2000
DOI: 10.1074/jbc.275.1.507
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A Single Nuclease Active Site of the Escherichia coli RecBCD Enzyme Catalyzes Single-stranded DNA Degradation in Both Directions

Abstract: The RecBCD enzyme of Escherichia coli is an ATP-dependent DNA exonuclease and a helicase. Its exonuclease activity is subject to regulation by an octameric nucleotide sequence called chi. In this study, site-directed mutations were made in the carboxyl-terminal nuclease domain of the RecB subunit, and their effects on RecBCD's enzymatic activities were investigated. Mutation of two amino acid residues, Asp(1067) and Lys(1082), abolished nuclease activity on both single- and double-stranded DNA. Together with A… Show more

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Cited by 69 publications
(67 citation statements)
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“…Gam inhibits the activity of the RecBCD nuclease, as well as the hairpin nuclease SbcCD (19). Because RecBCD has single-stranded nuclease activity (20), the decreased recombination efficiency of ssDNA in a strain lacking Gam might be due to the RecBCD single-stranded nuclease activity, to the SbcCD hairpin nuclease activity, or perhaps to some unknown function normally inhibited by Gam. Beta bound to ssDNA protects it from nuclease attack (21); this may be another reason that ssDNA recombination is proficient even in the absence of Gam.…”
Section: Resultsmentioning
confidence: 99%
“…Gam inhibits the activity of the RecBCD nuclease, as well as the hairpin nuclease SbcCD (19). Because RecBCD has single-stranded nuclease activity (20), the decreased recombination efficiency of ssDNA in a strain lacking Gam might be due to the RecBCD single-stranded nuclease activity, to the SbcCD hairpin nuclease activity, or perhaps to some unknown function normally inhibited by Gam. Beta bound to ssDNA protects it from nuclease attack (21); this may be another reason that ssDNA recombination is proficient even in the absence of Gam.…”
Section: Resultsmentioning
confidence: 99%
“…The N-terminal domain interacts with the RecC protein to form a rapid and processive DNA helicase (197). A C-terminal domain in RecB can function independently as a DNA endo-and exonuclease and is responsible for all nuclease activities associated with the RecBCD complex (278,308,324,325). The C-terminal nuclease domain of RecB was shown to interact directly with the RecA protein (67,270).…”
Section: Isolated Subunitsmentioning
confidence: 99%
“…During DNA translocation and unwinding, RecBCD cleaves the DNA using a single nuclease active site (278,308,325,326). Extensive in vitro studies have established that the nuclease and translocation activities are independent (92,284,294).…”
Section: Fig 5 Effect Of Atp and Mgmentioning
confidence: 99%
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“…Neither exo nor gam causes a dramatic effect on the recombination efficiency. Only a minor 5-fold reduction was observed in the gam deletion strain, most likely attributed to the single-stranded nuclease activity of the RecBCD protein complex, which is not inhibited in a gam-deficient strain , Wang et al, 2000. λ Red bound to ssDNA is able to protect the DNA segment from nuclease attack, which might explain the recombination events that occured despite the gam deletion .…”
Section: Use Of λ Red Recombination For Manipulation Of Bacterial Genmentioning
confidence: 97%