A catalogue of selected derivatization reactions to label molecules in the subnanomolar or nanomolar range for CE and micro-HPLC with LIF detection.

Pierre Riollet, François Couderc
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Abstract

Sensitivity is a major obstacle to biochemists studying complex biological mixtures. Laser-induced fluorescence (LIF) is a very sensitive method that can be used with micro-HPLC (microHPLC) or capillary electrophoresis studies and provides an effective solution to these problems. Derivatization is a very useful tool in LIF detection because it allows for the detection of many compounds and is selective, i.e., one dye will label one chemical function specifically. The major difficulty is choosing a derivatization reaction among the huge number of reactions described in the literature and making it work at a very low level of concentration. Another limitation is the use of a laser wavelength, which can excite the derivatized molecules. This article discusses selected derivatization reactions for labeling molecules in the subnanomolar or nanomolar range for CE and microHPLC. Derivatization for amines, sugars, aldehydes, carboxylic acids, thiols, diols, and nucleotides are described, and derivatization procedures are presented. In many cases, the subnanomolar and nanomolar concentration of these compounds can be detected using these chemical reactions.

选定的衍生化反应目录,用于标记亚纳摩尔或纳摩尔范围内的分子,用于CE和具有LIF检测的微高效液相色谱。
敏感性是生物化学家研究复杂生物混合物的主要障碍。激光诱导荧光(LIF)是一种非常灵敏的方法,可用于微高效液相色谱(microHPLC)或毛细管电泳研究,为解决这些问题提供了有效的方法。衍生化是一种非常有用的LIF检测工具,因为它允许检测许多化合物,并且具有选择性,即一种染料将特定地标记一种化学功能。主要的困难是在文献中描述的大量反应中选择一种衍生化反应,并使其在非常低的浓度下起作用。另一个限制是使用激光波长,它可以激发衍生分子。本文讨论了在亚纳摩尔或纳摩尔范围内标记分子的衍生化反应,用于CE和微hplc。衍生化胺,糖,醛,羧酸,硫醇,二醇和核苷酸描述,衍生化程序提出。在许多情况下,这些化合物的亚纳摩尔和纳摩尔浓度可以通过这些化学反应来检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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