期刊
出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.2020646118
关键词
circadian; superoxide; sugar; redox; ROS
资金
- Biotechnology and Biological Sciences Research Council [BB/L021188/1]
- Royal Society Research Grant [RG150144]
- University of Melbourne through the Research Grants Support Scheme
- Melbourne Research Scholarship
- BBSRC [BB/L021188/1] Funding Source: UKRI
Plants need to coordinate photosynthetic metabolism with the daily environment and biological rhythms, which are driven by circadian clocks adjusting to environmental cues. Sugars play a crucial role in providing metabolic feedback to the circadian oscillator, while the presence of superoxide (O-2(-)) is essential for transcriptional control in response to sugar and growth. This study reveals the significance of O-2(-) as a metabolic signal affecting the transcriptional control of the circadian oscillator in Arabidopsis.
Plants must coordinate photosynthetic metabolism with the daily environment and adapt rhythmic physiology and development to match carbon availability. Circadian clocks drive biological rhythms which adjust to environmental cues. Products of photosynthetic metabolism, including sugars and reactive oxygen species (ROS), are closely associated with the plant circadian clock, and sugars have been shown to provide metabolic feedback to the circadian oscillator. Here, we report a comprehensive sugar-regulated transcriptome of Arabidopsis and identify genes associated with redox and ROS processes as a prominent feature of the transcriptional response. We show that sucrose increases levels of superoxide (O-2(-)), which is required for transcriptional and growth responses to sugar. We identify circadian rhythms of O-2(-)-regulated transcripts which are phased around dusk and find that O-2(-) is required for sucrose to promote expression of TIMING OF CAB1 (TOC1) in the evening. Our data reveal a role for O-2(-) as a metabolic signal affecting transcriptional control of the circadian oscillator in Arabidopsis.
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