2021
DOI: 10.7554/elife.66181
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Allosteric communication in DNA polymerase clamp loaders relies on a critical hydrogen-bonded junction

Abstract: Clamp loaders are AAA+ ATPases that load sliding clamps onto DNA. We mapped the mutational sensitivity of the T4 bacteriophage sliding clamp and clamp loader by deep mutagenesis, and found that residues not involved in catalysis or binding display remarkable tolerance to mutation. An exception is a glutamine residue in the AAA+ module (Gln 118) that is not located at a catalytic or interfacial site. Gln 118 forms a hydrogen-bonded junction in a helical unit that we term the central coupler, because it connects… Show more

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Cited by 20 publications
(30 citation statements)
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“…We cannot rule out these mechanisms (or a combination of the two), as these types of interactions may occur just before hydrolysis and are not readily apparent in stalled structures. A recent study on the T4 clamp loader suggests that structural rigidity of a ‘central coupler’ that encircles DNA is important for hydrolysis ( Subramanian et al, 2021 ). Thus, tight binding of RFC to DNA could provide rigidity necessary to stimulate ATP hydrolysis.…”
Section: Discussionmentioning
confidence: 99%
“…We cannot rule out these mechanisms (or a combination of the two), as these types of interactions may occur just before hydrolysis and are not readily apparent in stalled structures. A recent study on the T4 clamp loader suggests that structural rigidity of a ‘central coupler’ that encircles DNA is important for hydrolysis ( Subramanian et al, 2021 ). Thus, tight binding of RFC to DNA could provide rigidity necessary to stimulate ATP hydrolysis.…”
Section: Discussionmentioning
confidence: 99%
“…In support of this hypothesis, we observe that the arginine switch residue is flipped into the active conformation in most of our structures ( Figure 6—figure supplement 2 ). The DNA also rigidifies the AAA+ spiral, which is likely a key factor in ATPase activity ( Subramanian et al, 2021 ). Finally, ATP hydrolysis and P i release triggers clamp closure and ejection of the clamp loader, which can then recycle to load another clamp (step 7).…”
Section: Discussionmentioning
confidence: 99%
“…The ATP sites of AAA + oligomers, many of which are used in DNA replication, are located at subunit interfaces ( Erzberger and Berger, 2006 ), including the bacterial and eukaryotic RFC clamp loaders ( Bowman et al, 2004 ; Jeruzalmi et al, 2001 ). Interfacial ATP sites makes possible the coordination among subunits during hydrolysis and, in fact, recent deep mutagenesis of a clamp loader pentamer reveals a communication network among subunits needed to achieve the clamp loading reaction ( Subramanian et al, 2021 ).…”
Section: Introductionmentioning
confidence: 99%