手性识别是分子识别的一个重要组成部分。
Chiral recognition is an important part of molecular recognition.
通过分子识别,使其具有预期的结构和功能。
Through molecular recognition, it will have the expected structure and function.
人工分子识别是生物有机化学前沿领域之一。
The study on molecular recognition of artificial receptors is one the frontiers in Bioorganic Chemistry.
分子识别的研究具有重要的生物学和药理学意义。
Molecular recognition is of central importance in biology and pharmacology.
综述了杯芳烃类人工受体的分子识别作用的研究进展。
This review deals with the recent progress in the studies of molecular recognition of functionalized calixarenes as synthetic receptors.
煤分子间相互作用和分子识别是煤超分子化学的关键所在。
The intermolecular interactions a nd molecular recognition of coal are key components of coal supramolecular chemistry.
对蛋白质阵列的两大功能—分子识别和酶活测定进行了阐述。
The two functions of arrays of immobilized proteins:molecular recognition and enzymatic activity are reviewed.
分子识别引导着所有生理过程中大分子间的选择性相互作用。
Molecular recognition leads the selective interaction between biomoleculars in all physiological process.
人工分子识别研究是生物有机化学前沿富有挑战性的领域之一。
The study on molecular recognition of artificial receptors is one of the frontiers in bioorganic chemistry.
利用荧光标记物进行分子识别是目前生命科学研究的热点课题。
Molecular recognition with fluorescent label probe has been hot topic in the field of life science.
他们已被研究在电化学、光物理学、分子识别与封装以及催化上。
They have been studied in electrochemical, optical physics, molecular recognition and catalysis and packaging.
其在分子识别、超分子催化以及分子组装等领域得到了广泛的研究。
Studies in the field of their molecular recognition, supramolecular catalysis and molecular assembly have been widely carried out.
分子烙印技术是制备具有选择性分子识别能力的聚合物的新兴技术。
Molecular imprinting is an emerging technique for the preparation of polymers possessing highly selective recognition properties.
综述了近年来这种新的非生物二级结构形式在分子识别研究中的应用。
This paper reviews the recent applications of this new class of non-biological secondary structures in molecular recognition.
分子烙印技术是一种制备具有特定选择性和亲合性的分子识别材料的技术。
Molecular imprinting technique is a polymerizing technique to produce molecular recognition materials with high selectivity and affinity.
以分子识别为基础的主-客体化学作为新兴交叉学科,已成为当今研究的热点。
As a novel cross subject, host-guest chemistry based on molecular recognition has been a hot spot of current study.
基于非共价相互作用的分子识别和自组装是超分子化学研究的两个重要的领域。
Molecular recognition and molecular self-assembly through the non-covalent bond is the two important parts of supramolecular chemistry.
综述了近几年杯吡咯新型大环化合物在功能化修饰和分子识别等方面的研究进展。
The recent progress in the research on functionalization and molecular recognition of calixpyrroles is reviewed.
分子识别必须借助相应的技术手段才能感知伴随分子事件发生所产生的物理信号。
The molecular events that occurred in the molecular recognition must perceive physical signals, which could be detected by means of the corresponding technical means.
着重介绍了分子识别、分子自组装、超分子催化、超分子器件及超分子材料等概念。
Emphasis has been given to the concepts of molecular recognition, molecular self-assembly, molecular devices, supramolecular materials and supramolecular catalysis.
将杯芳烃掺杂或键合于高分子材料中,可得到各种具有分子识别功能的高分子材料。
Functional materials with molecular recognition ability can be obtained by blending or bonding calixarenes into the polymer materials.
蛋白质分子识别的结构基础是蛋白质的三维结构或折叠,其信息存在于氨基酸序列中。
The structural basis of molecular recognition in proteins is the specific three dimensional structure or folding of the proteins, the information for which is contained in the sequence.
文中还介绍了一门新兴分离技术即分子印迹技术,它在分子识别中有着特殊的选择性。
This paper also introduces a novel separation technology named molecular imprinting technology which has a specific selectivity.
基于分子识别的分离技术,因其对目标分子具有较高的吸附选择性而在许多领域倍受关注。
Molecular recognition-based separation techniques have received much attention in various fields because of their high selectivity for target molecules.
细胞中的其他分子识别出RNA上的颜色,同时,利用这一信息生成被称为蛋白质的其他分子。
Other molecules inside a cell read the colors on the RNA and use that information to build other molecules called proteins.
分子识别的目标是研究分子间专一性地相互作用,这在化学及生命过程中起着非常重要的作用。
The goal of molecular recognition studies is to understand how two molecules interact in a specific manner. It plays important roles in chemical and life processes.
在人工双层膜囊泡表面,构建了一个通过人工受体的分子识别行为控制酶反应活性的超分子体系。
Functionalized lipid bilayer vesicles on which molecular recognition by an artificial receptor synchronized with catalytic reaction by an enzyme were prepared in aqueous media.
该类配合物在分子识别、核酸探针、抗肿瘤药物、分子催化及自组装等领域都有广泛的应用前景。
The use foreground of these compounds will be extensive in the field of molecular discernment, nucleic acid probe, anti-tumour medicine, molecular catalysis and self-assemble etc.
该类配合物在分子识别、核酸探针、抗肿瘤药物、分子催化及自组装等领域都有广泛的应用前景。
The use foreground of these compounds will be extensive in the field of molecular discernment, nucleic acid probe, anti-tumour medicine, molecular catalysis and self-assemble etc.
应用推荐