Phase variation: genetic analysis of switching mutants

Site-specific inversion of a controlling element is responsible for flagellar phase transition in Salmonella. When a 900 bp DNA sequence is in one configuration, it allows the expression of the H2 gene, a structural gene which codes for the flagellar antigen. When it is in the opposite configuration, the H2 gene is not expressed. A hybrid λ phage containing the invertible control region and the adjacent H2 gene was constructed, and expression of the H2 gene was shown to be regulated by the orientation of the inversion region. Transposon Tn5 insertion derivatives of this hybrid phage were isolated and λH2::Tn5 mutants defective for inversion (H2 switching) were selected and characterized. Two classes of switching phenotypes were observed among the mutants—those which had slightly reduced frequencies of transition from expression of the H2 gene (H2 on) to nonexpression (H2 off) (intermediate class) and those in which the frequency of transition was reduced at least three orders of magnitude (null class). Physical mapping of the Tn5 insertion sites revealed that in all mutants the insertion was located inside the inversion region. Tn5 insertion sites in the null class of mutants defined a region of DNA including approximately 500 bp which was necessary for inversion. Genetic complementation tests showed that these λH2::Tn5 mutants could invert the H2 gene control element if the 500 bp region was introduced in the trans configuration. It is concluded that a gene is located inside the inversion segment and codes for a protein which is required for the inversion event. Furthermore, the two sites at which the crossover event occurred functioned in a cis configuration and were required for inversion. The presence of a gene which is involved in controlling site-specific recombination events may be a general feature of transposon-like elements.