The P1 restriction endonuclease (EcoP1) prepared from a P1 lysogen of Escherichia coli makes one double-strand break in simian virus (SV40) DNA. In the presence of cofactors S-adenosylmethionine and ATP the enzyme cleaves 70% of the closed circular SV40 DNA molecules once to produce unit-length linear molecules and renders the remaining 30% resistant to further cleavage. No molecules were found by electron microscopy or by gel electrophoresis that were cleaved more than once. It would appear that the double-strand break is made by two nearly simultaneous single-strand breaks, since no circular DNA molecules containing one single-strand break were found as intermediates during the cleavage reaction. The EcoP1 endonuclease-cleaved linear SV40 DNA molecules are not cleaved at a unique site, as shown by the generation of about 65% circular molecules after denaturation and renaturation. These EcoP1 endonuclease-cleaved, renatured circular molecules are resistant to further cleavage by EcoP1 endonuclease.The EcoP1 endonuclease cleavage sites on SV40 DNA were mapped relative to the partial denaturation map and to the EcoRI and HpaII restriction endonuclease cleavage sites. These maps suggest there are a minimum of four unique but widely spaced cleavage sites at 0.09, 0.19, 0.52, and 0.66 SV40 units relative to the EcoRI site. The frequency of cleavage at any particular site differs from that at another site. If S-adenosylmethionine is omitted from the enzyme reaction mix, SV40 DNA is cleaved into several fragments.An average of 4.6 ± 1 methyl groups are transferred to SV40 DNA from S-adenosylmethionine during the course of a normal reaction containing the cofactors. Under conditions which optimize this methylation, 7 ± 1 methyl groups can be transferred to DNA. This methylation protects most of the molecules from further cleavage. The methyl groups were mapped relative to the Hemophilus influenzae restriction endonuclease fragments. The A fragment receives three to four methyl groups and the B and G fragments each receive one to two methyl groups. These fragments correspond to those in which cleavage sites are located.
Read full abstract