Halophage HF2: genome organization and replication strategy

Abstract

Halophage HF2 is a lytic, broad-host-range bacteriophage of the extremely halophilic domain Archaea. It has a 79.7-kb double-stranded DNA genome which is linear, contains no modified nucleotides, and is not susceptible to cleavage by many type II restriction endonucleases. This insensitivity is attributed to selection against palindromic restriction sites, a commonly observed feature of broad-host-range phages. Interestingly, enzymes that did cut the genome recognized AT-rich sites, and five such enzymes, DraI, AseI, HpaI, HindIII, and SspI, were used to construct a physical map of the genome. Southern hybridization experiments used to order fragments on the map indicated homologies between the phage termini, and subsequent sequence analysis showed that HF2 possessed 306-bp direct terminal repeats. The presence of such repeats suggested replication through concatameric intermediates, and this was confirmed by analysis of the state of the phage genome in infected cells. This is a replication strategy adopted by many well-studied bacterial phages, for example T3 and T7. Other similarities between the terminal repeats of T3 or T7 and HF2 include a putative nick site at the repeat border and a series of short imperfect repeats. These observations suggest a long evolutionary history for concatamer-based strategies of phage replication, possibly predating the divergence of Archaea/Eucarya and Bacteria, or alternatively, indicate possible lateral transfer of phage genes or modules between the domains Archaea and Bacteria.