Structural features of λ site-specific recombination at a secondary att site in galT

Abstract

Integration of bacteriophage λ DNA into the chromosome of its E. coli host proceeds via a site-specific recombination between specific loci ( att sites) on the phage and bacterial chromosomes. Infection of an E. coli host deleted for the primary bacterial att site results in λ integration with reduced efficiency at a number of different “secondary att sites” scattered around the E. coli chromosome. The first DNA sequence analysis of such a secondary att site, that occurring in the galT gene, is reported here, and several features pertinent to the mechanism of int-dependent site-specific recombination are discussed. Previous studies have shown that the crossover in int-dependent recombination must be somewhere within a 15 bp sequence (core region) common to the phage and primary bacterial att sites, as well as to the left and right prophage att sites which are at the junctures between prophage and host DNA. Comparison of the galT secondary prophage att sites with the primary prophage att sites allows determination of the analogous “core” region in the galT secondary att site. The 15 bp sequence thus identified shows an interrupted homology (8 out of 15) with the wild-type core. The extent and arrangement of nonhomologous bases allow precise placement of the crossover point for this recombination to the +4–+5 internucleotide bond of the core region. Sequences flanking the core region show no obvious homology with analogous sequences of the phage or primary bacterial att sites. Comparison of the galT left prophage att site with the analogous wild-type site is of particular interest and is discussed in relation to binding studies with purified int protein.