Microarray analysis of differentially expressed gene responses to bisphenol A in Arabidopsis

Yong-Sheng Tian; Xiao-Fen Jin; Xiao-Yan Fu; Wei Zhao; Hong-Juan Han; Bo Zhu; Man- Liu; Quan-Hong Yao

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Microarray analysis of differentially expressed gene responses to bisphenol A in Arabidopsis

机译：拟南芥对双酚A差异表达基因反应的微阵列分析

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Environmental levels of bisphenol A (BPA) are a global concern because the compound can cause damage to reproductive organs, the thyroid gland, and brain tissues at developmental stages. Plants are important in removing BPA from the atmosphere, soil, and water. However, knowledge on the mechanism by which plants respond to this compound is limited. To determine the response mechanism of plants to BPA, we used a microarray system to analyze the gene expression patterns of Arabidopsis thaliana after irrigation with 3.0 mM BPA. We identified 651 genes that were differentially expressed upregulated and 470 genes that were downregulated by BPA. These genes may specifically contribute to BPA uptake, transformation, conjugation, and compartmentation in plants. The potential function of upregulated genes in plant defense against BPA was also determined.

机译：双酚A（BPA）的环境水平是全球担忧，因为该化合物可损害生殖器官，甲状腺和发育阶段的脑组织。植物在从大气，土壤和水中移除BPA很重要。然而，有关植物对该化合物的响应的机制的知识是有限的。为了确定植物对BPA的响应机制，我们使用了微阵列系统以分析3.0mM BPA灌溉后拟南芥的基因表达模式。我们鉴定了651个基因，其差异表达上调和470个基因由BPA下调。这些基因可以特别有助于BPA吸收，转化，缀合和植物中的隔音。还确定了对BPA植物防御植物防御的上调基因的潜在功能。

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《The Journal of toxicological sciences》 |2014年第4期|共9页
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Yong-Sheng Tian; Xiao-Fen Jin; Xiao-Yan Fu; Wei Zhao; Hong-Juan Han; Bo Zhu; Man- Liu; Quan-Hong Yao;
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1. Microarray analysis of differentially expressed gene responses to bisphenol A in Arabidopsis [J] . TianY.-S., JinX.-F., FuX.-Y., The Journal of toxicological sciences . 2014,第4期

机译：拟南芥中双酚A基因表达差异的微阵列分析
2. DNA microarray analysis of differentially expressed genes responsive to bisphenol A, an alkylphenol derivative, in an in vitro mouse Sertoli cell model. [J] . Tabuchi Y, Zhao QL, Kondo T Japanese Journal of Pharmacology . 2002,第4期

机译：在体外小鼠Sertoli细胞模型中对双酚A（一种烷基酚衍生物）有反应的差异表达基因的DNA微阵列分析。
3. DNA Microarray Analysis of Differentially Expressed Genes Responsive to Bisphenol A, an Alkylphenol Derivative, in an In Vitro Mouse Sertoli Cell Model [J] . Qing-Li Zhao, Takashi Kondo, Yoshiaki Tabuchi Japanese Journal of Pharmacology . 2002,第4期

机译：在体外小鼠支持细胞模型中差异表达基因响应双酚A，一种烷基酚衍生物的DNA芯片分析。
4. Differential Genes Expression Analysis of Chronic Toxicity of Organophosphorus Pesticide at Low Dose Exposure Using Oligonucleotide Microarrays [C] . ZHONG Wei-jian, YING Xian-ping, MA Guo-yun, International Academic Conference on Environmeatal amp; Occupational Medicine; 20041110-12; Shanghai(CN) . 2004

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5. Differential expression analysis of DNA microarray data with application to the heat shock response of Arabidopsis thaliana. [D] . Swindell, William R. 2007

机译：DNA芯片数据的差异表达分析及其在拟南芥热激反应中的应用。
6. Classification of Genes Differentially Expressed during Water‐deficit Stress in Arabidopsis thaliana: an Analysis using Microarray and Differential Expression Data [O] . ELIZABETH A. BRAY 2002

机译：拟南芥水分胁迫过程中差异表达基因的分类：利用微阵列和差异表达数据的分析
7. Transcriptome-wide identification of differentially expressed genes in Solanum lycopersicon L. In response to an Alfalfa-protein hydrolysate using microarrays [O] . Ertani, Andrea, Schiavon, Michela, Nardi, Serenella 2017

机译：整个转录组的番茄茄中差异表达基因的鉴定。使用微阵列对苜蓿蛋白水解产物的反应

Microarray analysis of differentially expressed gene responses to bisphenol A in Arabidopsis

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