Dorothea Heimeier, Ellen C. Garland, Franca Eichenberger, Claire Garrigue, Adriana Vella, C. Scott Baker, Emma L. Carroll
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We extracted full-length gene sequences to design pan-cetacean primers that amplified the complete exon 2 from MHC class I and IIa genes in one combined sequencing panel. We validated this panel in 19 cetacean species and described 354 alleles for both classes. Furthermore, we identified likely assembly artefacts for many MHC class I assemblies based on the presence of class I genes in the amplicon data compared to missing genes from genomes. Finally, we investigated MHC diversity using the panel in 25 humpback and 30 southern right whales, including four paternity trios for humpback whales. This revealed copy-number variable class I haplotypes in humpback whales, which is likely a common phenomenon across cetaceans. 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引用次数: 0
摘要
主要组织相容性复合体(MHC)是一个高度多态的基因家族,在免疫中起着至关重要的作用,其多样性可有效地用作种群的适应性标记。尽管如此,主要组织相容性复合体在非模式物种(如鲸类:鲸鱼、海豚和鼠海豚)中的特性仍然很差,因为高基因拷贝数变异,尤其是在快速进化的 I 类区域,使得基因组序列分析变得困难。迄今为止,只有一小部分 I 类和 IIa 类基因被用于评估鲸目动物种群的功能多样性。在这里,我们对现有鲸目动物基因组中的 MHC I 类和 IIa 区域进行了系统的特征描述。我们提取了全长基因序列来设计泛鲸类引物,在一个组合测序面板中扩增 MHC I 类和 IIa 基因的完整外显子 2。我们在 19 个鲸目动物物种中验证了该测序板,并描述了这两类基因的 354 个等位基因。此外,根据扩增子数据中 I 类基因的存在与基因组中缺失基因的比较,我们确定了许多 MHC I 类基因组合可能存在的组合假象。最后,我们在 25 头座头鲸和 30 头南露脊鲸中使用面板研究了 MHC 多样性,其中包括座头鲸的四个亲子鉴定三组。这揭示了座头鲸中拷贝数可变的 I 类单倍型,这可能是鲸类的一个普遍现象。这些 MHC 等位基因将成为免疫多态性数据库(IPD-MHC)鲸类分支的基础,IPD-MHC 是一个经过整理的资源,旨在帮助系统地汇编多个物种的 MHC 等位基因,以支持保护计划。
A pan-cetacean MHC amplicon sequencing panel developed and evaluated in combination with genome assemblies
The major histocompatibility complex (MHC) is a highly polymorphic gene family that is crucial in immunity, and its diversity can be effectively used as a fitness marker for populations. Despite this, MHC remains poorly characterised in non-model species (e.g., cetaceans: whales, dolphins and porpoises) as high gene copy number variation, especially in the fast-evolving class I region, makes analyses of genomic sequences difficult. To date, only small sections of class I and IIa genes have been used to assess functional diversity in cetacean populations. Here, we undertook a systematic characterisation of the MHC class I and IIa regions in available cetacean genomes. We extracted full-length gene sequences to design pan-cetacean primers that amplified the complete exon 2 from MHC class I and IIa genes in one combined sequencing panel. We validated this panel in 19 cetacean species and described 354 alleles for both classes. Furthermore, we identified likely assembly artefacts for many MHC class I assemblies based on the presence of class I genes in the amplicon data compared to missing genes from genomes. Finally, we investigated MHC diversity using the panel in 25 humpback and 30 southern right whales, including four paternity trios for humpback whales. This revealed copy-number variable class I haplotypes in humpback whales, which is likely a common phenomenon across cetaceans. These MHC alleles will form the basis for a cetacean branch of the Immuno-Polymorphism Database (IPD-MHC), a curated resource intended to aid in the systematic compilation of MHC alleles across several species, to support conservation initiatives.
期刊介绍:
Molecular Ecology Resources promotes the creation of comprehensive resources for the scientific community, encompassing computer programs, statistical and molecular advancements, and a diverse array of molecular tools. Serving as a conduit for disseminating these resources, the journal targets a broad audience of researchers in the fields of evolution, ecology, and conservation. Articles in Molecular Ecology Resources are crafted to support investigations tackling significant questions within these disciplines.
In addition to original resource articles, Molecular Ecology Resources features Reviews, Opinions, and Comments relevant to the field. The journal also periodically releases Special Issues focusing on resource development within specific areas.