分子开关

CHIP可以作为α-突触核蛋白蛋白酶体降解途径和溶酶体降解途径的分子开关。

CHIP acts as a molecular switch between proteasomal and lysosomal degradation pathways .

在生物医用材料方面的应用主要包括抗肿瘤药物、DNA荧光探针和荧光分子开关；

The applications in the biomedical materials included mainly anticancer drugs , DNA fluorescence probe and fluorescence molecular switch .

基于PET过程的分子开关型荧光传感器研究进展

Recent Advances in Fluorescence Molecular Switches Based on Photo-induced Electron Transfer

在信号转导系统中，存在许多重要的蛋白质，G蛋白，Ras蛋白起到分子开关的作用；

There exists many important proteins in singnal transduction . G protein and Ras protein function as molecular switches .

还提出了一种新的电化学检测DNA的方法，以二茂铁标记的寡核苷酸构建了一种简单通用的信号打开型的分子开关，实现了对DNA序列的无试剂检测。

Also proposed a new method of electrochemical detection of DNA in order to ferrocene labeled oligonucleotide construct a simple general-purpose the type of signal opening molecular switch , realized its reagent-free detection of DNA sequences .

DHA衍生物是极具前景的高密度光学存储介质及分子开关材料，在纳米技术、生物医学、电子信息等领域有着广泛的应用前景。

DHA derivative is promising high-density optical storage medium and molecular switch material which is widely used in nanotechnology , bio-medicine , electronic information .

大量研究表明，海马神经元突触的NMDA受体在空间记忆的信息处理过程中起着重要的分子开关的作用。

A large number of studies demonstrated that NMDA receptor in hippocampus synapes serves as a gating switch during the spatial memory information procession .

这些小G蛋白作为重要的分子开关，具有一个非常保守的功能区域，即I-IV结构区，它起着关键性作用。

These proteins , functioning as molecular switches , share a common structural core , described as the I-IV domain , and significant sequence similarity .

给免疫细胞发送信息的分子开关又被称为肿瘤坏死因子受体（TNFR）。

The molecular switch that sends the call to immune cells is termed the tumor necrosis factor receptor ( TNFR ) .

本论文提出一种可以在均相溶液中快速灵敏的检测SNP的方法，它基于熵驱动分子开关和恒温聚合酶链取代反应而构建，并且不需要额外加入引物。

A strategy of rapidly and sensitively detecting SNP in homogeneous solution was presented based on entropy-driven molecular switch and isothermal strand - displacement polymerase amplification reaction without addition of exogenous primers .

Rac蛋白作为高等植物中已知的惟一一类分布广泛的信号GTP结合蛋白，在植物体众多生命活动调节中起着分子开关的作用。

As the sole ubiquitous signal GTP - binding protein family in higher plants , Rac genes act as pivotal molecular switches and participate in many regulations of life activities .

第三类只有Arf6。与其它的GTP结合蛋白一样，Arfs蛋白在功能上是一个分子开关，在GTP结合状态和GDP结合状态之间循环，它与许多不同的靶蛋白结合影响一系列细胞事件。

Similar to other GTP binding proteins , Arfs function as molecular switches , cycling between GTP-bound state and GDP-bound state , with multiple targets affecting a variety of cellular events .

在正常细胞中，MLL与其他四种蛋白联合组成了W-RAD复合体，从而形成了在白细胞形成中所需的一种控制DNA组合的分子开关。

In normal cells , MLL combines with four proteins that comprise the W-RAD group to create a molecular switch that controls DNA packaging events required to form white blood cells .

小GTPase蛋白作为重要的分子开关其结构域主要包括4个鸟苷酸（GTP/GDP）结合域及1个效应区。

Small GTPase proteins play a pivotal role as important molecular switches , containing four guanine nucleotide ( GTP / GDP ) binding ( GNB ) domains and an effectors domain .

这些结果将在分子开关器件方向具有重要的应用前景。

These results are promising for application in molecular switch devices .

分子开关是信息工程和生物工程研究领域的重要部分。

Molecular switch plays an important role in bioengineering and information technologies .

金属离子络合物是荧光分子开关的一个重要组成部分。

Metal ionic compounds play an important role in fluorescent molecule switch .

胚胎干细胞分化的重要分子开关：Oct-3/4

The Important Molecular Switches of the Embryonic Stem Cells : Oct-3 / 4

以上结果表明证实了它们作为光引发的分子开关的可能性。

The results presented prove the possibility of using them as molecular switches .

金属离子络合物在荧光分子开关中的作用

Role of metal ionic compounds in fluorescent molecule switches

荧光分子开关的研究进展

The progress of the research on fluorescent molecular switches

四硫富瓦烯及其衍生物在分子开关领域的研究进展

Advance in Tetrathiafulvalene and Its Derivatives as Molecular Switches

以芳香硫醚为桥链的三体化合物的荧光分子开关性能

Fluorescence switch properties of triads with sulfur Bridge

杯芳烃分子开关的研究进展

Research progress on in molecular switches of calixarenes

一种西佛碱衍生物的多态多功能分子开关性质的研究

Study on the Property of Multi-States and Multi-Functions Molecular Switch Based on Schiff Base Derivate

分子开关研究进展

Research progress on molecular switches

构筑了分子开关和分子导线两个分子原型器件的自组装结构。

Two self-assembled basic molecular devices , molecular switches and molecular conductive wires were constructed on HOPG surface .

轮烷化合物是研究分子开关和分子马达等超分子器件的模型化合物之一。

Rotaxanes can be used as the model compounds of supramolecule devices , such as molecule switch and molecule motor .

随着分子开关的研究与开发，分子计算机不久的将来也将问世。

With the development of research and exploit of molecular switches , molecular computers will become reality in the near future .

他们的研究显示这种蛋白接着能打开分子开关，允许癌细胞侵犯到周围的组织。

Their research suggests that this protein then turns on molecular switches that allow the cancer cells to invade surrounding tissues .