Transposase-induced excision and circularization of the bacterial insertion sequence IS911.

We have investigated the role of three IS911-specified proteins in transposition in vivo: the products of the upstream (OrfA) and downstream (OrfB) open reading frames, and a transframe protein (OrfAB) produced by -1 translational frameshifting between orfA and orfB. The production of OrfAB alone is shown to lead both to excision and to circularization of the element and to be sufficient for intermolecular transposition into a plasmid target. Simultaneous and independent production of OrfA is shown to stimulate OrfAB-mediated intermolecular transposition while greatly reducing the appearance of transposon circles. We have not been able to detect a role for OrfB. Although under certain conditions, the vector plasmid undergoes precise resealing after IS911 excision, the data suggest that this is not normally the case and that the donor plasmid is not generally conserved. The use of IS911 derivatives carrying mutations in the terminal 2 bp suggested that circle formation represents a site-specific intramolecular transposition event. We present a model which explains both intra- and intermolecular transposition events in terms of a single reaction mechanism of the 'cut and paste' type.