野百合碱诱导大鼠肺动脉高压及肺源性心脏病的病理生理特征

目的:探讨野百合碱诱发肺动脉高压及肺源性心脏病模型的建立机制。方法:雄性Wistar大鼠20只,随机分为两组(n=10):正常组,模型组。模型组大鼠腹腔一次性注射野百合碱50 mg/kg,对照组注射同剂量的溶媒,28 d后测定大鼠血流动力学参数,硝酸盐还原酶法测定血清和肺组织中一氧化氮的含量;放射免疫法测定血浆中内皮素、脑钠素和肺组织中肿瘤坏死因子、内皮素的含量。结果:与对照组比较,右心室压力上升、心率和平均动脉压下降,血液和肺组织中肿瘤坏死因子、一氧化氮、内皮素-1、脑钠素含量上升,具有统计学意义。结论:野百合碱通过诱发肺血管和组织炎性损伤,升高体内肿瘤坏死因子、一氧化氮、内皮素-1的含量,建立肺动脉高压及肺源性心脏病模型。     

不同强度及时间窗骨骼肌缺血后处理对兔心肌的保护作用

目的:通过比较不同强度及时间窗骨骼肌缺血后处理对兔缺血/再灌注心肌的保护效能,试图寻找最佳强度和时间窗的骨骼肌缺血后处理方案。方法:健康新西兰大白兔42只(雄性)随机分为7组(n=6):①假手术组(Sham)、②缺血对照组(CON)、③标准骨骼肌后处理组(SP)、④延迟6min骨骼肌后处理组(6M-DSP)、⑤延迟1 min骨骼肌后处理组(1M-DSP)、⑥骨骼肌后处理加强组(SSP)、⑦骨骼肌后处理减弱组(WSP)。以开胸结扎冠状动脉左室支固定部位方法制作缺血/再灌注模型,以游离并夹闭双侧腹股沟髂外动脉固定位置方法造成骨骼肌缺血,再灌注末以TTC法确定心肌梗死范围,并分别于心肌缺血前、后及再灌注1 h、2 h,以生化法测定血清肌酸激酶(CK)及乳酸脱氢酶(LDH)水平。结果:和CON组相比,1M-DSP组心肌梗死重量比及面积比分别下降了42.32%及42.68%、SP组分别下降了49.97%及43.78%、SSP组分别下降了48.36%及48.86%,(P均<0.05),但三组之间相比,心梗范围未见明显差异;而6M-DSP、WSP组与CON组相比未见心肌保护作用;肌酸激酶(CK)的水平和梗死范围变化趋势一致。结论:兔在心肌缺血/再灌注之前完成骨骼肌5 min缺血/1 min再灌注1次循环的缺血后处理,可以起到明显的心肌保护作用。     

Metabolic profiling of transgenic rice progeny using gas chromatography–mass spectrometry: the effects of gene insertion, tissue culture and breeding

The Bacillus thuringiensis ??-endotoxin and cowpea trypsin inhibitor genes have been introduced into the rice genome to improve its pest resistance via Agrobacterium-mediated transformation. A gas chromatography-mass spectrometry (GC?CMS) based metabolic profiling method was employed to determine the unpredictable metabolic changes resulting from the gene insertion and tissue culture separately. Descendants of the same transformant were obtained from different breeding programs, including both the transgenic and null-segregant progeny. The comparison of the transgenic and respective null-segregant plants enabled the evaluation of variations caused by transgenes; also the null-segregant plants were compared with the wild-type control to identify the influence of tissue culture. Based on the GC?CMS metabolic profiles, the principal component analysis and significant differences determined by Student??s t-test suggested that there were more metabolic changes from the tissue culture than those from the insertion of the transgenes. By comparing different breeding programs, it was clear that the progeny which was developed after several generations of backcross with the non-transformed rice as the recurrent parent, displayed fewer metabolic differences from the non-transformed parent. A GC?CMS based metabolic profiling study confirmed that backcrossing can help to reduce unwanted variations that occur during transformation processes.     

