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Mode of Replicon Fusion Mediated by the Duplicated Insertion Sequence IS21 in Escherichia coli
Cornelia Reimmann 1 and Dieter Haas 1
1 Mikrobiologisches Institut, Eidgenössische Technische
Hochschule, CH-8092 Zürich, Switzerland
The insertion sequence IS21 (2.1 kb) originating from
the broad-host-range IncP plasmid R68 transposes infrequently; by contrast,
the IS21 tandem repeat found on the derivative R68.45 is highly active
in transpositional mobilization of other replicons in a variety of Gram-negative
bacteria. The mobilized plasmids are joined to R68.45 by single IS21 copies
in direct orientation.—The formation of IS21 tandem duplications
was observed in cointegrates between R68.45 and pBR325::IS21 and
also in an RP1::IS21 plasmid derivative in which a segment located
between two directly repeated copies of IS21 was deleted spontaneously.
We speculate that IS21 tandem repeats can arise when the termini
of two IS21 elements are specifically joined in a transposition or
deletion event.—A resistance gene flanked by two IS21 elements
in direct orientation did not behave as a transposon. The 
fragment
carrying transcription and translation stop signals was inserted into various
sites of the IS21 tandem repeat; in this way it could be shown that
the left IS21 element (which is next to the kanamycin resistance
gene in R68.45) was 100 times more active in cointegrate formation than was
the righthand element.—Cointegrates between the conjugative plasmid
R751 and pBR325 derivatives carrying IS21 and IS21::
in tandem contained a single IS21 at one replicon junction and a
single IS21:: at the other. In the IS21 duplications
the inner IS21 ends were preferentially recognized (presumably by
IS21 transposase), whereas the outer termini were not required for
cointegrate formation. Based on these findings a conservative (simple) pathway
of transposition is proposed for R68.45 and other plasmids with an IS
21 tandem repeat. In this model R68.45 is pictured as a large transposon
whose ends are joined together to form a circular molecule which is capable
of autonomous replication.
Accepted on January 12, 1987
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