Double helicase II (uvrD)-helicase IV (helD) deletion mutants are defective in the recombination pathways of Escherichia coli

Abstract

The Escherichia coli helD (encoding helicase IV) and uvrD (encoding helicase II) genes have been deleted, independently and in combination, from the chromosome and replaced with genes encoding antibiotic resistance. Each deletion was verified by Southern blots, and the location of each deletion was confirmed by P1-mediated transduction. Cell strains containing the single and double deletions were viable, indicating that helicases II and IV are not essential for viability. Cell strains lacking helicase IV (delta helD) exhibited no increase in sensitivity to UV irradiation but were slightly more resistant to methyl methanesulfonate (MMS) than the isogenic wild-type cell strain. As expected, cell strains containing the helicase II deletion (delta uvrD) were sensitive to both UV irradiation and MMS. The introduction of the helicase IV deletion into a delta uvrD background had essentially no effect on the UV and MMS sensitivity of the cell strains analyzed. The double deletions, however, conferred a Rec- mutant phenotype for conjugational and transductional recombination in both recBC sbcB(C) and recBC sbcA backgrounds. The Rec- mutant phenotype was more profound in the recBC sbcB(C) background than in the recBC sbcA background. The recombination-deficient phenotype indicates the direct involvement of helicase II and/or helicase IV in the RecF pathway [recBC sbcB(C) background] and RecE pathway (recBC sbcA background) of recombination. The modest decrease in the recombination frequency observed in single-deletion mutants in the recBC sbcB(C) background suggests that either helicase is sufficient. In addition, helicase IV has been overexpressed in a tightly regulated system. The data suggest that even modest overexpression of helicase IV is lethal to the cell.