半乳糖凝集素‑3对骨关节炎成骨细胞矿化的作用研究

炎症反应以炎症因子为代表,是骨关节炎（osteoarthritis,OA）中软骨下骨发生病变的重要机制。炎症因子半乳糖凝集素?3（galectin?3,Gal?3）会引起软骨下骨OA样变,但机制尚不清楚。利用因膝关节OA行全膝关节置换患者的胫骨平台标本,培养成骨细胞。分别在正常氧和缺氧条件下用Gal?3处理成骨细胞后,检测骨钙素、ERRα和Sirtuin 1的表达情况。同时,给予矿化液培养的成骨细胞以Gal?3处理,28 d后使用茜素红染色检测成骨细胞矿化程度并进行定量分析。结果显示,Gal?3抑制成骨细胞骨钙素的表达,在缺氧条件下诱导ERRα和Sirtuin1的表达,在正常氧条件下Gal?3促进OA成骨细胞的矿化。正常氧条件下,Gal?3可以诱导OA成骨细胞的异常矿化,缺氧条件下Gal?3促进成骨,表明Gal?3在OA成骨细胞的矿化中扮演重要角色。     

幼虫密度和温度对水芹叶象甲未成熟阶段生长发育的影响

[目的]为明确不同幼虫密度和不同温度条件对水芹叶象甲Hypera sp.未成熟阶段生长发育的影响.[方法]在室内条件下对不同幼虫饲养密度和不同温度条件饲养的水芹叶象甲未成熟阶段(卵、幼虫、预蛹和蛹)的存活和生长发育进行研究.[结果]幼虫密度对水芹叶象甲幼虫、预蛹和蛹的存活和生长发育均具有显著影响.水芹叶象甲幼虫、预蛹和蛹在50头/盒的密度条件下的存活率均显著高于其它密度条件,且发育历期显著短于其它密度条件.此外,各密度条件下的雌蛹重均显著重于雄蛹重,但性比(♀/♂)不受密度条件的影响.温度条件对水芹叶象甲卵、幼虫、预蛹和蛹的存活和生长发育亦均具有显著影响.27℃条件下的幼虫和蛹的存活率均显著高于其它温度条件,1龄幼虫在30℃条件下的存活率显著高于其它温度条件,而3龄幼虫在27℃条件下的存活率显著高于其它温度条件,但温度条件对2龄幼虫的存活率无显著影响.水芹叶象甲各龄期幼虫及各虫态的发育历期随着温度升高而显著缩短.[结论]幼虫饲养密度和温度是影响水芹叶象甲种群变化的重要因子,这将为分析水芹叶象甲种群动态变化规律,以 及提高该虫的预测预报和综合防控水平提供依据.     

声聚焦层析增强的三维微波热声成像

本文提出了一种提高微波热声断层成像层析能力的方法和装置.基于热声成像原理和声聚焦理论,搭建了由超短脉冲微波源、384阵元环形探测器、声聚焦透镜、384-64通道采集切换系统、精密扫描位移平台构成的微波热声三维成像系统,并实现了模拟样品的断层成像.实验结果表明该系统能够实现亚毫米级分辨率的热声成像,通过声聚焦方法成倍地提高了其层析分辨率.这对推动微波热声CT技术走向临床具有重要的意义.     

微生物全基因组测序组装中的g印填补方法

目的：研究和开发高通量测序全基因组组装过程中的填补gap的方法。方法：研究组装软件的算法,使用Perl语言编写自动填补gap的程序,并建立全基因组组装的流程。结果：提出了填补gap的末端延伸法,并使用Perl语言进行了编程;在对立克次体高通量测序的组装过程中,这些方法能大大减少gap的数量。结论：本研究提出的末端延伸法能够高效填补全序列组装过程中出现的gap,具有很强的实用性。     

The molecular mechanism of NELL2 movement and secretion in hippocampal progenitor HiB5 cells

