The Tn10 Synaptic Complex Can Capture a Target DNA only after Transposon Excision
نویسندگان
چکیده
Tn10 transposes nonreplicatively. Staged in vitro reactions demonstrate that a Tn10 synaptic complex can become committed to a particular target DNA molecule via a noncovalent interaction in the absence of strand transfer. Commitment occurs only after double-strand cleavage at both transposon ends (in "double-end break" [DEB] complexes). Stable noncovalent DEB-target DNA cocomplexes can be detected, but no cocomplexes occur with synaptic complexes containing uncleaved ends. Preincubation of DEB complexes with target DNA accelerates the rate of strand transfer. Postcleavage target capture is remarkable for Tn10; Mu and Tn7 select a target site prior to cleavage. Promiscuous target selection may favor evolution of IS-based composite elements while being suicidal for other types of transposons.
منابع مشابه
Factors responsible for target site selection in Tn10 transposition: a role for the DDE motif in target DNA capture.
Tn10, like several other transposons, exhibits a marked preference for integration into particular target sequences. Such sequences are referred to as integration hotspots and have been used to define a consensus target site in Tn10 transposition. We demonstrate that a Tn10 hotspot called HisG1, which was identified originally in vivo, also functions as an integration hotspot in vitro in a reac...
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Tn10 transposition, like all transposition reactions examined thus far, involves assembly of a stable protein-DNA transpososome, containing a pair of transposon ends, within which all chemical events occur. We report here that stable Tn10 pre-cleavage transpososomes occur in two conformations: a folded form which contains the DNA-bending factor IHF and an unfolded form which lacks IHF. Function...
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ورودعنوان ژورنال:
- Cell
دوره 89 شماره
صفحات -
تاریخ انتشار 1997