transmembrane transport

These targets were mainly involved in metabolism , transmembrane transport , stress response , and transcription regulation .

这些靶基因具有不同功能，分别与代谢、跨膜运输、胁迫响应以及转录调控等相关。

According to GO classification system , the ESTs acquired in the libraries are involved in metabolism , cell growth and division , cell architecture composition , transmembrane transport , signal transduction , stress response , transcriptional control ,, translation , protein degradation and other vital process .

按GO分类系统，消减库中EST参与新陈代谢、细胞生长与分裂、细胞结构组成、跨膜运输、信号传递、胁迫应答、转录调控、翻译、蛋白降解等生命过程。

Primary study of transmembrane transport of zinc and its mechanism in osteoblast

成骨细胞跨膜转运锌特性及其机制的初步研究

Regulation of H ' Transmembrane Transport Activity in Rat Liver Mitochondria During Acute Stress

大鼠急性应激时肝线粒体质子跨膜转运活性的调控

And NAG 11 gene product may play a role in the transmembrane transport of ATP .

NAG11基因产物可能与ATP的跨膜转运有关。

The transmembrane transport of Cu2 + ions accord to the first order kinetic characteristics during the beginning 2 hours .

在温育的前2个小时内，Cu2+跨膜转运过程具有一级动力学特征。

Depending on the mechanism , the transports can be divided into three types : vesicular transport , transmembrane transport and gated transport .

根据转运机制的不同，分为膜泡运输、跨膜转运以及选择性的门控转运。

The transport of antibiotic in stomach has the feature of pharmacokinetics , transmembrane transport exists from blood to stomach organization after direct distribution in stomach and intestinal absorption .

抗菌药胃内转运具有特殊的药代动力学特点，存在胃内直接分布及肠道吸收后由血转运至胃组织的跨膜转运。

Morphine could open some ion channels on the neuron membranes by acting on opioid receptors , then cause the transmembrane transport of certain ions to exert analgesic effect .

已知吗啡可通过作用于阿片受体引起神经细胞膜上的某些离子通道开放，导致某些离子的跨膜转运而发挥镇痛作用。

Aquaporin ( AQP ) are a family of hydrophobic intrinsic membrane proteins that efficiently and selectively transport water . Aquaporin is the main molecular basis of water transmembrane transport .

水通道蛋白（Aquaporin，AQP）是一组具有同源性的内在膜蛋白家族成员，是水跨膜转运的主要分子基础。

Divided two space-charge regions of different dielectric constant inside plant cell membrane , a model was built for ion transmembrane transport , the charge density and interfacial conductivity was derived from interfacial potential barrier .

将植物细胞膜内部模拟为两个介电常数不同的空间电荷区，建立离子跨膜模型，导出了界面势垒的静电荷密度与界面电导率。

ATPase in the transmembrane transport of ions and the regulation of membrane potential plays a key role , mainly brush border of the proximal tubule , and in the intermediate segment though only weakly positive .

ATPase在离子的跨膜转运及膜电位的调节方面起着关键作用，主要分布在近端小管刷状缘，而在中间段腔面为弱阳性。

Objective : To investigate the effects of heredity on Na + transmembrane transport and endogenous digoxin like substances ( EDLS ) concentration in essential hypertension ( EH ) and it ′ s role in the development of Na + sensitive hypertension .

目的：探讨原发性高血压（EH）遗传因素对Na+转运及内源性类地高辛物质（EDLS）浓度的影响，了解Na+敏感性高血压的发病机制。

The results show that the transmembrane transport of the complexes studied exhibited a chiral selectivity , and the selectivity is mainly due to chiral recognition of membrane phospholipid with the chiral complexes . Their column efficiency , polarity and chiral selectivity were studied .

结果表明：这些配合物主要通过简单扩散进入红细胞，其跨膜速率对环己二胺的手性具有明显的选择性.这种选择性主要来源于配合物与膜脂作用过程中的手性识别。

Changes of transmembrane ion transport in essential hypertensives with familial histories

有家族史的高血压病患者细胞膜离子转运改变及意义

Plant cell plasma membrane and vacuolar membrane H + - ATPase consumes ATP energy establishment of transmembrane proton electrochemical potential gradient , promoting a variety of ions and small molecule metabolites to transmembrane transport .

植物细胞质膜和液泡膜上的H+-ATPase消耗ATP能量建立跨膜质子电化学势梯度，推动各种离子和小分子代谢产物进行跨膜运输。