亚热带典型树种对模拟酸雨胁迫的高光谱响应

对亚热带地区6种典型树种幼苗在不同模拟酸雨梯度下的光谱响应特征进行了研究。结果表明,针叶树种和阔叶树种对酸雨敏感性具有明显差异。针叶树种马尾松、杉木和香榧对酸雨敏感性高于阔叶树种刨花楠、香樟和杨梅。针叶树种内部,马尾松和杉木叶绿素含量随酸雨浓度变化的幅度明显高于香榧;而阔叶树种内部,刨花楠、香樟和杨梅三者之间无显著差别。马尾松、香樟和香榧不能承受长时间高浓度酸雨胁迫,叶绿素含量呈先增加后减少趋势,杉木则先减少后增加,杨梅能承受长时间高浓度酸雨胁迫,pH值2.5处理下叶绿素含量高于pH值5.6处理。刨花楠4期试验中叶绿素含量变化无明显规律。各受试植物光谱反射率红边位置与其叶绿素含量变化规律基本一致。针叶树种马尾松和香榧主要表现为"蓝移",杉木则先"蓝移"后"红移",表现出对高浓度酸雨长时间的抗性;阔叶树种香樟先"红移"后"蓝移",对高浓度模拟酸雨表现出先促进后抑制现象,杨梅光谱反射率一阶导数曲线比较平缓,无明显"红移"和"蓝移"现象,刨花楠则"红移"和"蓝移"交替出现,与其叶绿素含量变化相一致,对酸雨敏感性不明显。     

Genome-scale patterns in the loss of heterozygosity incidence in Saccharomyces cerevisiae

Former studies have established that loss of heterozygosity can be a key driver of sequence evolution in unicellular eukaryotes and tissues of metazoans. However, little is known about whether the distribution of loss of heterozygosity events is largely random or forms discernible patterns across genomes. To initiate our experiments, we introduced selectable markers to both arms of all chromosomes of the budding yeast. Subsequent extensive assays, repeated over several genetic backgrounds and environments, provided a wealth of information on the genetic and environmental determinants of loss of heterozygosity. Three findings stand out. First, the number of loss of heterozygosity events per unit time was more than 25 times higher for growing than starving cells. Second, loss of heterozygosity was most frequent when regions of homology around a recombination site were identical, about a half-% sequence divergence was sufficient to reduce its incidence. Finally, the density of loss of heterozygosity events was highly dependent on the genome’s physical architecture. It was several-fold higher on short chromosomal arms than on long ones. Comparably large differences were seen within a single arm where regions close to a centromere were visibly less affected than regions close, though usually not strictly adjacent, to a telomere. We suggest that the observed uneven distribution of loss of heterozygosity events could have been caused not only by an uneven density of initial DNA damages. Location-depended differences in the mode of DNA repair, or its effect on fitness, were likely to operate as well.     

土壤水分对土壤产生气态氮的厌氧微生物过程的影响

气态氮[一氧化氮(NO)、氧化亚氮(N2O)和氮气(N2)]的释放是土壤氮损失的一种重要途径.硝化和反硝化作用是土壤气态氮损失的主要微生物过程,但是异养硝化作用、共反硝化作用和厌氧氨氧化过程对土壤气态氮损失的贡献尚不清楚.本研究利用15N标记和配对法,结合硝化抑制剂双氰胺(DCD),通过土壤培养试验来量化厌氧条件下各种...     

辅助病毒依赖型腺病毒载体转基因的体外表达效率

构建可表达增强型绿色荧光蛋白 (Enhanced green fluorescent protein,EGFP) 的辅助病毒依赖型腺病毒载体 (Helper-dependent adenoviral vector,HDAd),并完成大量制备、纯化和体外表达鉴定。荧光显微镜证实HDAd/EGFP可表达,电镜下观察到经CsCl纯化后的腺病毒的典型形态。分光光度计法测定病毒的浓度为4.0×1012 颗粒数 (Virus particle,vp) /mL。与可表达EGFP的第一代腺病毒载体 (First generation adenoviral vector,FGAd) FGAd/EGFP进行了体外感染和转基因表达效率的比较研究,分别用约2 000 vp/细胞的HDAd/EGFP和FGAd/EGFP感染A549细胞,流式细胞仪检测EGFP的表达情况。通过相同时间点流式细胞仪分析EGFP的表达情况,可见HDAd/EGFP感染早期的A549细胞较FGAd/EGFP有更高的荧光表达率及更高的表达强度,显示HDAd载体具有转基因瞬时高表达的特性,是一种更有价值的疫苗载体。     

