Limited Parallelism in Genetic Adaptation to Brackish Water Bodies in European Sprat and Atlantic Herring.

IF 3.2 2区生物学 Q2 EVOLUTIONARY BIOLOGY

Genome Biology and Evolution Pub Date : 2024-07-03 DOI:10.1093/gbe/evae133

Mats E Pettersson, María Quintela, François Besnier, Qiaoling Deng, Florian Berg, Cecilie Kvamme, Dorte Bekkevold, Mai-Britt Mosbech, Ignas Bunikis, Roger Lille-Langøy, Iole Leonori, Andreas Wallberg, Kevin A Glover, Leif Andersson

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引用次数: 0

Abstract

The European sprat is a small plankton-feeding clupeid present in the northeastern Atlantic Ocean, in the Mediterranean Sea, and in the brackish Baltic Sea and Black Sea. This species is the target of a major fishery and, therefore, an accurate characterization of its genetic population structure is crucial to delineate proper stock assessments that aid ensuring the fishery's sustainability. Here, we present (i) a draft genome assembly, (ii) pooled whole genome sequencing of 19 population samples covering most of the species' distribution range, and (iii) the design and test of a single nucleotide polymorphism (SNP)-chip resource and use this to validate the population structure inferred from pooled sequencing. These approaches revealed, using the populations sampled here, three major groups of European sprat: Oceanic, Coastal, and Brackish with limited differentiation within groups even over wide geographical stretches. Genetic structure is largely driven by six large putative inversions that differentiate Oceanic and Brackish sprats, while Coastal populations display intermediate frequencies of haplotypes at each locus. Interestingly, populations from the Baltic and the Black Seas share similar frequencies of haplotypes at these putative inversions despite their distant geographic location. The closely related clupeids European sprat and Atlantic herring both show genetic adaptation to the brackish Baltic Sea, providing an opportunity to explore the extent of genetic parallelism. This analysis revealed limited parallelism because out of 125 independent loci detected in the Atlantic herring, three showed sharp signals of selection that overlapped between the two species and contained single genes such as PRLRA, which encodes the receptor for prolactin, a freshwater-adapting hormone in euryhaline species, and THRB, a receptor for thyroid hormones, important both for metabolic regulation and the development of red cone photoreceptors.

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欧洲鲱鱼和大西洋鲱鱼对咸水水体的遗传适应存在有限的平行性。

欧洲鲱是一种以浮游生物为食的小型羽鳃纲鱼类，生活在大西洋东北部、地中海以及咸水的波罗的海和黑海。该物种是主要的捕捞对象，因此准确描述其遗传种群结构对于进行适当的种群评估以确保渔业的可持续性至关重要。在此，我们介绍了 (i) 基因组组装草案，(ii) 涵盖该物种大部分分布范围的 19 个种群样本的集合全基因组测序，(iii) SNP 芯片资源的设计和测试，并以此验证集合测序推断出的种群结构。这些方法利用在此采样的种群揭示了欧洲鲱鱼的三个主要群体：海洋型、沿海型和咸水型，即使在广阔的地域范围内，群体内部的分化也很有限。遗传结构主要由六个大的推定反转所驱动，这六个反转将海洋鲱鱼和咸水鲱鱼区分开来，而沿海种群则在每个位点上显示出中间频率的单倍型。有趣的是，波罗的海和黑海的鲱鱼种群尽管地理位置遥远，但在这些假定反转位点上却有着相似的单倍型频率。欧洲鲱和大西洋鲱这两种密切相关的褐藻都显示出对波罗的海咸水的遗传适应性，这为探索遗传平行性的程度提供了机会。这项分析揭示了有限的平行性，因为在大西洋鲱鱼中检测到的 125 个独立位点中，有三个位点显示出两个物种之间重叠的尖锐选择信号，并且包含单个基因，如 PRLRA（编码催乳素受体）和 THRB（编码甲状腺激素受体），前者是一种淡水适应性激素，对新陈代谢调节和红锥体光感受器的发育都很重要。

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来源期刊

Genome Biology and Evolution EVOLUTIONARY BIOLOGY-GENETICS & HEREDITY

CiteScore

5.80

自引率

6.10%

发文量

169

审稿时长

1 months

期刊介绍： About the journal Genome Biology and Evolution (GBE) publishes leading original research at the interface between evolutionary biology and genomics. Papers considered for publication report novel evolutionary findings that concern natural genome diversity, population genomics, the structure, function, organisation and expression of genomes, comparative genomics, proteomics, and environmental genomic interactions. Major evolutionary insights from the fields of computational biology, structural biology, developmental biology, and cell biology are also considered, as are theoretical advances in the field of genome evolution. GBE’s scope embraces genome-wide evolutionary investigations at all taxonomic levels and for all forms of life — within populations or across domains. Its aims are to further the understanding of genomes in their evolutionary context and further the understanding of evolution from a genome-wide perspective.