Using transcriptomics to examine the physiological status of wild-caught walleye (Sander vitreus)

IF 2.9 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Facets Pub Date : 2023-01-01 DOI:10.1139/facets-2022-0177
J. D. Jeffrey, M. Thorstensen, E. Enders, Jason R. Treberg, K. Jeffries
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Abstract

Lake Winnipeg, Manitoba, is Canada’s second largest commercial inland freshwater fishery, and concern over collapse of the walleye fishery is growing. Molecular techniques have been increasingly used to study responses of wild organisms to environmental and anthropogenic stressors. The present study used transcriptomics to examine the physiology of wild-caught walleye ( Sander vitreus (Mitchell, 1818)) across Lake Winnipeg using non-lethal techniques. Gill transcriptomes of walleye sampled from the north and south basins of Lake Winnipeg, and the channel connecting them, exhibited distinct profiles implicating regionally specific biological responses. North basin walleye exhibited transcriptomic responses indicative of exposure to environmental stressors. Transcriptomic patterns suggested a shift to increased reliance on anaerobic metabolism and up-regulation of hypoxia-sensitive genes in north basin fish, possibly representing exposure to low-oxygen conditions. Exposure to environmental stressors may also have driven increases in gene transcripts associated with proteasomal catabolism, DNA repair, molecular chaperones, and ion regulation. North basin fish also exhibited transcriptomic patterns indicative of gill remodeling via regulation of the mTOR pathway, cytoskeleton reorganization, and fatty acid synthesis. Our results highlight the complexity of examining wild fish across environmental gradients but also the potential use of molecular techniques in elucidating organismal sensitivity to local environmental factors.
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利用转录组学方法检测野生大眼睛(Sander vitreus)的生理状态
马尼托巴省温尼伯湖是加拿大第二大商业内陆淡水渔业,人们越来越担心大眼鱼渔业的崩溃。分子技术越来越多地被用于研究野生生物对环境和人为压力源的反应。本研究使用转录组学方法,使用非致死性技术,对温尼伯湖野生捕获的walleye(Sander vitreus(Mitchell,1818))的生理学进行了研究。从温尼伯湖北部和南部盆地采样的walleye的Gill转录组,以及连接它们的通道,表现出不同的特征,暗示了区域特异性的生物反应。北盆地walleye表现出转录组反应,表明暴露于环境压力源。转录组学模式表明,北流域鱼类对厌氧代谢的依赖性增加,缺氧敏感基因上调,这可能代表暴露在低氧条件下。暴露于环境应激源也可能导致与蛋白酶体分解代谢、DNA修复、分子伴侣和离子调节相关的基因转录物增加。北池鱼类也表现出转录组模式,表明通过调节mTOR途径、细胞骨架重组和脂肪酸合成来重塑鳃。我们的研究结果突出了跨环境梯度检查野生鱼类的复杂性,也突出了分子技术在阐明生物体对当地环境因素的敏感性方面的潜在用途。
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来源期刊
Facets
Facets MULTIDISCIPLINARY SCIENCES-
CiteScore
5.40
自引率
6.50%
发文量
48
审稿时长
28 weeks
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