Abstract
In cyanobacteria DNA supercoiling varies over the diurnal light/dark cycle and is integrated with temporal programs of transcription and replication. We manipulated DNA supercoiling in Synechocystis sp. PCC 6803 by CRISPRi-based knock-down of gyrase subunits and overexpression of topoisomerase I (TopoI), and characterized the phenotypes. Cell division was blocked, most likely due to inhibition of genomic but not plasmid DNA replication. Cell growth continued to 4-5x of the wildtype cell volume, and metabolic flux was redirected towards glycogen in the TopoI overexpression strain. TopoI induction initially lead to down-regulation of GC-rich and up-regulation of AT-rich genes. The response quickly bifurcated and four diurnal co-expression cohorts (dawn, noon, dusk and night) all responded differently, in part with a circadian (≈ 24 h) pattern. A GC-rich region − 50 bp of transcription start sites is differentially enriched in these four cohorts. We suggest a model where energy- and gyrase-gated transcription of growth genes at the dark/light transition (dawn) generates DNA supercoiling which then facilitates DNA replication and initiates the diurnal transcriptome program.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
* Results and Discussion: References and more discussion added for hypernegative supercoiling of plasmids, downstream gyrase activity and binding sites (total RNA and rRNA analysis), and night-specific ppGpp regulation (bifurcation of response). The final paragraph on genomic vs. plasmid DNA replication was simplified. * The conclusion was shortened and clarified.
