M.Y. Ozerov , K. Noreikiene , S. Kahar , M. Flajšhans , R. Gross , A. Vasemägi
{"title":"多种组织的差异表达和替代剪接分析揭示了威尔斯鲶(Silurus glanis)的白化病相关基因。","authors":"M.Y. Ozerov , K. Noreikiene , S. Kahar , M. Flajšhans , R. Gross , A. Vasemägi","doi":"10.1016/j.cbpb.2024.110941","DOIUrl":null,"url":null,"abstract":"<div><p>Albinism is a widespread departure from a typical body colouration due to altered melanin production. The Wels catfish (<em>Silurus glanis</em>) is among the largest freshwater fish species in the world, and albino individuals occur both in the wild and in aquaculture. Here, we performed transcriptome-wide analysis of albino and normally pigmented <em>S. glanis</em> using four tissues (skin, dorsal fin, whole eye and liver) to identify genes associated with albinism by exploring patterns of differential expression (DE) and differential alternative splicing (DAS). Multi-tissue analyses revealed a large number of genes in skin (<em>n</em> = 1355) and fin (<em>n</em> = 614) tissue associated with the albino phenotype in <em>S. glanis</em>, while the number of DE genes in eye and liver tissues was lower (<em>n</em> = 188, <em>n</em> = 189, respectively). Several DE genes across multiple tissues were detected as the most promising candidates (e.g., <em>hsp4</em>, <em>hsp90b1</em>, <em>raph1</em>, <em>uqcrfs1</em>, <em>adcy</em>-family and <em>wnt</em>-family) potentially causally linked to the albino phenotype in Wels catfish. Moreover, our findings supported earlier observations of physiological differences between albino and normally pigmented individuals, particularly in energy metabolism and immune response. In contrast, there were only a few pigmentation-related genes observed among DAS genes (4 in skin, 2 in fin), the overlap between DAS and DE genes was low (<em>n</em> = 25) and did not include known pigmentation-related genes. This suggests that DAS and DE in Wels catfish are, to a large extent, independent processes, and the observed alternative splicing cases are probably not causally linked with albinism in <em>S. glanis</em>. This work provides the first transcriptome-wide multi-tissue insights into the albinism of Wels catfish and serves as a valuable resource for further understanding the genetic mechanisms of pigmentation in fish.</p></div>","PeriodicalId":1,"journal":{"name":"Accounts of Chemical Research","volume":null,"pages":null},"PeriodicalIF":16.4000,"publicationDate":"2024-01-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1096495924000083/pdfft?md5=e3a89b5ac32ad779260751a437e86ab3&pid=1-s2.0-S1096495924000083-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Differential expression and alternative splicing analyses of multiple tissues reveal albinism-associated genes in the Wels catfish (Silurus glanis)\",\"authors\":\"M.Y. Ozerov , K. Noreikiene , S. Kahar , M. Flajšhans , R. Gross , A. 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Several DE genes across multiple tissues were detected as the most promising candidates (e.g., <em>hsp4</em>, <em>hsp90b1</em>, <em>raph1</em>, <em>uqcrfs1</em>, <em>adcy</em>-family and <em>wnt</em>-family) potentially causally linked to the albino phenotype in Wels catfish. Moreover, our findings supported earlier observations of physiological differences between albino and normally pigmented individuals, particularly in energy metabolism and immune response. In contrast, there were only a few pigmentation-related genes observed among DAS genes (4 in skin, 2 in fin), the overlap between DAS and DE genes was low (<em>n</em> = 25) and did not include known pigmentation-related genes. This suggests that DAS and DE in Wels catfish are, to a large extent, independent processes, and the observed alternative splicing cases are probably not causally linked with albinism in <em>S. glanis</em>. 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引用次数: 0
摘要
白化病是由于黑色素生成改变而导致的一种普遍的典型体色偏离。威尔斯鲶(Silurus glanis)是世界上最大的淡水鱼类之一,在野生和水产养殖中都会出现白化个体。在此,我们利用四种组织(皮肤、背鳍、全眼和肝脏)对白化鲶鱼和正常色素鲶鱼进行了全转录组分析,通过探索差异表达(DE)和差异替代剪接(DAS)的模式来确定与白化病相关的基因。多组织分析表明,皮肤(n = 1355)和背鳍(n = 614)组织中有大量基因与草鱼的白化表型有关,而眼睛和肝脏组织中的 DE 基因数量较少(分别为 n = 188 和 n = 189)。在多个组织中检测到的几个 DE 基因(如 hsp4、hsp90b1、raph1、uqcrfs1、adcy-family 和 wnt-family)可能与威尔斯鲶鱼的白化表型有因果关系。此外,我们的研究结果还支持了早先观察到的白化个体与正常色素个体之间的生理差异,尤其是在能量代谢和免疫反应方面。与此相反,在 DAS 基因中只观察到少数与色素沉着相关的基因(皮肤 4 个,鳍 2 个),DAS 基因与 DE 基因的重叠率很低(n = 25),而且不包括已知的色素沉着相关基因。这表明威尔斯鲶鱼的 DAS 和 DE 在很大程度上是独立的过程,观察到的替代剪接情况可能与白化病没有因果关系。这项研究首次在转录组范围内对威尔斯鲶的白化病进行了多组织研究,为进一步了解鱼类色素沉着的遗传机制提供了宝贵的资料。
Differential expression and alternative splicing analyses of multiple tissues reveal albinism-associated genes in the Wels catfish (Silurus glanis)
Albinism is a widespread departure from a typical body colouration due to altered melanin production. The Wels catfish (Silurus glanis) is among the largest freshwater fish species in the world, and albino individuals occur both in the wild and in aquaculture. Here, we performed transcriptome-wide analysis of albino and normally pigmented S. glanis using four tissues (skin, dorsal fin, whole eye and liver) to identify genes associated with albinism by exploring patterns of differential expression (DE) and differential alternative splicing (DAS). Multi-tissue analyses revealed a large number of genes in skin (n = 1355) and fin (n = 614) tissue associated with the albino phenotype in S. glanis, while the number of DE genes in eye and liver tissues was lower (n = 188, n = 189, respectively). Several DE genes across multiple tissues were detected as the most promising candidates (e.g., hsp4, hsp90b1, raph1, uqcrfs1, adcy-family and wnt-family) potentially causally linked to the albino phenotype in Wels catfish. Moreover, our findings supported earlier observations of physiological differences between albino and normally pigmented individuals, particularly in energy metabolism and immune response. In contrast, there were only a few pigmentation-related genes observed among DAS genes (4 in skin, 2 in fin), the overlap between DAS and DE genes was low (n = 25) and did not include known pigmentation-related genes. This suggests that DAS and DE in Wels catfish are, to a large extent, independent processes, and the observed alternative splicing cases are probably not causally linked with albinism in S. glanis. This work provides the first transcriptome-wide multi-tissue insights into the albinism of Wels catfish and serves as a valuable resource for further understanding the genetic mechanisms of pigmentation in fish.
期刊介绍:
Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance.
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