The gas-phase reactions of the oxygen radical anion O.- with a number of bi
ologically active arylalkylamines of general formula (RC6H4CHR2)-C-1 (CH2)(
n)NHR3, where R-1 = H, F, NO2, OH, or OCH3, R-2 = H or OH, and R-3 = H or C
H3, have been studied by means of chemical ionization mass spectrometry, us
ing a mixture of N2O and N-2 (1:9) to generate the O.- reagent ions. The co
llision-induced dissociation spectra of the [M-H+O](-) adduct ions formed i
n the ion source of the mass spectrometer have been interpreted in terms of
the aliphatic chain length and the presence of different functional groups
in the molecule. The analysis of data indicates that the preferred site of
oxygen radical anion attachment is the benzylic carbon atom, except for th
e amines with a benzylic hydroxy group (octopamine and synephrine), where a
competition between the aromatic ring and the benzylic carbon atom, become
s evident. The fragmentation pathways observed for octopamine and synephrin
e are unique as compared with all the other amines, in which the chain leng
th also exerts an important influence on the observed decompositions. (C) 2
001 Elsevier Science B.V.