Paralog switching facilitates diadromy: ontogenetic, microevolutionary and macroevolutionary evidence.

IF 2.3 2区 环境科学与生态学 Q2 ECOLOGY
Oecologia Pub Date : 2024-08-01 Epub Date: 2024-07-16 DOI:10.1007/s00442-024-05588-x
Rebecca S Colby, Stephen D McCormick, Jonathan P Velotta, Elizabeth Jockusch, Eric T Schultz
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引用次数: 0

Abstract

Identifying how the demands of migration are met at the level of gene expression is critical for understanding migratory physiology and can potentially reveal how migratory forms evolve from nonmigratory forms and vice versa. Among fishes, migration between freshwater and seawater (diadromy) requires considerable osmoregulatory adjustments, powered by the ion pump Na+, K+-ATPase (NKA) in the gills. Paralogs of the catalytic α-subunit of the pump (NKA α1a and α1b) are reciprocally upregulated in fresh- and seawater, a response known as paralog-switching, in gills of some diadromous species. We tested ontogenetic changes in NKA α-subunit paralog expression patterns, comparing pre-migrant and migrant alewife (Alosa pseudoharengus) sampled in their natal freshwater environment and after 24 h in seawater. In comparison to pre-migrants, juvenile out-migrants exhibited stronger paralog switching via greater downregulation of NKA α1a in seawater. We also tested microevolutionary changes in the response, exposing juvenile diadromous and landlocked alewife to freshwater (0 ppt) and seawater (30 ppt) for 2, 5, and 15 days. Diadromous and landlocked alewife exhibited salinity-dependent paralog switching, but levels of NKA α1b transcription were higher and the decrease in NKA α1a was greater after seawater exposure in diadromous alewife. Finally, we placed alewife α-subunit NKA paralogs in a macroevolutionary context. Molecular phylogenies show alewife paralogs originated independently of paralogs in salmonids and other teleosts. This study demonstrated that NKA paralog switching is tied to halohabitat profile and that duplications of the NKA gene provided the substrate for multiple, independent molecular solutions that support a diadromous life history.

Abstract Image

旁系亲属切换促进双色性:本体进化、微进化和宏进化的证据
确定如何在基因表达水平上满足洄游需求对于了解洄游生理学至关重要,并有可能揭示洄游鱼类如何从非洄游鱼类进化而来,反之亦然。在鱼类中,淡水和海水之间的洄游(双向洄游)需要大量的渗透调节,由鳃中的离子泵 Na+、K+-ATPase(NKA)提供动力。在一些溯河物种的鳃中,该泵催化α亚基的旁系亲属(NKA α1a和α1b)在淡水和海水中相互上调,这种反应被称为旁系亲属切换。我们比较了迁徙前和迁徙后的金目鲷鱼(Alosa pseudoharengus)在其出生地淡水环境中和在海水中 24 小时后的取样,测试了 NKA α-亚基旁系表达模式的本体变化。与迁徙前相比,迁出的幼鱼通过在海水中更大程度地下调 NKA α1a,表现出更强的旁系亲属转换。我们还测试了反应中的微进化变化,将洄游和内陆金目鲷幼鱼分别暴露于淡水(0 ppt)和海水(30 ppt)中 2、5 和 15 天。洄游和内陆金目鲷表现出盐度依赖性的旁系亲属转换,但海水暴露后洄游金目鲷的NKA α1b转录水平更高,NKA α1a的下降幅度更大。最后,我们将金目鲷 α-亚基 NKA 旁系亲属置于宏观进化背景中。分子系统进化显示,金目鲷的旁系亲属起源于独立于鲑科鱼类和其他长尾鱼类的旁系亲属。该研究表明,NKA旁系亲属的切换与半栖息地特征有关,NKA基因的重复为支持洄游生活史的多种独立分子方案提供了基质。
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来源期刊
Oecologia
Oecologia 环境科学-生态学
CiteScore
5.10
自引率
0.00%
发文量
192
审稿时长
5.3 months
期刊介绍: Oecologia publishes innovative ecological research of international interest. We seek reviews, advances in methodology, and original contributions, emphasizing the following areas: Population ecology, Plant-microbe-animal interactions, Ecosystem ecology, Community ecology, Global change ecology, Conservation ecology, Behavioral ecology and Physiological Ecology. In general, studies that are purely descriptive, mathematical, documentary, and/or natural history will not be considered.
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