Reduced initiation frequency from oriC restores viability of a temperature-sensitive Escherichia coli replisome mutant

Skovgaard, Ove; Løbner-Olesen, Anders

doi:10.1099/mic.0.27630-0

Cited by 14 publications

(22 citation statements)

References 49 publications

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“…2d, Table 1). This effect has been previously described by other groups using dnaA defective alleles alone (Gon et al, 2006) or combined with dnaX alleles that impaired the progression of DNA replication (Skovgaard & Løbner-Olesen, 2005).…”

Section: Resultssupporting

confidence: 70%

Overlap of replication rounds disturbs the progression of replicating forks in a ribonucleotide reductase mutant of Escherichia coli

2011

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Ribonucleotide reductase (RNR) is the only enzyme specifically required for the synthesis of deoxyribonucleotides (dNTPs). Surprisingly, Escherichia coli cells carrying the nrdA101 allele, which codes for a thermosensitive RNR101, are able to replicate entire chromosomes at 42 6C under RNA or protein synthesis inhibition. Here we show that the RNR101 protein is unstable at 42 6C and that its degradation under restrictive conditions is prevented by the presence of rifampicin. Nevertheless, the mere stability of the RNR protein at 42 6C cannot explain the completion of chromosomal DNA replication in the nrdA101 mutant. We found that inactivation of the DnaA protein by using several dnaAts alleles allows complete chromosome replication in the absence of rifampicin and suppresses the nucleoid segregation and cell division defects observed in the nrdA101 mutant at 42 6C. As both inactivation of the DnaA protein and inhibition of RNA synthesis block the occurrence of new DNA initiations, the consequent decrease in the number of forks per chromosome could be related to those effects. In support of this notion, we found that avoiding multifork replication rounds by the presence of moderate extra copies of datA sequence increases the relative amount of DNA synthesis of the nrdA101 mutant at 42 6C. We propose that a lower replication fork density results in an improvement of the progression of DNA replication, allowing replication of the entire chromosome at the restrictive temperature. The mechanism related to this effect is also discussed.

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Section: Resultssupporting

confidence: 70%

Overlap of replication rounds disturbs the progression of replicating forks in a ribonucleotide reductase mutant of Escherichia coli

2011

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“…According to the model where the RNR is a component of the replication hyperstructure (Guzmán et al, 2002), it is reasonable to think that the defective fork progression observed in this mutant can be alleviated by reducing the number of replication forks running along the chromosome. Consistent with this, the presence of dnaA defective alleles, dnaA(Sx), suppresses the detrimental effect on DNA replication observed in mutants that have problems with the progression of forks due to the presence of defective subunits of DNA polymerase III coded by the dnaX gene (Gines-Candelaria et al, 1995;Blinkova et al, 2003;Skovgaard & Lobner-Olesen 2005). Furthermore, a lower availability of wild type DnaA protein induced by the presence of extra copies of the datA sequence alleviates replication problems in both the dnaX (Skovgaard & Lobner-Olesen, 2005) and the nrdA101 mutant (this work), whilst initiation defects caused by deletion of DnaA box R4 suppress replication elongation defects (Stepankiw et al, 2009).…”

Section: By Deleting the Dars Sequencementioning

confidence: 58%

“…Consistent with this, the presence of dnaA defective alleles, dnaA(Sx), suppresses the detrimental effect on DNA replication observed in mutants that have problems with the progression of forks due to the presence of defective subunits of DNA polymerase III coded by the dnaX gene (Gines-Candelaria et al, 1995;Blinkova et al, 2003;Skovgaard & Lobner-Olesen 2005). Furthermore, a lower availability of wild type DnaA protein induced by the presence of extra copies of the datA sequence alleviates replication problems in both the dnaX (Skovgaard & Lobner-Olesen, 2005) and the nrdA101 mutant (this work), whilst initiation defects caused by deletion of DnaA box R4 suppress replication elongation defects (Stepankiw et al, 2009). These observations, together with our data, are consistent with the idea that the progression of replication forks is not merely responsive to elongation factors (dNTP pools or proteins engaged in elongation) but also to the number of forks running along the chromosome.…”

Section: By Deleting the Dars Sequencementioning

confidence: 58%

“…The presence of dnaA defective alleles has been reported to reduce the time required for chromosomal elongation (C period) at permissive conditions and this effect might suppress the defects in replication of some DNA elongation mutants (Torheim et al, 2001;Skovgaard & Lobner-Olesen, 2005). We used the dnaA174 allele, which codes for a non-thermosensitive DnaA protein with a high ATPase activity, which in turn maintains a low DnaA-ATP level associated with a decreased the C period (Gon et al, 2006).…”

Section: Reducing the C Period 231 By The Presence Of Dnaa Defectivmentioning

confidence: 99%

See 1 more Smart Citation

Relationship between Fork Progression and Initiation of Chromosome Replication in E. coli

Guzmán¹,

Salguero²,

Martín-Franco³

et al. 2011

DNA Replication-Current Advances

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“…Determination of the rate of DNA synthesis at any time in an individual cell could lead to breakthroughs in our knowledge of how replication and the cell cycle are coregulated. This might shed some light, for instance, on the suggested reduction of the rate of DNA synthesis at a weakened replicating fork when a second replication round was initiated (Blinkova et al, 2003;Moreno et al, 2013;Salguero et al, 2011;Skovgaard and Løbner-Olesen, 2005). The algorithm should enable determination of the minimal replication rate under thymine limitation in which cell viability is maintained (Zaritsky et al, 2006) and a better description of nucleoid complexity during the cell cycle (Zaritsky, 2015).…”

Section: Results and Conclusionmentioning

confidence: 95%

Chromosome replication status and DNA content at any cell age in a bacterial cell cycle

Jiménez‐Sánchez

2015

Journal of Theoretical Biology

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Reduced initiation frequency from oriC restores viability of a temperature-sensitive Escherichia coli replisome mutant

Cited by 14 publications

References 49 publications

Overlap of replication rounds disturbs the progression of replicating forks in a ribonucleotide reductase mutant of Escherichia coli

Overlap of replication rounds disturbs the progression of replicating forks in a ribonucleotide reductase mutant of Escherichia coli

Relationship between Fork Progression and Initiation of Chromosome Replication in E. coli

Chromosome replication status and DNA content at any cell age in a bacterial cell cycle

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