大豆(Glycine max)两种不同镉积累基因型对镉胁迫反应的转录组比较分析。

IF 1.9 Q3 GENETICS & HEREDITY
Xiaoqing Liu, Hongmei Zhang, Wei Zhang, Qianru Jia, Xin Chen, Huatao Chen
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引用次数: 0

摘要

背景:镉(Cd)毒性极强,且对植物非必需。不同的大豆品种在镉积累能力方面差异很大,但人们对其潜在的分子机制知之甚少:在此,我们使用 Illumina 对端测序技术对在 0 或 50 μM CdSO4 条件下生长的两个大豆品种(su8,高 Cd-积累性(HAS)和 su7,低 Cd-积累性(LAS))的根组织进行了转录组分析。经过质量评估和数据过滤后,从大豆根部样本中总共获得了 1876 万个干净的读数。镉处理后,HAS发现了739个差异表达基因(DEGs;265个向上,474个向下);而LAS只发现了259个差异表达基因(88个向上,171个向下),两个品种之间有64个基因相同。通路富集分析表明,镉处理后,LAS和HAS的DEGs主要富集在谷胱甘肽代谢和植物与病原体相互作用通路中。KEGG分析表明,LAS的苯丙氨酸代谢对镉胁迫有响应,而HAS的ABC转运体对镉胁迫有响应。此外,我们还发现,在两个大豆品种中,镉处理后,重金属转运体(如 ABC 转运体和锌转运体)在 HAS 中的差异表达多于 LAS,转录因子(如 bHLH 转录因子、WRKY 转录因子和 ZIP 转录因子)在 HAS 中的差异表达也多于 LAS:本研究的结果将为大豆镉积累背后的分子机制提供新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative transcriptome analysis between two different cadmium-accumulating genotypes of soybean (Glycine max) in response to cadmium stress.

Background: Cadmium (Cd) is extremely toxic and non-essential for plants. Different soybean varieties differ greatly in their Cd accumulation ability, but little is known about the underlying molecular mechanisms.

Results: Here, we performed transcriptomic analysis using Illumina pair-end sequencing on root tissues from two soybean varieties (su8, high-Cd-accumulating (HAS) and su7, low Cd-accumulating (LAS)) grown with 0 or 50 μM CdSO4. A total of 18.76 million clean reads from the soybean root samples were obtained after quality assessment and data filtering. After Cd treatment, 739 differentially expressed genes (DEGs; 265 up and 474 down) were found in HAS; however, only 259 DEGs (88 up and 171 down) were found in LAS, and 64 genes were same between the two varieties. Pathway enrichment analysis suggested that after cadmium treatment, the DEGs between LAS and HAS were mainly enriched in glutathione metabolism and plant-pathogen interaction pathways. KEGG analysis showed that phenylalanine metabolism responding to cadmium stress in LAS, while ABC transporters responding to cadmium stress in HAS. Besides we found more differential expressed heavy metal transporters such as ABC transporters and zinc transporters in HAS than LAS, and there were more transcription factors differently expressed in HAS than LAS after cadmium treatment in two soybean varieties, eg. bHLH transcription factor, WRKY transcription factor and ZIP transcription factor.

Conclusions: Findings from this study will shed new insights on the underlying molecular mechanisms behind the Cd accumulation in soybean.

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