Chi sites in combination with RecA protein increase the survival of linear DNA in Escherichia coli by inactivating exoV activity of RecBCD nuclease.

AUTOR(ES)

Kuzminov, A

RESUMO

In Escherichia coli, unprotected linear DNA is degraded by exoV activity of the RecBCD nuclease, a protein that plays a central role in the repair of double-strand breaks. Specific short asymmetric sequences, called chi sites, are hotspots for RecBCD-promoted recombination and are shown in vitro to attenuate exoV activity. To study RecBCD-chi site interactions in vivo we used phage lambda's terminase to introduce a site-specific double-strand break at lambda's cos site inserted into a plasmid. We show that after terminase has cut cos in vivo, nucleases degrade linearized DNA only from the end that does not have a strong terminase binding site. Linearized cosmid DNA containing chi sites in the proper orientation to the unprotected end is degraded more slowly in rec+ E. coli than is chi-less DNA. Increased survival of chi-containing DNA is a result of partial inactivation of exoV activity and is dependent on RecA and SSB proteins. The linearization of chi-containing DNA molecules leads to RecA-dependent formation of branched structures which have been proposed as intermediates in the RecBCD pathway of double-strand break repair.

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