Second-element turn-on of gene expression in an IS1 insertion mutant

Abstract

Summary To learn more about the ways in which genes silenced by insertion mutations can be reactivated, we have undertaken a systematic investigation of Gal⁺ revertants of the polar mutant galOP-306::IS1 in Escherichia coli K12. The selective conditions used excluded reversion to wild type by precise excision of IS1. In this system (which resisded on a multi-copy plasmid) reversion to the Gal⁺ phenotype occurred with a frequency of about 10^-7 per cell and per generation. Analysis of the revertants revealed that — with the single exception of the previously published chromosomal mutant sis1 — alterations in the structure of IS1 lead to reactivation of gal operon expression. These events fall into four classes: (I) insertion of IS2 at position 327 in IS1, insertion of IS2 at position 687 in IS1, (III) insertion of a hitherto undetected mobile element, IS150, at position 387, (IV) a 16-bp deletion encompassing IS1 coordinates 553–568. Of some 200 independent reversion events studied, all but one were of types I–III i.e. they involved the intervention of a second mobile element.