1) the voltage striding over membrane
跨膜电势
1.
Furthermore,we discussed the varity of the voltage striding over membrane when He Ne laser beam radiating on the cell membrane and found out the effect mechanism.
研究从植物细胞双分子层膜理论出发 ,建立相应的物理模型 ,讨论了激光辐照引起生物细胞膜跨膜电势的变化及其产生生物效应的机理。
2) proton electron-chemistry potential energy across mitochondrial membrane
跨膜质子电化学势能
3) Step potential
跨步电势
1.
It is indicated that the step potential on the surface of the epitaxial grounding grid meets the specialty standard as long as the depth of burying of the grid is reasonable.
计算和实践表明,只要接地极埋设深度适宜,外延接地网表面的跨步电势仍然能够满足专业技术规范的安全要求。
2.
The touch potential and step potential are both beyond design specification.
若厂区内发生不对称接地短路故障,则可能入地电流过大,造成设计人工接地装置接地电阻值大于A类电气装置允许接地电阻值上限;且校核局部接触电势和跨步电势超出设计规范要求。
4) Transmembrane potential
跨膜电位
1.
Change of transmembrane potential during delayed phase of noradrenaline preconditioning
去甲肾上腺素预处理晚期出现的线粒体跨膜电位的变化
2.
Effect of Yuzhang Tang on the mitochondria morphology and transmembrane potential of bone marrow cells in mice with aplastic anemia
自制愈障汤对再生障碍性贫血大鼠骨髓造血细胞线粒体形态及跨膜电位的影响
3.
The frequency response model and simulation method of transmembrane potential on inner and outer membrane of spherical biological cell was presented in this paper.
提出球形单细胞内外膜跨膜电位频率响应模型和仿真计算方法。
5) transmembrane potential
跨膜电压
1.
This study proves theoretically that,in comparison with other electric field,the pulse electric fields(PEF) are able to induce much stronger transmembrane potential on microorganis.
根据法拉第定律、高斯定律和电荷守恒定律,建立脉冲电场作用下微生物细胞跨膜电压的Laplace方程,分析脉冲电场作用下细胞跨膜电压的变化规律。
6) transmembrane voltage
跨膜电位
1.
Analytic solution of transmembrane voltage in pulsed electric field with rising edge considered is derived using the classic singular cell model.
分析了电场生物效应实验和实用中脉冲电场上升沿的形成并基于经典球形单细胞模型推导出计及上升沿的脉冲电场所诱导的细胞跨膜电位的计算解析式。
2.
On the basis of biology, it deduces the relation between the high electrostatic field and the transmembrane voltage by the formula of nernst and the quantum tunneling effect.
采用平面类脂双层模型分析外加高压静电场对植物细胞跨膜电位的影响,并探讨其微观机理。
补充资料:跨膜电位
分子式:
CAS号:
性质:膜(主要指生物膜)两侧的电位差。它取决于膜内所带的电荷与膜两侧所带的电荷,后一种包含膜表面和相邻溶液所带的电荷。例如在安静状态的神经膜的跨膜电位大约为-75mV,表示细胞内侧相对于外侧低75mV,膜内侧显负电性而外侧显正电性。当神经细胞受激时,跨膜电位从-75mV变成了+50mV,膜内侧显正电性而外侧显负电性,此时将使膜内侧过多的阳离子挤出到外侧。
CAS号:
性质:膜(主要指生物膜)两侧的电位差。它取决于膜内所带的电荷与膜两侧所带的电荷,后一种包含膜表面和相邻溶液所带的电荷。例如在安静状态的神经膜的跨膜电位大约为-75mV,表示细胞内侧相对于外侧低75mV,膜内侧显负电性而外侧显正电性。当神经细胞受激时,跨膜电位从-75mV变成了+50mV,膜内侧显正电性而外侧显负电性,此时将使膜内侧过多的阳离子挤出到外侧。
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