间充质干细胞在肝脏疾病应用的研究现况

间充质干细胞（MSC）属于成体干细胞的一种,是一类具有自我更新和多向分化能力的多能干细胞。其来源丰富,免疫原性低,目前体内外实验均发现MSC可促进损伤肝脏修复,改善症状,提高存活率。通过调节肝脏局部和全身炎症反应和免疫紊乱发挥治疗作用。本文就MSC治疗肝脏疾病的研究现况进行综述。     

溶解性有机碳在红壤水稻土中的吸附及其影响因素

吸附作用是影响土壤中溶解性有机碳(DOC)迁移转化及生物有效性的重要反应过程,研究DOC在土壤中的吸附行为,对正确阐明土壤有机碳的循环和转化特征以及进行污染风险评估有重要意义.采用平衡法研究了红壤水稻土对DOC的吸附特征,并分析土壤有机质、粘粒含量及pH值与DOC吸附量之间的关系.结果表明,供试土壤对DOC的吸附等温线符合Freundlich和Linear方程.不同土壤对DOC的吸附能力有明显差异.在相同浓度下,DOC吸附量以第四纪红色粘土发育的低肥力水稻土最大,第三纪红砂岩风化物发育的低肥力水稻土次之,两种高肥力水稻土最小.土壤对DOC的吸附过程分为快、慢两个阶段,0-0.25 h内DOC的吸附速率最大,随着时间的推移,吸附速率渐小,2-4 h后基本达到吸附平衡.描述供试土壤对DOC吸附动力学过程的最优模型为一级扩散方程,其次为Elovich方程和抛物扩散方程.粘粒含量和有机质是影响土壤DOC吸附量的重要因素,随着粘粒含量的增加,有机质含量的降低,DOC的吸附量增大.     

不同修复措施对黄河源退化高寒草甸植物群落与土壤养分的影响

为了揭示退化高寒草甸逆向转变的驱动因子,通过野外调查和室内分析相结合的方法探究了黄河源不同修复措施(施有机肥F、免耕补播N、施有机肥+免耕补播FN)处理高寒草甸植物群落特征、土壤理化性质和两者相关性的变化规律,阐明不同修复措施对黄河源退化高寒草甸植物群落与土壤养分的影响。结果表明：免耕补播显著增加草甸物种丰富度指数(P<0.05);施有机肥+免耕补播显著增加草甸植物盖度、总生物量、Shannon Wiener多样性指数和Pielous均匀度指数(P<0.05)。不同人工修复后草甸植物功能群地上、地下生物量变化趋势基本一致(除豆科)。和对照相比,莎草科,杂类草地上和地下生物量含量在N、FN处理分别降低83.04%、73.86%、30.43%、92.37%和96.51%、84.09%、85.68%、95.36%;禾本科地上和地下生物量含量在F、N和FN处理分别增加7.29%、23.45%、17.93%和6.04%、4.03%、10.52%;豆科地上生物量含量基本保持不变,地下生物量含量在F、N和FN处理分别降低24.43%、82.19%和42.61%。F显著增加土壤有机碳含量(...     

Frequency Analysis and Anti-Shock Mechanism of Woodpecker＇s Head Structure

The mechanical properties of the skull and the anti-shock characteristics of woodpecker＇s head were investigated by ex- periment and numerical simulation. We measured the micro-Young＇s modulus of the skull by nano-indentation method and calculated the macro-equivalent Young＇s modulus of the skull at different positions using homogenization theory. Based on the Computerized Tomography （CT） images of woodpecker head, we then built complete and symmetric finite element models of woodpecker＇s skull and its internal structure and performed modal analysis and stress spectrum analysis. The numerical results show that the application of pre-tension force to the hyoid bone can increase the natural frequency of woodpecker＇s head. The first natural frequency under the pre-tension force of 25 N reaches 57 Hz, which is increased by 21.3% from the non-pre-tension state and is more than twice the working frequency of woodpecker （20 Hz 25 Hz）. On the application of impact force to the tip of beak for 0.6 ms, high magnitudes of stress component occur at around 100 Hz and 8,000 Hz, far away from both the working frequencies and the natural frequencies of woodpecker head. The large gaps among the natural, working and stress response frequencies enable the woodpecker to effectively protect its brain from the resonance injury.     

