Vol. 10, Issue 10, 1605-1616, October 2000
METHODS
Construction and Transposition of a 100-kilobase Extended P Element in Drosophila
Brian C.
Ring,
Hank W.
Bass, and
Dan
Garza1
Department of Biological Science, Florida State University,
Tallahassee, Florida 32306-4370, USA
We have used P element deletion derivatives at defined
locations in the Drosophila genome to construct a 100-kb
extended P element more than twice the size of any previously
available. We demonstrate that this prototypical extended P
element is capable of transposition to new sites in the genome. The
structural and functional integrity of a transposed extended P
element was confirmed using molecular, genetic, and cytogenetic
criteria. This is the first method shown to be capable of producing
large, unlinked transpositional duplications in Drosophila.
The ability to produce functional transposable elements from
half-elements is novel and has many potential applications for the
functional analysis of complex genomes.
1
Corresponding author.
10:1605-1616 ©2000 by Cold Spring Harbor Laboratory Press ISSN 1088-9051/00 $5.00
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