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J Biol Chem, Vol. 273, Issue 13, 7367-7374, March 27, 1998
From the Department of Biochemistry, University of Wisconsin,
Madison, Wisconsin 53706
This communication reports the development of an
efficient in vitro transposition system for
Tn5. A key component of this system was the use of
hyperactive mutant transposase. The inactivity of wild type transposase
is likely to be related to the low frequency of in vivo
transposition. The in vitro experiments demonstrate the
following: the only required macromolecules for most of the steps in
Tn5 transposition are the transposase, the specific 19-bp Tn5 end sequences, and target DNA; transposase may not be
able to self-dissociate from product DNAs; Tn5 transposes
by a conservative "cut and paste" mechanism; and Tn5
release from the donor backbone involves precise cleavage of both 3'
and 5' strands at the ends of the specific end sequences.
Tn5 in Vitro Transposition
Copyright © 1998 by The American Society for Biochemistry and Molecular Biology, Inc.
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