植物SUMO化修饰及其生物学功能

SUMO化修饰是细胞内蛋白质功能调节的重要方式之一。植物中的SUMO化修饰途径由SUMO分子和SUMO化酶系组成。SUMO化修饰是一个可逆的动态过程。SUMO前体蛋白在SUMO特异性蛋白酶的作用下成熟,随后通过SUMO活化酶、SUMO结合酶和SUMO连接酶将靶蛋白SUMO化,最后SUMO特异性蛋白酶将SUMO与靶蛋白分离,重新进入SUMO化循环。初步研究表明,植物SUMO化修饰参与植物花期调控、激素信号转导、抗病防御以及逆境应答等生理过程。     

祁连山中段高寒草甸草毡表层发育程度的空间分异及环境影响因子

高寒草甸植被下的草毡表层能够发挥水土保持、水源涵养等生态环境效益,是高寒草甸植被生态功能发挥的核心,认识草毡表层发育程度的空间分异及环境影响因子有利于深入理解高寒草甸在高原生态系统中的作用。本研究以祁连山中段高寒草甸分布区为研究区,依据根系体积并结合草毡层厚度以及土壤容重,将草毡表层划分为弱发育、中等发育以及强发育草毡。分析了不同发育程度草毡的地形、植被、气候等环境特征,并采用支持向量机模型对其分布进行了空间制图。结果表明:祁连山中段发育程度较高的草毡表层趋向于分布在水分条件较好的低海拔、缓坡,低坡位以及北向坡的位置,以嵩草属植物为主,中等以上发育程度的草毡地表植被及水分条件都较好;发育程度较高的草毡表层年均温较高,各发育程度草毡表层降水量差异不显著。空间分布结果整体与现有的高寒草甸植被类型分布具有高度的一致性,但空间分辨率更为详细,并且实现了不同发育程度草毡表层的空间细分。     

High level expression of extracellular secretion of a β-glucosidase gene (PtBglu3) from Paecilomyces thermophila in Pichia pastoris

A novel β-glucosidase gene (designated PtBglu3) from Paecilomyces thermophila was cloned and sequenced. PtBglu3 has an open reading frame of 2,557 bp, encoding 858 amino acids with a calculated molecular mass of 90.9 kDa. The amino acid sequence of the mature polypeptide shared the highest identity (70%) to a glycoside hydrolase (GH) family 3 characterized β-glucosidase from Penicillium purpurogenum. PtBglu3 without the signal peptides was cloned into pPIC9K vector and successfully expressed in Pichia pastoris as an active extracellular β-glucosidase (PtBglu3). High activity of 274.4 U/ml was obtained by high cell-density fermentation, which is by far the highest reported yield for β-glucosidase. The recombinant enzyme was purified to homogeneity with 3.3-fold purification and a recovery of 68.5%. The molecular mass of the enzyme was estimated to be 116 kDa by SDS-PAGE, and 198.2 kDa by gel filtration, indicating that it was a dimer. Optimal activity of the purified enzyme was observed at pH 6.0 and 65 °C, and it was stable up to 60 °C. The enzyme exhibited high specific activity toward pNP-β-D-glucopyranoside, cellooligosaccharides, gentiobiose, amygdalin and salicin, and relatively lower activity against lichenan and laminarin. The present results should contribute to improving industrial production of β-glucosidase.     

