Max Planck Institute of Molecular Plant Physiology, Potsdam-Golm, Germany.
John Innes Centre, Norwich Research Park, Norwich, UK.
Plant Cell Environ. 2019 Feb;42(2):549-573. doi: 10.1111/pce.13440.
Plants accumulate reserves in the daytime to support growth at night. Circadian regulation of diel reserve turnover was investigated by profiling starch, sugars, glucose 6-phosphate, organic acids, and amino acids during a light-dark cycle and after transfer to continuous light in Arabidopsis wild types and in mutants lacking dawn (lhy cca1), morning (prr7 prr9), dusk (toc1, gi), or evening (elf3) clock components. The metabolite time series were integrated with published time series for circadian clock transcripts to identify circadian outputs that regulate central metabolism. (a) Starch accumulation was slower in elf3 and prr7 prr9. It is proposed that ELF3 positively regulates starch accumulation. (b) Reducing sugars were high early in the T-cycle in elf3, revealing that ELF3 negatively regulates sucrose recycling. (c) The pattern of starch mobilization was modified in all five mutants. A model is proposed in which dawn and dusk/evening components interact to pace degradation to anticipated dawn. (d) An endogenous oscillation of glucose 6-phosphate revealed that the clock buffers metabolism against the large influx of carbon from photosynthesis. (e) Low levels of organic and amino acids in lhy cca1 and high levels in prr7 prr9 provide evidence that the dawn components positively regulate the accumulation of amino acid reserves.
植物在白天积累储备物质,以支持夜间生长。通过在光暗循环期间和转移到连续光照后分析拟南芥野生型和缺乏黎明(lhy cca1)、早晨(prr7 prr9)、黄昏(toc1、gi)或晚上(elf3)时钟成分的突变体中的淀粉、糖、葡萄糖 6-磷酸、有机酸和氨基酸,研究了昼夜储备周转的生物钟调节。将代谢物时间序列与发表的生物钟转录本时间序列集成,以鉴定调节中心代谢的生物钟输出。(a) elf3 中淀粉积累较慢,表明 ELF3 正向调节淀粉积累。(b) elf3 中 T 循环早期还原糖含量较高,表明 ELF3 负调节蔗糖再循环。(c) 所有五个突变体的淀粉动员模式都发生了改变。提出了一个模型,其中黎明和黄昏/晚上成分相互作用,以预期黎明的速度进行降解。(d) 葡萄糖 6-磷酸的内源性振荡表明,生物钟缓冲了代谢对光合作用大量碳流入的反应。(e) lhy cca1 中有机和氨基酸水平低,prr7 prr9 中水平高,证明黎明成分正向调节氨基酸储备的积累。
