Membranes were crucial to the origins of life.
细胞膜对于生命的起源至关重要。
A single chip can comprise multiple membranes.
单个芯片可以包括多个膜。
Standard MF-Millipore Membranes, white, plain.
标准混合纤维素微孔膜,白色,光面。
Premature; Premature rupture of membranes; Infection.
早产;胎膜早破;感染。
These membranes play the role of the "brain" of the cell.
这些细胞膜扮演着细胞的“大脑”功能。
The nature of all kinds of membranes is a subject of extensive study.
各种膜的性质是一个进行广泛研究的题目。
THE membrane: Modern cell membranes are tough, and highly protective.
细胞膜:现代细胞膜坚韧且保护性强。
An array of sensitive membranes are distributed on the surface of the chip.
在芯片的表面分布有敏感膜阵列。
In this research, I describe two kinds of membranes and discuss respectively.
此研究主要在讨论两种类型的质子交换膜。
Enough information is available to infer that membranes serve in coordination.
现有足够的资料表明,膜起着协调作用。
Analysis of thylakoid membranes will benefit the study of photosynthetic mechanism.
叶绿体类囊体膜的深入研究可以促进光合作用的分子机理研究。
This is responsible for the transport of salts and water across the cell membranes.
这是负责运输的盐和水的整个细胞膜。
Cellular membranes do not block the movement of alcohol molecules throughout the body.
细胞膜不阻碍酒精分子在你身体中的运动。
New theories hold that these membranes are more leaky and require more energy to maintain.
新的理论支持这些薄膜应该更具渗透性并需要更多能量来维护。
Proplastids possessed a simple fine structure with a few or without any internal membranes.
原质体结构简单,含少量或不含内膜结构。
The present situation and development of macromolecular membranes for purification of blood;
综述了几种高分子膜和无机陶瓷膜的应用现状、最新进展和发展趋势。
Ultrafiltration membranes play an important rule of separation as one part of the filtration.
超滤膜作为其中的组件,起着重要的分离作用。
As a result, the pervaporation membranes and their processes are in the basic research phase.
通过分析可以得出结论:有机液优先透过渗透汽化膜的研究目前尚处于基础研究阶段。
It is incorporated into the cell membranes and helps maintain their integrity throughout the body.
它可以合并进细胞膜中,并且帮助保持整个身体的细胞膜完整。
The nuclear envelope is actually two parallel unit membranes with an intervening perinuclear space.
核膜实际上由两层平行的单位膜构成,膜中间为核间隙。
Recently, gas separation membranes have been developed fast as a kind of green separation technology.
近年来,一种绿色分离技术—气体膜分离技术,以其高效节能特点,得到了迅猛发展。
These membranes work on the principle of electrodialysis. Unlike ultrafilters, they do not require pressure.
这类隔膜以电渗析原理工作,与超滤器不同,他们不需要压力。
These membranes work on the principle of electrodialysis. Unlike ultrafilters, they do not require pressure.
这类隔膜以电渗析原理工作,与超滤器不同,他们不需要压力。
应用推荐