Discovery and Visualization of Age-Dependent Patterns in the Diurnal Transcriptome of Drosophila.

Q2 Biochemistry, Genetics and Molecular Biology Journal of Circadian Rhythms Pub Date : 2022-12-08 eCollection Date: 2022-01-01 DOI:10.5334/jcr.218
Benjamin Sebastian, Rosalyn M Fey, Patrick Morar, Brittany Lasher, Jadwiga M Giebultowicz, David A Hendrix
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Abstract

Many critical life processes are regulated by input from 24-hour external light/dark cycles, such as metabolism, cellular homeostasis, and detoxification. The circadian clock, which helps coordinate the response to these diurnal light/dark cycles, remains rhythmic across lifespan; however, rhythmic transcript expression is altered during normal aging. To better understand how aging impacts diurnal expression, we present an improved Fourier-based method for detecting and visualizing rhythmicity that is based on the relative power of the 24-hour period compared to other periods (RP24). We apply RP24 to transcript-level expression profiles from the heads of young (5-day) and old (55-day) Drosophila melanogaster, and reveal novel age-dependent rhythmicity changes that may be masked at the gene level. We show that core clock transcripts phase advance during aging, while most rhythmic transcripts phase delay. Transcripts rhythmic only in young flies tend to peak before lights on, while transcripts only rhythmic in old peak after lights on. We show that several pathways, including glutathione metabolism, gain or lose coordinated rhythmic expression with age, providing insight into possible mechanisms of age-onset neurodegeneration. Remarkably, we find that many pathways show very robust coordinated rhythms across lifespan, highlighting their putative roles in promoting neural health. We investigate statistically enriched transcription factor binding site motifs that may be involved in these rhythmicity changes.

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果蝇昼夜转录组中年龄依赖模式的发现与可视化
许多关键的生命过程都受 24 小时外部光/暗周期输入的调节,如新陈代谢、细胞稳态和解毒。昼夜节律时钟有助于协调对这些昼夜光/暗周期的反应,在整个生命周期中保持节律性;然而,在正常衰老过程中,节律性转录物表达会发生改变。为了更好地了解衰老是如何影响昼夜节律表达的,我们提出了一种基于傅立叶的改进方法来检测和可视化节律性,该方法基于 24 小时周期与其他周期相比的相对功率(RP24)。我们将 RP24 应用于来自幼年(5 天)和老年(55 天)黑腹果蝇头部的转录本级表达谱,并揭示了可能在基因水平上被掩盖的新的年龄依赖性节律变化。我们发现,核心时钟转录本在衰老过程中相位提前,而大多数节律性转录本相位延迟。只有年轻蝇的节律性转录本往往在开灯前达到峰值,而只有老年蝇的节律性转录本在开灯后达到峰值。我们发现,包括谷胱甘肽代谢在内的一些通路会随着年龄的增长而获得或丧失协调的节律性表达,这为我们深入了解老年神经退行性变的可能机制提供了线索。值得注意的是,我们发现许多通路在整个生命周期中都表现出非常强的协调节律,这突显了它们在促进神经健康方面的潜在作用。我们对可能参与这些节律变化的转录因子结合位点基团进行了统计富集研究。
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来源期刊
Journal of Circadian Rhythms
Journal of Circadian Rhythms Biochemistry, Genetics and Molecular Biology-Physiology
CiteScore
7.10
自引率
0.00%
发文量
0
审稿时长
12 weeks
期刊介绍: Journal of Circadian Rhythms is an Open Access, peer-reviewed online journal that publishes research articles dealing with circadian and nycthemeral (daily) rhythms in living organisms, including processes associated with photoperiodism and daily torpor. Journal of Circadian Rhythms aims to include both basic and applied research at any level of biological organization (molecular, cellular, organic, organismal, and populational). Studies of daily rhythms in environmental factors that directly affect circadian rhythms are also pertinent to the journal"s mission.
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