Folded, concatenated genomes as replication intermediates of bacteriophage T7 DNA.

A complex form of bacteriophage T7 DNA, containing up to several hundred phage equivalents of DNA, arises during replication of T7. The complex was stable to treatment with ionic detergent, Pronase, and phenol. The complex form normally exists for only a short time, corresponding to the phase of rapid T7 DNA synthesis. It is then converted to shorter molecules, both concatemers and unit-size DNA. The complex was stable up to the temperature of denaturation of the bihelix. It consisted of a series of loops amanating from a dense central core, as shownby electron microscopy. The complex form is similar to the relaxed Escherichia coli folded chromosome ('nucleoid'). The loops contained an average of 0.7 to 0.8 phage equivalent of DNA. During infection by phage with an amber mutation in gene 3 (endonuclease), formation of the complex occurred normally, but its maturation to unit-size DNA blocked. Before treatment with phenol, the complex contained short fragments of newly replicated DNA. These were released as single-stranded pieces during phenol treatment. A pathway for T7 DNA replication is indicated in which the flow of material is from unit-size DNA to linear concatemers to the complex form, and then back to unit-size DNA by way of linear concatemers.