Construction and uses of a new transposable element whose insertion is able to produce gene fusions with the neomycin-phosphotransferase-coding region of Tn903.

We describe the construction of a transposable element derived from the Mu phage that upon insertion is able to create a gene fusion between the region of Tn903 coding for neomycin phosphotransferase (NPT I), which confers resistance to aminoglycosides including kanamycin (KmR), neomycin and G418, and the control elements of the gene where the insertion occurs. A chloramphenicol (Cm) transacetylase gene (cat) that confers resistance to Cm is present in the transposon so that transposition events can be monitored even when no active fusions with the nptI coding region occur. The transposase gene is deleted and, therefore, this transposon is perfectly stable upon insertion. The properties of this new transposable element were studied by obtaining gene fusions between the Escherichia coli L-arabinose operon and 'nptI gene. In some of them the KmR phenotype is induced by arabinose. Insertions of this element in cloned fragments of the T-DNA region of Agrobacterium rhizogenes were also isolated. Some of them confer a KmR phenotype upon its E. coli carriers, which indicates that portions of the T-DNA are expressed in these cells.