Abstract
Abstract The combined effect of bisulfite and a nitrogen nucleophile, i.e. semicarbazide, methoxyamine or hydroxylamine, to chemically modify cytosine and to cause mutation and inactivation of bacteriophage lambda was investigated. A rapid transamination of cytidine with each of the amines took place in the presence of bisulfite, and the reaction product was solely the N (4)-transaminated 5,6-dihydrocytidine-6-sulfonate. Modifications of cytidine with bisulfite alone and with the nitrogen nucleophile alone were much slower reactions than those using a combination of bisulfite and the nucleophile. Whereas the product of the modification with the bisulfite/semicarbazide, 5,6-dihydro-4-semicarbazido-2-ketopyrimidine ribofuranoside-6-sulfonate, is convertible to 4-semicarbazido-2-ketopyrimidine ribofuranoside by treatment with a phosphate buffer, the products of the modification with the bisulfite/methoxyamine and with the bisulfite/hydroxylamine, i.e. 4-methoxy-5,6-dihydrocytidine-6-sulfonate and 4-hydroxy-5,6-dihydrocytidine-6-sulfonate, were stable in phosphate buffer. Inactivation and the “clear” mutation of bacteriophage lambda were observed when the phage was treated with sodium bisulfite in the presence of semicarbazide, methoxyamine or hydroxylamine. Under the conditions used, only very small increases in the mutation frequency were obtained by treatment of the phage with bisulfite alone or with the base alone. It was concluded that the residues, 5,6-dihydro-4-semicarbazido-2-ketopyrimidine-6-sulfonate, 4-methoxy-5, 6-dihydrocytosine-6-sulfonate and 4-hydroxy-5,6-dihydrocytosine-6-sulfonate in DNA are the causes of the mutation. When phage that had been inactivated by the semicarbazide/bisulfite reagent was subsequently treated with a phosphate buffer, a reactivation took place. The rate of the reactivation increased as the concentration of phosphate in the buffer increased. This reactivation was not accompanied by change in the mutation frequency. No reactivation was observed after a similar incubation when the prior inactivation had been induced by either methoxyamine/bisulfite or hydroxylamine/bisulfite. These results indicate that the 4-semicarbazido-2-ketopyrimidine residue is also mutagenic but is less lethal than the corresponding 5,6-dihydro-6-sulfonate structure. These results offer the first clear example of the co-operative mutagenic action of two different reagents.
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