Conotoxin mass spectrum

We have implemented scanning methodologies using MALDI-TOF mass spectrometry to partially purified venom from C. striatus and C. ermineus. We have carried out specific derivatizations in order to deduce composition and sequence information. Together with an intact mass these measurements are used to determine whether an ionized species observed in the MALDI mass spectrum corresponds with the intact protonated molecule of a previously characterized conotoxin. The information obtained from derivatizations is also important when the ionized species does not correspond with the intact mass of peptides of known sequence. In that case, post source decay of the native and derivatized species may help assign the fragment ions. 

The increased mass accuracy available when the instrument was operated in the reflectron mode was important for the analysis carried out. For example, fractions 4b and 7 or fractions 5 and 8 from C. ermineus appeared to be the same species when measured with the instrument operated in the linear mode. Only in the reflectron mode were we able to reliably distinguish the masses of each species. The high sensitivity of MALDI-TOF is particularly important for the analysis of native peptides such as conotoxins where often the venom of many milkings must be collected to obtain sufficient material for sequence analysis. The increased sensitivity of MALDI over LSIMS is illustrated in the analysis of fraction 5 from C. striatus venom (see Table I). Despite the two orders of magnitude difference in the amount of material consumed in the LSI experiment we did not discern any intact species in fraction 5, whereas the MALDI measurement yielded useful information. However, the comparisons in Tables I and II reveal that some components may be detected by LSIMS but not observed in the MALDI mass spectrum (measured with any of the matrices or sample preparation methods). The contrary is most likely more prevalent, i.e. that a large number of the species detected by MALDI with one or more of the matrices are difficult species to ionize with LSIMS. 

Figure 1. ESI-mass spectrum of co-conotoxins GVIA (A, acquired spectrum B, deconvoluted spectrum).

Figure 7. Deconvoluted ESI-mass spectrum of a mixture of conotoxins.

Figure 11. MALDI-mass spectrum of conotoxin mixture (a-cyano-54-hydroxycinnamic acid matrix).

---