Surface Display of Human Serum Albumin on Bacillus subtilis Spores for Oral Administration

Human serum albumin (HSA) is the major protein component of human plasma. To date, HSA for clinical uses is mostly produced by fractionation of human whole blood, which is accompanied by a lot of limitations. To obtain long-term bioactive albumin, we used hsa as a foreign gene and constructed a recombinant plasmid pJS700-HSA which carries a recombinant gene cotC-hsa under the control of cotC promoter. Plasmid pJS700-HSA was transformed into Bacillus subtilis by double cross-over and an amylase inactivated mutant was produced. After induction of spore formation, western blot and fluorescence immunoassay were used to monitor HSA surface expression on spores. We estimated that HSA displayed on the spore accounted for 0.135 % of the total spore proteins and about 0.023 fg HSA were exposed on the surface of each spore. Oral administration to mice with spores displaying HSA implied that the recombinant spores may have potential ability to increase the serum albumin level in vivo due to the resistant characters of spores.     

生物电化学系统对运动发酵单胞菌代谢的影响北大核心CSCD

生物电化学系统能促进微生物与电极间的相互作用,从而改变微生物的代谢状态。本工作为研究运动发酵单胞菌(Zymomonas mobilis)在电环境中的代谢表现,在外接3V电源的H型电化学发酵装置中测试了其发酵效能。结果表明,相比于无电压的对照,阳极甘油产量上升24%,阴极葡萄糖消耗上升16%,产物乙醇和琥珀酸的产量也分别上升13%和8%。转录组分析表明,代谢物的显著改变归因于电环境导致的有机酸代谢、氧化还原平衡、电子传递等通路的改变。从表达差异显著的基因中挑选了代表胞内氧化还原平衡、生物膜形成和电子传递的3个基因ZMO1060(编码超氧化物歧化酶)、ZMO0401(编码二鸟苷酸磷酸二酯酶)和ZMO1819(编码固氮蛋白)进行验证,结果表明过表达ZMO1060和ZMO1819能够更显著地改变生物电化学系统中Z.mobilis的代谢。本工作为应用生物电化学系统调控微生物代谢物生产提供了参考。     

NPM1突变基因表达抑制K562白血病细胞体外增殖和侵袭

核仁磷酸蛋白(nucleophosmin,NPM1)突变是近年发现的在急性髓系白血病中发挥重要作用的基因改变,为探讨NPM1突变对K562白血病细胞体外增殖和侵袭能力的影响,将载体pEGFPC1-NPM1-mA转染K562细胞系,构建稳定表达NPM1突变蛋白的白血病细胞株(K562-mA)。利用细胞生长曲线观察细胞体外增殖能力;流式细胞仪检测细胞周期进程改变;细胞粘附、Transwell实验分别用以观察细胞体外粘附、迁移及侵袭能力。结果发现,NPM1突变转染后K562细胞体外增殖能力明显减弱;同时G1期细胞比例明显增高,S期细胞比例显著减低。与未处理组和空载体转染组细胞相比,K562-mA细胞体外迁移能力有所增加,但细胞粘附及侵袭能力却明显减弱。提示NPM1突变基因的表达能够抑制白血病细胞体外增殖和侵袭能力,为进一步深入探讨NPM1突变在白血病发生发展中的调控机制奠定了良好的基础。     

GADD45α mediates arsenite‐induced cell apoptotic effect in human hepatoma cells via JNKs/AP‐1‐dependent pathway

Arsenite (As(III)), an effective chemotherapeutic agent for the acute promyelocytic leukemia (APL) and multiple myeloma (MM), might be also a promise for the therapy of other cancers, including the solid tumors. However, the molecular bases of arsenite‐induced cytotoxicity in the tumor cells have not been fully defined. In this study, we have disclosed that arsenite effectively induces the apoptotic response in the HepG2 human hepatoma cells by triggering GADD45α induction and the subsequent activation of JNKs/AP‐1 cell death pathway. However, signaling events relating to GADD45α/JNKs/AP‐1 pathway activation have not been observed in HL7702 human diploid hepatic cells under the same arsenite exposure condition. Our results thus have illustrated the selective pro‐apoptotic role of arsenite in the hepatoma cells by activating GADD45α‐dependent cell death pathway whereas with little effect on the normal hepatic cells. The approaches to up‐regulate GADD45α levels might be helpful in improving the chemotherapeutic action of arsenite on certain solid tumors including hepatoma. J. Cell. Biochem. 109: 1264–1273, 2010. © 2010 Wiley‐Liss, Inc.     

