Chemical carcinogens in non-enzymatic cytosine deamination: 3-isocyanatoacrylonitrile |
| |
Authors: | Rainer Glaser Hong Wu Francisca von Saint Paul |
| |
Affiliation: | (1) Department of Chemistry, University of Missouri-Columbia, Columbia, MO 65211, USA |
| |
Abstract: | Uracil has long been known as the main product of nitrosative cytosine deamination in aqueous solution. Recent mechanistic studies of cytosinediazonium ion suggest that the cation formed by its dediazoniation can ring-open to N-protonated (Z,s-cis)-3-isocyanatoacrylonitrile 7. Stereochemical preferences are discussed of the 3-isocyanatoacrylonitriles (Z,s-cis)-10, (E,s-cis)-11, (Z,s-trans)-12, and (E,s-trans)-13. The electronic structures of 7 and 10–13 have been analyzed and a rationale is provided for the thermodynamic preference for (Z,s-cis)-10. It is shown that s-cis/s-trans-interconversion occurs via C−N rotation–inversion paths with barriers below 3 kcal mol−1. The proton affinities of 3-isocyanatoacrylonitrile 10 and water are nearly identical and, thus, 3-isocyanatoacrylonitriles can and should be formed in aqueous media from 7 along with 3-aminoacrylonitriles 9. The results highlight the relevance of the chemistry of 3-isocyanatoacrylonitriles for the understanding of the chemical toxicology of nitrosation of the nucleobase cytosine. Electronic Supplementary Material Supplementary Material is available for this article at Dedicated to professor Dr. Paul von Ragué Schleyer on the occasion of his 75th birthday |
| |
Keywords: | Isocyanate Acrylonitrile Rotational barrier Inversion Ab initio Non-covalent bonding Electronic structure Chemical toxicology Carcinogenesis |
本文献已被 PubMed SpringerLink 等数据库收录! |
|