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猎物诱捕型萤火虫(黄脉翅萤,Arachnocampa flava)生物发光的昼夜节律调控。

Circadian regulation of bioluminescence in the prey-luring glowworm, Arachnocampa flava.

作者信息

Merritt David J, Aotani Sakiko

机构信息

School of Integrative Biology, The University of Queensland, Brisbane, Australia.

出版信息

J Biol Rhythms. 2008 Aug;23(4):319-29. doi: 10.1177/0748730408320263.

Abstract

The glowworms of New Zealand and Australia are bioluminescent fly larvae that generate light to attract prey into their webs. Some species inhabit the constant darkness of caves as well as the dim, natural photophase of rain-forests. Given the diversity of light regimens experienced by glowworms in their natural environment, true circadian rhythmicity of light output could be present. Consequently the light emission characteristics of the Australian subtropical species Arachnocampa flava, both in their natural rainforest habitat and in artificial conditions in the laboratory, were established. Larvae were taken from rainforest and kept alive in individual containers. When placed in constant darkness (DD) in the laboratory they maintained free-running, cyclical light output for at least 28 days, indicating that light output is regulated by an endogenous rhythm. The characteristics of the light emission changed in DD: individuals showed an increase in the time spent glowing per day and a reduction in the maximum light output. Most individuals show a free-running period greater than 24 h. Manipulation of the photophase and exposure to skeleton photoperiods showed that light acts as both a masking and an entraining agent and suggests that the underlying circadian rhythm is sinusoidal in the absence of light-based masking. Manipulation of thermoperiod in DD showed that temperature cycles are an alternative entraining agent. Exposure to a period of daily feeding in DD failed to entrain the rhythm in the laboratory. The endogenous regulation of luminescence poses questions about periodicity and synchronization of bioluminescence in cave glowworms.

摘要

新西兰和澳大利亚的萤火虫是能发光的蝇幼虫,它们发光以吸引猎物进入其蛛网。一些物种栖息在洞穴的持续黑暗中,也生活在雨林昏暗的自然光照阶段。鉴于萤火虫在其自然环境中所经历的光照模式的多样性,其光输出可能存在真正的昼夜节律。因此,研究确定了澳大利亚亚热带物种黄蛛巢萤在其自然雨林栖息地和实验室人工条件下的发光特性。幼虫取自雨林并饲养在单独的容器中使其存活。当在实验室中置于持续黑暗(DD)环境时,它们维持至少28天的自由运行的周期性光输出,这表明光输出受内源性节律调节。在持续黑暗环境中发光特性发生了变化:个体每天发光时间增加,最大光输出减少。大多数个体的自由运行周期大于24小时。对光照阶段的操纵以及对骨架光周期的暴露表明,光既是一种掩盖剂也是一种夹带剂,这表明在没有基于光的掩盖作用时,潜在的昼夜节律是正弦曲线状的。在持续黑暗环境中对温度周期的操纵表明,温度周期是另一种夹带剂。在持续黑暗环境中每天定时喂食一段时间未能在实验室中夹带该节律。发光的内源性调节对洞穴萤火虫生物发光的周期性和同步性提出了问题。

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