分子识别

fēn zǐ shí bié
  • molecular recognition
分子识别分子识别
  1. 新的手性铂络合物与DNA两种不同结合方式中的分子识别

    Molecular recognition of two binding modes of DNA with novel chiral Pt complexes

  2. 可用于光学材料、DNA分子识别的钌配合物研究

    Studies of Ruthenium ( II ) Complexes in Optical Materials and DNA Molecular Recognition

  3. 胶体金在DNA分子识别中的应用&胶体金对罗丹明B与单双链DNA识别作用的影响

    The Application of Colloidal Gold in DNA Recognition

  4. 手性环方铂络合物与DNA相互作用中的分子识别

    Molecular Recognition of the Interaction between DNA and Chiral Cyclic Squaric Acid Pt Complexes

  5. 环糊精对(R)、(S)-2-丁醇手性分子识别的电喷雾电离质谱研究

    Chiral Molecular Recognition of Cyclodextrins to 2-Butanol by Electrospray Ionization Mass Spectrometry

  6. DNA分子识别及传感技术

    Molecule Recognition and Transducer Technology of DNA

  7. 双酚E在分子识别作用下的光催化降解

    Photocatalytic degradation of bisphenol e based on molecular recognition

  8. 含萘直链多胺化合物的荧光pH效应及核苷磷酸盐的分子识别

    The pH Effect on the Fluorescence of Linear Poly-amino-compounds and the Recognition of Nucleoside Phosphates

  9. SPR生物传感器研究缺乏3′→5′核酸外切酶活性的DNA聚合酶对DNA的分子识别功能

    SPR Biosensor Study of The Molecular Recognition Between The DNA Polymerase Without 3 ′→ 5 ′ Exonuclease Activity With DNA

  10. 手性SalenZn配合物的合成及对咪唑类、吡啶类客体的分子识别研究

    Synthesis and Molecular Recognition of Chiral Salen Zn with Imidazoles and Pyridines

  11. SalenZn对氨基酸甲酯体系的手性分子识别研究

    Studies on Chiral Molecular Recognition of Salen Zn with Amino Acid Esters

  12. DNA作为遗传信息的载体,它不仅具有独特的形貌性质以及特异的分子识别能力,而且具有天然的纳米尺度。

    As the carrier of genetic information , DNAs are also regard as a natural nano-scale molecule duce to their unique morphology properties and specific molecular recognition ability .

  13. β-环糊精对RDX、HMX分子识别的ESIMS研究

    Molecular Recognition of β - Cyclodextrin to RDX and HMX by ESI MS

  14. 研究了手性Boc保护氨基酸修饰的锌卟啉对咪唑类客体的分子识别行为。

    The molecular recognition of imidazoles by modified zinc porphyrins was studied .

  15. 基于巨磁电阻(GMR)效应的生物分子识别器件研究

    Study on Biomolecular Recognition Device Based on Giant Magnetoresistance ( GMR ) Effect

  16. LTA分子识别机制与生物学效应的研究进展

    Advances in mechanism of LTA and its biological effect

  17. 本文综述了水溶性顺磁性MRI造影剂的研究进展,着重介绍了近年来在具有肝靶向及分子识别功能造影剂的设计与合成研究概况。

    In this thesis , the progress of water-soluble MRI contrast agents was reviewed , and the emphasis was focused on the design and synthesis of novel paramagnetic complexes with liver selectivity and molecular recognition function .

  18. 结果也表明AFM和QDs组合应用将成为细胞表面分子识别的有力工具。

    Importantly , this work demonstrated that , combined with QDs , AFM was a powerful tool to investigate the receptor-mediated transduction and the molecular recognition of cell surface molecules .

  19. 为进一步揭示其分子识别机理和作用机制,我们探讨了DTIC对DNA分子单碱基错配的识别。

    Finally , we have explored to utilize DTIC as a DNA molecular probe to sensitively detect specific DNA sequence and single-base mismatch or the single base mutations .

  20. 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 .

  21. 卟啉和金属卟啉化合物具有高的荧光量子产率、大的Stokes位移、相对长的激发和发射波长,而被广泛应用于分子识别中。

    Porphyrin and porphyrin metal compounds with high fluorescence quantum yield , large Stokes shift , the relative length of the excitation and emission wavelengths , and is widely used in molecular recognition .

  22. 抗原结合部位的多态性可使得MHC-I分子识别大量的抗原肽。

    Antigen binding site of the polymorphism of MHC-I molecules can make a large number of antigenic peptide recognition .

  23. 自组装膜(self-assembledMonolayer,SAM)是膜修饰电极发展的最高形式,对其进行研究和表征将对界面电子转移、生物电催化、分子识别与检测,以及构建生物传感器都具有开拓性的意义。

    The investigation on SAMs ( self-assembled monolayer ) is of interest and important for the researches of electron transferring process , bioelectrocatalysis , molecules recognition and detection , development of chemical sensor and so on .

  24. 但是,很多问题仍然未知,如PRV如何被信号分子识别以及具体的信号传递网络等。

    However , there are many questions remain unknown , such as how the host recognize PRV to trigger IFN-I signal pathway and how about the detailed signal transduction networks . 4 .

  25. 对基于巨磁电阻(GMR)效应的生物分子识别器件的结构和微加工,以及检测原理、检测方法进行了介绍,构建了对应于这种生物分子识别器件的信号检测和处理系统。

    The structure and microfabrication , the detecting theory and way of biomolecular recognition device based on giant magnetoresistance ( GMR ) effects were introduced , also the signal detecting and processing instrumentation was presented .

  26. 聚乳酸(PLA)是目前组织工程研究和应用最广泛的合成高分子材料之一,但是由于其具有表面亲水性差,缺乏天然分子识别位点等缺点大大的限制了其作为生物材料的应用。

    Polylactic Acid ( PLA ) is one of the synthetic polymer materials which is widely used in the research and application of tissue engineering . But because of its bad surface hydrophilicity and absence of natural molecule acting point , its application as biomaterials was limited .

  27. 目的研制具分子识别功能的导电聚合物修饰电极及其电化学性质,建立对乙酰氨基酚(ACOP)测定方法。

    AIM To study the conducting polymer modified electrode which has the molecule recognition characteristics . A novel method for the determination of acetaminophen ( ACOP ) was established using this polymer electrode .

  28. 综述了生物传感器的概念、构成和生物分子识别物质的固定方法,以及电化学石英晶体微天平(EQCM)技术及其应用。

    The concept and construction of the biosensors , mainly involving immobilization methods for biomolecules , as well as the principle and application of the electrochemical quartz crystal microbalance ( EQCM ), have been reviewed .

  29. 采用稳定性同位素δ15N标识含氮化合物和微生物,通过分子识别技术,分别对封闭系统和动态系统的氮化合物进行研究,以解决氮化合物的定量化及其相互关系问题。

    Using stable 15N isotope as the nitrogen cycle study tracer , the molecule recognition technique was employed to identify and quantify the interrelationships among the various nitrogen containing compounds and biomass in batch and A2 / O biological wastewater treatment systems .

  30. 文章利用荧光光谱滴定法,系统研究了几种天然黄酮醇类抑制剂与基质金属蛋白酶MMP-16的分子识别和作用机理。

    Several natural flavonoids have been used as the inhibitors of MMP-16 , and the fluorometric titration spectra were measured to reveal the recognition and inhibition mechanism between them .