制备可溶性肿瘤坏死因子受体II－脂联素球部融合蛋白的两种细胞培养工艺比较

利用7.5 L生物反应器篮式贴壁培养和全悬浮批式培养CHO工程细胞株表达可溶性肿瘤坏死因子受体Ⅱ-脂联素球部(sTNFRⅡ-gAD)融合蛋白,比较这两种培养方法的产率,以便优化高效表达sTNFRⅡ-gAD融合蛋白的制备工艺.篮式贴壁培养首先小规模培养CHO工程细胞株,待细胞增殖到一定密度后以3× 105～4× 105 cells/mL密度接种生物反应器贴壁培养3d,调换成不含血清的LK021培养基继续培养4d.而全悬浮无血清批式培养则以3×105～4×105 cells/mL密度的CHO工程细胞株接种于生物反应器,连续培养7d.培养过程实时监测培养条件,维持pH和DO的稳定.分别收集细胞上清,离心去细胞后用Pellicon切相流超滤系统对蛋白进行浓缩,并通过DEAE离子交换柱进行纯化.结果显示,篮式贴壁培养和全悬浮批式培养均成功表达了sTNFRⅡ-gAD融合蛋白,产量分别为8.0 mg/L和7.5 mg/L、纯度分别为95％和98％,从而为sTNFRⅡ-gAD融合蛋白的中试工艺研究提供了一定的基础.     

草莓miR390靶基因TAS3的克隆及表达分析

以栽培草莓品种‘全明星’为试材,通过3′-和5′-RACE技术克隆出miR390靶基因TAS3的cDNA全长,命名为FaTAS3。序列分析发现:草莓TAS3基因的cDNA全长为742 bp,含有16个碱基的Poly A尾巴及2个高度保守的ta-siRNA产生位点和1个miR390靶位点;该基因DNA全长为824 bp,5′ 端130 bp处有一个98 bp的内含子序列。生物信息学软件预测显示,草莓TAS3基因的启动子除具有TATA/CAAT-box外,还含有G-box、C-box等特异作用元件。实时定量RT-PCR结果表明,草莓miR390与靶基因TAS3间的表达模式与拟南芥中的表达模式相同,推测草莓TAS3基因的生物合成也受miR390的指导。     

东海表层沉积物纯培养与非培养细菌多样性

于2011年7月采集了浙江舟山沿岸海底沉积物样品(122°10′41″E,29°49′7″N),通过埋片原位观察、荧光显微计数、纯培养菌分离以及非培养细菌构建克隆文库的方法,分析和研究了东海表层沉积物细菌群落结构及其多样性.埋片原位观察和荧光显微计数法的结果表明:沉积物样品中细菌的细胞数量为(9.30±3.44)×107 cells/g;通过分离纯化共获得313株细菌,分属于20个属,4种培养基对细菌的分离效果依次为RO＞M l＞Zobell 2216＞MR2A;常规形态学与生理生化鉴定结果显示芽孢杆菌属(Bacillus)和海球菌属(Marinococcus)从数量和种类上皆为优势菌属,分别占分离菌株总数的21.08％和17.25％;对73株典型海洋细菌进行16S rDNA分子鉴定发现,厚壁菌门(57.5％)、γ-变形杆菌纲(32.9％)、黄杆菌纲(4.1％)和放线菌纲(5.5％)等为主要类群.非培养细菌克隆文库序列分析发现:细菌克隆子主要属于厚壁菌门和变形杆菌门,而芽孢杆菌纲和γ-变形杆菌纲是上述两个门的优势类群.综合纯培养与非培养数据得出东海海域表层沉积物细菌多样性丰富,具有进一步开发研究的价值.     

五种啮齿类动物mtDNA蛋白编码基因序列变化的比较

目的利用本实验室测定的中国地鼠、金黄地鼠和GenBank中田鼠、小鼠、大鼠的线粒体全基因组序列,比较分析五种啮齿类动物的mtDNA蛋白编码基因序列的变异,探讨其分子进化关系。方法将五种动物各自的13个蛋白编码基因分别连接成一个序列,用DNAstar-EditSeq分析软件计算每个序列的碱基长度和组成,计算蛋白编码基因的碱基和氨基酸的差异。以人为外群,基于连接在一起的13个蛋白编码基因的氨基酸序列,用MEGA4.0软件通过最大简约性法(MP)和非加权成对平均数法(UPGMA)构建进化树。结果在五种啮齿动物的13个蛋白基因序列中,A、T、C、G碱基的平均含量为32.4%、29.6%、26.2%和11.9%,中国地鼠mtDNA各蛋白编码序列以及其编码的氨基酸序列与其他物种相比,与金黄地鼠的相应序列差异最小,与大鼠mtDNA各蛋白编码序列以及其编码的氨基酸序列差异较大。分子进化树也显示中国地鼠和金黄地鼠的亲缘关系最近,与小鼠、大鼠存在的差异相对大。结论五种动物的碱基组成的百分比中显示G的相对缺乏,相互之间的进化关系与传统的分类地位基本吻合。     

Experimental and modeling studies on the sorption breakthrough behaviors of butanol from aqueous solution in a fixed-bed of KA-I resin

