Specificity determinants for bacteriophage lambda DNA replication: I. A chain of interactions that controls the initiation of replication

The genetic elements which control autonomous DNA replication differ in functional specificity among coliphage λ, the coliphages φ80 and 82, and the Salmonella phage P22. Hybrid phages derived by genetic recombination between λ and each of these related phages have been used to define and to localize specificity determinants for DNA replication. In λ-P22 hybrid phages (Hilliker & Botstein, 1976) the replication control elements segregate as an intact unit. By contrast, some viable λ-φ80 and λ.82 hybrid phages arise by recombination within the replication control region, in a small interval inside structural gene O. From the properties of such hybrid phages, we infer that the O gene product of λ and the functionally equivalent proteins of φ80 and 82 each interact with a specific nucleotide sequence in the cognate ori site, the DNA target for control of the origin of replication. With respect to this interaction, both the O products and the receptor sequences within ori show stringent type specificity. The donor and receptor specificity determinants for the ori-O interaction lie within an interval of less than 400 base-pairs. The O gene product also interacts with the product of replication gene P (Tomizawa, 1971). The O-P interaction displays limited type specificity; the P-like protein of φ80 can function together with the O protein of λ, but the P protein of λ cannot function with the O-like protein of φ80. The specificity determinants for the O-P interaction can be separated from those for the ori-O interaction. We propose that a chain of interactions between ori, O product, P product, and replication functions of the bacterial host, Escherichia coli, controls specific template selection and the assembly of the essential replication apparatus in the initiation of λ DNA replication.