SUMO E3 Ligase AtMMS21 Regulates Drought Tolerance in Arabidopsis thaliana

Post-translational modifications of proteins by small ubiquitin-like modifiers (SUMOs) play crucial roles in plant growth and development, and in stress responses. The MMS21 is a newly-identified Arabidopsis thaliana L. SUMO E3 ligase gene aside from the SIZ1, and its function requires further elucidation. Here, we show that MMS21 deficient plants display improved drought tolerance, and constitutive expression of MMS21 reduces drought tolerance. The expression of MMS21 was reduced by abscisic acid (ABA), polyethylene glycol (PEG) or drought stress. Under drought conditions, mms21 mutants showed the highest survival rate and the slowest water loss, and accumulated a higher level of free proline compared to wild-type (WT) and MMS21 over-expression plants. Stomatal aperture, seed germination and cotyledon greening analysis indicated that mms21 was hypersensitive to ABA. Molecular genetic analysis revealed that MMS21 deficiency led to elevated expression of a series of ABA-mediated stress-responsive genes, including COR15A, RD22, and P5CS1 The ABA and drought-induced stress-responsive genes, including RAB18, RD29A and RD29B, were inhibited by constitutive expression of MMS21. Moreover, ABA-induced accumulation of SUMO-protein conjugates was blocked in the mms21 mutant. We thus conclude that MMS21 plays a role in the drought stress response, likely through regulation of gene expression in an ABA-dependent pathway.     

Enhancing the Removal of Sorbed Crude Oil from Soil Through Multiple Oxidation Steps in Stepwise Fenton Processes

The stepwise Fenton oxidation process, in which hydrogen peroxide (H₂O₂) is added in a step-by-step manner instead of at the beginning, can achieve better sorbed crude oil removal effects. The results showed that if a high ratio of sorbed total petroleum hydrocarbon (TPH) was present in soil samples S1 (100%, initial TPH: 10,009 mg/kg) and S2 (94.2%, initial TPH: 4850 mg/kg), the TPH was oxidized in each step. In addition, the total TPH removal efficiency was 49.6% compared with the 27.9% achieved in conventional Fenton oxidation in which all H₂O₂ was added at the beginning. Nevertheless, when the ratio of sorbed TPH in the soil sample S3 was low (45.3%, initial TPH: 2850 mg/kg), the TPH removal efficiency was 18.9%, which was slightly higher than 18.2% achieved in the conventional Fenton process because if the sorbed TPH concentration was low, the sorbed TPH was mainly removed in the first step. The second and the third step resulted in long-chain alkanes entering the aqueous phase rather than removing them from the soil, which posed environmental risk. Therefore, it is clear that stepwise Fenton oxidation could improve sorbed TPH removal efficiency when the sorbed TPH concentration in the soil is high.     

Rapid estimation of lipid content in an Antarctic ice alga (Chlamydomonas sp.) using the lipophilic fluorescent dye BODIPY505/515

Chlamydomonas sp. ICE-L, isolated from Antarctic coastal marine environments, was selected as a high lipid producer, which may be useful for biodiesel production. The lipophilic fluorescent dye BODIPY505/515 was used to determine the algal lipid content. Lipid bodies stained with BODIPY505/515 have a characteristic green fluorescence, and their volumes were determined using the sphere volume formula. In this study, lipid accumulation by Chlamydomonas ICE-L was analyzed under different cultivation conditions (nitrogen deficiency and UV-B radiation). The results demonstrated that nitrogen deficiency and UV-B radiation could significantly promote the accumulation of lipid content per cell. The highest yields of total lipid content (reaching 84?μL?L^?1) were obtained in full Provasoli medium after 12?days of cultivation, but not in the nitrogen-deficient medium. The inoculum used in this experiment was obtained from the late-exponential growth phase. The main reason was that the cell numbers in nitrogen-deficient medium had not increased and total lipid contents were offset by the lower growth rate. Considering the high lipid content in Chlamydomonas sp. ICE-L, this alga might be a promising alternative species for production of microalgal oil for the production of renewable biodiesel in the future.