Neural epidermal growth factor-like protein-like 2 (NELL2) is a secreted glycoprotein that is predominantly expressed in the nervous system, but little is known about the intracellular movement and secretion mechanism of this protein. By monitoring the localization and movements of enhanced green fluorescent protein (EGFP)-labeled NELL2 in living cultured hippocampal neuroprogenitor HiB5 cells, we determined the subcellular localization of NELL2 and its intracellular movement and secretion mechanism. Cterminal EGFP-fused NELL2 showed a typical expression pattern of secreted proteins, especially with respect to its localization in the endoplasmic reticulum, Golgi apparatus, and punctate structures. Vesicles containing NELL2 exhibited bidirectional movement in HiB5 cells. The majority of the vesicles (70.1%) moved in an anterograde direction with an average velocity of 0.454 μm/s, whereas some vesicles (28.7%) showed retrograde movement with an average velocity of 0.302 μm/s. The movement patterns of NELL2 vesicles were dependent upon the presence of microtubules in HiB5 cells. Anterograde movement of NELL2 did not lead to a detectable accumulation of NELL2 in the peripheral region of the cell, indicating that it was secreted into the culture medium. We also showed that the N-terminal 29 amino acids of NELL2 were important for secretion of this protein. Taken together, these results strongly suggest that the N-terminal region of NELL2 determines both the pattern of its intracellular expression and transport of NELL2 vesicles by high-velocity movement. Therefore, NELL2 may affect the cellular activity of cells in a paracrine or autocrine manner.     

Cdc25B phosphatase participates in maintaining metaphase II arrest in mouse oocytes

Cdc25B is an essential regulator for meiotic resumption in mouse oocytes. However, the role of this phosphatase during the later stage of the meiotic cell cycle is not known. In this study, we investigated the role of Cdc25B during metaphase II (MII) arrest in mouse oocytes. Cdc25B was extensively phosphorylated during MII arrest with an increase in the phosphatase activity toward Cdk1. Downregulation of Cdc25B by antibody injection induced the formation of a pronucleus-like structure. Conversely, overexpression of Cdc25B inhibited Ca²⁺-mediated release from MII arrest. Moreover, Cdc25B was immediately dephosphorylated and hence inactivated during MII exit, suggesting that Cdk1 phosphorylation is required to exit from MII arrest. Interestingly, this inactivation occurred prior to cyclin B degradation. Taken together, our data demonstrate that MII arrest in mouse oocytes is tightly regulated not only by the proteolytic degradation of cyclin B but also by dynamic phosphorylation of Cdk1.     

Molecular cloning and heterologous expression of an alkaline xylanase from Bacillus pumilus HBP8 in Pichia pastoris

The xynHB gene, encoding alkaline xylanase was cloned from Bacillus pumilus by a shot-gun method. The gene was cloned into vector pHBM905A, and expressed in Pichia pastoris GS115. Xylanase-secreting transformants were selected on plates containing RBB-xylan. Enzymatic activity in the culture supernatants was up to 644?U?mL^?1 and the optimal secretion time was 4 days at 25°C. SDS-PAGE showed two bands, of 32.2?kDa and 29.6?kDa, both larger than the predicted mass of 22.4?kDa based on its amino acid sequence. Zymogram analysis demonstrated that the enzyme in both bands could hydrolyze xylan. Deglycosylation by endoglycosidase H revealed that both were derived from the same protein but contain different extents of glycosylation (30 and 25%). The optimal pH and temperature of the enzyme was pH6–9 and 50°C, respectively.     

Aldehyde reductase gene expression by lipid peroxidation end products,MDA and HNE

Membrane lipid peroxidation results in the production of a variety of aldehydic compounds that play a significant role in aging, drug toxicity and the pathogenesis of a number of human diseases, such as atherosclerosis and cancer. Increased lipid peroxidation and reduced antioxidant status may also contribute to the development of diabetic complications. This study reports that lipid peroxidation end products such as malondialdehyde (MDA) and 4-hydroxynonenal (HNE) induce aldehyde reductase (ALR) gene expression. MDA and HNE induce an increase in intracellular peroxide levels; N-Acetyl-L-cysteine (NAC) suppressed MDA- and HNE-induced ALR gene expression. These results indicate that increased levels of intracellular peroxides by MDA and HNE might be involved in the upregulation of ALR.