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Direct single-cell observation of a key <i>Escherichia coli</i> cell-cycle oscillator

Ilaria Iuliani, Gladys Mbemba, Marco Cosentino Lagomarsino, Bianca Sclavi

2024Science Advances14 citationsDOIOpen Access PDF

Abstract

is coupled to cell size via the DnaA protein, whose activity is dependent on its nucleotide-bound state. However, the oscillations in DnaA activity have never been observed at the single-cell level. By measuring the volume-specific production rate of a reporter protein under control of a DnaA-regulated promoter, we could distinguish two distinct cell-cycle oscillators. The first, driven by both DnaA activity and SeqA repression, shows a causal relationship with cell size and divisions, similarly to initiation events. The second one, a reporter of DnaA activity alone, loses the synchrony and causality properties. Our results show that transient inhibition of gene expression by SeqA keeps the oscillation of volume-sensing DnaA activity in phase with the subsequent division event and suggest that DnaA activity peaks do not correspond directly to initiation events.

Topics & Concepts

DnaAEscherichia coliCell divisionCell biologyBiologyCell cycleCellReporter geneCausality (physics)GeneBiophysicsGeneticsPhysicsGene expressionQuantum mechanicsControl of chromosome duplicationGene Regulatory Network AnalysisBacterial Genetics and BiotechnologyProtein Structure and Dynamics
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