1) Enzyme Labelled Fluoresce
酶荧光标记
2) fluorescence labeling
荧光标记
1.
The fluorescence emitted from low generation PAMAM dendrimer and its application in fluorescence labeling;
二代PAMAM树型高分子的荧光现象及其荧光标记应用
2.
Comparison between fluorescence labeling and silver-staining techniques of AFLP;
AFLP荧光标记和银染技术的比较分析
3.
Spectral properties of quantum dots and its applications in fluorescence labeling;
量子点特性及荧光标记应用
3) Fluorescent labeling
荧光标记
1.
Application of fluorescent labeling in drug research;
荧光标记在药物研究中的应用
2.
Three fluorescent labeling methods based on PCR: a comparative evaluation;
3种基于PCR的荧光标记方法的比较研究
3.
In this paper, the tunable optical characteristics, preparation for quantum dots, the value of core/shell structure, the advantages of quantum dots as fluorescent labeling, quantum dots biolabeling techniques and their application in life science were reviewed, and the future prospects was envisioned.
从量子点的光学特征、制备、核/壳结构的意义、量子点荧光标记物的优越性、量子点标记生物分子后在单个细胞及临床组织样品检测中的应用等方面综述了量子点在生命科学领域的研究进展。
4) fluorescence label
荧光标记
1.
Application of fluorescence label mRNA differential display technique to isolation of human esophageal cancer associated gene cDNA fragments;
荧光标记mRNA差异显示技术在分离食管癌相关基因片段中的应用
2.
Fluorescence label is a convenient method.
生物分子的荧光标记是继同位素标记后出现的快速方便的生物分子分析手段。
5) Fluorescent label
荧光标记
1.
Dansyl monomer N_[2_[[[5_(N,N_dimethylamino)_1_naphthalenyl]sulfonyl]amino]ethyl]_2_propenamide (DANSAEP) and pyrenyl monomer N_(1_pyrenylmethyl)methacrylamide (PyMA) were prepared as fluorescent labels.
90的两个系列的荧光标记强聚电解质 。
2.
Lysozyme (Lys) was labelled by the CdSe nanocrystals to investigate the application of CdSe nanocrystals as a fluorescent label which can be connected to the biologic molecule easily by the L-Cys over around the nanocrystals.
利用氨基酸中惟一带有巯基的L-半胱氨酸盐酸盐(L-Cys)作为稳定剂在水相体系中合成CdSe纳米晶,通过表面包覆的L-Cys与生物试剂溶菌酶进行结合,实现CdSe纳米晶对溶菌酶的荧光标记。
3.
As the development of biology,discovery of new material and application of new fluorescent label,great progress has been made in the field of pollen tubes growth characteristics in recent years.
花粉(管)构造及花粉管生长特性长期以来一直是人们研究的焦点,近年来,随着生物学和新材料不断发展,新荧光标记技术的运用,植物花粉管生长特性的研究取得巨大进步。
补充资料:酒化酶、醇酶、发酵酶
分子式:
CAS号:
性质:又称酒化酶、醇酶、发酵酶。从酵母中分离而得的一系列酶。不耐热。它能催化酒精发酵反应,与糖酵解有关,如磷酸化酶、醛缩酶、葡萄糖磷酸变位酶、葡萄糖6-磷酸酶等。
CAS号:
性质:又称酒化酶、醇酶、发酵酶。从酵母中分离而得的一系列酶。不耐热。它能催化酒精发酵反应,与糖酵解有关,如磷酸化酶、醛缩酶、葡萄糖磷酸变位酶、葡萄糖6-磷酸酶等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条