植酸酶及其热稳定性研究进展

植酸酶能降解植物性饲料中的植酸盐类,释放出无机磷酸,对于提高饲料中磷的利用率,减轻畜禽高磷排泄物对环境的污染以及促进单胃动物对饲料中矿质营养的吸收利用有重要作用,因此植酸酶的研究有重要的科学和实用价值。获得高活性高热稳定性的植酸酶是近年来植酸酶工业的研究热点和难点,综述了植酸酶及其热稳定性研究的现状和提高植酸酶热稳定性方法的最新进展 。     

Glutamate receptors and signal transduction in learning and memory

The plasticity of the central nervous system helps form the basis for the neurobiology of learning and memory. Long-term potentiation (LTP) is the main form of synaptic plasticity, reflecting the activity level of the synaptic information storage process, and provides a good model to study the underlying mechanisms of learning and memory. The glutamate receptor-mediated signal pathway plays a key role in the induction and maintenance of LTP, and hence the regulation of learning and memory. The progress in the understanding of the glutamate receptors and related signal transduction systems in learning and memory research are reviewed in this article.     

Towards genomic and proteomic studies of protein phosphorylation in plant-pathogen interactions

Phosphorylation is an effective method of post-translational protein modification but understanding its significance is hindered by its biological complexity. Many protein kinases and phosphatases have been identified that connect signal perception mechanisms to plant defence responses. Recent studies of mitogen-activated protein kinases, calcium-dependent protein kinases and other kinases and phosphatases have revealed some important mechanisms, but have also raised new questions. The regulation of any phosphorylation pathway is complex and dynamic. There are many protein kinases and phosphatases in the plant genome, which makes it hard to delineate the phosphorylation machinery fully. Genomics and proteomics have already identified new components and will continue to influence the study of phosphorylation profoundly in plant-pathogen interactions.     

CLUE-S模型在南京市土地利用变化研究中的应用

土地利用/覆盖变化模型是研究区域景观动态并解释其驱动机制的重要技术手段.应用CLUE-S模型,在Landsat TM影像等相关数据支持下,对南京地区1998-2006年土地利用的时空动态变化进行了研究.结果表明:各土地利用类型变化受地形因素影响最大,人均GDP与城镇用地和农业用地的分布呈显著相关,城乡主干道对土地利用变化的贡献显著大于省级及以上道路;海拔较高区域林地的发生比率较高,而地形低平区域农田、城建用地的发生比率较高.经检验,在300 m空间分辨率水平,对南京地区2003年、2006年土地利用状况模拟的精度分别达到了85.7%和84.1%;而通过将研究区分成若干子区,分别修正模型参数并重新模拟,准确率提高到89.7%和88.3%,分区赋值法有效地提高了模拟精度.研究表明,CLUE-S模型对城市发展的空间结构也有较强的预测能力,对指导城市规划、分析景观动态的驱动机制有重要参考价值.     

小鼠胚胎干细胞定向分化为神经干细胞过程中microRNA的变化

目的用生物芯片技术分析胚胎干细胞定向分化为神经干细胞过程中microRNA(miRNA)的表达变化,筛选调控的分化的miRNA,研究分化调控机制。方法胚胎干细胞在含LIF培养基中培养3d后,采用经典5步培养方法定向诱导向神经干细胞分化,采用nestin作为神经干细胞标记进行鉴定,送检胚胎干细胞及神经干细胞,提取总RNA以及小分子RNA,经荧光标记后与miRNA基因芯片杂交,获得胚胎干细胞诱导前后miRNA表达谱。结果1)胚胎干细胞在含LIF培养过程中保持未分化状态,Oct-4、碱性磷酸酶表达阳性;2)经典五步法诱导胚胎干细胞定向分化为神经干细胞,nestin阳性细胞为85%;3)通过基因微阵列分析,有90个miRNA的改变显著,其中68个表达上调,22个表达下调。结论miRNA可能对胚胎干细胞定向分化为神经干细胞过程起到关键作用。     

Exosomes derived from umbilical cord mesenchymal stem cells alleviate viral myocarditis through activating AMPK/mTOR‐mediated autophagy flux pathway

