1) extracellular electron acceptor
胞外电子受体
1.
Therefore, it is assumed that the ability of electrogenic microorganisms to produce electricity is related to their capacity to transfer electrons onto natural extracellular electron acceptors, such as Fe(Ⅲ) oxides.
自然界中并无微生物产电的直接进化压力,而MFC电极与自然界中Fe(III)氧化物同为难溶性胞外电子受体,研究表明,铁还原菌对二者的还原有相似机制。
2) Extracellular-Ca~(2+)-sensing receptor(OsCaS)
胞外钙离子受体(CAS)
3) electron acceptor
电子受体
1.
The effect of nitrite as electron acceptor on the denitrifying phosphorus removal process;
电子受体亚硝酸氮在反硝化除磷过程中的作用
2.
Effect of electron acceptor on denitrifying phosphorus removal;
电子受体质量浓度对反硝化除磷过程的影响
3.
Effects of different electron acceptors on biological dephosphatation;
不同电子受体对生物除磷效果的影响
4) electron acceptors
电子受体
1.
Effects of different exogenous electron acceptors and salt import on methane production potential of estuarine marsh soil;
不同电子受体及盐分输入对河口湿地土壤甲烷产生潜力的影响
2.
Intermediate products of biological nitrogen removal process,nitrate and nitrite,could be used as electron acceptors for phosphorus removal.
结果表明:低浓度NO2--N可以作为聚磷菌的电子受体,实现NO2--N型反硝化除磷,但吸磷总量和吸磷速率明显低于NO3--N型反硝化除磷的效果;当NO2--N和NO3--N共存于缺氧环境时,NO2--N对NO3--N型反硝化除磷的除磷总量和速率没有影响,但会降低NO3--N的消耗量;NO2--N型反硝化除磷污泥的好氧吸磷量和速率均低于传统A/O厌氧放磷污泥的效果,但由于它经历了缺氧吸磷和好氧吸磷2个阶段,因此,从吸磷总量或出水水质看,二者相差不大。
3.
In order to investigate the characteristics of removing phosphorus and nitrogen in wastewater with nitrate and nitrite nitrogen as electron acceptors,two anaerobic/anoxic sequencing batch reactors were adopted to treat compounded wastewater containing phosphorus.
目的研究以硝酸氮和亚硝酸氮为电子受体时,污水中氮磷的去除效果。
5) Ca-sensing receptor
细胞外钙受体
1.
The extracellular Ca-sensing receptor (CaR) is the member of G protein-coupled receptors family.
细胞外钙受体(CaR)为G蛋白偶联受体超家族中的成员,它的大部分作用是以Gαi,Gαq和Gα12/13为中介的,但由G蛋白α亚基介导的作用并不能完全解释CaR的生物学效应。
6) in vitro fertilization/intracytoplasmic sperm injection
体外受精/卵胞浆内单精子显微注射
补充资料:胞核受体
胞核受体
采用靶组织匀浆与核素标记的激素相结合的生化法测定性激素受体时,显示胞核部分的有占位受体,称为胞核受体。
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