SARS冠状病毒S蛋白在昆虫细胞中的表达和纯化

导致严重急性呼吸综合征(sevcre acute rcspiratory syndrome,SARS)的元凶是一种新型的冠状病毒(SARS coronavirus,SARS-CoV)。SARS-CoV感染入侵宿主细胞关键的一环是病毒自身的棘突蛋白(spike protein,S-protein)与细胞受体的相互作用,故而S蛋白己成为SARS研究的主要热点。     

Neuronal Platelet-Activating Factor Receptor Signal Transduction Involves a Pertussis Toxin-Sensitive G-Protein

In most nonneural systems, platelet-activating factor (PAF) receptor effects are mediated by G-proteins that are often pertussis toxin-sensitive. The activation of pertussis toxin-sensitive G-proteins linked to PAF receptors results in the mobilization of intracellular calcium, at least in part, through the second messenger inositol triphosphate. We have sought to determine if a pertussis toxin-sensitive G-protein is involved in the PAF receptor-mediated phenomena of growth cone collapse and of synaptic enhancement in primary neuronal culture. Using infrared differential interference contrast microscopy and patch-clamp recording techniques, pertussis toxin, but not the inactive B oligomer of the toxin, was found to block both the growth cone collapse and the enhanced synaptic release of excitatory transmitter induced by a nonhydrolyzable PAF receptor agonist, making it likely that G_o, G_q, or G_i is the G-protein transducer of PAF receptors in primary neurons. We believe that PAF acts directly on neuronal receptors, which are linked to pertussis toxin-sensitive G-proteins, on the tips of developing neurites, and on presynaptic nerve terminals, leading to growth cone collapse and enhanced synaptic release of transmitter.     

猪传染性胃肠炎病毒纤突糖蛋白在毕赤酵母中的分泌表达

目的:利用巴斯德毕赤酵母表达系统表达猪传染性胃肠炎病毒(TGEV)纤突糖蛋白S。方法:根据GenBank中猪TGEV纤突糖蛋白S全基因设计一对引物,并在5'引物和3'引物中引入EcoRⅠ、NotⅠ酶切位点,2.2kb的目的基因S经PCR扩增后克隆于pBS-T载体,再将S基因经双酶切从T载体切下并与穿梭质粒pPIC9k连接,SalⅠ线性化重组穿梭质粒pPIC9k-S,电转化于毕赤酵母GS115感受态细胞,G418筛选鉴定阳性重组子,经甲醇诱导,SDS-PAGE检测诱导后上清。结果:对pPIC9k-S重组酵母表达载体的测序证实已成功克隆了猪TGEVS基因;重组酵母菌诱导表达后,SDS-PAGE检测结果显示表达产物的相对分子质量约为82×103,且S蛋白以可溶性形式分泌表达于胞外。结论:利用巴斯德毕赤酵母真核表达系统成功表达了猪传染性胃肠炎病毒(河北分离株)纤突糖蛋白S。     

以突触前排放的消失设定海马脑片缺氧损伤时间及应用实例

刺激Schaffer侧支,记录大鼠海马脑片CA_1区的突触前排放(presynaptic volley,PV)和突触后群锋电位(population spikes,PS),观察缺氧后PS和PV的变化及复氧30min后脑片PS的恢复,缺氧持续到PV消失1,2,3或4min,复氧后脑片恢复率分别为100％,11.5％,0％,0％。可见,缺氧后 PV 消失2min为损伤的关键时刻。提前1min终止缺氧,全部脑片的PS可以恢复,延迟1min终止缺氧,则全部脑片的PS不能恢复。这种方法是根据每个脑片的电反应确定其总的缺氧时间,故每个脑片的缺氧时间略有变动。与每次采用相同缺氧时间的传统方法相比,此方法脑片恢复率的稳定性与重复性均较好。用此方法发现美西律10和100μmol/L能增加复氧后PS恢复率,对突触功能的缺氧损伤具有保护作用。     

