Natacha Koenig , Patrice Baa-Puyoulet , Amélie Lafont , Isis Lorenzo-Colina , Vincent Navratil , Maxime Leprêtre , Kevin Sugier , Nicolas Delorme , Laura Garnero , Hervé Queau , Jean-Charles Gaillard , Mélodie Kielbasa , Sophie Ayciriex , Federica Calevro , Arnaud Chaumot , Hubert Charles , Jean Armengaud , Olivier Geffard , Davide Degli Esposti
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In this study we used a multi-omics approach to reconstruct the most comprehensive map of metabolic pathways for a crustacean model in biomonitoring, the amphipod <em>Gammarus fossarum</em> in order to improve the knowledge of the metabolism of this sentinel species.</p><p>We revisited the assembly of RNA-seq data by de novo approaches to reduce RNA contaminants and transcript redundancy. We also acquired extensive mass spectrometry shotgun proteomic data on several organs from a reference population of <em>G. fossarum</em> males and females to identify organ-specific metabolic profiles.</p><p>The <em>G. fossarum</em> metabolic pathway reconstruction (available through the metabolic database GamfoCyc) was performed by adapting the genomic tool CycADS and we identified 377 pathways representing 7630 annotated enzymes, 2610 enzymatic reactions and the expression of 858 enzymes was experimentally validated by proteomics. To our knowledge, our analysis provides for the first time a systematic metabolic pathway reconstruction and the proteome profiles of these pathways at the organ level in this sentinel species. As an example, we show an elevated abundance in enzymes involved in ATP biosynthesis and fatty acid beta-oxidation indicative of the high-energy requirement of the gills, or the key anabolic and detoxification role of the hepatopancreatic caeca, as exemplified by the specific expression of the retinoid biosynthetic pathways and glutathione synthesis.</p><p>In conclusion, the multi-omics data integration performed in this study provides new resources to investigate metabolic processes in crustacean amphipods and their role in mediating the effects of environmental contaminant exposures in sentinel species.</p></div><div><h3>Synopsis</h3><p>This study provide the first evidence that it is possible to combine multiple omics data to exhaustively describe the metabolic network of a model species in ecotoxicology, <em>Gammarus fossarum</em>, for which a reference genome is not yet available.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-09-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Proteogenomic reconstruction of organ-specific metabolic networks in an environmental sentinel species, the amphipod Gammarus fossarum\",\"authors\":\"Natacha Koenig , Patrice Baa-Puyoulet , Amélie Lafont , Isis Lorenzo-Colina , Vincent Navratil , Maxime Leprêtre , Kevin Sugier , Nicolas Delorme , Laura Garnero , Hervé Queau , Jean-Charles Gaillard , Mélodie Kielbasa , Sophie Ayciriex , Federica Calevro , Arnaud Chaumot , Hubert Charles , Jean Armengaud , Olivier Geffard , Davide Degli Esposti\",\"doi\":\"10.1016/j.cbd.2024.101323\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Metabolic pathways are affected by the impacts of environmental contaminants underlying a large variability of toxic effects across different species. 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引用次数: 0
摘要
代谢途径受到环境污染物的影响,不同物种的毒性效应存在很大差异。然而,由于许多动物多样性类群缺乏可用的基因组数据,在环境哨点物种中系统性地重建代谢途径仍然受到限制。在这项研究中,我们采用多组学方法为生物监测中的甲壳类动物模型--两足类的福寿螺(Gammarus fossarum)重建了最全面的代谢途径图谱,以增进对这一哨兵物种代谢的了解。我们利用基因组工具 CycADS 进行了 G. fossarum 代谢途径重建(可通过代谢数据库 GamfoCyc 获取),并确定了代表 7630 个注释酶、2610 个酶反应的 377 个途径,通过蛋白质组学实验验证了 858 个酶的表达。据我们所知,我们的分析首次在这一哨兵物种的器官水平上提供了系统的代谢途径重建和这些途径的蛋白质组图谱。例如,我们发现参与 ATP 生物合成和脂肪酸β-氧化的酶的丰度升高,这表明鳃需要高能量,或者肝胰脏盲肠起着关键的合成代谢和解毒作用,维甲酸生物合成途径和谷胱甘肽合成的特异性表达就是例证。总之,本研究中进行的多组学数据整合为研究甲壳类片脚类动物的代谢过程及其在介导环境污染物暴露对哨点物种的影响方面的作用提供了新资源。
Proteogenomic reconstruction of organ-specific metabolic networks in an environmental sentinel species, the amphipod Gammarus fossarum
Metabolic pathways are affected by the impacts of environmental contaminants underlying a large variability of toxic effects across different species. However, the systematic reconstruction of metabolic pathways remains limited in environmental sentinel species due to the lack of available genomic data in many taxa of animal diversity. In this study we used a multi-omics approach to reconstruct the most comprehensive map of metabolic pathways for a crustacean model in biomonitoring, the amphipod Gammarus fossarum in order to improve the knowledge of the metabolism of this sentinel species.
We revisited the assembly of RNA-seq data by de novo approaches to reduce RNA contaminants and transcript redundancy. We also acquired extensive mass spectrometry shotgun proteomic data on several organs from a reference population of G. fossarum males and females to identify organ-specific metabolic profiles.
The G. fossarum metabolic pathway reconstruction (available through the metabolic database GamfoCyc) was performed by adapting the genomic tool CycADS and we identified 377 pathways representing 7630 annotated enzymes, 2610 enzymatic reactions and the expression of 858 enzymes was experimentally validated by proteomics. To our knowledge, our analysis provides for the first time a systematic metabolic pathway reconstruction and the proteome profiles of these pathways at the organ level in this sentinel species. As an example, we show an elevated abundance in enzymes involved in ATP biosynthesis and fatty acid beta-oxidation indicative of the high-energy requirement of the gills, or the key anabolic and detoxification role of the hepatopancreatic caeca, as exemplified by the specific expression of the retinoid biosynthetic pathways and glutathione synthesis.
In conclusion, the multi-omics data integration performed in this study provides new resources to investigate metabolic processes in crustacean amphipods and their role in mediating the effects of environmental contaminant exposures in sentinel species.
Synopsis
This study provide the first evidence that it is possible to combine multiple omics data to exhaustively describe the metabolic network of a model species in ecotoxicology, Gammarus fossarum, for which a reference genome is not yet available.
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