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  • Reaction of bromotrichloromethane derived free radicals with uracil in a model system. Structures of products formed.

Reaction of bromotrichloromethane derived free radicals with uracil in a model system. Structures of products formed.

Free radical research (1995-11-01)
G D Castro, C J Stamato, J A Castro
ABSTRACT

Free radicals generated by benzoyl peroxide-mediated catalytic decomposition of bromotrichloromethane (eg. trichloromethyl) were allowed to react under nitrogen or under air with uracil. Under nitrogen two reaction products were formed, one was identified as 5-chlorouracil and the other as a 5-bromouracil. Under air, besides the above two products other nine were also formed: 5,6-dihydrouracil; 5-hydroxyuracil; a chlorohydroxy adduct of uracil; a bromohydroxy derivative of uracil having the 5,6 bond in the saturated form; other bromohydroxy derivative of uracil having the double bond intact; 5,6-dihydroxyuracil; two dihalogenated hydroxylated uracil derivatives and one peak we were not able to descipher its structure. No single reaction product formed had carbon centered radicals (eg. trichloromethyl) added from CBrCl3 and consequently would be missed in 'in vivo' covalent binding studies where 14C haloalkane (CBrCl3 or carbon tetrachloride) were employed. If similar reaction products resulted during interaction of CBrCl3 reactive metabolites with uracil in RNAs, significant deleterious effects in their function would be expected. That possibility, however, remains to be established.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Bromotrichloromethane, 99%