神经元对于高频电刺激的动态响应

深部脑刺激(deep brain stimulation,DBS)在许多神经系统疾病的临床治疗上都展现出良好的应用前景,然而,其作用机制尚不明确.常规DBS采用高频刺激(high frequency stimulation,HFS)的脉冲序列,这种窄脉冲最容易激活神经元结构中的轴突部分,通过轴突的投射,将HFS的作用传播至下游神经元.因此,为了探讨DBS的作用机制,并鉴于海马脑区是治疗癫痫和痴呆症等疾病的重要靶点,我们研究了海马区轴突HFS对于下游神经元的作用.对麻醉大鼠的海马CA1区传入神经通路Schaffer侧支施加1 min的100 Hz高频刺激,记录并提取下游CA1区锥体神经元和中间神经元的单元锋电位.计算锋电位的发放率,以及它们与刺激脉冲之间的锁相值(phase-locking value,PLV)和潜伏期,以定量分析HFS期间神经元动作电位发放的变化趋势.结果显示,在传入轴突上施加HFS时,初期会诱发下游神经元群体同步产生动作电位(即群峰电位).在HFS后期(群峰电位消失之后),两类神经元的单元锋电位发放仍然持续,并且发放率较稳定.但是,锋电位与刺激脉冲之间的锁相性逐渐减弱、潜伏期逐渐延长.而且,与中间神经元相比较,锥体神经元锋电位的锁相性更弱、潜伏期更长.这些结果表明,持续的轴突HFS可以诱导下游神经元产生非同步的活动,高频脉冲刺激引起的不完全轴突传导阻滞可能是导致该现象产生的主要原因.本文的研究为揭示脑刺激的作用机制提供了重要信息.     

两种穗型冬小麦籽粒淀粉积累动态及其有关酶活性变化

花后25d内,大穗型品种豫麦66籽粒中淀粉积累比多穗型品种豫麦49慢,但花后25d后情况则相反。2个品种籽粒中淀粉积累速率的变化均呈单峰曲线,豫麦49峰值出现在花后15～20d,而豫麦66峰值则出现在花后20～25d。灌浆期豫麦66和豫麦49籽粒中蔗糖合成酶(SS)活性变化呈单峰曲线,峰值分别出现在花后20d和15d,整个灌浆期内豫麦66籽粒中SS活性高于豫麦49;2个品种籽粒中腺苷二磷酸葡萄糖焦磷酸化酶(AGPP)和淀粉分支酶(SBE)活性变化均呈单峰曲线,峰值出现在花后20d,而可溶性淀粉合成酶(SSS)活性变化则呈双峰曲线,峰值分别出现在花后10d和20d,且第二个峰值显著高于第一个。相关分析表明,SS、AGPP、SSS和SBE是影响小麦籽粒淀粉积累的关键酶。     

Differential expression and signaling of the human histamine H3 receptor isoforms of 445 and 365 amino acids expressed in human neuroblastoma SH-SY5Y cells

In stably-transfected human neuroblastoma SH-SY5Y cells, we have compared the effect of activating two isoforms of 445 and 365 amino acids of the human histamine H₃ receptor (hH₃R₄₄₅ and hH₃R₃₆₅) on [³⁵S]-GTPγS binding, forskolin-induced cAMP formation, depolarization-induced increase in the intracellular concentration of Ca²⁺ ions ([Ca²⁺]i) and depolarization-evoked [^3?H]-dopamine release. Maximal specific binding (B_max) of [^3?H]-N-methyl-histamine to cell membranes was 953?±?204 and 555?±?140?fmol/mg protein for SH-SY5Y-hH₃R₄₄₅ and SH-SY5Y-hH₃R₃₆₅ cells, respectively, with similar dissociation constants (K_d, 0.86?nM and 0.81?nM). The mRNA of the hH₃R₃₆₅ isoform was 40.9?±?7.9% of the hH₃R₄₄₅ isoform. No differences in receptor affinity were found for the H₃R ligands histamine, immepip, (R)(-)-α-methylhistamine (RAMH), A-331440, clobenpropit and ciproxifan. Both the stimulation of [³⁵S]-GTPγS binding and the inhibition of forskolin-stimulated cAMP accumulation by the agonist RAMH were significantly larger in SH-SY5Y-hH₃R₄₄₅ cells ([³⁵S]-GTPγS binding, 158.1?±?7.5% versus 136.5?±?3.6% for SH-SY5Y-hH₃R₃₆₅ cells; cAMP accumulation, ?74.0?±?4.9% versus ?43.5?±?5.3%), with no significant effect on agonist potency. In contrast, there were no differences in the efficacy and potency of RAMH to inhibit [^3?H]-dopamine release evoked by 100?mM K⁺ (?18.9?±?3.0% and ?20.5?±?3.3%, for SH-SY5Y-hH₃R₄₄₅ and SH-SY5Y-hH₃R₃₆₅ cells), or the inhibition of depolarization-induced increase in [Ca²⁺]i (S2/S1 ratios: parental cells 0.967?±?0.069, SH-SY5Y-hH₃R₄₄₅ cells 0.639?±?0.049, SH-SY5Y-hH₃R₃₆₅ cells 0.737?±?0.045). These results indicate that in SH-SY5Y cells, hH₃R₄₄₅ and hH₃R₃₆₅ isoforms regulate in a differential manner the signaling pathways triggered by receptor activation.     