有丝分裂激酶Aurora B的研究进展

真核生物细胞通过有丝分裂将遗传物质均等地分配到两个子细胞中,从而维持基因组的稳定性。有丝分裂的每一环节都需要精准而细致的调控,这依赖于一系列调节机制,尤其需要多个相关激酶的共同协调。Aurora B是一个关键的有丝分裂调控激酶,伴随有丝分裂的进行,其先后在染色体臂、内着丝粒、中央纺锤体、中体上动态分布。与其高度时空动态性相一致的是,Aurora B在有丝分裂的多个环节,如姐妹染色体粘连、动粒微管连接、纺锤体检验点和胞质分裂过程中都发挥着一系列重要功能。本文将概述近年来Aurora B激酶功能与调控方面的研究进展。     

影响动物细胞有丝分裂方向的因素应力纤维在纺锤体定位中的作用

细胞的有丝分裂与细胞的增殖、分化及胚胎发育、组织器官形成、损伤组织的修复和疾病的发生有关.各种物理因素、细胞所处的微环境(包括细胞外基质、细胞粘附)等,以及胞内的多种信号因子均能对细胞的有丝分裂方向产生影响.大量文献表明,应力纤维的排列为有丝分裂中心粒分离和定位提供轨道,最终影响纺锤体和有丝分裂的定向.本实验室的micro-pattern和静态单轴拉伸应变实验进一步提示了应力纤维的排布方式是影响有丝分裂方向的重要因素.本文围绕着应力纤维的排布对有丝分裂方向的影响这一研究观点,综述分析了整合素介导的细胞外粘附-黏着斑的组装-应力纤维的排布-有丝分裂纺锤体定向等一系列影响贴壁哺乳动物细胞有丝分裂定向的过程.并根据酵母模型,对哺乳动物细胞有丝分裂定向过程的分子机制进行了介绍;在该过程中肌球蛋白、动力蛋白和kar9等蛋白质起到重要作用.     

Effects of Cadmium on Root Growth, Cell Division and Nucleoli in Root Tip Cells of Garlic

The effects of different concentrations (10⁻⁷ to 10⁻² M) of cadmium chloride on root growth, cell division and nucleoli in root tip cells of Allium sativum L. were investigated. At lower concentrations of Cd²⁺ (10⁻⁷ to 10⁻⁶ M), Cd²⁺ did not influence the root growth, even had a stimulation effects during a short treatment. The results showed that the rate of root growth per day at the treatment groups (10⁻⁴ to 10⁻² M Cd²⁺) decreased with increasing duration of the treatment and increasing Cd²⁺ concentration. Cd²⁺ induced c-mitosis, anaphase bridges, chromosome stickiness and on nucleoli, causing some particles of similar silver-stained material scattered in the nuclei and making the silver staining reaction at the periphery of the nucleolus weaker. This revised version was published online in July 2006 with corrections to the Cover Date.     

“Reductional anaphase” in replication-defective cells is caused by ubiquitin-conjugating enzyme Cdc34-mediated deregulation of the spindle

Equal partitioning of the duplicated chromosomes into two daughter cells during cell division is a coordinated process and is initiated only after completion of DNA synthesis. However, this strict order of execution breaks down in CDC6-deficient cells. Cdc6, an evolutionarily conserved protein, is required for the assembly of pre-replicative complexes (pre-RCs) and is essential for the initiation of DNA replication. Yeast cells lacking Cdc6 function, though unable to initiate DNA replication, proceed to undergo “reductional anaphase” by partitioning the unreplicated chromosomes and lose viability rapidly. This extreme form of genomic instability in cdc6 cells is thought to be due to inactivation of a pre-RC based, Cdc6-dependent checkpoint mechanism that, during normal cell cycle, inhibits premature onset of mitosis until pre-RC is assembled. Here, we show that chromosome segregation in cdc6 mutant is caused not by precocious initiation of mitosis in the absence of a checkpoint, but by the deregulation of spindle dynamics induced via a regulatory network involving the ubiquitin-conjugating enzyme Cdc34, microtubule-associated proteins (MAPs) and the anaphase-promoting complex (APC) activator Cdh1. This regulatory circuit governs spindle behavior in the early part of the division cycle and precipitates catastrophic chromosome segregation in the absence of DNA replication.     

Mitosis and microtubule organizational changes in rice root-tip cells

The pattern of change of the microtubule cytoskeleton of the root-tip cells of rice during mitosis was studied using immunofluorescence technic and confocal laser scanning microscopy. All the major stages of ceil division including preprophase, prophase, metaphase, anaphase and telophase were observed. The most significant finding was that in the preprophase cells microtubules radiating from the nuclear surface to the cortex were frequently seen. During development these microtubules became closely associated with the preprophase band and prophase spindie indicating that the microtubules radiating from the nuclear surface, the preprophase band and the prophazc spindle were structurally and functionally closely related to each other. Granule-like anchorage sites for the radiating microtubules at the muclear surface were often seen and the possibility that these gramle-like anchorage sites might represent the microtubule organizing centres was discussed.