Human umbilical cord mesenchymal stem cell‐derived exosomes (hucMSC‐exosomes) have been implicated as a novel therapeutic approach for tissue injury repair and regeneration, but the effects of hucMSC‐exosomes on coxsackievirus B3 (CVB3)‐induced myocarditis remain unknown. The object of the present study is to investigate whether hucMSC‐exosomes have therapeutic effects on CVB3‐induced myocarditis (VMC). HucMSC‐exosomes were identified using nanoparticle tracking analysis (NTA), transmission electron microscopy (TEM) and Western blot. The purified hucMSC‐exosomes tagged with PKH26 were tail intravenously injected into VMC model mice in vivo and used to administrate CVB3‐infected human cardiomyocytes (HCMs) in vitro, respectively. The effects of hucMSC‐exosomes on myocardial pathology injury, proinflammatory cytokines and cardiac function were evaluated through haematoxylin and eosin (H&E) staining, quantitative polymerase chain reaction (qPCR) and Doppler echocardiography. The anti‐apoptosis role and potential mechanism of hucMSC‐exosomes were explored using TUNEL staining, flow cytometry, immunohistochemistry, Ad‐mRFP‐GFP‐LC3 transduction and Western blot. In vivo results showed that hucMSC‐exosomes (50 μg iv) significantly alleviated myocardium injury, shrank the production of proinflammatory cytokines and improved cardiac function. Moreover, in vitro data showed that hucMSC‐exosomes (50 μg/mL) inhibited the apoptosis of CVB3‐infected HCM through increasing pAMPK/AMPK ratio and up‐regulating autophagy proteins LC3II/I, BECLIN‐1 and anti‐apoptosis protein BCL‐2 as well as decreasing pmTOR/mTOR ratio, promoting the degradation of autophagy flux protein P62 and down‐regulating apoptosis protein BAX. In conclusion, hucMSC‐exosomes could alleviate CVB3‐induced myocarditis via activating AMPK/mTOR‐mediated autophagy flux pathway to attenuate cardiomyocyte apoptosis, which will be benefit for MSC‐exosome therapy of myocarditis in the future.     

Analysis of trehalose-6-phosphate synthase (TPS) gene family suggests the formation of TPS complexes in rice

Trehalose-6-phosphate (T6P), an intermediate in the trehalose biosynthesis pathway, is emerging as an important regulator of plant metabolism and development. T6P levels are potentially modulated by a group of trehalose-6-phosphate synthase (TPS) and trehalose-6-phosphate phosphatase (TPP) homologues. In this study, we have isolated 11 TPS genes encoding proteins with both TPS and TPP domains, from rice. Functional complement assays performed in yeast tps1 and tps2 mutants, revealed that only OsTPS1 encodes an active TPS enzyme and no OsTPS protein possesses TPP activity. By using a yeast two-hybrid analysis, a complicated interaction network occurred among OsTPS proteins, and the TPS domain might be essential for this interaction to occur. The interaction between OsTPS1 and OsTPS8 in vivo was confirmed by bimolecular fluorescence complementation and coimmunoprecipitation assays. Furthermore, our gel filtration assay showed that there may exist two forms of OsTPS1 (OsTPS1a and OsTPS1b) with different elution profiles in rice. OsTPS1b was particularly cofractionated with OsTPS5 and OsTPS8 in the 360 kDa complex, while OsTPS1a was predominantly incorporated into the complexes larger than 360 kDa. Collectively, these results suggest that OsTPS family members may form trehalose-6-phosphate synthase complexes and therefore potentially modify T6P levels to regulate plant development.     

黄土高原半湿润区刺槐树干液流对人工截留降雨输入及环境因子的响应

随着全球气候变化加剧, 局部地区温度上升和降水量改变将对区域植被的分布与生长产生重要影响。在黄土高原半湿润及半干旱地区植被恢复中, 刺槐(Robinia pseudoacacia)是大面积种植的人工林树种。为探究该树种蒸腾耗水特征对降水量改变及水分条件差异的响应, 于2015年4月起, 在地处黄土高原半湿润区的陕西省永寿县槐平林场, 于35年生刺槐人工林样地中布设了人工截留降雨试验, 减少了47.5%的降雨输入。处理当年生长季内, 截留降雨处理区0-100 cm土层的平均土壤含水量相对于对照区(23.76%)有明显降低(22.59%)。采用Granier热扩散探针对截留降雨处理区和对照区的样树树干液流动态进行连续监测, 并同步监测主要气象环境因子(太阳辐射、空气温度和湿度)和林地土壤含水量, 分析了截留降雨处理区与对照区树干液流通量密度动态特征及其对环境因子的响应。结果表明: 截留降雨输入处理降低了刺槐树干液流通量密度, 截留降雨处理期间典型天气的平均液流通量密度(1.64 mL·m ^-2·s ^-1)不仅低于同组样树在处理前一年同期的水平(2.42 mL·m ^-2·s ^-1), 而且远低于试验期间对照区样树的平均水平(3.38 mL·m ^-2·s ^-1); 同时, 截留降雨处理还降低了刺槐液流通量密度对气象因子变化的敏感性, 截留降雨处理区样树液流通量密度响应空气水汽压亏缺的拟合方程参数值与对照区样树差异显著。分析可知, 降水量水平不仅影响土壤水分状况, 而且影响刺槐对气象环境因子响应的敏感性, 降水量减少导致的土壤含水量整体降低会使得该区域刺槐蒸腾耗水量下降, 显示其对环境因子的适应性, 但最终会导致生产力的大幅度降低。