Litcius/Paper detail

Structural basis of transposon end recognition explains central features of Tn7 transposition systems

Zuzanna Kaczmarska, Mariusz Czarnocki‐Cieciura, Karolina M. Górecka-Minakowska, Robert J. Wingo, Justyna Jackiewicz, Weronika Zajko, Jarosław Poznański, Michał Rawski, Timothy Grant, Joseph E. Peters, Marcin Nowotny

2022Molecular Cell33 citationsDOIOpen Access PDF

Abstract

Tn7 is a bacterial transposon with relatives containing element-encoded CRISPR-Cas systems mediating RNA-guided transposon insertion. Here, we present the 2.7 Å cryoelectron microscopy structure of prototypic Tn7 transposase TnsB interacting with the transposon end DNA. When TnsB interacts across repeating binding sites, it adopts a beads-on-a-string architecture, where the DNA-binding and catalytic domains are arranged in a tiled and intertwined fashion. The DNA-binding domains form few base-specific contacts leading to a binding preference that requires multiple weakly conserved sites at the appropriate spacing to achieve DNA sequence specificity. TnsB binding imparts differences in the global structure of the protein-bound DNA ends dictated by the spacing or overlap of binding sites explaining functional differences in the left and right ends of the element. We propose a model of the strand-transfer complex in which the terminal TnsB molecule is rearranged so that its catalytic domain is in a position conducive to transposition.

Topics & Concepts

TransposaseTransposable elementBiologyDNATransposition (logic)GeneticsBinding siteBase pairComputational biologyGenomeGenePhilosophyLinguisticsCRISPR and Genetic EngineeringAdvanced biosensing and bioanalysis techniquesBacteriophages and microbial interactions