猴血中SFV病毒基因PCR检测方法的建立及应用

针对猴泡沫病毒SFV（Simian Foany Virus）多聚酶区（pol区）设计两对引物,以猴血DNA为模板者嵌套式PCR扩增,得到500bp左右基因片段,克隆进入pUC-19载体,经测序鉴定为SFV465bp的pol区基因片段,将此段序列与SFV各型425bp的pol区基因片段进行同源性比较,它与SFV－1型的同源性最高,为92.00%。在此基础上,用这两对引物对158例猴血DNA进行检测,阳性54例,阳性率为34.2%,发现猴群中有较高的SFV病毒的感染。     

Dopamine Agonist-Induced Inhibition of Neurotransmitter Release from the Awake Squirrel Monkey Putamen as Measured by Microdialysis

Abstract: Male squirrel monkeys ( Saimiri sciureus ) were surgically prepared with cranial guide cannulae for acute microdialysis sampling of the putamen nucleus, a dopamine (DA)-rich brain region. On the day of an experiment, an animal was placed in a Plexiglas restraining chair and a microdialysis probe was inserted through the guide into the putamen. Perfusates of artificial cerebrospinal fluid were collected every 20 min over several hours and analyzed via HPLC with electrochemical detection. DA D₂/D₃ agonist drugs were administered either orally (p.o.) or subcutaneously (s.c.), and changes in levels of DA in the dialysates were measured. All of the drugs tested, i.e., quinpirole (0.5 mg/kg p.o.), talipexole (0.75 mg/kg p.o. or s.c.), and PD 135222 (7 mg/kg p.o.), decreased spontaneous DA overflow by ∼40–50% during the first 2 h following dosing. In animals that routinely underwent the microdialysis procedure up to 23 times over a 2-year period, there was neither an appreciable change in basal DA overflow nor a significant change in the magnitude of drug response. These data suggest that DA D₂/D₃ agonists attenuate DA neuronal overflow in the primate brain, similar to effects seen in rodents. Furthermore, these results also demonstrate the utility of repeated intracerebral microdialysis as a tool to monitor dynamic changes in neurochemical activity in monkeys over a prolonged period of time.     

切花百合离体茎尖玻璃化法超低温保存研究

以切花百合西伯利亚试管苗离体茎尖为试材,通过正交设计试验对预培养培养基中蔗糖浓度、预培养时间和PVS2处理时间等影响超低温保存存活率的主要因素进行了分析,初步建立了切花百合种质玻璃化法超低温保存的技术方案。通过形态观察、可溶性蛋白和同工酶检测,冻存前后材料的遗传稳定性没有发生改变,表明该方法对切花百合的种质保存具有较强的实用意义。     

原子力显微镜观测紫外线诱导的K562肿瘤细胞DNA损伤

利用彗星电泳检测出UVB、UVC短时间照射会使肿瘤细胞的DNA发生断裂,而长时间照射之后彗星电泳无法检测到碎片,推测可能是由于DNA分子交联的原因[1],国内外尚无定论.为了更直观的研究这种现象,提取了UVB,UVA照射后K562细胞的DNA,并调节到合适的浓度在原子力显微镜下观测.实验结果表明UVB对K562肿瘤细胞DNA损伤的影响呈现时间/剂量效应,较短时间照射主要产生DNA的链断裂,较长时间辐射则主要产生DNA链的交联.UVC对K562肿瘤细胞DNA的损伤大于UVB.UVC短时照射即可引起DNA的断裂和交联,较长时间辐射主要产生交联和一些断裂;长时间照射不但产生大量交联,同时有大量断裂产生,并发生凝缩和缠绕等结构破坏.     

用树脂铸型法研究4种植物木质部导管结构

导管的大小、形态和彼此连接方式的不同对水分运输和应力支撑有重要作用。本研究采用树脂铸型法对毛白杨(Populus tomentosa Carr)、旱柳(Salix matsudana)、榆树(Ulmus pumila L.)和紫藤(Wisteria sinensis)4个树种的导管分子三维结构进行比较研究,分析导管结构特征和其水分输运的关系。导管内壁结构被印在铸型的表面上,将铸型放在扫描电子显微镜下观察。结果表明：旱柳和毛白杨的导管分子特征较接近,与榆树和紫藤存在明显差异,相对于榆树和紫藤较原始。毛白杨和旱柳的导管分子长、侧壁纹孔少,有利于水分的输运。榆树和紫藤的导管分子相对宽,穿孔板几乎平直,更加利于水分的输运。榆树和紫藤的细导管分子有螺纹加厚,可增加导管的机械强度,减少管内产生空穴化的风险,从而保证水分更有效的运输。     

Comparison of the Cladograms Produced by Li's Method and Farris' Method

In order to avoid producing many equally most parsimonious trees, Li (1990) developed a new cladistic method, the Median Elimination Series (MES), to construct a single cladogram for a given data set. However, we found that Li's method can produce more than one tree if two or more taxa have the same advancement index (which is the total number of apomorphies for a taxon in a given data set), because there is no objective method to decide which taxon should be connected first and different orders of connection can produce different trees. Li claimed that the result produced by his method did not apply the principle of simplicity (parsimony). Nevertheless, Zhang (1991) recognised that Li's method actually accepted the principle of parsimony. Here we demonstrated that Li's method also can produce the minimum-length trees. We conclude that Li's method could produce more than one tree and the tree(s) may be the minimum-length possible. However, the length of tree(s) depends on the order of connection of the taxa. The major problems in using Li's methodare discussed.     

超声波法提取大枣多糖工艺的优化

为了进一步提高大枣多糖的提取效率,本文通过正交试验优化了超声波法提取大枣多糖的工艺条件。考察的因素包括料液比、超声功率、超声时间和浸提温度。结果显示超声波法提取大枣多糖的最佳提取工艺条件为:料液比1∶30、超声功率80W、超声时间10min,浸提温度80℃。在此工艺条件下大枣多糖的提取率达到6.97%。该工艺条件下提取率较高,因此适合于提取大枣中的多糖类化合物。     

多元肥料效应函数模型的优化方法

本文对多元肥料效应函数模型的优化问题进行了分析,根据数学规划理论建立了对多元肥料效应函数进行优化的数学模型,给出了具体的计算方法。该方法经实践检验,效果很好。