Mechanistic insights into PriA mediated DNA replication restart (924.2)

Abstract

DNA replication restart is an essential genome maintenance process by which replication complexes (replisomes) are reloaded onto abandoned DNA replication forks. In Escherichia coli and related bacteria this process is orchestrated by the PriA DNA helicase, which binds to replication forks in a structure‐specific manner. PriA also binds to single‐stranded DNA‐binding protein (SSB), a protein that coats the lagging‐strand template at DNA replication forks. Complex formation with SSB stimulates PriA DNA unwinding DNA and, as we show here, this interaction is required for PriA remodeling of SSB‐DNA nucleoprotein complexes. Proteins that interact with SSB typically do so by binding directly to the evolutionarily conserved amphipathic C‐terminal tail of SSB (SSB‐CT). Although previous studies indicated that PriA also binds to SSB via the SSB‐CT, a lack of structural information on PriA has left the SSB binding site on PriA unknown. We determined the 4 Å resolution structure of PriA bound to the SSB‐CT. The electrostatic characteristics of the PriA SSB‐Ct binding site resemble those of other known SSB‐interacting proteins. Single‐molecule FRET studies show that a PriA variant that has lost the ability to bind the SSB‐CT fails to modulate SSB‐DNA complexes. Our studies point to the importance of the PriA/SSB interaction in allowing PriA to reload replisomes at damaged replication forks where SSB is bound to the lagging‐strand template.