Palindromes as Substrates for Multiple Pathways of Recombination in Escherichia coli

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Palindromes as Substrates for Multiple Pathways of Recombination in Escherichia coli

Gareth A. Cromie^a, Catherine B. Millar^a, Kristina H. Schmidt^a, and David R. F. Leach^a
^a Institute of Cell and Molecular Biology, University of Edinburgh, Edinburgh EH9 3JR, United Kingdom

Corresponding author: David R. F. Leach, Institute of Cell and Molecular Biology, University of Edinburgh, Darwin Bldg., Kings Bldgs., Mayfield Rd., Edinburgh, Scotland., d.leach{at}ed.ac.uk (E-mail)

Communicating editor: L. S. SYMINGTON

A 246-bp imperfect palindrome has the potential to form hairpinstructures in single-stranded DNA during replication. Geneticevidence suggests that these structures are converted to double-strandbreaks by the SbcCD nuclease and that the double-strand breaksare repaired by recombination. We investigated the role of arange of recombination mutations on the viability of cells containingthis palindrome. The palindrome was introduced into the Escherichiacoli chromosome by phage ${lambda}$ lysogenization. This was done in bothwt and sbcC backgrounds. Repair of the SbcCD-induced double-strandbreaks requires a large number of proteins, including the componentsof both the RecB and RecF pathways. Repair does not involvePriA-dependent replication fork restart, which suggests thatthe double-strand break occurs after the replication fork haspassed the palindrome. In the absence of SbcCD, recombinationstill occurs, probably using a gap substrate. This process isalso PriA independent, suggesting that there is no collapseof the replication fork. In the absence of RecA, the RecQ helicaseis required for palindrome viability in a sbcC mutant, suggestingthat a helicase-dependent pathway exists to allow replicativebypass of secondary structures.

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