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管腔是 Toll 途径中 IRAK-4 的同源物,其适用于发育和免疫。

Tube Is an IRAK-4 homolog in a Toll pathway adapted for development and immunity.

机构信息

Division of Biological Sciences, University of California at San Diego, La Jolla, CA 92093-0349, USA.

出版信息

J Innate Immun. 2009;1(4):309-21. doi: 10.1159/000200773.

DOI:10.1159/000200773
PMID:19498957
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2690232/
Abstract

Acting through the Pelle and IRAK family of protein kinases, Toll receptors mediate innate immune responses in animals ranging from insects to humans. In flies, the Toll pathway also functions in patterning of the syncytial embryo and requires Tube, a Drosophila -specific adaptor protein lacking a catalytic domain. Here we provide evidence that the Tube, Pelle, and IRAK proteins originated from a common ancestral gene. Following gene duplication, IRAK-4, Tube-like kinases, and Tube diverged from IRAK-1, Pelle, and related kinases. Remarkably, the function of Tube and Pelle in Drosophila embryos can be reconstituted in a chimera modeled on the predicted progenitor gene. In addition, a divergent property of downstream transcription factors was correlated with developmental function. Together, these studies reveal previously unrecognized parallels in Toll signaling in fly and human innate immunity and shed light on the evolution of pathway organization and function.

摘要

通过 Pelle 和 IRAK 蛋白激酶家族,Toll 受体在从昆虫到人类等动物中介导先天免疫反应。在果蝇中,Toll 途径还在合胞胚胎的模式形成中发挥作用,需要 Tube,一种缺乏催化结构域的果蝇特异性衔接蛋白。在这里,我们提供的证据表明,Tube、Pelle 和 IRAK 蛋白起源于一个共同的祖先基因。在基因复制后,IRAK-4、Tube 样激酶和 Tube 从 IRAK-1、Pelle 和相关激酶中分化出来。值得注意的是,在基于预测的祖基因构建的嵌合体中,果蝇胚胎中 Tube 和 Pelle 的功能可以被重建。此外,下游转录因子的一个分歧特性与发育功能相关。这些研究揭示了果蝇和人类先天免疫中 Toll 信号的以前未被认识到的相似性,并阐明了途径组织和功能的进化。

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