High functional allelic diversity and copy number in both MHC classes in the common buzzard.

Jamie Winternitz, Nayden Chakarov, Tony Rinaud, Meinolf Ottensmann, Oliver Krüger
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Abstract

Background: The major histocompatibility complex (MHC), which encodes molecules that recognize various pathogens and parasites and initiates the adaptive immune response in vertebrates, is renowned for its exceptional polymorphism and is a model of adaptive gene evolution. In birds, the number of MHC genes and sequence diversity varies greatly among taxa, believed due to evolutionary history and differential selection pressures. Earlier characterization studies and recent comparative studies suggest that non-passerine species have relatively few MHC gene copies compared to passerines. Additionally, comparative studies that have looked at partial MHC sequences have speculated that non-passerines have opposite patterns of selection on MHC class I (MHC-I) and class II (MHC-II) loci than passerines: namely, greater sequence diversity and signals of selection on MHC-II than MHC-I. However, new sequencing technology is revealing much greater MHC variation than previously expected while also facilitating full sequence variant detection directly from genomic data. Our study aims to take advantage of high-throughput sequencing methods to fully characterize both classes and domains of MHC of a non-passerine bird of prey, the common buzzard (Buteo buteo), to test predictions of MHC variation and differential selection on MHC classes.

Results: Using genetic, genomic, and transcriptomic high-throughput sequencing data, we established common buzzards have at least three loci that produce functional alleles at both MHC classes. In total, we characterize 91 alleles from 113 common buzzard chicks for MHC-I exon 3 and 41 alleles from 125 chicks for MHC-IIB exon 2. Among these alleles, we found greater sequence polymorphism and stronger diversifying selection at MHC-IIB exon 2 than MHC-I exon 3, suggesting differential selection pressures on MHC classes. However, upon further investigation of the entire peptide-binding groove by including genomic data from MHC-I exon 2 and MHC-IIA exon 2, this turned out to be false. MHC-I exon 2 was as polymorphic as MHC-IIB exon 2 and MHC-IIA exon 2 was essentially invariant. Thus, comparisons between MHC-I and MHC-II that included both domains of the peptide-binding groove showed no differences in polymorphism nor diversifying selection between the classes. Nevertheless, selection analysis indicates balancing selection has been acting on common buzzard MHC and phylogenetic inference revealed that trans-species polymorphism is present between common buzzards and species separated for over 33 million years for class I and class II.

Conclusions: We characterize and confirm the functionality of unexpectedly high copy number and allelic diversity in both MHC classes of a bird of prey. While balancing selection is acting on both classes, there is no evidence of differential selection pressure on MHC classes in common buzzards and this result may hold more generally once more data for understudied MHC exons becomes available.

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普通鵟两个 MHC 类别中的高功能等位基因多样性和拷贝数。
背景:主要组织相容性复合体(MHC)编码识别各种病原体和寄生虫的分子,并启动脊椎动物的适应性免疫反应。在鸟类中,不同类群的 MHC 基因数量和序列多样性差异很大,这可能是由于进化历史和不同的选择压力造成的。早期的特征研究和最近的比较研究表明,与通行鸟类相比,非通行鸟类物种的 MHC 基因拷贝数相对较少。此外,对部分 MHC 序列进行的比较研究推测,非通行鸟类在 MHC I 类(MHC-I)和 II 类(MHC-II)基因座上的选择模式与通行鸟类相反:即 MHC-II 的序列多样性和选择信号大于 MHC-I。然而,新的测序技术所揭示的 MHC 变异比以前预期的要大得多,同时也为直接从基因组数据中检测全序列变异提供了便利。我们的研究旨在利用高通量测序方法全面描述一种非食肉类鸟类--普通鵟(Buteo buteo)--的 MHC 两类和两个域,以检验对 MHC 变异和 MHC 类差异选择的预测:结果:利用遗传、基因组和转录组高通量测序数据,我们确定普通鵟至少有三个位点能产生两个MHC类别的功能等位基因。我们从113只普通鵟雏鸟身上共鉴定出91个MHC-I外显子3等位基因,从125只雏鸟身上共鉴定出41个MHC-IIB外显子2等位基因。在这些等位基因中,我们发现 MHC-IIB 第 2 号外显子的序列多态性比 MHC-I 第 3 号外显子的序列多态性更高,且多样化选择更强,这表明 MHC 类的选择压力不同。然而,通过纳入 MHC-I 第 2 号外显子和 MHC-IIA 第 2 号外显子的基因组数据,对整个肽结合沟进行进一步研究后发现,这种说法是错误的。MHC-I 第 2 号外显子与 MHC-IIB 第 2 号外显子一样具有多态性,而 MHC-IIA 第 2 号外显子基本上没有变化。因此,对 MHC-I 和 MHC-II 进行比较(包括肽结合沟的两个结构域)后发现,这两个类别之间在多态性和多样化选择方面没有差异。尽管如此,选择分析表明平衡选择一直作用于普通鵟的MHC,而系统发育推断显示,普通鵟与分离了3300多万年的I类和II类物种之间存在跨物种多态性:我们描述并证实了一种猛禽的两个 MHC 类别中出乎意料的高拷贝数和等位基因多样性的功能。尽管平衡选择作用于两个类别,但没有证据表明普通鵟的MHC类别存在不同的选择压力,一旦有更多未被充分研究的MHC外显子的数据,这一结果可能会更加普遍。
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