An MNDO molecular orbital study of the reactions of protonated oxirane with guanine

Ab initio molecular orbital calculations at the MP2/6-31G\*//MP2/6-31G\* + ZPE level have been performed in order to explore the reaction between CH 3 OH 2 + and CH 3 OH. The detailed mechanism of proton transfer, CH 3 OH 2 + + CH 3 OH ® CH 3 OH + CH 3 OH 2 + , and of cationic nucleophilic substitut

## Abstract CNDO/Z, MINDO/3 and __ab initio__ molecular orbital calculations indicate that C‐protonated diazomethane is more stable than N(end)‐protonated diazomethane. Extrapolation of these results to solution chemistry as well as the kinetic references of protonation of diazomethane are discusse

Ab ioitio SCF MO ulculahons have been performed,for the reactants, products and reaction complex in the title rewtion. The infiuence of diffke and polarization basis functions in determining the presence of a reaction barrier was investigated. No barrier to the fonvard or reverse reactions was found

Calculations using the MNDO HE molecular\*rbital method predict that NHd, PH4 and H$3 are stable free radicals, and that local minima exist for H30 and H2Cl. The tendency of MNDO to overestimate the stability of such systems is traced to its neglect of overlap integrals. Results for Hz (both ground