Structure and fragmentation mechanisms of isomeric T-rich oligodeoxynucleotides: A comparison of four tandem mass spectrometric methods

Abstract

Understanding the product-ion spectra of T-rich tetradeoxynucleotides is a starting point in the development of a mass spectrometric scheme to determine the mutagenicity of individual types of DNA damage. We obtained product-ion spectra for electrospray-produced ions that were activated in the ion source (electrospray ionization-source collision-activated-dissociation) and by high-energy collisions in the MS/MS mode of a four-sector instrument. We also activated singly and doubly charged ions by low-energy collisions in an ion-trap mass spectrometer and investigated post source decompositions of matrix-assisted laser desorbed ions in a time-of-flight mass spectrometer. The various methods of extracting structural information give remarkably consistent results. The difference in the relative abundances of w _n and d _n ions of the singly charged oligonucleotides and the formation of [a₃ − B₃] ions, where B₃ is the base on the third position, are effective for identification and distinction of pairs of isomeric tetranucleotides. A sufficient number of tetramers and pentamers were studied to enable us to propose a charge-remote mechanism for the formation of site-specific [a _n − B _n ] ion.