Tseng K, Hedrick J L, Lebrilla C B
Department of Chemistry, University of California, Davis 95616, USA.
Anal Chem. 1999 Sep 1;71(17):3747-54. doi: 10.1021/ac990095r.
We obtained the nearly complete structural elucidation of oligosaccharide components, including sequence, linkage, and even stereochemistry in the picomolar levels. The "catalog-library" approach is used for elucidating the structures of minor components in a mixture of oligosaccharides. Oligosaccharides released from a family of glycoproteins are often composed of a small finite set of monosaccharides. In this regard, the numerous oligosaccharide species are analogous to the products found in syntheses involving combinatorial libraries. The great structural diversity in the library is the result of the nearly infinite combinations in which even a small number of monosaccharides can be arranged. Fortunately, structural similarities exist between different oligosaccharides, as specific substructural motifs are preserved among different compounds. We propose that a catalog of substructural motifs can be identified and characterized by collision-induced dissociation mass spectrometry. The catalog is constructed from a set of known compounds that have been fully structurally elucidated by, for example, nuclear magnetic resonance. The catalog consists of the characteristic fragmentation patterns belonging to a set of specific substructural motifs. Collision-induced dissociation is used to determine the presence of these motifs and reconstruct the structures of less abundant components.
我们获得了寡糖成分近乎完整的结构解析,包括序列、连接方式,甚至在皮摩尔水平上的立体化学。“目录库”方法用于解析寡糖混合物中次要成分的结构。从一族糖蛋白释放出的寡糖通常由一小部分有限的单糖组成。在这方面,众多的寡糖种类类似于涉及组合库的合成中发现的产物。库中巨大的结构多样性是少数单糖可以排列的近乎无限组合的结果。幸运的是,不同寡糖之间存在结构相似性,因为特定的亚结构基序在不同化合物中得以保留。我们提出,可以通过碰撞诱导解离质谱法识别和表征亚结构基序目录。该目录由一组已通过例如核磁共振完全解析其结构的已知化合物构建而成。该目录由属于一组特定亚结构基序的特征性碎片模式组成。碰撞诱导解离用于确定这些基序的存在并重建含量较低成分的结构。