New bioactive sulfated alkenes from the sea cucumber Apostichopus japonicus

Two new alkene sulfates, (5Z)-dec-5-en-1-yl sulfate (4) and (3E)-dec-3-en-1-yl sulfate (5), together with three known sulfated alkanes, 2,6-dimethylheptyl sulfate (1), octyl sulfate (2), and decyl sulfate (3), were isolated from the sea cucumber Apostichopus japonicus. The structures of the new compounds 4 and 5 were elucidated by spectroscopic analysis, including 1H-, 13C-, and 2D-NMR, ESI-MS, and HR-ESI-MS. Compounds 2 and 3 were isolated from natural sources for the first time. In preliminary bioassays in vitro, compounds 4 and 5 showed antibacterial, antifungal, and cytotoxic activities.     

Optical Absorption Enhancement in Freestanding GaAs Thin Film Nanopyramid Arrays

Although III–V compound semiconductor multi‐junction cells show the highest efficiency among all types of solar cells, their cost is quite high due to expensive substrates, long epitaxial growth and complex balance of system components. To reduce the cost, ultra‐thin films with advanced light management are desired. Here effective light trapping in freestanding thin film nanopyramid arrays is demonstrated and multiple‐times light path enhancement is realized, where only 160 nm thick GaAs with nanopyramid structures is equivalent to a 1 μm thick planar film. The GaAs nanopyramids are fabricated using a combination of nanosphere lithography, nanopyramid metal organic chemical vapor deposition (MOCVD) growth, and gas‐phase substrate removal processes. Excellent optical absorption is demonstrated over a broad range of wavelengths, at various incident angles and at large‐curvature bending. Compared to an equally thick planar control film, the overall number of photons absorbed is increased by about 100% at various incident angles due to significant antireflection and light trapping effects. By implementing these nanopyramid structures, III–V material usage and deposition time can be significantly reduced to produce high‐efficiency, low‐cost thin film III–V solar cells.     

The effects of NMDA subunit composition on calcium influx and spike timing-dependent plasticity in striatal medium spiny neurons

Calcium through NMDA receptors (NMDARs) is necessary for the long-term potentiation (LTP) of synaptic strength; however, NMDARs differ in several properties that can influence the amount of calcium influx into the spine. These properties, such as sensitivity to magnesium block and conductance decay kinetics, change the receptor's response to spike timing dependent plasticity (STDP) protocols, and thereby shape synaptic integration and information processing. This study investigates the role of GluN2 subunit differences on spine calcium concentration during several STDP protocols in a model of a striatal medium spiny projection neuron (MSPN). The multi-compartment, multi-channel model exhibits firing frequency, spike width, and latency to first spike similar to current clamp data from mouse dorsal striatum MSPN. We find that NMDAR-mediated calcium is dependent on GluN2 subunit type, action potential timing, duration of somatic depolarization, and number of action potentials. Furthermore, the model demonstrates that in MSPNs, GluN2A and GluN2B control which STDP intervals allow for substantial calcium elevation in spines. The model predicts that blocking GluN2B subunits would modulate the range of intervals that cause long term potentiation. We confirmed this prediction experimentally, demonstrating that blocking GluN2B in the striatum, narrows the range of STDP intervals that cause long term potentiation. This ability of the GluN2 subunit to modulate the shape of the STDP curve could underlie the role that GluN2 subunits play in learning and development.     

生长素与植物逆境胁迫关系的研究进展

生长素(IAA)是一种重要的植物激素,与植物的逆境胁迫反应关系密切。综述近年来国内外对生长素与植物逆境胁迫关系研究的一些最新进展,重点分析生长素和生长素响应基因及其相关转录因子在植物响应盐害、干旱、低温等胁迫中的反应。     

叶绿体基因工程研究进展

叶绿体是植物细胞和真核藻类执行光合作用的重要细胞器,在叶绿体中表达外源基因比在细胞核中表达具有一些独特优势。叶绿体基因工程涉及叶绿体的基因组特征、转化系统的优点、转化过程及方法等方面,叶绿体基因工程在提高植物光合效率、改良植物特性、生产生物药物及改善植物代谢途径等方面已得到应用。尽管叶绿体基因工程还存在同质化难度高、标记基因转化效率较低、宿主种类偏少等问题,但作为外源基因在高等植物中表达的良好平台其仍然具有广阔的发展和应用前景。