抗干燥能力：成虫表皮碳氢化合物和水分含量的影响

Desiccation resistance: effect of cuticular hydrocarbons and water content in adults.

作者信息

Ferveur Jean-Francois, Cortot Jérôme, Rihani Karen, Cobb Matthew, Everaerts Claude

机构信息

Centre des Sciences du Goût et de l'Alimentation, Agrosup-UMR 6265 CNRS, UMR 1324 INRA, Université de Bourgogne, Dijon, France.

School of Biological Sciences, University of Manchester, Manchester, United Kingdom.

出版信息

PeerJ. 2018 Feb 12;6:e4318. doi: 10.7717/peerj.4318. eCollection 2018.

DOI:10.7717/peerj.4318

PMID:29456884

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5813593/

Abstract

BACKGROUND

The insect cuticle covers the whole body and all appendages and has bi-directionnal selective permeability: it protects against environmental stress and pathogen infection and also helps to reduce water loss. The adult cuticle is often associated with a superficial layer of fatty acid-derived molecules such as waxes and long chain hydrocarbons that prevent rapid dehydration. The waterproofing properties of cuticular hydrocarbons (CHs) depend on their chain length and desaturation number. CH biosynthesis involves an enzymatic pathway including several elongase and desaturase enzymes.

METHODS

The link between desiccation resistance and CH profile remains unclear, so we tested (1) experimentally selected desiccation-resistant lines, (2) transgenic flies with altered desaturase expression and (3) natural and laboratory-induced CH variants. We also explored the possible relationship between desiccation resistance, relative water content and fecundity in females.

RESULTS

We found that increased desiccation resistance is linked with the increased proportion of desaturated CHs, but not with their total amount. Experimentally-induced desiccation resistance and CH variation both remained stable after many generations without selection. Conversely, flies with a higher water content and a lower proportion of desaturated CHs showed reduced desiccation resistance. This was also the case in flies with defective desaturase expression in the fat body.

DISCUSSION

We conclude that rapidly acquired desiccation resistance, depending on both CH profile and water content, can remain stable without selection in a humid environment. These three phenotypes, which might be expected to show a simple relationship, turn out to have complex physiological and genetic links.

摘要

背景

昆虫表皮覆盖全身及所有附肢，具有双向选择性通透性：它能抵御环境压力和病原体感染，还有助于减少水分流失。成虫表皮通常与一层由脂肪酸衍生的分子相关联，如蜡和长链烃，这些分子可防止快速脱水。表皮碳氢化合物（CHs）的防水性能取决于其链长和去饱和度。CH生物合成涉及一条酶促途径，包括几种延长酶和去饱和酶。

方法

抗干燥能力与CH谱之间的联系尚不清楚，因此我们测试了（1）实验选择的抗干燥品系，（2）去饱和酶表达改变的转基因果蝇，以及（3）天然和实验室诱导的CH变体。我们还探讨了雌性果蝇抗干燥能力、相对含水量和繁殖力之间的可能关系。

结果

我们发现抗干燥能力增强与去饱和CHs比例增加有关，而非与它们的总量有关。经过多代无选择培养后，实验诱导的抗干燥能力和CH变异均保持稳定。相反，含水量较高且去饱和CHs比例较低的果蝇抗干燥能力降低。脂肪体中去饱和酶表达有缺陷的果蝇也是如此。

讨论

我们得出结论，快速获得的抗干燥能力，取决于CH谱和含水量，在潮湿环境中无需选择即可保持稳定。这三种表型，本可能预期呈现简单关系，结果却有着复杂的生理和遗传联系。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/080e/5813593/804fdb521521/peerj-06-4318-g001.jpg

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抗干燥能力：成虫表皮碳氢化合物和水分含量的影响

Desiccation resistance: effect of cuticular hydrocarbons and water content in adults.

作者信息

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出版信息

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RESULTS

DISCUSSION

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结果

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