识别元件

研究了MIP做为传感器分子识别元件，检测有机磷毒剂及其水解产物的可能性。主要内容如下：锌指是最大的DNA结合蛋白家族，是最普遍的核酸识别元件。

MIPs were also used as molecule recognition element for sensor technology . Within the known classes of DNA binding proteins , the zinc finger is the largest family and the most common motif for nucleic acids recognition .

实验用固定化乙酰胆碱酯酶作识别元件，制备了压电生物传感器，考察了压电乙酰胆碱酯酶传感器对敌百虫的响应特性。

A piezoelectric biosensor with immobilized acetylcholinesterase as recognition element , and the response characteristics of the piezoelectric acetylcholinesterase sensor to trichlorfon are investigated .

锌指是最大的DNA结合蛋白家族，是最普遍的核酸识别元件。

Within the known classes of DNA binding proteins , the zinc finger is the largest family and the most common motif for nucleic acids recognition .

本文将DNA识别元件、适体识别元件与性能优良的纳米材料相结合，设计和研究了几种新型生物功能化探针，可用于癌细胞和靶DNA的特异性识别及检测。

Combined DNA recognition , aptamer recognition with nanoparticles ( NPs ) with excellent properties , several novel bio-functionalized DNA / nanoparticles probes were constructed for the specific recognition and detection of target DNA and cancer cell .

锌指结构：最普遍的核酸识别元件

Zinc finger : The most common motif for nucleic acids recognition

同杆并架输电线路跨线故障识别元件

Cross Country Fault Identifier for Power System Transmission Line on a Same Pole

综述了利用各种生物材料中的膜受体蛋白作为分子识别元件的受体生物传感器研究的最新进展。

The latest advances on the study of biosensors based on membrane receptors were reviewed .

制备的固定化酶可在用于农药残留快速检测的酶传感器中作为生物识别元件使用。

The prepared immobilized enzyme can be used as bio-recognition element for rapid detection of pesticide residues .

然而，近年来以适配体作为识别元件的蛋白质检测技术越来越受到人们的关注。

However , recent decades have seen the increasing interest in developing the method of detecting protein based on aptamer .

这个设计可以为长链适配子作为识别元件用于污染物检测和分子识别提高思路。

This design can provide new insights for contamination detection or molecule recognition when long-chain aptamers is required as recognition units .

随着免疫测定技术与传感技术的发展，人们开发了以固定化的抗体（抗原）为识别元件，基于特异性的免疫反应原理的免疫传感器。

Along with the advances in immunoassay and sensing techniques , the immunosensors based on specific immunoreaction and immobilized antibody ( antigen ) as recognition element were developed .

本论文结合了近年来出现的一些新的传感识别元件，利用电化学、光化学检测方法研究了对肿瘤细胞及端粒酶活性的检测。

This paper combined some novel sensing recognition elements which have emerged in recent years , used electrochemical , photochemical methods to detect tumor cells and telomerase . 1 .

建立了四价锰-甲醛-吲哚美辛化学发光体系，合成了吲哚美辛分子印迹聚合物，并将此聚合物作为分子识别元件应用到化学发光分析中，建立了测定吲哚美辛的分子印迹-化学发光分析吲哚美辛的新方法。

Using a synthesized indomethacin MIP as recognition material and soluble Mn (ⅳ) - formaldehyde-indomethacin as detection system , a new molecule imprinted-chemiluminesence method of determination of indomethacin was established .

将压电晶体作为转换元件，深入分析识别元件的固定方式，通过对聚合物与聚氯乙烯用量进行实验研究，确定了其用量比，成功地将识别元件固定到转换元件上制作了分子印迹压电传感器。

Piezoelectric crystal was chosen to be the conversion element . The molecularly imprinted piezoelectric sensor was made by using appropriate method to fix the identify component on the conversion element .

