Summary
The excision of prophage P2 is controlled by two genes, int and cox. (The cox gene discussed in this report is defined by the cox class II mutants, defined by Six and Lindqvist, 1978). The combined activity of these two genes is rather inefficient, however, since only about 1% of the lysogens carrying an int + cox + prophage actually produce phage when derepressed. The efficiency of phage production (and presumably excision) can be increased 100-fold by an additional mutation called nip1 (Calendar et al., 1972), which is dominant and is located in or near the int gene.
The nip1 mutation was mapped between c5, a mutation in the C gene, and an amber int mutation, int150. Phages carrying nip1 and either int150 or a cox mutation, cox3, were prepared by recombination. The nip1 mutation was found to increase excision only when it was located on the same chromosome as an active int + gene and only if cox + gene product was also available. The cox gene, known to be located between genes B and C (Lindahl and Sunshine, 1972), was further localized to a region between 77.2 to 78.1% from the conventional left end of the P2 chromosome by comparing the ability of phages with overlapping deletions to promote excision of the prophage in a P2 nip1 c5 cox3 lysogen.
Other features of the integration-excision system in P2 are discussed.
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Bertani, L.E. Genetic interaction between the nip1 mutation and genes affecting integration and excision in phage P2. Molec. Gen. Genet. 178, 91–99 (1980). https://doi.org/10.1007/BF00267217
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DOI: https://doi.org/10.1007/BF00267217