Low energy fragmentation of protonated glycine. An ab initio theoretical study

An ab initio study of the low-lying states of protonated Sis was carried out at the HF/6-31G\*\* level. Five states were studied: 'A, ( I), 'A, (2), 'C+, 'A' and 'B,. 'A,(2) and 'Z+ were found to he transition states at the Hanree-Foek level. 'A' and 'B2 are the two possible candidates for the groun

The mechanism of the formation of a2+ ions from b2+ ions occurring during fragmentation of protonated peptides is investigated using quantum chemical methods. The geometries of the stationary structures involved in two possible mechanisms, namely, a two-step mechanism via an open-chain acylium ion a

Systematic ab initio calculations were performed to reveal the mechanism of formation of stable b 2 ions formed during fragmentation of protonated peptides and proteins. Stable oxazolone-type cyclic b 2 ions are formed from parent ions containing the -C(O)-N-C-C(O)-unit in a two-step process. In the

The total atomization energy and proton affinity of NH3 have been subjected to an extensive convergence study involving basis sets of up to spdfgh quality. Our best extrapolated ~ Do = 276.5 kcal/mol lies only 0.2 kcal/mol below the experimental value. Our recommended value for PA298, 203.9-t-0.3 kc