Co-Expression Network Analysis of Soybean Transcriptome Identify Hub Genes Under Saline-Alkaline and Water Deficit Stress.

IF 1.6 4区 生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Iranian Journal of Biotechnology Pub Date : 2022-10-01 DOI:10.30498/ijb.2022.299306.3124
Rahele Ghanbari Moheb Seraj, Mahsa Mohammadi, Mehrdad Shahbazi, Masoud Tohidfar
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Abstract

Background: Soybean is an important oilseed crop that its development and production are affected by environmental stresses (such as saline-alkaline and water deficit).

Objectives: This experiment was performed with the aim of identifying candidate genes in saline-alkaline stress and water-deficit stress conditions using transcriptome analysis and to investigate the expression of these genes under water deficit stress conditions using RTqPCR.

Materials and methods: In this experiment, soybean transcriptome data under saline-alkaline and water-deficit stress were downloaded from the NCBI website, and then the co-expression modules were determined for them and the gene network was plotted for each module, and finally, the hub genes were identified. To compare the expression of genes in saline-alkaline and water deficit conditions, soybean plants were subjected to water deficit stress and their gene expression was determined using RTqPCR.

Results: The filtered (Log FC above +2 and below -2) genes of soybean were grouped under saline-alkaline stress in 15 modules and under water-deficit stress in 2 different modules. Within each module, the interaction of genes was identified using the gene network, then three genes of ann11, cyp450 and zfp selected as hub genes. These hub genes are highly co-expression with other network genes, which not only display differential expression but also differential co-expression. The results of RT-PCR indicated that cyp450 gene expression was not significantly different from the control, while ann11 gene expression significantly increased under water deficit stress, but zfp gene expression decreased significantly under water deficit stress.

Conclusions: We identified three genes, ann11, cyp450 and zfp, as hub genes. According to our results, ann11 gene had a significant increase in expression under water deficit stress, which can indicate the importance of this gene under drought conditions. Therefore, according to the results of this experiment as well as other researchers, we introduce this gene as a key gene in water deficit tolerance and recommend its use in genetic engineering to increase the tolerance of other plants.

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大豆转录组的共表达网络分析发现盐碱和缺水胁迫下的枢纽基因
背景:大豆是一种重要的油料作物,其生长发育和产量受环境胁迫(如盐碱和缺水)的影响:本实验旨在利用转录组分析鉴定盐碱胁迫和缺水胁迫条件下的候选基因,并利用 RTqPCR 研究这些基因在缺水胁迫条件下的表达情况:从NCBI网站下载大豆在盐碱胁迫和缺水胁迫条件下的转录组数据,确定共表达模块,绘制各模块的基因网络图,并确定中心基因。为了比较基因在盐碱地和缺水条件下的表达情况,对大豆植株进行缺水胁迫,并利用 RTqPCR 测定其基因表达情况:结果:筛选出的大豆基因(Log FC高于+2和低于-2)在盐碱胁迫下被分为15个模块,在缺水胁迫下被分为2个不同的模块。在每个模块中,利用基因网络确定了基因之间的相互作用,然后选择了 ann11、cyp450 和 zfp 三个基因作为中心基因。这些中枢基因与其他网络基因高度共表达,不仅表现出差异表达,而且还表现出差异共表达。RT-PCR结果表明,cyp450基因表达量与对照无显著差异,而ann11基因表达量在水分亏缺胁迫下显著增加,但zfp基因表达量在水分亏缺胁迫下显著减少:结论:我们发现ann11、cyp450和zfp三个基因是中枢基因。根据我们的研究结果,ann11基因在水分亏缺胁迫下的表达量显著增加,这表明该基因在干旱条件下的重要性。因此,根据本实验以及其他研究者的结果,我们将该基因作为耐缺水胁迫的关键基因,并建议将其用于基因工程,以提高其他植物的耐缺水能力。
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来源期刊
Iranian Journal of Biotechnology
Iranian Journal of Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
2.60
自引率
7.70%
发文量
20
期刊介绍: Iranian Journal of Biotechnology (IJB) is published quarterly by the National Institute of Genetic Engineering and Biotechnology. IJB publishes original scientific research papers in the broad area of Biotechnology such as, Agriculture, Animal and Marine Sciences, Basic Sciences, Bioinformatics, Biosafety and Bioethics, Environment, Industry and Mining and Medical Sciences.
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