1)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
英文短句/例句
1.Ecological Toxicity of Nano-ZnO on Tetrahymena thermophila纳米ZnO对嗜热四膜虫的生态毒性研究
2.Angiostrongylus cantonensis is the most common cause of eosinophilic meningitis worldwide.广东住血?虫是全世界引起嗜伊红血球性脑膜炎最常见的原因。
3.A Survey of Thermophiles from Hot Springs Close to Xiamen Sea and Identification and Characteristics of Four Strains of Acidithiobacillus Ferrooxidans from Different Geological Source;厦门地区近海温泉嗜热菌的分离、鉴定以及四株来源不同嗜酸氧化亚铁硫杆菌的比较研究
4.Construction of Gene Targeting Vector of Tetrahymena Thermophila and Its Site-Detected Integration and Gene Expressionin in the Tetrahymena;四膜虫基因打靶载体的构建及其在虫体内的定向整合和基因表达
5.Study on Evaluation of Environmental Pollution by Tetrahymena Single Cell Gel Electrophoresis;四膜虫细胞凝胶电泳评价环境污染方法的研究
6.QSAR Study of Nitrobenzene Compounds Toxicity to the Tetrahymena Pyriformis硝基苯类化合物对四膜虫毒性的QSAR研究
7.eosinophilic meningitis嗜伊红性白血球脑膜炎
8.Comparative Toxicology of Liposcelis Bostrychophila and Liposcelis Entomophila (Psocoptera, Liposcelididae);嗜卷书虱和嗜虫书虱的比较毒理学研究
9.insect having biting mouthparts and four large membranous wings with netlike veins.有适于咀嚼的口器和四个网状的大膜翅膀的昆虫。
10.Research on the Biotoxicity and Bioaccumulation of Some Kinds of Organic Chlorine Pollutants to the Protozoan Tetrahymena Thermophila BF_5;几种有机氯污染物对原生动物四膜虫的生物毒性和富集研究
11.Quantitative Structure Activity Relatinship for Toxicity of Alkylphenols Compounds to Tetrahymena Pyriformis烃基酚类化合物对四膜虫毒性的定量结构-活性相关研究
12.QSAR study on the acute toxicity of nitroaromatic compounds to the tetrahymena pyriformis硝基芳烃对梨形四膜虫急性毒性的定量构效关系研究
13.A New Record of Bird Plasmodium from the Lonchura striata in China我国一鸟疟原虫新记录——嗜核疟原虫的描述
14.A NEW FLUKE, PHILOPHTHALMUS ANHWEIENSIS,FROM THE EYE OF THE DOMESTIC GOOSE FROM WUHU, ANHWEI芜湖地区家鹅眼内的一吸虫新种——安徽嗜眼吸虫
15.We can classify thin films into four groups:thermal oxides,dielectric layers,polycrystalline silicon, and metal films.我们可以把薄膜分成四组:热氧化物,介电质层,多晶硅,金属薄膜。
16.Leaching of Copper From Chalcopyrite Concentrate,Qinghai by Thermophilus Acidophilus Bacteria嗜热嗜酸菌浸出青海某黄铜矿精矿试验研究
17.Isolation and identification of a strain of moderate thermophilic and acidophilic bacterium from deep sea一株深海中等嗜热嗜酸菌的分离及鉴定
18.Migration of adult worms may occur spontaneously or as a result of some stimulus such as fever or tetrachloroethylene.成虫的移行可自然发生,或因一些刺激诸如发热或四氯乙烯而造成。
相关短句/例句
Tetrahymena thermophila BF5嗜热四膜虫BF5
3)Tetrahymena thermophila model嗜热四膜虫生物模型
4)tetrahymena[,tetr?'haim?n?]四膜虫
1.Tetrahymena:a Good Model Organism for Toxicology and Ecotoxicology;四膜虫:毒理学与生态毒理学研究中的优良模式生物
2.Application of Tetrahymena pyriformisin environtoxicology;梨形四膜虫在环境毒理学研究中的应用
3.Interspecific effect of Er-1 and Er-2 Euplotes pheromones in Tetrahymena;游仆虫信息素Er-1和Er-2对四膜虫的种间作用(英文)
5)Tetrahymena pyriformis四膜虫
1.Mutagenicity of the organic compounds in the pond water with Cl_2 evaluated with tricocyst test of Tetrahymena pyriformis;应用四膜虫刺泡发射评价加氯水体中有机浓集物的致突变性
2.Bio-effect of modified multi-wall carbon nanotubes on Tetrahymena pyriformis;功能化多壁碳纳米管对四膜虫的生物效应研究
6)Tetrahymena thermophila四膜虫
1.Damage Effects of Heavy Metal Cd~(2+) on Nuclear DNA in Tetrahymena thermophila;重金属Cd~(2+)对四膜虫核DNA的损伤作用
2.Toxicity of Complexes of Tetraazamacrocycle with Zn(Ⅱ) and Co(Ⅱ) to Tetrahymena thermophila Analyzed by Flow Cytometry;流式细胞术分析四氮杂大环与Zn(Ⅱ)·Co(Ⅱ)配合物对四膜虫的毒性作用
3.The toxicity of metal complexes on Tetrahymena thermopHila was studied by microcalorimetry.用微量热法研究了不同金属配合物对四膜虫的毒性,得到四膜虫的生长代谢曲线,并计算出生长速率常数k、传代时间T_G、半抑制浓度IC_(50)等参数,通过这些热动力学参数来比较各种金属配合物对四膜虫生长代谢作用。
延伸阅读
四膜虫属 原生动物门纤毛动物亚门寡膜纲膜口目四膜科的 1属(图1)。已知有10余种,通称四膜虫。体长40~60微米,成倒卵形或梨形。口位于腹面前方正中,右缘有1个波动膜,左侧有3个围口小膜。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。大核1个多倍性(4.5C),是营养核,基因有表达功能。小核1个或无,二倍性,含5对染色体,基因不表达。无性生殖为横分裂。有性生殖为接合生殖(图2),细胞两两配对,大核退化,小核减数分裂形成配子核,互换后,两细胞各生成1合子核,合子核分裂分化产生新的大小核,两细胞分开、分裂。 四膜虫为世界性分布,主要产自淡水,也有的生活于咸水或温泉中。研究最多的是梨形四膜虫。现知梨形四膜虫是1复合种,其中除1个无小核种保留梨形四膜虫原种名外,其余3个无小核种和14个有小核种都给以新种名,如亚洲四膜虫,采自中国和泰国;嗜热四膜虫,采自美国。无小核种不能接合。有小核种都各含 2个以上的交配型。只有同种内不同交配型细胞才能接合。 由于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。近30年来,四膜虫的遗传学和分子生物学研究进展迅速,发现在四膜虫接合后的大核发育过程中,部分DNA序列被删除,以及rDNA分子由小核中的单拷贝变为大核中多拷贝的回文结构二联体分子等现象。用外科手术已经成功地将rDNA分子从一个细胞移入另一细胞。四膜虫是真核细胞基因工程研究的理想材料之一。
