Linkage position determination of lithium-cationized disaccharides by surface-induced dissociation tandem mass spectrometry

A set of neutral permethylated trisaccharides identical in the non-reducing (A + B) disaccharide and linkage isomeric in the reducing terminal (B + C) disaccharide has been synthesized. Collision-activated tandem mass spectrometry was used for analysis of the B + C linkage position. The trisaccharid

## Abstract Negative‐ion electrospray mass spectrometry was used to determine directly both glycosidic linkage position and anomeric configuration in the complete glucopyranosyl disaccharide series without the need for derivatization or tandem mass analysis. A series of empirical criteria were deve

Certain linkage positions in oligosaccharides can be discerned by collision-activated disociation mass spectrometry, rationalized by molecular modelling. Previous work on synthetic oligosaccharides has suggested that daughter ion patterns can distinguish among intact compounds which terminate in a-L

Nineteen organophosphorus compounds (OPCs) of the generic classes (dialkyl alkyl'-phosphonates (twelve compounds) and tri-alkyl phosphates (seven compounds) were investigated by atmospheric pressure ionization (API) tandem mass spectrometry (MS/MS). All OPCs showed consistent and comparable collisio

Cis and trans isomers of two dinuclear platinum complexes, [cis-¿Pt(NH3)2Cl¿2 mu-(NH2(CH2)nNH2)](NO3)2 (1,1/c,c) and [trans-¿Pt(NH3)2Cl¿2 mu-(NH2(CH2)nNH2)](NO3)2 (1,1/t,t), where the diamine was 1,4-butanediamine (n = 4) or 1,6-hexanediamine (n = 6), were studied using electrospray ionization surfa