大肠癌发病地理特征的趋势面分析

了解嘉善县大肠癌发病的地理分布特征及地理趋势,为研究大肠癌的病因提供一些线索,嘉善县大肠癌发病率有地域差异,应进一步研究各地区地理环境、生活习惯、经济状况等因素的差异及其与大肠癌的关系,对于存在异常残差值的地区,应作为重点研究对象。探讨这些地区可能存在的某种保护或危险因素。     

Single chain antibody displays glutathione S-transferase activity

Substrate binding and the subsequent reaction are the two principal phenomena that underlie the activity of enzymes, and many enzyme-like catalysts were generated based on the phenomena. The single chain variable region fragment of antibody 2F3 (scFv2F3) was elicited against hapten GSH-S-DN2phBu, a conjugate of glutathione (GSH), butyl alcohol, and 1-chloro-2,4-dinitrobenzene (CDNB); it can therefore bind both GSH and CDNB, the substrates of native glutathione S-transferases (GSTs). It was shown previously that there is a serine residue that is the catalytic group of GST in the CDR regions of scFv2F3 close to the sulfhydryl of GSH. Thus, we anticipated that scFv2F3 will display GST activity. The experimental results showed that scFv2F3 indeed displayed GST activity that is equivalent to the rat-class GST T-2-2 and exhibited pH- and temperature-dependent catalytic activity. Steady-state kinetic studies showed that the Km values for the substrates are close to those of native GSTs, indicating that scFv2F3 has strong affinities for the substrates. Compared with some other GSTs, its kcat value was found to be low, which could be caused by the similarity between the GSH-S-DN2phBu and the reaction product of GSH and CDNB. These results showed that our approach to imitating enzymes is correct, which is that an active site may catalyze a chemical reaction when a catalytic group locates beside a substrate-binding site of a receptor. It is important to consider product inhibition in hapten design in order to obtain a mimic with a high catalytic efficiency.     

Genome-wide regulation of 5hmC, 5mC, and gene expression by Tet1 hydroxylase in mouse embryonic stem cells

DNA methylation at the 5 position of cytosine (5mC) in the mammalian genome is a key epigenetic event critical for various cellular processes. The ten-eleven translocation (Tet) family of 5mC-hydroxylases, which convert 5mC to 5-hydroxymethylcytosine (5hmC), offers a way for dynamic regulation of DNA methylation. Here we report that Tet1 binds to unmodified C or 5mC- or 5hmC-modified CpG-rich DNA through its CXXC domain. Genome-wide mapping of Tet1 and 5hmC reveals mechanisms by which Tet1 controls 5hmC and 5mC levels in mouse embryonic stem cells (mESCs). We also uncover a comprehensive gene network influenced by Tet1. Collectively, our data suggest that Tet1 controls DNA methylation both by binding to CpG-rich regions to prevent unwanted DNA methyltransferase activity, and by converting 5mC to 5hmC through hydroxylase activity. This Tet1-mediated antagonism of CpG methylation imparts differential maintenance of DNA methylation status at Tet1 targets, ultimately contributing to mESC differentiation and the onset of embryonic development.     

The role of LXRα in goose primary hepatocyte lipogenesis

In this study, we investigate the role of liver X receptor alpha (LXR alpha) in lipogenesis in geese in order to understand the differences in hepatic steatosis mechanisms between mammals and waterfowl. Primary goose hepatocytes were isolated and treated with the LXR alpha agonist T0901317. Triglyceride (TG) accumulation, acetyl-CoA carboxylase alpha (ACC alpha) and fatty acid synthase (FAS) activities, and gene expression levels of LXR alpha, sterol regulatory element-binding proteins-1 (SREBP-1), FAS, ACC alpha and lipoprotein lipase (LPL) were measured in primary hepatocytes. We found a dose-dependent up-regulation of TG accumulation, ACC, and FAS activities and the mRNA levels of LXR alpha, SREBP-1, FAS, ACC alpha, and LPL genes in the presence of To-901317. We also found that binding of nuclear SREBP-1 to ACC alpha SRE sequence was induced by To-901317 (P < 0.05). In conclusion, LXR alpha is involved in the induction of the lipogenic pathway through activation of SREBP-1 and its target genes in goose primary hepatocytes.     

奇异果甜蛋白及其基因工程

奇异果甜蛋白(thaumatin)是迄今为止最甜的物质之一,对其研究具有很重要的意义。奇异果甜蛋白的生化性质基本清楚,基因序列和氨基酸序列都已测定。它的甜味可能是由奇异果甜蛋白上特定基团和受体结合引起的。对奇异果甜蛋白的生理功能知之甚少。近二十年来,在奇异果甜蛋白的基因工程上取得了一定进展,但仍然存在许多困难。 Abstract:Thaumatin is one of the sweetest substances known to date,it is important to study the thaumatin.The biochemical properties of thaumatin have been clarified clearly.Thaumatin had been isolated and sequenced.The mechanism of the sweetness of thaumatin may be due to the combination of some special groups and the receptors.The exact function of thaumatin is still not clear.Although gene engineering of thaumatin has been carried out for 20 years,there are still some difficulties to be solved for using in the market.