1) whole performance
全性能
1.
Product resource whole performance model based on extension meta-modeling architecture
基于可拓元模型架构的产品资源全性能模型
2) toti/pluripotency
全能/多能性
3) safety
[英]['seɪfti] [美]['seftɪ]
安全性能
1.
Study on safety of cathode materials of LiCoO_2/LiNiO_2/LiMn_2O_4;
LiCoO_2/LiNiO_2/LiMn_2O_4材料安全性能的研究
2.
The Safety Evaluation of Complexes Glass Fiber Vent without Surface Aluminum Sheet;
无铝箔复膜复合玻璃纤维风管安全性能的监测
3.
Study on Thermal Stability and safety of Cathode Materials for Lithium Ion Batteries;
锂离子电池正极材料安全性能——热稳定性
4) Safety performance
安全性能
1.
Progress in the additives to improve the safety performance of Li-ion battery
提高锂离子电池安全性能的添加剂的进展
2.
Effects of overcharging on safety performance of Li-ion battery for electric bicycle
过充对电动自行车用锂离子电池安全性能的影响
3.
The preparation and safety performance of AA size Li/FeS_2 battery
AA型Li/FeS_2电池的制备及安全性能
5) totipotency
[英][təu'tipətənsi] [美][to'tɪpətənsɪ]
全能性
1.
According to the characteristics of totipotency, differentiation out of body and the steady transmissibility of the ES cells, we can see wide application prospects of the ES cells which could be used to build the model of early diffierentiation out of body and the model of transgenic animal ,to restore apparatus and tissue and transplant therapy, to produce clone animal and research .
人们利用ES细胞所具有的全能性、体外分化以及稳定的遗传性能等特点,展示了ES细胞在建立哺乳动物的早期胚胎体外分化模型、转基因动物模型、器官和组织的修复与移植治疗、克隆动物的生产、发育生物学的研究等方面广阔的应用前景。
2.
On the basis of study on the conditions and pathways of expression of cell totipotency, totipotent cells were inquired to found the clone of marine macroalga.
依据藻体类型和早期形态发生类型,选择假膜体、膜状体和多核单细胞体三种类型的海藻,在单藻培养、不加激素的条件下进行外植体培养,研究海藻细胞全能性表达的条件和途径,并在此基础上,寻找全能性细胞,构建大型海藻无性系。
6) pluripotency
全能性
1.
Relationship between pluripotency maintenance of residual embryonic stem cells and exogenous leukemia inhibitory factor
类胚体中残留细胞分化全能性维持与外源性白血病抑制分化因子的关系
2.
Self-renewal and pluripotency of ES cells are under stringent regulation of several signaling pathways.
体外培养时能够进行自我更新,即细胞通过对称分裂在维持全能性不丢失的情况下细胞数目增多。
3.
Discovering how ESCs pluripotency and lineage induction is achieved is important for understanding normal development and for successfully applying stem cell-based therapies.
阐明胚胎干细胞全能性维持以及向各种特定细胞分化的分子机制,不仅有助于我们了解胚胎发育过程,而且将促进胚胎干细胞尽早应用于疾病治疗。
补充资料:全性
1.保全天性。 2.全部性格。
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