2009
DOI: 10.1016/j.jmb.2009.07.071
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The ATPase Cycle of PcrA Helicase and Its Coupling to Translocation on DNA

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Cited by 37 publications
(54 citation statements)
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“…Furthermore, it is tempting to conclude that the resolution of small ssDNA loops formed by PcrA is the rate-limiting process associated with the ∼4 nucleotide kinetic step-size. An inchworm model for ssDNA translocation by PcrA is also consistent with the observation that the products of ATP hydrolysis associated with PcrA translocation along ssDNA are released in two steps, with P i released before ADP (54). Based on this result it has been suggested that the major transition in the structure of the PcrA:DNA complex, possibly associated with the powerstroke of the translocation mechanism (Figure 2), is associated with ADP release.…”
Section: Sf1 Family Helicasessupporting
confidence: 81%
“…Furthermore, it is tempting to conclude that the resolution of small ssDNA loops formed by PcrA is the rate-limiting process associated with the ∼4 nucleotide kinetic step-size. An inchworm model for ssDNA translocation by PcrA is also consistent with the observation that the products of ATP hydrolysis associated with PcrA translocation along ssDNA are released in two steps, with P i released before ADP (54). Based on this result it has been suggested that the major transition in the structure of the PcrA:DNA complex, possibly associated with the powerstroke of the translocation mechanism (Figure 2), is associated with ADP release.…”
Section: Sf1 Family Helicasessupporting
confidence: 81%
“…Utp14 also increases the coupling between ATP hydrolysis and productive unwinding by Dhr1, because the presence of Utp14 stimulates unwinding activity by Dhr1 without affecting rates of ATPase hydrolysis. A possible molecular basis of such stimulation is provided by the DNA helicase PcrA, whose activator, RepD, stimulates the unwinding of PcrA without affecting ATPase activity (38,39). RepD exploits a common feature of the reaction cycle of helicases with tandem RecA-like domains-these domains cycle between an open, inactive conformation and a closed, active conformation (40).…”
Section: Discussionmentioning
confidence: 99%
“…In the active form, the two RecA-like domains come together to form the NTP and RNA duplex binding cleft. Cross-linking and fluorescence resonance energy transfer (FRET) studies suggest that RepD stimulates the helicase activity of PcrA by locking the tandem RecA-like domains in an active, closed conformation (39), and this is accomplished without stimulated ATPase activity (38). Perhaps the Utp14 contact to Dhr1 similarly stabilizes a closed conformation of the RecA-like domains of Dhr1 to couple unwinding to ATPase activity.…”
Section: Discussionmentioning
confidence: 99%
“…The mechanism for duplex unwinding exhibited by many helicases, including Pif1, is a stepwise, 1 base pair per step movement coupled to the hydrolysis of one molecule of ATP (44,59). The mechanism for other helicases has been suggested to involve buildup of strain so that multiple ATP hydrolysis events can occur followed by unzipping of 2 or more base pairs per step (60).…”
Section: Discussionmentioning
confidence: 99%