ABSTRACT
Low ionizability and poor chemical instability make some target analytes not suitable for direct LC-MS/MS analysis. To improve the detection performance, chemical derivation is frequently imported. However, such technology involves multiple disciplines such as laboratory medicine, organic chemistry and separation science. At present, it′s still a challenge for general application of chemical derivatization in routine clinical laboratories in our country. This article summarizes the key scientific connotation of chemical derivatization in the detection of vitamins, steroids, neurotransmitters and therapeutic drugs, and describes the derivatization approaches for development of chemical mass spectrometry in the future.
ABSTRACT
Monosaccharides are one of the most important structural components of biomolecules, such as polysaccharides, nucleic acids, glycolipids and glycoproteins. In structural analysis of polysaccharides and glycoconjugates, the absolute configurations (D or L) of the constituent monosaccharides are usually determined by measurement of the optical rotation, CD spectra or characteristic chromatographic retention behavior. However, each method has its unique advantages and limitations which should be considered while using them. In this review, an overview of the different methods for the determination of absolute configuration of monosaccharides and their underlying principles are summarized to serve as a reference for researchers.