脊椎动物 TLR1 基因家族的分子进化——基因复制、基因转换、正选择和共同进化的复杂历史。

Molecular evolution of the vertebrate TLR1 gene family--a complex history of gene duplication, gene conversion, positive selection and co-evolution.

机构信息

Division of Genetics and Genomics, The Roslin Institute and R(D)SVS, University of Edinburgh, Roslin, Midlothian EH25 9PS, UK.

出版信息

BMC Evol Biol. 2011 May 28;11:149. doi: 10.1186/1471-2148-11-149.

DOI:10.1186/1471-2148-11-149

PMID:21619680

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3125219/

Abstract

BACKGROUND

The Toll-like receptors represent a large superfamily of type I transmembrane glycoproteins, some common to a wide range of species and others are more restricted in their distribution. Most members of the Toll-like receptor superfamily have few paralogues; the exception is the TLR1 gene family with four closely related genes in mammals TLR1, TLR2, TLR6 and TLR10, and four in birds TLR1A, TLR1B, TLR2A and TLR2B. These genes were previously thought to have arisen by a series of independent gene duplications. To understand the evolutionary pattern of the TLR1 gene family in vertebrates further, we cloned the sequences of TLR1A, TLR1B, TLR2A and TLR2B in duck and turkey, constructed phylogenetic trees, predicted codons under positive selection and identified co-evolutionary amino acid pairs within the TLR1 gene family using sequences from 4 birds, 28 mammals, an amphibian and a fish.

RESULTS

This detailed phylogenetic analysis not only clarifies the gene gains and losses within the TLR1 gene family of birds and mammals, but also defines orthologues between these vertebrates. In mammals, we predict amino acid sites under positive selection in TLR1, TLR2 and TLR6 but not TLR10. We detect co-evolution between amino acid residues in TLR2 and the other members of this gene family predicted to maintain their ability to form functional heterodimers. In birds, we predict positive selection in the TLR2A and TLR2B genes at functionally significant amino acid residues. We demonstrate that the TLR1 gene family has mostly been subject to purifying selection but has also responded to directional selection at a few sites, possibly in response to pathogen challenge.

CONCLUSIONS

Our phylogenetic and structural analyses of the vertebrate TLR1 family have clarified their evolutionary origins and predict amino acid residues likely to be important in the host's defense against invading pathogens.

摘要

背景

Toll 样受体是一大类 I 型跨膜糖蛋白超家族，其中一些在广泛的物种中普遍存在，而另一些则在分布上更为局限。Toll 样受体超家族的大多数成员仅有少数几个旁系同源物；TLR1 基因家族是个例外，该家族在哺乳动物中有 4 个密切相关的基因（TLR1、TLR2、TLR6 和 TLR10），在鸟类中有 4 个（TLR1A、TLR1B、TLR2A 和 TLR2B）。这些基因以前被认为是通过一系列独立的基因复制而产生的。为了进一步了解脊椎动物 TLR1 基因家族的进化模式，我们克隆了鸭和火鸡的 TLR1A、TLR1B、TLR2A 和 TLR2B 序列，构建了系统发育树，预测了正选择下的密码子，并使用来自 4 种鸟类、28 种哺乳动物、一种两栖动物和一种鱼类的序列鉴定了 TLR1 基因家族内的共进化氨基酸对。

结果

这种详细的系统发育分析不仅阐明了鸟类和哺乳动物 TLR1 基因家族内的基因获得和缺失，还定义了这些脊椎动物之间的同源物。在哺乳动物中，我们预测了 TLR1、TLR2 和 TLR6 中的正选择氨基酸位点，但 TLR10 则没有。我们检测到 TLR2 与该基因家族的其他成员之间的氨基酸残基的共进化，这些成员被预测能够形成功能异二聚体。在鸟类中，我们预测 TLR2A 和 TLR2B 基因在功能重要的氨基酸残基上存在正选择。我们证明 TLR1 基因家族主要受到纯化选择的影响，但也在少数位点上对定向选择作出了反应，可能是对病原体的挑战作出了反应。

结论

我们对脊椎动物 TLR1 家族的系统发育和结构分析阐明了它们的进化起源，并预测了在宿主抵御入侵病原体的防御中可能很重要的氨基酸残基。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/066a/3125219/200e2349e4af/1471-2148-11-149-1.jpg

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脊椎动物 TLR1 基因家族的分子进化——基因复制、基因转换、正选择和共同进化的复杂历史。

Molecular evolution of the vertebrate TLR1 gene family--a complex history of gene duplication, gene conversion, positive selection and co-evolution.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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