Effect of food restriction of benzo(a)pyrene binding to DNA in wistar rats

## Abstract Individual metabolites of benzo (a)pyrene were isolated from rat liver microsomal incubation of the parent hydrocarbon, and subsequently bound to DNA in separate incubations with microsomes. Of the metabolites examined, by far the greatest binding resulted with 7,8‐dihydro‐7,8‐dihydroxy

## Abstract A study of the liver microsome‐mediated binding to added DNA of the phenol metabolites of benzo (a)‐pyrene (BP‐OH) and of 7,8‐dihydro‐7,8‐dihydroxybenzo (a)pyrene (BP‐7,8‐diol) suggested that as in the case of BP itself the reaction was catalysed by the enzyme aryl hydrocarbon hydroxyla

## Abstract Chemical conversion of generally tritiated benzo (a) pyrene to 6 and 1,6‐substituted derivatives resulted in 30% and 48% loss of tritium respectively. Metabolism of [^3^H], [^14^C]‐benzo (a) pyrene by rat liver microsomes yielded 3‐hydroxybenzo (a) pyrene with 30% loss of tritium, a mix

## Abstract An examination has been made of the binding, both __in vitro__ and __in vivo__ of the benzo(__a__)pyrene (BP) adduct to DNA components of differing sequence complexity. Annealing was performed at low renaturation temperatures in the presence of high concentrations of formamide to minimi

The primary mode of non-covalent interaction of the strong carcinogen, benzo(a)pyrene diol epoxide, with DNA is through intercalation. It has variously been suggested that intercalative complexes may be prerequisite for either covalent binding or DNA-catalysed hydrolysis of the epoxide or both. Geac

3-hydroxy-benzo(a)pyrene (3-OH-B(a)P) and mutagenic activity in rat urine were determined after the oral administration of benzo(a)pyrene given in three repeated doses of 10, 20 and 50 pmol kg-'. The procedure for the determination of 3-OH-B(a)P consisted of enzymic hydrolysis, separation and HPLC-a