产生物表面活性剂菌株的选育

以原油为碳源进行微好氧培养筛选到1株产生物表面活性剂的兼性厌氧菌I,其可将界面张力由16.36mN/m降到6.49mN/m。以其为出发菌株,经过紫外和甲基磺酸乙酯复合诱变,得到1株性能优良的变异新菌株,其降低界面张力的能力显著提高,界面张力降低了32.8%。性能评价表明,该菌株能在72℃高温和30%矿化度下生长。有望用于微生物采油研究。     

增强UV-B辐射和NaCl复合胁迫下绿豆光合作用的气孔和非气孔限制

研究了0.35 W/m2的UV-B辐射、0.4%NACl及其复合胁迫下绿豆(Phaseolus radiatus L.)幼苗光合作用的气孔和非气孔限制.发现各胁迫处理下,幼苗净光合速率、气孔导度、光合能力、羧化效率和Rubisco含量均明显降低;细胞间隙CO2浓度在各胁迫处理前期低于对照,后期高于对照;气孔限制值除复合处理第5天外,其余均高于对照;复合处理下上述指标的变化程度均大于两胁迫因子单独处理.表明各胁迫下光合速率的降低既有气孔因素也有非气孔因素,但前期以气孔限制为主,后期以非气孔限制为主;Rubisco含量的降低是各胁迫下光合速率降低的非气孔因素.     

鉴定痢疾杆菌毒力基因的SW480细胞模型构建

信号标签诱变技术（STM）是一种在体内高通量筛选病原体毒力基因的新方法,在应用时的一个先决条件是要建立合适的体内筛选系统。为将该技术应用于福氏痢疾杆菌,我们使用三个福氏痢疾杆菌菌株进行了预试验：通过同源重组构建而成的带有氯霉素抗性且aroA和virG基因失活的突变株RC426;因在侵袭质粒上自发缺失3个基因座(ipaBCDA, invA 和 virG)的另一减毒突变株T32,其曾被用作福氏痢疾杆菌的口服疫苗;还有具侵袭宿主细胞能力的野生性菌株2457T。将RC426、T32和2457T混合后侵袭结肠细胞系SW480,不同时间回收经侵袭后细胞裂解液中的菌体并统计。结果显示在侵袭12h内回收到减毒突变株的量与野生有毒株存在显著性差异,表明SW480 细胞系可用于痢疾杆菌的STM研究。Abstract: Signature-tagged mutagenesis (STM) is a novel technology with high throughput screening ability to identify virulent genes of pathogen in vivo. An appropriate animal or cell line model is one of prerequisites by exploiting this technique. In order to apply STM to Shigella flexneri, RC426 was constructed as an attenuated mutant with chloramphenicol resistance and aroA and virG genes inactivated by homologous recombination; Another attenuated strain T32 was used as an oral S. flexneri 2a vaccine due to a spontaneous deletion in three loci (ipaBCDA, invA and virG) on the virulence plasmid. The wild type strain 2457T had the invasion ability into host cells. The three strains, RC426, T32 and 2457T, were mixed together to invade colon cancer cell line SW480, and the distinct strains were recovered and counted from cell lysates of invaded SW480 in different time. The results showed that there were statistically significant differences between the amounts of two attenuated strains recovered and that of virulent strain within 12h invasion, indicating SW480 was a suitable cell model for applying STM to screen virulent genes of Shigella flexneri.     

Transgenic peanut plants obtained by particle bombardment via somatic embryogenesis regeneration system.

After pre-culture and treatment of osmosis, cotyledons of immature peanut (Arachis hypogaea L.) zygotic embryos were transformed via particle bombardment with a plasmid containing a chimeric hph gene conferring resistance to hygromycin and a chimeric intron-gus gene. Selection for hygromycin resistant calluses and somatic embryos was initiated at 10th d post-bombardment on medium containing 10-25 mg/L hygromycin. Under continuous selection, hygromycin resistant plantlets were regenerated from somatic embryos and were recovered from nearly 1.6% of the bombarded cotyledons. The presence and integration of foreign DNA in regenerated hygromycin resistant plants was confirmed by PCR (polymerase chain reaction) for the intron-gus gene and by Southern hybridization of the hph gene. GUS enzyme activity was detected in leaflets from transgenic plants but not from control, non-transformed plants. The production of transgenic plants are mainly based on a newly improved somatic embryogenesis regeneration system developed by us.     

