Toshinari Onogi scite author profile

SummarySeqA protein, which binds to hemi-methylated GATC sequences of DNA, is localized to discrete fluorescent foci in wild-type Escherichia coli cells. In this work, we observed cellular localization of the SeqA-Gfp fusion in living cells. SeqA-Gfp was localized to a discrete focus or foci in wild-type and seqA null mutant cells, but the fusion was dispersed in the whole cell in dam null mutant cells lacking Dam methyltransferase. These results were consistent with the previous description of the localization of SeqA by immunofluorescence microscopy. Time-lapse experiments revealed that duplicated SeqA-Gfp foci migrated rapidly in opposite directions. Flow cytometry demonstrated that the fusion restored synchronous replication of chromosomal DNA from multiple origins in seqA null mutant cells, indicating that SeqA-Gfp is biologically active. Immunoprecipitation of the fusion from cell extracts using anti-Gfp antibody indicated that the fusion was assembled with the wild-type SeqA protein.

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Complex formation of MukB, MukE and MukF proteins involved in chromosome partitioning in Escherichia coli

Yamazoe

Onogi²,

Sunako³

et al. 1999

119

112

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Sister chromosome cohesion of Escherichia coli

Sunako¹,

Onogi²,

Hiraga³

2001

Molecular Microbiology

124

110

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SummaryWe analysed Escherichia coli cells synchronized for initiation of chromosomal DNA replication by fluorescence in situ hybridization (FISH) using fluorescent DNA probes corresponding to various chromosomal regions. Sister copies of regions in an approximately oriC-proximal half of the chromosome are cohesive with each other after replication until the late period of chromosome replication. Sister copies of regions relatively close to the terminus are also separated from each other in the same late period of replication. It is important that sister copies in all the tested regions are thus separated from each other nearly all at once in the late period of chromosome replication. These results are consistent with results obtained by FISH in randomly growing cultures. Cohesion of sister copies in an oriC-close region is observed in a dam null mutant lacking DNA adenine methyltransferase the same as in the parental isogenic dam 1 strain, indicating that the cohesion is independent of DNA adenine methyltransferase. This further implies that hemimethylated DNA-binding proteins, such as SeqA, are not involved in the cohesion. On the other hand, the cohesion of sister copies of the oriC-close region was not observed in mukB null mutant cells, suggesting that MukB might be involved in the chromosome cohesion.

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Autoregulation of the partition genes of the mini-F plasmid and the intracellular localization of their products in Escherichia coli

et al. 1998

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The sopAB operon and the sopC sequence, which acts as a centromere, are essential for stable maintenance of the mini-F plasmid. Immunoprecipitation experiments with purified SopA and SopB proteins have demonstrated that these proteins interact in vitro. Expression studies using the lacZ gene as a reporter revealed that the sopAB operon is repressed by the cooperative action of SopA and SopB. Using immunofluorescence microscopy, we found discrete fluorescent foci of SopA and SopB in cells that produce both SopA and SopB in the presence of the sopC DNA segment, but not in the absence of sopC, suggesting the SopA-SopB complex binds to sopC segments. SopA was exclusively found to colocalize with nucleoids in cells that produced only SopA, while, in the absence of SopA, SopB was distributed in the cytosolic spaces.

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Toshinari Onogi

Bidirectional migration of SeqA‐bound hemimethylated DNA clusters and pairing of oriC copies in Escherichia coli

The assembly and migration of SeqA–Gfp fusion in living cells of Escherichia coli

Complex formation of MukB, MukE and MukF proteins involved in chromosome partitioning in Escherichia coli

Sister chromosome cohesion of Escherichia coli

Autoregulation of the partition genes of the mini-F plasmid and the intracellular localization of their products in Escherichia coli

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