The circadian and photoperiodic clock of the pea aphid.

IF 1.9 4区 心理学 Q3 BEHAVIORAL SCIENCES Journal of Comparative Physiology A-Neuroethology Sensory Neural and Behavioral Physiology Pub Date : 2024-07-01 Epub Date: 2023-07-24 DOI:10.1007/s00359-023-01660-8
Francesca Sara Colizzi, David Martínez-Torres, Charlotte Helfrich-Förster
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Abstract

The pea aphid, Acyrthosiphon pisum, is a paradigmatic photoperiodic species that exhibits a remarkable annual life cycle, which is tightly coupled to the seasonal changes in day length. During spring and summer, characterised by longer days, aphid populations consist exclusively of viviparous females that reproduce parthenogenetically. When autumn comes and the days shorten, aphids switch their reproductive mode and generate males and oviparous sexual females, which mate and produce cold-resistant eggs that overwinter and survive the unfavourable season. While the photoperiodic responses have been well described, the nature of the timing mechanisms which underlie day length discrimination are still not completely understood. Experiments from the 1960's suggested that aphids rely on an 'hourglass' clock measuring the elapsed time during the dark night by accumulating a biochemical factor, which reaches a critical threshold at a certain night length and triggers the switch in reproduction mode. However, the photoperiodic responses of aphids can also be attributed to a strongly dampened circadian clock. Recent studies have uncovered the molecular components and the location of the circadian clock in the brain of the pea aphid and revealed that it is well connected to the neurohormonal system controlling aphid reproduction. We provide an overview of the putative mechanisms of photoperiodic control in aphids, from the photoreceptors involved in this process to the circadian clock and the neuroendocrine system.

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豌豆蚜的昼夜节律和光周期时钟
豌豆蚜(Acyrthosiphon pisum)是一种典型的光周期物种,它的年生命周期与昼长的季节性变化密切相关。在日照时间较长的春季和夏季,蚜虫种群完全由胎生雌虫组成,它们进行孤雌生殖。当秋季来临、白昼缩短时,蚜虫会转换繁殖模式,产生雄性蚜虫和卵生雌性蚜虫,雄性蚜虫和卵生雌性蚜虫交配并产生耐寒的卵,这些卵可以越冬并度过不利的季节。虽然对光周期反应已经有了很好的描述,但对作为日长辨别基础的定时机制的性质仍不完全清楚。20 世纪 60 年代的实验表明,蚜虫依靠一个 "沙漏 "时钟,通过积累一种生化因子来测量暗夜的时间,当达到一定的夜长时,该生化因子就会达到临界阈值,从而触发繁殖模式的转换。不过,蚜虫的光周期反应也可归因于受到强烈抑制的昼夜节律钟。最近的研究发现了豌豆蚜大脑中昼夜节律钟的分子成分和位置,并揭示了它与控制蚜虫繁殖的神经激素系统之间的密切联系。我们概述了蚜虫光周期控制的假定机制,从参与这一过程的光感受器到昼夜节律钟和神经内分泌系统。
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来源期刊
CiteScore
4.80
自引率
14.30%
发文量
67
审稿时长
1 months
期刊介绍: The Journal of Comparative Physiology A welcomes original articles, short reviews, and short communications in the following fields: - Neurobiology and neuroethology - Sensory physiology and ecology - Physiological and hormonal basis of behavior - Communication, orientation, and locomotion - Functional imaging and neuroanatomy Contributions should add to our understanding of mechanisms and not be purely descriptive. The level of organization addressed may be organismic, cellular, or molecular. Colour figures are free in print and online.
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