IS911 transposon circles give rise to linear forms that can undergo integration in vitro - PubMed (original) (raw)

IS911 transposon circles give rise to linear forms that can undergo integration in vitro

B Ton-Hoang et al. Mol Microbiol. 1999 May.

Free article

Abstract

High levels of expression of the transposase OrfAB of bacterial insertion sequence IS911 leads to the formation of excised transposon circles, in which the two abutted ends are separated by 3 bp. Initially, OrfAB catalyses only single-strand cleavage at one 3' transposon end and strand transfer of that end to the other. It is believed that this molecule, in which both transposon ends are held together in a single-strand bridge, is then converted to the circular form by the action of host factors. The transposon circles can be integrated efficiently into an appropriate target in vivo and in vitro in the presence of OrfAB and a second IS911 protein OrfA. In the results reported here, we have identified linear transposon forms in vivo from a transposon present in a plasmid, raising the possibility that IS911 can also transpose using a cut-and-paste mechanism. However, the linear species appeared not to be derived directly from the plasmid-based copy by direct double-strand cleavages at both ends, but from preformed excised transposon circles. This was confirmed further by the observation that OrfAB can cleave a cloned circle junction both in vivo and in vitro by two single-strand cleavages at the 3' transposon ends to generate a linear transposon form with a 3'-OH and a three-nucleotide 5' overhang at the ends. Moreover, while significantly less efficient than the transposon circle, a precleaved linear transposon underwent detectable levels of integration in vitro. The possible role of such molecules in the IS911 transposition pathway is discussed.

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