固体发酵法制取植酸酶

对植酸酶产生菌进行了诱变育种,分离纯化;采用固体培养法生产植酸酶及对酶的热稳定性进行了研究,研究结果表明以麸皮为主要培养基成分,添加2%葡萄糖,1%（NH4）2SO4,0.02%MgCl2,40ml水,29℃恒温培养8d-10d后,其酶活可达5615u/g.ssc。用含CaCl22%的pH5.0的醋酸缓冲液抽提效果好,相对酶活达94%。经提取。粗酶粉活力可达80130u/g。温度升高70℃,处理1h,相对酶活为90%。     

人工同龄纯林冠层辐射场模拟模型I.理论计算

充分考虑坡地人工林冠层结构特征和叶面积空间分布的异质性,分别相邻树冠遮荫和目的树冠遮荫对树冠内辐射场的影响,建立的人工林冠层辐射场模型,可模拟树冠内任意点,在一年内任一时刻内的辐射及其直接和散射分量,以及以1h为步长的日总辐射等,为人工林可持续经营和冠层光合生产力模拟奠定基础。     

UV-B辐射对香蕉光合作用和不同氮源利用的影响

生长在NO3^--N、NH4^--N和NH4NO3－N的香蕉叶片有相近似的最大光合速率,UV－B辐射引起生长在不同氮源的香蕉叶片光合速率、表现量子产率和光肥利用效率的降低。UV－B辐射使生长在不同氮源的植株叶面积干重和叶氮含是降低。生长在NH4^--N的植株Vcmax和Jmax均较生长在其它氮源的高。UV－B辐射引起生长在NH4^-N的植株Vcmax和Jmax降低较相同处理的NO3^-－N和NH4NO3－N植株明显,表明生长在NH4^ －N的香蕉对UV－B辐射更加敏感。UV－B辐射改变植株的叶片的碳氢比和碳氮比。经过UV－B辐射处理的NH4^ －N生长植株的碳氮生长在NO3^--N和NH4NO3－N的低。UV－B辐射可能改变植株对不同氮源的吸收利用,从而引起碳氮代谢和酸碱调节的变化。UV－B辐射降低叶氮在Rubisco和生物力能学组分的分配系数,可能使这些组分合成减少,使叶片光调节的变化。UV－B辐射降低叶氮在Rubisco和生物力能学组分的分配系数,可能使这些组分合成减少,使叶片光合速率下降。结果表明,生长在不同氮源的香蕉植树对UV－B辐射有不同响应,NH4^ -N有利于主要光合参数增高,但其对UV－B辐射亦最为敏感。氮供应受限制或植株生长在中性盐如NH4NO3－N则对UV－B辐射不甚敏感。     

雨生红球藻的紫外、激光复合诱变育种

用紫外线和激光复合诱变生产虾青素的雨生红球藻,以适宜条件下的生长速率和亚适宜条件下的虾青素累积能力为筛选指标。结果表明,与原始出发株比,紫外线诱变后,色青累积速率提高37.8％,但生长速率有所下降,紫外线,激光复合诱变结果,生长速率提高11.1%,培养1个月时虾青素累积量提高52.2%。电镜观察结果表明,激光可刺激叶绿体发育,从而改善了紫外线诱变后的生长抑制状况,展示复合诱变是筛选高产虾青素藻株的有效方法。     

微波诱导多刺裸腹溞耐盐性的初步研究

近年来,随着海水鱼虾蟹苗种生产规模和品种的不断扩大,对适宜活饵料的需求量也日益增加。淡水枝角类因其营养丰富、繁殖快、适应性强,具有作为海水鱼虾蟹苗种活饵料的可能性。目前,国内外对     

UV—B辐射增强对植物光合作用的影响及植物的相关适应性研究

综述了UV－B辐射增强对植物光合作用的影响,植物对光破坏的响应与适应性方面的国内外研究进展,许多研究表明UV－B辐射增强对植物具有破坏作用能引起植物光抑制,光氧化和光损伤,植物依靠自身修复系统而对其破坏又具有一定的适应性。