Non-Decaying postsynaptics potentials and delayed spikes in hippocampal pyramidal neurons generated by a zero slope conductance created by the persistent Na+ current

The negative slope conductance created by the persistent sodium current (I_NaP) prolongs the decay phase of excitatory postsynaptic potentials (EPSPs). In a recent study, we demonstrated that this effect was due to an increase of the membrane time constant. When the negative slope conductance opposes completely the positive slope conductances of the other currents it creates a zero slope conductance region. In this region the membrane time constant is infinite and the decay phase of the EPSPs is virtually absent. Here we show that non-decaying EPSPs are present in CA1 hippocampal pyramidal cells in the zero slope conductance region, in the suprathreshold range of membrane potential. Na⁺ channel block with tetrodotoxin abolishes the non-decaying EPSPs. Interestingly, the non-decaying EPSPs are observed only in response to artificial excitatory postsynaptic currents (aEPSCs) of small amplitude, and not in response to aEPSCs of big amplitude. We also observed concomitantly delayed spikes with long latencies and high variability only in response to small amplitude aEPSCs. Our results showed that in CA1 pyramidal neurons I_NaP creates non-decaying EPSPs and delayed spikes in the subthreshold range of membrane potentials, which could potentiate synaptic integration of synaptic potentials coming from distal regions of the dendritic tree.     

The gp27-like Hub of VgrG Serves as Adaptor to Promote Hcp Tube Assembly

Contractile injection systems are multiprotein complexes that use a spring-like mechanism to deliver effectors into target cells. In addition to using a conserved mechanism, these complexes share a common core known as the tail. The tail comprises an inner tube tipped by a spike, wrapped by a contractile sheath, and assembled onto a baseplate. Here, using the type VI secretion system (T6SS) as a model of contractile injection systems, we provide molecular details on the interaction between the inner tube and the spike. Reconstitution into the Escherichia coli heterologous host in the absence of other T6SS components and in vitro experiments demonstrated that the Hcp tube component and the VgrG spike interact directly. VgrG deletion studies coupled to functional assays showed that the N-terminal domain of VgrG is sufficient to interact with Hcp, to initiate proper Hcp tube polymerization, and to promote sheath dynamics and Hcp release. The interaction interface between Hcp and VgrG was then mapped using docking simulations, mutagenesis, and cysteine-mediated cross-links. Based on these results, we propose a model in which the VgrG base serves as adaptor to recruit the first Hcp hexamer and initiates inner tube polymerization.     

3种禾草圆锥花序小穗及小花分布格局的比较

分析草芦、鸭茅、苇状羊茅 3种圆锥花序禾草小穗及小花的分布格局 ,结果表明 ,3种禾草在各节位上的小穗、小花数量均适合于Weibull分布 ,随着节位序的增加均呈饱和型曲线增长 .通过赋予各统计参数生物学涵义 ,从宏观上分析与揭示了有关生命现象与发展规律及其生物生态学机理 .