Coordination of robust single cell rhythms in the Arabidopsis circadian clock via spatial waves of gene expression.
Peter D GouldMirela DomijanMark GreenwoodIsao T TokudaHannah ReesLaszlo Kozma-BognarAnthony Jw HallJames C W LockePublished in: eLife (2018)
The Arabidopsis circadian clock orchestrates gene regulation across the day/night cycle. Although a multiple feedback loop circuit has been shown to generate the 24-hr rhythm, it remains unclear how robust the clock is in individual cells, or how clock timing is coordinated across the plant. Here we examine clock activity at the single cell level across Arabidopsis seedlings over several days under constant environmental conditions. Our data reveal robust single cell oscillations, albeit desynchronised. In particular, we observe two waves of clock activity; one going down, and one up the root. We also find evidence of cell-to-cell coupling of the clock, especially in the root tip. A simple model shows that cell-to-cell coupling and our measured period differences between cells can generate the observed waves. Our results reveal the spatial structure of the plant clock and suggest that unlike the centralised mammalian clock, the Arabidopsis clock has multiple coordination points.
Keyphrases
- single cell
- rna seq
- transcription factor
- gene expression
- high throughput
- induced apoptosis
- cell therapy
- dna methylation
- cell cycle arrest
- cell wall
- working memory
- cell death
- electronic health record
- big data
- endoplasmic reticulum stress
- signaling pathway
- deep learning
- climate change
- cell proliferation
- ionic liquid
- human health
- life cycle