Functions of Multiple Exonucleases Are Essential for Cell Viability, DNA Repair and Homologous Recombination in recD Mutants of Escherichia coli

Damir Ðermi $c$ ¹

Department of Molecular Biology, Ru $d$ er Bo $s$ kovi $c$ Institute, 10002 Zagreb, Croatia

^¹ Address for correspondence: Department of Molecular Biology, Ru $d$ er Bo $s$ kovi $c$ Institute, Bijeni $c$ ka 54, P.O. Box 180, 10002 Zagreb, Croatia.
E-mail: dermic{at}irb.hr

Heterotrimeric RecBCD enzyme unwinds and resects a DNA duplexcontaining blunt double-stranded ends and directs loading ofthe strand-exchange protein RecA onto the unwound 3'-endingstrand, thereby initiating the majority of recombination inwild-type Escherichia coli. When the enzyme lacks its RecD subunit,the resulting RecBC enzyme, active in recD mutants, is recombinationproficient although it has only helicase and RecA loading activityand is not a nuclease. However, E. coli encodes for severalother exonucleases that digest double-stranded and single-strandedDNA and thus might act in consort with the RecBC enzyme to efficientlypromote recombination reactions. To test this hypothesis, Iinactivated multiple exonucleases (i.e., exonuclease I, exonucleaseX, exonuclease VII, RecJ, and SbcCD) in recD derivatives ofthe wild-type and nuclease-deficient recB1067 strain and assessedthe ability of the resultant mutants to maintain cell viabilityand to promote DNA repair and homologous recombination. A complexpattern of overlapping and sometimes competing activities ofmultiple exonucleases in recD mutants was thus revealed. Theseexonucleases were shown to be essential for cell viability,DNA repair (of UV- and ${gamma}$ -induced lesions), and homologous recombination(during Hfr conjugation and P1 transduction), which are dependenton the RecBC enzyme. A model for donor DNA processing in recDtransconjugants and transductants was proposed.

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