大型溞的蛋白质组学分析揭示了参与防御性可塑性反应的分子途径。

Proteomic analysis of Daphnia magna hints at molecular pathways involved in defensive plastic responses.

作者信息

Otte Kathrin A, Fröhlich Thomas, Arnold Georg J, Laforsch Christian

机构信息

Animal Ecology I, Bayreuth University, 95440 Bayreuth, Germany.

出版信息

BMC Genomics. 2014 Apr 24;15:306. doi: 10.1186/1471-2164-15-306.

DOI:10.1186/1471-2164-15-306

PMID:24762235

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4236883/

Abstract

BACKGROUND

Phenotypic plasticity in defensive traits occurs in many species when facing heterogeneous predator regimes. The waterflea Daphnia is well-known for showing a variety of these so called inducible defences. However, molecular mechanisms underlying this plasticity are poorly understood so far. We performed proteomic analysis on Daphnia magna exposed to chemical cues of the predator Triops cancriformis. D. magna develops an array of morphological changes in the presence of Triops including changes of carapace morphology and cuticle hardening.

RESULTS

Using the 2D-DIGE technique, 1500 protein spots could be matched and quantified. We discovered 179 protein spots with altered intensity when comparing Triops exposed animals to a control group, and 69 spots were identified using nano-LC MS/MS. Kairomone exposure increased the intensity of spots containing muscle proteins, cuticle proteins and chitin-modifying enzymes as well as enzymes of carbohydrate and energy metabolism. The yolk precursor protein vitellogenin decreased in abundance in 41 of 43 spots.

CONCLUSION

Identified proteins may be either directly involved in carapace stability or reflect changes in energy demand and allocation costs in animals exposed to predator kairomones. Our results present promising candidate proteins involved in the expression of inducible defences in Daphnia and enable further in depth analysis of this phenomenon.

摘要

背景

许多物种在面对不同的捕食者环境时，其防御性状会出现表型可塑性。水蚤（水溞）以表现出多种此类所谓的诱导性防御而闻名。然而，迄今为止，这种可塑性背后的分子机制仍知之甚少。我们对暴露于捕食者鲎虫化学信号下的大型溞进行了蛋白质组学分析。在鲎虫存在的情况下，大型溞会出现一系列形态变化，包括甲壳形态的改变和表皮硬化。

结果

使用二维差异凝胶电泳（2D-DIGE）技术，可以匹配和定量1500个蛋白质斑点。在将暴露于鲎虫的动物与对照组进行比较时，我们发现了179个强度改变的蛋白质斑点，并使用纳升液相色谱串联质谱（nano-LC MS/MS）鉴定了69个斑点。信息素暴露增加了含有肌肉蛋白、表皮蛋白和几丁质修饰酶以及碳水化合物和能量代谢酶的斑点强度。卵黄前体蛋白卵黄蛋白原在43个斑点中的41个斑点中丰度降低。

结论

鉴定出的蛋白质可能直接参与甲壳稳定性，或反映暴露于捕食者信息素的动物的能量需求和分配成本变化。我们的结果展示了参与大型溞诱导性防御表达的有前景的候选蛋白质，并能够对这一现象进行进一步深入分析。

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大型溞的蛋白质组学分析揭示了参与防御性可塑性反应的分子途径。

Proteomic analysis of Daphnia magna hints at molecular pathways involved in defensive plastic responses.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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