2005
DOI: 10.1074/jbc.m502764200
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Formation of an ATP-DnaA-specific Initiation Complex Requires DnaA Arginine 285, a Conserved Motif in the AAA+ Protein Family

Abstract: Escherichia coli DnaA protein, a member of the AAA؉ superfamily, initiates replication from the chromosomal origin oriC in an ATP-dependent manner. Nucleoprotein complex formed on oriC with the ATP-DnaA multimer but not the ADP-DnaA multimer is competent to unwind the oriC duplex. The oriC region contains ATP-DnaAspecific binding sites termed I2 and I3, which stimulate ATP-DnaA-dependent oriC unwinding. In this study, we show that the DnaA R285A mutant is inactive for oriC replication in vivo and in vitro and … Show more

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Cited by 137 publications
(304 citation statements)
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“…The orientation of the remaining low-affinity site τ2 in the left half has yet to be examined because of sequence degeneracy (14,15). DnaA binding to the τ1 box, which is located at the left side of R5M, is observed with a low affinity only for a linear form of oriC but not for a replication-active supercoiled form (14,15); we thus excluded this box in this study. IHF is one of the bacterial architectural proteins and sharply bends dsDNA (20).…”
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“…The orientation of the remaining low-affinity site τ2 in the left half has yet to be examined because of sequence degeneracy (14,15). DnaA binding to the τ1 box, which is located at the left side of R5M, is observed with a low affinity only for a linear form of oriC but not for a replication-active supercoiled form (14,15); we thus excluded this box in this study. IHF is one of the bacterial architectural proteins and sharply bends dsDNA (20).…”
mentioning
confidence: 99%
“…The ATP-bound AAA+ domain can form stable helical homooligomers by assembling in a head-to-tail manner (Fig. 1B, Bottom cartoon) (14,24). The arginine-finger in an interface (Arg-finger interface) of one AAA+ domain coordinates to the ATP molecule bound on another interface (ATPbound interface) of an adjacent AAA+ domain, which explains the nucleotide-dependent head-to-tail oligomer formation on oriC (Fig.…”
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