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赤拟谷盗短胚发育模式胚胎的体节形成需要多个Wnt基因。

Multiple Wnt genes are required for segmentation in the short-germ embryo of Tribolium castaneum.

作者信息

Bolognesi Renata, Farzana Laila, Fischer Tamara D, Brown Susan J

机构信息

Division of Biology, Ackert Hall, Kansas State University, Manhattan, Kansas 66502, USA.

出版信息

Curr Biol. 2008 Oct 28;18(20):1624-9. doi: 10.1016/j.cub.2008.09.057.

DOI:10.1016/j.cub.2008.09.057
PMID:18926702
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2603327/
Abstract

wingless (wg)/Wnt family are essential to development in virtually all metazoans. In short-germ insects, including the red flour beetle (Tribolium castaneum), the segment-polarity function of wg is conserved [1]. Wnt signaling is also implicated in posterior patterning and germband elongation [2-4], but despite its expression in the posterior growth zone, Wnt1/wg alone is not responsible for these functions [1-3]. Tribolium contains additional Wnt family genes that are also expressed in the growth zone [5]. After depleting Tc-WntD/8 we found a small percentage of embryos lacking abdominal segments. Additional removal of Tc-Wnt1 significantly enhanced the penetrance of this phenotype. Seeking alternative methods to deplete Wnt signal, we performed RNAi with other components of the Wnt pathway including wntless (wls), porcupine (porc), and pangolin (pan). Tc-wls RNAi caused segmentation defects similar to Tc-Wnt1 RNAi, but not Tc-WntD/8 RNAi, indicating that Tc-WntD/8 function is Tc-wls independent. Depletion of Tc-porc and Tc-pan produced embryos resembling double Tc-Wnt1,Tc-WntD/8 RNAi embryos, suggesting that Tc-porc is essential for the function of both ligands, which signal through the canonical pathway. This is the first evidence of functional redundancy between Wnt ligands in posterior patterning in short-germ insects. This Wnt function appears to be conserved in other arthropods [6] and vertebrates [7-9].

摘要

无翅(wg)/Wnt家族对于几乎所有后生动物的发育都至关重要。在包括赤拟谷盗(Tribolium castaneum)在内的短胚昆虫中,wg的节段极性功能是保守的[1]。Wnt信号传导也与后部模式形成和胚带延伸有关[2-4],但是尽管Wnt1/wg在后部生长区表达,但仅它自身并不负责这些功能[1-3]。赤拟谷盗含有其他也在生长区表达的Wnt家族基因[5]。在耗尽Tc-WntD/8后,我们发现一小部分胚胎缺少腹部节段。进一步去除Tc-Wnt1显著增强了这种表型的发生率。为了寻找耗尽Wnt信号的替代方法,我们对Wnt信号通路的其他组分进行了RNA干扰,包括无翅相关蛋白(wls)、豪猪蛋白(porc)和穿山甲蛋白(pan)。Tc-wls RNA干扰导致的节段缺陷与Tc-Wnt1 RNA干扰相似,但与Tc-WntD/8 RNA干扰不同,这表明Tc-WntD/8的功能不依赖于Tc-wls。耗尽Tc-porc和Tc-pan产生的胚胎类似于双重Tc-Wnt1、Tc-WntD/8 RNA干扰的胚胎,这表明Tc-porc对于通过经典信号通路发挥作用的两种配体的功能都是必不可少的。这是短胚昆虫后部模式形成中Wnt配体之间功能冗余的首个证据。这种Wnt功能似乎在其他节肢动物[6]和脊椎动物[7-9]中是保守的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6686/2603327/3fafc7978eee/nihms77438f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6686/2603327/042e396c0047/nihms77438f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6686/2603327/3fafc7978eee/nihms77438f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6686/2603327/042e396c0047/nihms77438f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6686/2603327/3fafc7978eee/nihms77438f2.jpg

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