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- Title
Structural basis of seamless excision and specific targeting by piggyBac transposase.
- Authors
Chen, Qiujia; Luo, Wentian; Veach, Ruth Ann; Hickman, Alison B.; Wilson, Matthew H.; Dyda, Fred
- Abstract
The piggyBac DNA transposon is used widely in genome engineering applications. Unlike other transposons, its excision site can be precisely repaired without leaving footprints and it integrates specifically at TTAA tetranucleotides. We present cryo-EM structures of piggyBac transpososomes: a synaptic complex with hairpin DNA intermediates and a strand transfer complex capturing the integration step. The results show that the excised TTAA hairpin intermediate and the TTAA target adopt essentially identical conformations, providing a mechanistic link connecting the two unique properties of piggyBac. The transposase forms an asymmetric dimer in which the two central domains synapse the ends while two C-terminal domains form a separate dimer that contacts only one transposon end. In the strand transfer structure, target DNA is severely bent and the TTAA target is unpaired. In-cell data suggest that asymmetry promotes synaptic complex formation, and modifying ends with additional transposase binding sites stimulates activity. PiggyBac is a transposon used in genome engineering that does not leave excision footprints. Here the authors determine the structures of two complexes in which the piggyBac transposase is bound to DNA representing different steps of the transposition reaction, providing a basis for how the transposition reaction proceeds.
- Subjects
TRANSPOSONS; BINDING sites; DNA
- Publication
Nature Communications, 2020, Vol 11, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-020-17128-1