This chapter presents an analysis of the organization and distribution of the IS200/IS605 family of insertion sequences (IS). Members of this family are widespread in both bacteria and archaea. They are unusual because they use obligatory single-strand DNA intermediates, which distinguishes them from classical IS. We summarize studies of the experimental model systems IS608 (from Helicobacter pylori) and ISDra2 (from Deinococcus radiodurans) and present biochemical, genetic, and structural data that describe their transposition pathway and the way in which their transposase (an HuH rather than a DDE enzyme) catalyzes this process. The transposition of IS200/IS605 family members can be described as a "Peel-and-Paste" mechanism. We also address the probable domestication of IS200/IS605 family transposases as enzymes involved in multiplication of repeated extragenic palindromes and as potential homing endonucleases in intron-IS chimeras.
REP, diverse palindromic DNA sequences found at high copy number in many bacterial genomes, have been attributed important roles in cell physiology but their dissemination mechanisms are poorly understood. They might represent non-autonomous transposable elements mobilizable by TnpAREP, the first prokaryotic domesticated transposase associated with REP. TnpAREP, fundamentally different from classical transposases, are members of the HuH superfamily and closely related to the transposases of the IS200/IS605 family. We previously showed that Escherichia coli TnpAREP processes cognate single stranded REP in vitro and that this activity requires the integrity of the REP structure, in particular imperfect palindromes interrupted by a bulge and preceded by a conserved DNA motif. A second group of REPs rather carry perfect palindromes, raising questions about how the latter are recognized by their cognate TnpAREP. To get insight into the importance of REP structural and sequence determinants in these two groups, we developed an in vitro activity assay coupled to a mutational analysis for three different TnpAREP/REP duos via a SELEX approach. We also tackled the question of how the cleavage site is selected. This study revealed that two TnpAREP groups have co-evolved with their cognate REPs and use different strategies to recognize their REP substrates.
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