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暴露于静电场会导致果蝇大脑中生物胺水平发生变化。

Exposure to static electric fields leads to changes in biogenic amine levels in the brains of Drosophila.

作者信息

Newland Philip L, Al Ghamdi Mesfer S, Sharkh Suleiman, Aonuma Hitoshi, Jackson Christopher W

机构信息

Centre for Biological Sciences, University of Southampton, Southampton, UK

Department of Biology, Faculty of Sciences, Al Baha University, Al Baha, Saudi Arabia.

出版信息

Proc Biol Sci. 2015 Aug 7;282(1812):20151198. doi: 10.1098/rspb.2015.1198.

DOI:10.1098/rspb.2015.1198
PMID:26224706
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4528531/
Abstract

Natural and anthropogenic static electric fields are commonly found in the environment and can have both beneficial and harmful effects on many animals. Here, we asked how the fruitfly responds to these fields and what the consequences of exposure are on the levels of biogenic amines in the brain. When given a choice in a Y-tube bioassay Drosophila avoided electric fields, and the greater the field strength the more likely Drosophila were to avoid it. By comparing wild-type flies, flies with wings surgically removed and vestigial winged flies we found that the presence of intact wings was necessary to produce avoidance behaviour. We also show that Coulomb forces produced by electric fields physically lift excised wings, with the smaller wings of males being raised by lower field strengths than larger female wings. An analysis of neurochemical changes in the brains showed that a suite of changes in biogenic amine levels occurs following chronic exposure. Taken together we conclude that physical movements of the wings are used by Drosophila in generating avoidance behaviour and are accompanied by changes in the levels of amines in the brain, which in turn impact on behaviour.

摘要

自然和人为产生的静电场在环境中普遍存在,对许多动物可能产生有益和有害的影响。在此,我们研究了果蝇如何对这些电场做出反应,以及暴露于电场对大脑中生物胺水平有何影响。在Y型管生物测定中,果蝇在有选择的情况下会避开电场,电场强度越大,果蝇避开的可能性就越大。通过比较野生型果蝇、翅膀被手术切除的果蝇和残翅果蝇,我们发现完整翅膀的存在是产生回避行为所必需的。我们还表明,电场产生的库仑力会物理性地抬起切除的翅膀,雄性较小的翅膀比雌性较大的翅膀在较低场强下就会被抬起。对大脑神经化学变化的分析表明,长期暴露后生物胺水平会发生一系列变化。综合来看,我们得出结论,果蝇利用翅膀的物理运动来产生回避行为,同时大脑中的胺水平也会发生变化,进而影响行为。

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