1) No-cell system
无细胞系
2) cell free system
无细胞系统
1.
The characteristics including types, preparation, basics, functions and progress of cell free systems are introduced.
对体外无细胞系统的特性、功能、优缺点及其进展等进行了全面的介绍,以期使国内学者了解和利用这一方便而有效的表达系统,进行应用生物化学与分子生物学的实验研究。
3) cell-free system
无细胞体系
1.
Methods The cell-free system was prepared by ultracentrifugation of Xenopus eggs and activated by cytochrome C.
方法 超速离心制备非洲爪蟾卵无细胞体系 ,用细胞色素C激活为凋亡体系。
2.
In this study, the inhibitory ac-tivity of 8 single chain RIPs from Cucurbitaceae and Liliaceae plants in protein synthesis incell-free system and their cytotoxicities to intact cells were compared.
结果表明,其中的绝大多数单链毒素在无细胞体系中对蛋白质合成具有强烈的抑制作用,而对完整细胞的毒性很低。
3.
And the results were great in cell-free system of mammalian and botanical cells.
比如无细胞体系,在细胞凋亡的应用中有不可取代的优越性。
4) cell-free system
无细胞系统
1.
In the Cell-free system which contained ATP regeneration system.
从大鼠肝、鸡肝提取了染色质并从受精未孵育鸡蛋胚下表层卵黄颗粒提取了染色质,在荧光显微镜和电子显微镜下观察了这些染色质在无细胞系统中形成的组装核;研究二价钙镁离子对形成组装核的影响。
5) cell-free translation system
无细胞翻译系统
1.
Soluble expression of native EGFP in a cell-free translation system;
天然型EGFP在无细胞翻译系统中的可溶表达
6) somaclonal line
体细胞无性系
1.
It was found that among 8 grain characters 1000-grain weight and grain thickness of somaclonal line were significantly lower than donor parent, while length/thickness ratio of the grains of somatic hybrids was significantly larger than parent hybrid, but their grain thickness was significantly lower than ones.
比较了水稻体细胞无性系与供体亲本、体细胞无性系杂种F1与供体亲本杂种F1在 8个谷粒性状上的差异 ,结果表明 :体细胞无性系除千粒重及谷粒厚 2性状显著小于亲本外 ,其余性状与亲本差异不显著 ;体细胞无性系杂种F1的长厚比显著大于亲本杂种F1,而谷粒厚则相反。
2.
tremuloides were cultured to generate somaclonal lines, and the variations during culture were assayed by cytological and molecular biological methods.
tremuloides)优良无性系为材料,通过组织培养方法获得体细胞无性系,利用细胞学和分子生物学方法对其发生的变异进行研究。
3.
The results showed that among 8 grain characters 1000-grain weight and grain thickness of somaclonal line were significantly lower than that of donor parent,while length/thickness ratio of the grains of somatic hybrids was significantly larger than that of parent hybrid,but their grain thickness was significantly lower than ones.
本文比较了早恢402的体细胞无性系与供体亲本、体细胞无性系杂种F1与供体亲本杂种F1在8个谷粒性状上的差异,结果表明:体细胞无性系除千粒重及谷粒厚2性状显著小于亲本外,其余性状与亲本差异不显著;体细胞无性系杂种F1的长/厚比显著大于亲本杂种F1,而谷粒厚则相反。
补充资料:胺前体摄取和脱羧化细胞系统
胺前体摄取和脱羧化细胞系统
amine precursor uptake and decarboxylation cell system
见“胺前体摄取和脱羧化细胞”。
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