Ulrik von Freiesleben scite author profile

The minimal time between successive initiations on the same origin (the eclipse) in Escherichia coli was determined to be ∼25–30 min. An inverse relationship was found between the length of the eclipse and the amount of Dam methyltransferase in the cell, indicating that the eclipse corresponds to the period of origin hemimethylation. The SeqA protein was absolutely required for the eclipse, and DnaA titration studies suggested that the SeqA protein prevented the binding of multiple DnaA molecules on oriC (initial complex formation). No correlation between the amount of SeqA and eclipse length was revealed, but increased SeqA levels affected chromosome partitioning and/or cell division. This was corroborated further by an aberrant nucleoid distribution in SeqA‐deficient cells. We suggest that the SeqA protein's role in maintaining the eclipse is tied to a function in chromosome organization.

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Chromosomal replication incompatibility in Dam methyltransferase deficient Escherichia coli cells.

Løbner-Olesen

Freiesleben

1996

The EMBO Journal

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Dam methyltransferase deficient Escherichia coli cells containing minichromosomes were constructed. Free plasmid DNA could not be detected in these cells and the minichromosomes were found to be integrated in multiple copies in the origin of replication (oriC) region of the host chromosome. The absence of the initiation cascade in Dam‐ cells is proposed to account for this observation of apparent incompatibility between plasmid and chromosomal copies of oriC. Studies using oriC‐pBR322 chimeric plasmids and their deletion derivatives indicated that the incompatibility determinant is an intact and functional oriC sequence. The seqA2 mutation was found to overcome the incompatability phenotype by increasing the cellular oriC copy number 3‐fold thereby allowing minichromosomes to coexist with the chromosome. The replication pattern of a wild‐type strain with multiple integrated minichromosomes in the oriC region of the chromosome, led to the conclusion that initiation of DNA replication commences at a fixed cell mass, irrespective of the number of origins contained on the chromosome.

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Rifampicin‐resistant initiation of chromosome replication from oriC in ihf mutants

Freiesleben

Rasmussen

Atlung

et al. 2000

Molecular Microbiology

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IHF (integration host factor) mutants exhibit asynchronous initiation of chromosome replication from oriC as determined from flow cytometric analysis of cultures where RNA synthesis was inhibited with rifampicin. However, the run‐out kinetics of chromosome replication in ihf mutants shows that they continue to produce oriCs for some time in the absence of RNA synthesis resulting in a twofold increase in the oriC per mass ratio. An ihf dnaA double mutant did not exhibit this continued increase of the oriC per mass ratio. This indicates that ihf mutants can initiate replication from oriC in a rifampicin‐resistant initiation mode but requires fully functional DnaA protein. The origin per mass ratio, determined by a quantitative Southern blotting technique, showed that the ihf mutants had an origin per mass ratio that was 60% of the wild type although it had a normal DnaA protein concentration. This shows that the initiation mass was substantially higher in the ihf mutants. The oriC per terminus ratio, which was also determined by Southern blotting, was very low in the ihf mutant, although it grew with the same doubling times as the wild‐type strain. This indicates that cells lacking IHF replicate their chromosome(s) very fast.

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The level of supercoiling effects the regulation of DNA replication in Escherichia coli

Freiesleben

Rasmussen

1992

Research in Microbiology

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DNA replication in Escherichia coli gyrB(Ts) mutants analysed by flow cytometry

Freiesleben

Rasmussen

1991

Research in Microbiology

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