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Regulation of DNA Binding and High-Order Oligomerization of the DnaB Helicase Loader.

J Bacteriol. 2020 Oct 08;202(21)
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摘要


DnaB is an essential primosomal protein that coloads the replicative helicase in many Gram-positive bacteria, including several human pathogens. Although DnaB is tetrameric in solution, it is from a protein family whose members can oligomerize into large complexes when exposed to DNA. It is currently unknown how DNA binding by DnaB is regulated or how these interactions induce changes in its oligomeric state. Here, we investigated DNA binding by DnaB from Bacillus subtilis and the critical human pathogen Staphylococcus aureus We found that B. subtilis DnaB binds double-stranded DNA as a tetramer; however, M13mp18 single-stranded DNA induces high-order oligomerization. Mutating a conserved motif at the C-terminal end of DnaB stimulates single-stranded DNA binding, suggesting that conformational changes in this region regulate DNA substrate preferences. S. aureus DnaB could also be induced to form high-order oligomers with either M13mp18 or PhiX174 single-stranded DNA. Therefore, oligomeric shifts in DnaB are tightly controlled and this activity is conserved between B. subtilis and a pathogenic species.IMPORTANCE DnaB is a replicative helicase loader involved in initiating DNA replication in many bacterial species. We investigated the binding preferences of DnaB for its DNA substrate and determined that the C-terminal end of the protein plays a critical role in controlling DNA interactions. Furthermore, we found that DNA binding in general did not trigger changes to the oligomeric state of DnaB, but rather, certain types of single-stranded DNA substrates specifically induced DnaB to self-assemble into a large complex. This indicates that the structure of DNA itself is an important regulatory element that influences the behavior of DnaB. Importantly, these observations held for both Bacillus subtilis and the pathogenic species Staphylococcus aureus, demonstrating conserved biochemical functions of DnaB in these species.

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