Abstract

Experiments were performed to determine whether EcoRI methylase catalyzes the transfer of the methyl group of S-adenosylmethionine (a) directly to the N6 of adenine in DNA or (b) initially to N1 to give N1-methyladenine followed by isomerization of the N1-methylamino and 6-NH2 to give N6-methyladenine (Dimroth rearrangement). A facile synthesis of highly enriched [6-15N]deoxyadenosine and a dodecamer substrate of EcoRI methylase with [6-15N]adenine in the methylation site are reported. In the product of EcoRI enzymatic methylation, all of the isotope remains at the N6 position of the N6-methyladenine product. It is concluded that, contrary to existing chemical precedent, the methylation occurs by direct transfer from S-adenosylmethionine to the N6 of adenine in DNA.