A Novel and Intuitive Method of Displaying and Interacting with Mass Difference Information: Application to Oligonucleotide Drug Impurities.

A new method is presented for determining relationships between components in complex analytical systems. The method uses the mass differences between peaks in high resolution electrospray ionization (ESI) mass spectra. It relates peaks that share common mass differences. The method is based on the fundamental assumption that peaks in the spectra having the same exact mass difference are related by the same chemical moiety/substructure. Moreover, the presence (or absence/loss) of the same chemical moiety from a series of molecules may reflect similarities in the mechanisms of formation of each molecule. The determined mass differences in the spectra are used to automatically differentiate the types of components in the samples. Contour plots and summary plots of the summed total ion signal as a function of the mass difference are generated, which form powerful tools for the rapid and automated determination of the components in the samples and for comparisons with other samples. For the first time, in this work a unique profile contour plot has been developed that permits the interactive interrogation of the mass range by mass difference data matrix to obtain valuable information about components that share a common mechanism of formation, and all possible mechanisms of formation linked to a selected precursor molecule. The method can be used as an additional and complementary method to the existing analytical methods to determine relationships between components in complex chemical systems.