传染性支气管炎病毒结构蛋白免疫鸡对CD4+CD8+T淋巴细胞亚群的影响

为了比较传染性支气管炎病毒3种主要结构蛋白免疫鸡后对CD4+、CD8+T淋巴细胞亚群的不同影响.本试验以pVAX1载体为携带工具,制备分别含有IBV主要结构蛋白基因的质粒免疫健康雏鸡,采用流式细胞仪(FACS)对免疫鸡外周血中CD4+、CD8+T淋巴细胞数进行检测.结果显示:各试验组间,携带N蛋白基因的质粒在免疫后3周内CD4+T淋巴细胞数和CD8+T淋巴细胞数均高于其他组,且差异极显著(P＜0.01).由此可见,IBV的N蛋白可明显诱导CD8+T淋巴细胞的CTL免疫作用和CD4+T淋巴细胞的辅助性免疫作用,其细胞免疫原性高于S1蛋白和M蛋白.     

家蚕G蛋白γ1亚基(BmGγ1)的克隆及其谷胱甘肽硫转移酶融合蛋白的表达与纯化

异三元G蛋白是真核细胞感知外界信号后将信号传递到胞内的重要分子,参与生物体广泛的信号转导。为了研究家蚕体内G蛋白的生理功能及其作用机制,运用生物信息学方法预测了家蚕G蛋白γ1亚基(Gγ1)的序列,设计引物验证预测序列后,克隆了家蚕Gγ1的序列,再通过酶切克隆至表达载体pET-41b(+)后,导入E.coliBL21宿主菌中,经异丙基β-D-硫代半乳糖苷(IPTG)诱导表达重组谷胱甘肽硫转移酶(glutathione s-transferase,GST)融合蛋白,并亲和层析纯化表达产物。家蚕Gγ1重组GST融合蛋白经SDS-PAGE电泳和Western blot分析,在分子质量约36 kD处出现特异性蛋白条带,重组蛋白经GST亲和层析柱纯化后,得到了高纯度的融合蛋白,说明已经成功克隆到家蚕Gγ1基因,并在E.coliBL21中高效表达。     

鸡CD4蛋白基因的克隆及其mRNA在淋巴器官中的表达

从鸡胸腺、脾脏、哈德氏腺、外周血液和法氏囊等免疫器官中分离淋巴细胞,应用RT-PCR对这些免疫器官中鸡CD4分子mRNA的表达进行了研究。同时,用RT-PCR对鸡脾淋巴细胞CD4分子cDNA进行了克隆和序列测定。结果表明,在上述器官中,法氏囊淋巴细胞不表达鸡CD4分子mRNA,其他器官中均有表达。通过序列分析表明,本试验扩增得到的基因为编码鸡CD4分子的基因。     

水稻品种对稻田CH4和N2O排放的影响

稻田被认为是温室气体甲烷(CH₄)和氧化亚氮(N₂O)的重要排放源,推广种植较少温室气体排放的水稻品种是控制稻田温室气体排放的有效措施之一。选取在太湖流域推广种植较多的16个品种为对象,通过研究其CH₄和N₂O排放情况,筛选出该区域内最适宜种植的较低温室气体排放的品种。研究结果表明,水稻的产量与CH₄排放量存在显著的线性正相关关系。在常规灌溉条件下,不管是常规品种还是杂交品种,粳稻的CH₄、N₂O累积排放量和产量都要高于籼稻。与常规品种(粳稻或籼稻)相比,杂交品种的CH₄累积排放量和产量相对较高,但N₂O累积排放量相对较低。常规粳稻中的早玉香粳和秀水134、杂交粳稻中的花优14、秋优金丰和甬优9号以及杂交籼稻中的旱优113、天优华占均具有较高的产量和较低的温室气体排放强度,有较大的推广种植价值。早玉香粳、旱优8号和旱优113为节水抗旱稻,它们在水分缺少的环境下可能会表现出更大的优势。     