生物传感器是一种利用生物分子（如酶、抗体、核酸、微生物及细胞等）作为识别元件来对生物活性物质进行分析检测的装置。

A biosensor is a device using biological materials ( eg. enzymes , antibodies , nucleic acids , microorganisms , cells , etc ) as sensing elements for the detection of biological active molecules .

同时，提出了通过给定的定值参数自动调整动作区间的智能型功率方向继电器，提高了方向判别的可靠性，以及在弱馈侧与弱馈识别元件的配合。

Meanwhile , an intelligent power direction relay is put forward in this paper , which can adjust the motion interval automatically by inputting known line parameters . This relay enhances the reliability of direction distinguishing and the adaptability with weak feed identification elements .

光电化学生物分析是近年来新出现并迅速发展的一种分析方法，其检测原理是基于在光照下识别元件和目标分子之间的生物识别作用而产生相应电信号的改变。

Photoelectrochemical ( PEC ) bioanalysis is a newly emerged and rapidly developing analysis technique , its sensing principle depends on the fact that the electrical signal change could be brought about by the biological interactions between various recognition elements and their corresponding target analytes .

面对这个挑战的一个主要步骤就是识别调控元件，特别是识别DNA上的转录因子结合位点。

One of the most important steps is to find the regulators , especially the binding sites of the transcription factor .

利用生物软件在基因组数据库中通过识别SECIS元件检索硒蛋白基因是一种重要的方法。

It is an important method for searching the selenoprotein in genome databases by identifying the SECIS element with the bio-softwares .

绝大多数植物bHLH转录因子能够通过识别G-box元件参与诸如生长发育、营养吸收、信号转导、抗逆境胁迫等方面的应答。

In plants , the vast majority of bHLH genes involved in regulating response by identifying the cis-acting element of G-box , such as growing development , nutrient absorption , signal transduction and adversity stress .

论文对广域方向纵联保护算法的可靠性进行了研究，分析了有方向信息缺失或错误的情况下，算法正确识别故障元件的能力。

In order to summarize the reliability of the protection algorithm based on longitudinal comparison principle , the paper analysis the capacity of identify the fault component in the case of lose or false of direction information .

最后，利用模式识别方法进行元件识别与缺陷检测。

Finally components recognition and defects detection is performed .

识别转录调控元件是理解基因转录机制和表达模式的关键。

Detecting the transcriptional regulatory elements is the key of understanding the transcriptional regulatory mechanism and gene expression pattern .

针对模拟电路中一般只存在部分元件故障的情况，进一步提出只识别部分故障元件参数的多频灵敏度故障诊断方法，使该方法能适用于更大规模的电路。

In regard to a few faulty elements in an actual circuit , another method of part faulty elements evaluation in this paper just only identifies faulty elements , which make this method apply to circuits of larger scale .

它通过视觉识别系统对不同元件进行视觉识别，能高速高精度贴装微小片状元件、精细IC元件或异形元件。

It can identify different components through visual identifying system , and mount microminiaturize flat chip with high speed and high precision , and also including subtle IC and abnormity components .

实时图像识别技术在片式元件编带机中的运用

Technology to Recognize the Real-Time Image Applied in Taping Machines for Surface Mounting Components

元件角度识别是贴片机元件视觉检测的关键，其精度直接影响贴片机的贴装精度。

Component angle recognition is a sticking point of component vision detecting in a Surface Mounting Machine ( SMM ), and it takes significant effect on the mounting precision .

在区域选择的基础上，故障元件识别算法是使用故障电压比较系数来识别故障元件。

Based on the regional selection , fault identification algorithm calculate the side voltage fault component .

在分析比较国内外多种煤岩界面识别传感器的基础上，研究了以自然γ射线煤岩界面识别传感器为煤岩界面识别元件的采煤机自动调高控制系统。

Based on analyzing the current coal rock interface sensor ( CIS ) techniques , the automatic horizon control system of coal mining machine with natural gamma ray CIS was introduced .