从头转录组组装与比较分析揭示调控金叶黄芪对硒刺激响应的复杂机制

De Novo Transcriptome Assembly and Comparative Analysis Elucidate Complicated Mechanism Regulating Astragalus chrysochlorus Response to Selenium Stimuli.

作者信息

Çakır Özgür, Turgut-Kara Neslihan, Arı Şule, Zhang Baohong

机构信息

Department of Molecular Biology and Genetics, Faculty of Science, Istanbul University, 34134 Vezneciler Istanbul, Turkey; Department of Biology, East Carolina University, Greenville, NC 27858, United States of America.

Department of Molecular Biology and Genetics, Faculty of Science, Istanbul University, 34134 Vezneciler Istanbul, Turkey.

出版信息

PLoS One. 2015 Oct 2;10(10):e0135677. doi: 10.1371/journal.pone.0135677. eCollection 2015.

DOI:10.1371/journal.pone.0135677

PMID:26431547

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4592229/

Abstract

Astragalus species are medicinal plants that are used in the world for years. Some Astragalus species are known for selenium accumulation and tolerance and one of them is Astragalus chrysochlorus, a secondary selenium accumulator. In this study, we employed Illumina deep sequencing technology for the first time to de novo assemble A. chrysochlorus transcriptome and identify the differentially expressed genes after selenate treatment. Totally, 59,656 unigenes were annotated with different databases and 53,960 unigenes were detected in NR database. Transcriptome in A. chrysochlorus is closer to Glycine max than other plant species with 43,1 percentage of similarity. Annotated unigenes were also used for gene ontology enrichment and pathway enrichment analysis. The most significant genes and pathways were ABC transporters, plant pathogen interaction, biosynthesis of secondary metabolites and carbohydrate metabolism. Our results will help to enlighten the selenium accumulation and tolerance mechanisms, respectively in plants.

摘要

黄芪属植物是多年来在世界范围内被使用的药用植物。一些黄芪属植物以积累和耐受硒而闻名，其中之一是金绿黄芪，一种次级硒积累植物。在本研究中，我们首次采用Illumina深度测序技术对金绿黄芪转录组进行从头组装，并鉴定亚硒酸盐处理后的差异表达基因。总共，59,656个单基因在不同数据库中得到注释，在NR数据库中检测到53,960个单基因。金绿黄芪的转录组与大豆的亲缘关系比其他植物物种更近，相似度为43.1%。注释的单基因也用于基因本体富集和通路富集分析。最显著的基因和通路是ABC转运蛋白、植物-病原体相互作用、次生代谢物的生物合成和碳水化合物代谢。我们的结果将分别有助于阐明植物中硒的积累和耐受机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/131a/4592229/6d05328eea48/pone.0135677.g001.jpg

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从头转录组组装与比较分析揭示调控金叶黄芪对硒刺激响应的复杂机制

De Novo Transcriptome Assembly and Comparative Analysis Elucidate Complicated Mechanism Regulating Astragalus chrysochlorus Response to Selenium Stimuli.

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