Abstract
The RecB subunit of the Escherichia coli RecBCD enzyme has both helicase and nuclease activities. The helicase function was localized to an N-terminal domain, whereas the nuclease activity was found in a C-terminal domain. Recent analysis has uncovered a group of proteins that have weak amino acid sequence similarity to the RecB nuclease domain and that are proposed to constitute a family of related proteins (Aravind, L., Walker, D. R., and Koonin, E. V. (1999) Nucleic Acids Res. 27, 1223-1242). One is the E. coli RecE protein (exonuclease VIII), an ATP-independent exonuclease that degrades the 5'-terminated strand of double-stranded DNA. We have made mutations in several residues of RecE that align with the critical residues of RecB, and we find that the mutations reduce or abolish the nuclease activity of RecE but do not affect the enzyme binding to linear double-stranded DNA. Proteolysis experiments with subtilisin show that a stable 34-kilodalton C-terminal domain that contains these critical residues has nuclease activity, whereas no stable proteolytic fragments accumulate from the N-terminal portion of RecE. These results show that RecE has a nuclease domain and active site that are similar to RecB, despite the very weak sequence similarity between the two proteins. These similarities support the hypothesis that the nuclease domains of the two proteins are evolutionarily related.
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