Fast atom bombardment combined with tandem mass spectrometry for the study of dinucleotides.

A study of mono- and dinucleotides by utilizing negative ion fast atom bombardment (FAB), metastable decomposition of (M-H)- species, and collisionally activated decomposition (CAD) of (M-H)- species is reported. Data were obtained for several complete series containing the standard nucleosides (guanosine, adenosine, cytidine, thymidine, and uridine): the 3'- and 5'-monophosphate mononucleotide series for both ribo- and 2'-deoxyribomononucleotides, all possible combinations for the 3'(-)----5'-ribodinucleotides, and all possible combinations of the 3'(-)----5',2'-deoxyribodinucleotides. The metastable and CAD spectra provide more information than the FAB mass spectra. The (M-H)- ions of all dinucleotides decompose either as metastable ions or upon collisional activation to eliminate BH (B = base) preferentially from the 3'- rather than the 5'-terminus. Isomeric dinucleotides can be distinguished on the basis of this fragmentation. To establish the identity of the base at the 5'-terminus, collisional activation is preferred. By comparing relative abundances of BH elimination observed, the inherent basicities of the nucleoside base anions can be inferred to be C- greater than A-, T-, greater than G-.