1) Tetrahymena thermophila model
嗜热四膜虫生物模型
2) Tetrahymena thermophila
嗜热四膜虫
1.
Expression of metallothionein gene induced by cadmium and copper in Tetrahymena thermophila;
镉和铜对嗜热四膜虫金属硫蛋白基因的诱导表达
2.
Effect of Pivotal Environmental Factors on Intracellular Proliferation of Legionella pneumophila within Tetrahymena thermophila BF1;
关键环境因子对嗜肺军团菌(Legionella pneumophila)在嗜热四膜虫(Tetrahymena thermophila)细胞内增殖的影响
3.
Infection of Tetrahymena thermophila BF1 by Differentiated Forms of Legionella pneumophila and Properties of Intracellular Proliferation;
不同分化形态的嗜肺军团 菌对嗜热四膜虫BF1的感染和胞内增殖特征
3) Tetrahymena thermophila BF5
嗜热四膜虫BF5
4) thermophile
[英]['θə:məfail] [美]['θɝmə,faɪl]
嗜热生物
5) thermophilic microorganisms
嗜热微生物
1.
The thermophilic microorganisms (50~60℃) are introduced and the contact oxidation technology is adopted to treat with the high temperature effluents from an oil field in this paper, which solves a problem that the effluents need to be cooled in routine biotreatment.
应用嗜热微生物 (5 0~ 6 0℃ ) ,采用接触氧化工艺处理油田高温外排水 ,解决了应用常规生物处理降温的难题 。
6) Thermophiles
嗜热微生物
1.
Those the growth temperatures of which are beyond 50°C are thermophiles.
其中能在高于50 oC的环境下生长的为嗜热微生物。
补充资料:四膜虫
| 四膜虫 Tetrahymena 原生动物门寡膜纲膜口目四膜科四膜虫属的通称。已知有10余种。体长40~60微米,成倒卵形或梨形。口位于腹面前方正中,体表被以纵纤毛带,口后纤毛带一般为2条。胞肛和2个伸缩泡孔均位于细胞后端。无性生殖为横分裂。有性生殖为接合生殖。合子核分裂分化产生新的大小核,两细胞分开、分裂。 世界性分布,主要产自淡水,也有的生活于咸水或温泉中。四膜虫能在无菌的液体培养基中生长繁殖,长期以来用它为材料做了大量营养生长和药物学方面的研究,是真核细胞基因工程研究的理想材料。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条