无翅基因是猫眼蛱蝶眼斑颜色图案的正向调节因子。

Wingless is a positive regulator of eyespot color patterns in Bicyclus anynana butterflies.

作者信息

Özsu Nesibe, Chan Qian Yi, Chen Bin, Gupta Mainak Das, Monteiro Antónia

机构信息

Biological Sciences, National University of Singapore, Singapore 117543, Singapore.

出版信息

Dev Biol. 2017 Sep 1;429(1):177-185. doi: 10.1016/j.ydbio.2017.06.030. Epub 2017 Jun 28.

DOI:10.1016/j.ydbio.2017.06.030

PMID:28668322

Abstract

Eyespot patterns of nymphalid butterflies are an example of a novel trait yet, the developmental origin of eyespots is still not well understood. Several genes have been associated with eyespot development but few have been tested for function. One of these genes is the signaling ligand, wingless, which is expressed in the eyespot centers during early pupation and may function in eyespot signaling and color ring differentiation. Here we tested the function of wingless in wing and eyespot development by down-regulating it in transgenic Bicyclus anynana butterflies via RNAi driven by an inducible heat-shock promoter. Heat-shocks applied during larval and early pupal development led to significant decreases in wingless mRNA levels and to decreases in eyespot size and wing size in adult butterflies. We conclude that wingless is a positive regulator of eyespot and wing development in B. anynana butterflies.

摘要

蛱蝶科蝴蝶的眼状斑纹是一种新性状的实例，然而，眼状斑纹的发育起源仍未得到很好的理解。几个基因已与眼状斑纹发育相关联，但很少有基因经过功能测试。其中一个基因是信号配体无翅基因（wingless），它在化蛹初期在眼状斑纹中心表达，可能在眼状斑纹信号传导和色环分化中发挥作用。在此，我们通过由可诱导热休克启动子驱动的RNA干扰在转基因非洲苎麻蛱蝶（Bicyclus anynana）中下调无翅基因，测试了其在翅膀和眼状斑纹发育中的功能。在幼虫和化蛹初期发育期间施加热休克导致成年蝴蝶中无翅基因的mRNA水平显著降低，以及眼状斑纹大小和翅膀大小减小。我们得出结论，无翅基因是非洲苎麻蛱蝶眼状斑纹和翅膀发育的正向调节因子。

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无翅基因是猫眼蛱蝶眼斑颜色图案的正向调节因子。

Wingless is a positive regulator of eyespot color patterns in Bicyclus anynana butterflies.

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