Removal of biobutanol from acetone-butanolethanol (ABE) fermentation broth can be achieved by fixed-bed sorption by means of KA-I resin, and the relevant breakthrough curves would provide much valuable information to help design a continuous fixed-bed sorption process in field application. In the present study, the effects of several important design parameters, i.e., initial butanol concentration (C _f: 3.0 ～ 30.0 g/L), inlet flow rate (Q _f: 0.5 ～ 5.5 mL/min) and adsorbent bed height (Z: 4.2 ～ 18.0 cm), on the adsorption breakthrough curves of KA-I resin in a fixed-bed column were investigated. It was found that the amount of adsorbed butanol at breakthrough point was increased with an increase in the value of C _f and Z; and with decrease in the value of Q _f. However, the maximum sorption capacities of butanol at saturated point were basically unchanged. Three well-established fixed-bed adsorption models, namely Thomas, Yoon-Nelson and Adams-Bohart, were applied to predict the breakthrough curves and to determine the characteristic parameters of fixed-bed column, which are the basis for the process design at a real scale. Good agreement between the theoretical breakthrough curves and the experimental result were observed using Thomas and Yoon-Nelson models.     

Quantification of both the presence, and oxidation state, of Mn in Bacillus atrophaeus spores and its imparting of magnetic susceptibility to the spores

Bacillus atrophaeus spores were previously reported to have significant magnetic susceptibility in a magnetic field due to the presence of Mn. However, relatively little is known about the total amount and distribution of the oxidation state of Mn associated with this specific strain's spores. Using the instrument, cell tracking velocimetry (CTV) both magnetically induced velocity and settling velocity was quantitatively measured. Visual observations, and calculated diameter using previously reported densities, indicate that the spores are present in the form of clusters of approximately 3–6 µm. Treatment of these clusters with EDTA or pH of 2.0 or below resulted in not only the disruption of the spore clusters, but also a significant decrease in magnetic susceptibility, in some cases by almost two orders of magnitude. Since the magnetic susceptibility of Mn varies significantly between the three typically reported valance states of Mn, Mn(II), Mn(III), and Mn(IV); X‐Ray Photoelectron Spectroscopy, XPS, was used to determined the valance states of Mn in the spores. This XPS analysis, which penetrates up to 10 nm into the spore, returned the following fractions: 0.41, 0.38, and 0.21 for the valance states: Mn(II), Mn(III), and Mn(IV), respectively. The total mass of Mn associated with each spore cluster was determined by ICP‐MS. A second, completely independent estimate of Mn mass associated with each spore cluster was made, by mathematically solving for the amount of Mn per spore cluster using the experimentally measured magnetophoretic mobility and the magnetic susceptibility of each of the three valence states from the XPS analysis. IPC‐MS returned a value of 3.28 × 10⁻¹¹ g of Mn per spore cluster while the calculated estimation from mobility and XPS analysis retuned a value of 1.16 × 10⁻¹¹ g, which given the complexity of the two techniques, is a reasonable agreement. Finally, a discussion of potential applications of the magnetic properties of these spores is presented. Bioeng. 2011; 108:1119–1129. © 2010 Wiley Periodicals, Inc.     

Critical roles of RasGRP1 for invariant NKT cell development

The invariant NKT (iNKT) cell lineage contains CD4(+) and CD4(-) subsets. The mechanisms that control such subset differentiation and iNKT cell maturation in general have not been fully understood. RasGRP1, a guanine nucleotide exchange factor for TCR-induced activation of the Ras-ERK1/2 pathway, is critical for conventional αβ T cell development but dispensable for generating regulatory T cells. Its role in iNKT cells has been unknown. In this study, we report severe decreases of iNKT cells in RasGRP1(-/-) mice through cell intrinsic mechanisms. In the remaining iNKT cells in RasGRP1(-/-) mice, there is a selective absence of the CD4(+) subset. Furthermore, RasGRP1(-/-) iNKT cells are defective in TCR-induced proliferation in vitro. These observations establish that RasGRP1 is not only important for early iNKT cell development but also for the generation/maintenance of the CD4(+) iNKT cells. Our data provide genetic evidence that the CD4(+) and CD4(-) iNKT cells are distinct sublineages with differential signaling requirements for their development.     

Thr-370 is responsible for CDK11(p58) autophosphorylation, dimerization, and kinase activity

CDK11(p58), a member of the p34(cdc2)-related kinase family, is associated with cell cycle progression, tumorigenesis, and proapoptotic signaling. It is also required for the maintenance of chromosome cohesion, the maturation of centrosome, the formation of bipolar spindle, and the completion of mitosis. Here we identified that CDK11(p58) interacted with itself to form homodimers in cells, whereas D224N, the kinase-dead mutant, failed to form homodimers. CDK11(p58) was autophosphorylated, and the main functions of CDK11(p58), such as kinase activity, transactivation of nuclear receptors, and proapoptotic signal transduction, were dependent on its autophosphorylation. Furthermore, the in vitro kinase assay indicated that CDK11(p58) was autophosphorylated at Thr-370. By mutagenesis, we created CDK11(p58) T370A and CDK11(p58) T370D, which mimic the dephosphorylated and phosphorylated forms of CDK11(p58), respectively. The T370A mutant could not form dimers and be phosphorylated by the wild type CDK11(p58) and finally lost the kinase activity. Further functional research revealed that T370A failed to repress the transactivation of androgen receptor and enhance the cell apoptosis. Overall, our data indicated that Thr-370 is responsible for the autophosphorylation, dimerization, and kinase activity of CDK11(p58). Moreover, Thr-370 mutants might affect CDK11(p58)-mediated signaling pathways.