Elliott Crooke scite author profile

The beta subunit of DNA polymerase III is essential for negative regulation of the initiator protein, DnaA. DnaA inactivation occurs through accelerated hydrolysis of ATP bound to DnaA; the resulting ADP-DnaA fails to initiate replication. The ability of beta subunit to promote DnaA inactivation depends on its assembly as a sliding clamp on DNA and must be accompanied by a partially purified factor, IdaB protein. DnaA inactivation in the presence of IdaB and DNA polymerase III is further stimulated by DNA synthesis, indicating close linkage between initiator inactivation and replication. In vivo, DnaA predominantly takes on the ADP form in a beta subunit-dependent manner. Thus, the initiator is negatively regulated by action of the replicase, a mechanism that may be key to effective control of the replication cycle.

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A novel regulatory mechanism couples deoxyribonucleotide synthesis and DNA replication in Escherichia coli

Gon

Camara

Klungsøyr³

et al. 2006

EMBO J

124

170

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We present evidence for a complex regulatory interplay between the initiation of DNA replication and deoxyribonucleotide synthesis. In Escherichia coli, the ATP-bound DnaA protein initiates chromosomal replication. Upon loading of the b-clamp subunit (DnaN) of the replicase, DnaA is inactivated as its intrinsic ATPase activity is stimulated by the protein Hda. The b-subunit acts as a matchmaker between Hda and DnaA. Chain elongation of DNA requires a sufficient supply of deoxyribonucleotides (dNTPs), which are produced by ribonucleotide reductase (RNR). We present evidence suggesting that the molecular switch from ATP-DnaA to ADP-DnaA is a critical step coordinating DNA replication with increased deoxyribonucleotide synthesis. Characterization of dnaA and dnaN mutations that result in a constitutively high expression of RNR reveal this mechanism. We propose that the nucleotide bound state of DnaA regulates the transcription of the genes encoding ribonucleotide reductase (nrdAB). Accordingly, the conversion of ATP-DnaA to ADP-DnaA after initiation and loading of the b-subunit DnaN would allow increased nrdAB expression, and consequently, coordinated RNR synthesis and DNA replication during the cell cycle.

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ProOmpA is stabilized for membrane translocation by either purified E. coli trigger factor or canine signal recognition particle

Crooke¹,

Guthrie²,

Lecker³

et al. 1988

Cell

194

156

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We have isolated large amounts of E. coli outer-membrane protein A precursor (proOmpA). Purified proOmpA is active in membrane assembly, and this assembly is saturable with respect to the precursor protein. A proOmpA-Sepharose matrix allows affinity isolation of trigger factor, a soluble, 63,000 dalton monomeric protein that stabilizes proOmpA in assembly competent form. Comparison of trigger factor's amino-terminal sequence with those in a computer data bank and with those encoded by sec genes, as well as groEL and heat shock gene dnaK, suggests that trigger factor is encoded by a previously undescribed gene. Trigger factor and proOmpA form a 1:1 complex that can be isolated by gel filtration. Purified canine signal recognition particle (SRP) can also stabilize proOmpA for membrane insertion. This postribosomal activity of SRP suggests a unifying theme in protein translocation mechanisms.

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Escherichia coliprereplication complex assembly is regulated by dynamic interplay among Fis, IHF and DnaA

Ryan

Grimwade

Camara

et al. 2004

Molecular Microbiology

116

160

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SummaryInitiator DnaA and DNA bending proteins, Fis and IHF, comprise prereplication complexes (pre-RC) that unwind the Escherichia coli chromosome's origin of replication, oriC . Loss of either Fis or IHF perturbs synchronous initiation from oriC copies in rapidly growing E. coli . Based on dimethylsulphate (DMS) footprinting of purified proteins, we observed a dynamic interplay among Fis, IHF and DnaA on supercoiled oriC templates. Low levels of Fis inhibited oriC unwinding by blocking both IHF and DnaA binding to low affinity sites. As the concentration of DnaA was increased, Fis repression was relieved and IHF rapidly redistributed DnaA to all unfilled binding sites on oriC . This behaviour in vitro is analogous to observed assembly of pre-RC in synchronized E. coli . We propose that as new DnaA is synthesized in E. coli , opposing activities of Fis and IHF ensure an abrupt transition from a repressed complex with unfilled weak affinity DnaA binding sites to a completely loaded unwound complex, increasing both the precision of DNA replication timing and initiation synchrony.

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Trigger factor: a soluble protein that folds pro-OmpA into a membrane-assembly-competent form.

Crooke¹,

Wickner²

1987

Proc. Natl. Acad. Sci. U.S.A.

243

129

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Elliott Crooke

The Initiator Function of DnaA Protein Is Negatively Regulated by the Sliding Clamp of the E. coli Chromosomal Replicase

A novel regulatory mechanism couples deoxyribonucleotide synthesis and DNA replication in Escherichia coli

ProOmpA is stabilized for membrane translocation by either purified E. coli trigger factor or canine signal recognition particle

Escherichia coliprereplication complex assembly is regulated by dynamic interplay among Fis, IHF and DnaA

Trigger factor: a soluble protein that folds pro-OmpA into a membrane-assembly-competent form.

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