Tn916, which encodes resistance to tetracycline, is a 16.4-kilobase conjugative transposon originally identified on the chromosome of Streptococcus faecalis DS16. The transposon has been cloned in Escherichia coli on plasmid vectors, where it expresses tetracycline resistance; it can be reintroduced into S. faecalis via protoplast transformation. We have used a lambda::Tn5 bacteriophage delivery system to introduce Tn5 into numerous sites within Tn916. The Tn5 insertions had various effects on the behavior of Tn916. Some insertions eliminated conjugative transposition but not intracellular transposition, and others eliminated an excision step believed to be essential for both types of transposition. A few inserts had no effect on transposon behavior. Functions were mapped to specific regions on the transposon.
A method has been developed for the introduction of Tn5 into Escherichia coli plasmid chimeras containing Streptococcusfaecalis DNA. TnS could be introduced via a lambda::TnS delivery vehicle. The system proved to be particularly efficient and facilitated insertions at numerous sites on DNA containing the 16-kilobase conjugative transposon Tn916. It was possible to introduce some of the resulting Tn916::TnS derivatives back into S. faecalis by using a recently developed protoplast transformation procedure. A presumed zygotic induction resulted in insertion of the Tn916 derivatives at multiple sites in the S. faecalis chromosome.
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