Comparative analysis of salmonid non-classical MHC class I L lineage genes

IF 2.4 3区农林科学 Q1 FISHERIES

Developmental and comparative immunology Pub Date : 2025-07-16 DOI:10.1016/j.dci.2025.105422

Agata T. Gondek-Wyrozemska, Atefeh Kianian, Eva-Stina Edholm

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引用次数: 0

Abstract

Non-classical MHC class I molecules, which are encoded by a diverse gene family, have a wide range of functions that can be immune- or non-immune related. From an evolutionary perspective, different non-classical MHC class I genes are typically specific to smaller phylogenetic groups and are often not well conserved among species within these groups rendering non-classical MHC phylogeny difficult to establish. Here we perform a comparative analysis spanning non-classical MHC class I L lineage gene content, organization, phylogeny and variability across divergent salmonid species, providing insight into L lineage immune system variation and species-specific adaptations. Based on evolutionary relationships and sequence analysis, salmonid L lineage genes can be classified into three clades, each with distinct features. Clade I gene sequences exhibit significant variation within species, comprising multiple haplotypes and null alleles, as well as notable variations between species, including highly flexible gene numbers and patterns of pseudogenization. Clade I genes comprise eleven subclades, each displaying separate evolutionary patterns, characteristic phylogenetic marker motifs and subclade specific promoter regions, indicative of unique regulatory patterns and subclade specific functional roles. Our study reveals two distinct phylogenetic patterns among these genes: some subclades display a high degree of flexibility, as demonstrated by species specific expansions and contractions, whereas others have been maintained as monogenic subfamilies with remarkably few changes in their nucleotide sequence across divergent species. Comparably, clade II L lineage genes consist of four subclades, among which LIA and LLA genes are full length genes with species specific pseudogenization patterns. We report compelling evidence that the LIA gene lineage is highly conserved and present in all 23 Salmonidae species examined as well as in representative Esociformes. This suggests that genes belonging to the LIA subclade have a conserved and likely biologically important role. This is in stark contrast to clade III genes, consisting of LAA1 and LAA2 gene sequences, which have been rendered non-functional in most species.

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鲑科非经典MHC I类L系基因的比较分析。

非经典MHC I类分子由不同的基因家族编码，具有广泛的免疫或非免疫相关功能。从进化的角度来看，不同的非经典MHC I类基因通常特异于较小的系统发育群体，并且在这些群体中的物种之间往往不太保守，使得非经典MHC系统发育难以建立。在这里，我们对不同鲑科物种的非经典MHC I类L谱系基因含量、组织、系统发育和变异性进行了比较分析，为L谱系免疫系统变异和物种特异性适应提供了见解。基于进化关系和序列分析，鲑鱼L系基因可分为三个分支，每个分支具有不同的特征。进化枝I基因序列在物种内表现出显著的差异，包括多个单倍型和零等位基因，以及物种间的显著差异，包括高度灵活的基因数量和假原化模式。进化支系I基因包括11个亚支系，每个亚支系都显示出独立的进化模式、特征的系统发育标记基序和亚支系特定的启动子区域，表明了独特的调控模式和亚支系特定的功能作用。我们的研究揭示了这些基因之间的两种不同的系统发育模式：一些亚分支显示出高度的灵活性，正如物种特定的扩张和收缩所证明的那样，而其他亚分支则保持为单基因亚家族，其核苷酸序列在不同物种之间的变化非常小。相比之下，进化枝II L谱系基因由4个亚枝组成，其中LIA和LLA基因是全长基因，具有物种特有的假原化模式。我们报告了令人信服的证据，表明LIA基因谱系是高度保守的，存在于所有23种检查的鲑科物种以及代表性的蛇形目中。这表明属于LIA亚枝的基因具有保守的且可能具有重要的生物学作用。这与由LAA1和LAA2基因序列组成的进化支III基因形成鲜明对比，在大多数物种中，LAA1和LAA2基因序列已经失效。

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来源期刊

Developmental and comparative immunology 医学-动物学

CiteScore

6.20

自引率

6.90%

发文量

206

审稿时长

49 days

期刊介绍： Developmental and Comparative Immunology (DCI) is an international journal that publishes articles describing original research in all areas of immunology, including comparative aspects of immunity and the evolution and development of the immune system. Manuscripts describing studies of immune systems in both vertebrates and invertebrates are welcome. All levels of immunological investigations are appropriate: organismal, cellular, biochemical and molecular genetics, extending to such fields as aging of the immune system, interaction between the immune and neuroendocrine system and intestinal immunity.