Abstract
Synthetic single-stranded oligodeoxynucleotides of known sequence have been used as in vitro substrates for a partially purified HeLa cell DNA methylase. Although most oligonucleotides tested cannot be used by the HeLa DNA methylase in vitro, we have found a unique 27mer, containing 2 C-G pairs, that is an excellent substrate for the enzyme. Analysis of the methylation of the 27mer, its derivatives and other oligomer substrates reveal that the HeLa DNA methylase does not significantly methylate an oligomer which contains just one C-G pair. In addition, only one of the two C-G pairs in the 27mer is methylated and this methylation is abolished if the other C-G pair is converted to a C-A pair. Furthermore, the HeLa enzyme apparently cannot methylate C-G pairs located in compounds containing a high A + T content. The most efficient methylation occurs with multiple separated C-G pairs in a compound with a high G + C content (greater than 65%). The results suggest that clustering of C-G pairs in regions of the DNA high in G + C content may be the preferred site for DNA methylation in vivo.