Ricerc@Sapienza

Low-energy collision induced dissociation (CID) of deprotonated L-cysteine S-sulfate, [cysS-SO3],- delivered in the gas phase by electrospray ionization, has been found to provide a means to form deprotonated L-cysteine sulfenic acid, a fleeting intermediate in biological media. The reaction mechanism underlying this process is the focus of the present contribution. At the same time other novel species are formed, which were not observed in previous experiments. To understand fragmentation pathways of [cysS-SO3]-, reactive chemical dynamics simulations coupled with a novel algorithm for automatic determination of intermediates and transition state were performed. This approach has allowed the identification of the mechanisms involved and to explain the experimental fragmentation pathways. Chemical dynamics simulations have shown that a roaming-like mechanism can be at the origin of L-cysteine sulfenic acid.