磁性纳米粒子的制备及在转基因大豆检测中的应用

利用热分解法和表面4-羧基苯硼酸修饰,制备了用于转基因大豆提取基因组DNA的纳米粒子。制备的纳米粒子分散性好,磁响应性高。对比磁性纳米粒子和植物基因组DNA提取试剂盒提取转基因大豆基因组DNA的提取效果,结果表明,磁性纳米粒子提取转基因大豆基因组DNA的浓度明显高于试剂盒,实时荧光PCR检测转基因大豆的Ct值低于植物基因组提取试剂盒。     

Microbial use of organic amendments in saline soils monitored by changes in the C/C ratio

An incubation experiment was carried out to investigate whether salinity at high pH has negative effects on microbial substrate use, i.e. the mineralization of the amendment to CO₂ and inorganic N and the incorporation of amendment C into microbial biomass C. In order to exploit natural differences in the ¹³C/¹²C ratio, substrate from two C₄ plants, i.e. highly decomposed and N-rich sugarcane filter cake and less decomposed N-poor maize leaf straw, were added to two alkaline Pakistani soils differing in salinity, which had previously been cultivated with C₃ plants. In soil 1, the additional CO₂ evolution was equivalent to 65% of the added amount in the maize straw treatment and to 35% in the filter cake treatment. In the more saline soil 2, the respective figures were 56% and 32%. The maize straw amendment led to an identical immobilization of approximately 48 μg N g⁻¹ soil over the 56-day incubation in both soils compared with the control soils. In the filter cake treatment, the amount of inorganic N immobilized was 8.5 μg N g⁻¹ higher in soil 1 than in soil 2 compared with the control soils. In the control treatment, the content of microbial biomass C₃-C in soil 1 was twice that in soil 2 throughout the incubation. This fraction declined by about 30% during the incubation in both soils. The two amendments replaced initially similar absolute amounts of the autochthonous microbial biomass C, i.e. 50% of the original microbial biomass C in soil 1 and almost 90% in soil 2. The highest contents of microbial biomass C₄-C were equivalent to 7% (filter cake) and 11% (maize straw) of the added C. In soil 2, the corresponding values were 14% lower. Increasing salinity had no direct negative effects on microbial substrate use in the present two soils. Consequently, the differences in soil microbial biomass contents are most likely caused indirectly by salinity-induced reduction in plant growth rather than directly by negative effects of salinity on soil microorganisms.     

基于G1赋权法的油气管道应急预案质量评价

在构建油气管道应急预案质量评价指标体系的基础上,鉴于常见的层次分析法(AHP)对指标赋权所存在的不足,采用G1法对各个指标进行权重赋值,给出了应急预案质量评定分值的求取方法、评判等级划分及其不同的应急预案质量完善策略。研究结果对如何评价油气管道应急预案的质量提供了方法指导,同时对应急预案的维护与修订提供了决策支持。     

土壤中积累态磷活化动力学的研究Ⅱ.沸石的影响

本文研究了NH4-沸石对潮土和红壤中积累态磷的活化动力学的影响。修正的Elovich公式和双常数速率公式对土壤中积累态磷的活化动力学拟合最好。土壤中添加了NH4-沸石后 ,土壤中积累态磷的活化释放明显增快。NH4-沸石有较强的释磷作用 ,可以促进土壤中积累态磷的活化释放。     

18% 2，4 滴微乳剂防除薇甘菊技术的研究

在广东省深圳市薇甘菊为害严重的地区设置样地,用18%2,4-滴微乳剂不同浓度进行除治试验,结果表明:400～800倍液为有效浓度,1 000～1 200倍液为有效低浓度。不同生境样地防除试验结果表明:在山坡林地带可选用400～600倍液,在丘陵植被地带和果树周边地带可选用500～800倍液,在水塘、水库、水源周边地带以及菜地、花卉、药材和植物保护区周边地带可选用800倍液以下的有效低浓度。