Gene Expression in Leaves of Susceptible Glycine max during Infection with Phakopsora pachyrhizi Using Next Generation Sequencing

Next generation, sequencing & applications Pub Date : 2011-01-01 DOI:10.1155/2011/827250

Arianne Tremblay, Parsa Hosseini, N. Alkharouf, Shuxian Li, B. Matthews

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引用次数: 21

Abstract

Soybean rust is caused by the obligate biotrophic fungus Phakopsora pachyrhizi, an exotic pathogen causing important yield losses in soybean production. We used an mRNA-Seq strategy to analyze the expression pattern of soybean genes and better understand molecular events occurring in soybean following the infection. cDNA libraries were constructed from RNA isolated from whole infected soybean leaves 10 days after inoculation with P. pachyrhizi and sequenced using an Illumina platform to identify soybean genes that are affected by pathogen growth. We obtained 15 million sequences corresponding to soybean genes. Forty-two percent of the genes were downregulated including genes encoding proteins involved in amino acid metabolism, carbohydrate metabolism, and transport facilitation; 31% were upregulated including genes encoding proteins involved in lipid metabolism, glycan biosynthesis, and signal transduction. Candidate host genes identified in this study will be manipulated to assay their potential to control soybean rust disease.

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利用下一代测序技术研究厚根Phakopsora侵染过程中Glycine max敏感植株叶片的基因表达

大豆锈病是由专性生物营养真菌厚根Phakopsora pachyrhizi引起的，这是一种对大豆生产造成重大损失的外来病原体。我们使用mRNA-Seq策略分析大豆基因的表达模式，更好地了解大豆感染后发生的分子事件。利用接种肿根假单胞菌10 d后的大豆全叶分离RNA构建cDNA文库，利用Illumina平台对受病原菌生长影响的大豆基因进行测序。我们获得了1500万个与大豆基因相对应的序列。42%的基因被下调，包括编码氨基酸代谢、碳水化合物代谢和运输促进蛋白的基因;31%的基因表达上调，包括编码参与脂质代谢、聚糖生物合成和信号转导的蛋白质的基因。在本研究中鉴定的候选宿主基因将被操作以测定其控制大豆锈病的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Next generation, sequencing & applications

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