基因表达载体构建策略是合理的。     

Using embryonic stem cells to form a biological pacemaker via tissue engineering technology

Biological pacemakers can be achieved by various gene‐based and cell‐based approaches. Embryonic stem cells (ESCs)‐derived pacemaker cells might be the most promising way to form biological pacemakers, but there are challenges as to how to control the differentiation of ESCs and to overcome the neoplasia, proarrhythmia, or immunogenicity resulting from the use of ESCs. As a potential approach to solve these difficult problems, tissue‐engineering techniques may provide a precise control on the different cell components of multicellular aggregates and the forming of a construct with‐defined architectures and functional properties. The combined interactions between ESC‐derived pacemaker cells, supporting cells, and matrices may completely reproduce pacemaker properties and result in a steady functional unit to induce rhythmic electrical and contractile activities. As ESCs have a high capability for self‐renewal, proliferation, and potential differentiation, we hypothesize that ESCs can be used as a source of pacemaker cells for tissue‐engineering applications and the ambitious goal of biological cardiac pacemakers may ultimately be achieved with ESCs via tissue‐engineering technology.     

Detoxification of insecticides,allechemicals and heavy metals by glutathione S‐transferase SlGSTE1 in the gut of Spodoptera litura

Insect glutathione S‐transferases (GSTs) play important roles in detoxifying toxic compounds and eliminating oxidative stress caused by these compounds. In this study, detoxification activity of the epsilon GST SlGSTE1 in Spodoptera litura was analyzed for several insecticides and heavy metals. SlGSTE1 was significantly up‐regulated by chlorpyrifos and xanthotoxin in the midgut of S. litura. The recombinant SlGSTE1 had V_max (reaction rate of the enzyme saturated with the substrate) and K_m (michaelis constant and equals to the substrate concentration at half of the maximum reaction rate of the enzyme) values of 27.95 ± 0.88 μmol/min/mg and 0.87 ± 0.028 mmol/L for glutathione, respectively, and V_max and K_m values of 22.96 ± 0.78 μmol/min/mg and 0.83 ± 0.106 mmol/L for 1‐chloro‐2,4‐dinitrobenzene, respectively. In vitro enzyme indirect activity assay showed that the recombinant SlGSTE1 possessed high binding activities to the insecticides chlorpyrifos, deltamethrin, malathion, phoxim and dichloro‐diphenyl‐trichloroethane (DDT). SlGSTE1 showed higher binding activity to toxic heavy metals cadmium, chromium and lead than copper and zinc that are required for insect normal growth. Western blot analysis showed that SlGSTE1 was induced in the gut of larvae fed with chlorpyrifos or cadmium. SlGSTE1 also showed high peroxidase activity. All the results together indicate that SlGSTE1 may play an important role in the gut of S. litura to protect the insect from the toxic effects of these compounds and heavy metals.