基于短期镉和苯并[a]芘暴露实验的咸水蚤从头转录组组装

De novo transcriptome assembly of brackish water flea based on short-term cadmium and benzo[]pyrene exposure experiments.

作者信息

Kim Bo-Mi, Kang Seunghyun, Kim Ryeo-Ok, Jung Jee-Hyun, Lee Kyun-Woo, Rhee Jae-Sung, Lee Young-Mi

机构信息

1Unit of Polar Genomics, Korea Polar Research Institute, Incheon, 21990 South Korea.

2Department of Life Science, College of Natural Sciences, Sangmyung University, Seoul, 03016 South Korea.

出版信息

Hereditas. 2018 Nov 17;155:36. doi: 10.1186/s41065-018-0075-3. eCollection 2018.

DOI:10.1186/s41065-018-0075-3

PMID:30473655

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6240204/

Abstract

To develop a brackish water flea as a promising model for marine monitoring, were exposed to two pollutants, cadmium (Cd) and benzo[]pyrene (BaP), which have different chemical characteristics and distinct modes of metabolic action on aquatic animals. Twenty-four hours after exposure to Cd (2 mg/L) or BaP (25 μg/L), whole body transcriptomes were analyzed. In total, 99.6 Mbp were assembled from nine libraries, resulting in 98,458 transcripts with an N50 of 1883 bp and an average contig length of 968 bp. Functional gene annotations were performed using Gene Ontology, Eukaryotic Orthologous Groups, and Kyoto Encyclopedia of Genes and Genomes pathway analyses. Cd significantly modulated endocrine and digestive enzyme system. Following BaP treatment, DNA repair and circadian rhythm related metabolisms were significantly modulated. Both the chemicals induced stress response and detoxification metabolism. This brackish water flea genomic information will be useful to monitor estuaries and coastal regions, as water fleas have been confirmed as promising sentinel models in freshwater ecosystems.

摘要

为了开发一种咸水蚤作为海洋监测的有前景的模型，将其暴露于两种污染物，镉（Cd）和苯并[a]芘（BaP），这两种污染物具有不同的化学特性以及对水生动物不同的代谢作用模式。在暴露于Cd（2mg/L）或BaP（25μg/L）24小时后，对其全身转录组进行分析。总共从9个文库中组装出99.6Mbp，得到98458个转录本，N50为1883bp，平均重叠群长度为968bp。使用基因本体论、真核直系同源组和京都基因与基因组百科全书通路分析进行功能基因注释。Cd显著调节内分泌和消化酶系统。在BaP处理后，DNA修复和昼夜节律相关代谢显著受到调节。两种化学物质均诱导应激反应和解毒代谢。这种咸水蚤的基因组信息将有助于监测河口和沿海地区，因为水蚤已被确认为淡水生态系统中有前景的哨兵模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ebf/6240204/bfce0b29531a/41065_2018_75_Fig1_HTML.jpg

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基于短期镉和苯并[a]芘暴露实验的咸水蚤从头转录组组装

De novo transcriptome assembly of brackish water flea based on short-term cadmium and benzo[]pyrene exposure experiments.

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