New insights on the regulatory network of drought-responsive key genes in Arabidopsis thaliana.

IF 1.3 4区 生物学 Q4 GENETICS & HEREDITY Genetica Pub Date : 2023-02-01 DOI:10.1007/s10709-022-00177-3
Maryam Pasandideh Arjmand, Habibollah Samizadeh Lahiji, Mohammad Mohsenzadeh Golfazani, Mohammad Hassan Biglouei
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引用次数: 4

Abstract

Drought stress is complex abiotic stress that seriously affects crop productivity and yield. Many genes with various functions are induced in response to drought stress. The present study aimed to identify drought-responsive hub genes and their related regulation network in Arabidopsis thaliana under drought stress. In this study, RNA-sequencing data of well-watered and drought treatment samples of Arabidopsis were analyzed, and differential expression genes were identified. The gene ontology enrichment and protein-protein interaction network analyses were performed for differential expression genes. Then, the most important hub genes, gene ontology enrichment, co-expression network, and prediction of related miRNAs of hub genes were investigated by in silico approaches. A total of 2462 genes were expressed differentially, of which 1926 transcripts were up-regulated under drought stress, and the rest were down-regulated. WRKY33, WRKY40, AT1G19020, STZ, SYP122, CNI1, CML37, BCS1, AT3G02840, and AT5G54490 were identified as hub genes in drought stress. The gene ontology analysis showed that hub genes significantly enriched in response to hypoxia, chitin, wounding, and salicylic acid-mediated signaling pathway. The hub genes were co-expressed with important drought-responsive genes such as WRKY46, WRKY60, CML38, ERF6, ERF104, and ERF1A. They were regulated by many stress-responsive miRNAs, such as ath-miR5021, miR413, miR5998, and miR162, that could be used as candidate miRNAs for regulating key genes under drought stress. It seems that the regulation network was involved in signaling pathways and protein degradation under drought stress, and it consists of several important genes and miRNAs that are potential candidates for plant improvement and breeding programs.

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拟南芥干旱响应关键基因调控网络的新认识。
干旱胁迫是严重影响作物生产力和产量的复杂非生物胁迫。干旱胁迫诱导了许多具有不同功能的基因。本研究旨在鉴定干旱胁迫下拟南芥(Arabidopsis thaliana)干旱响应中心基因及其调控网络。本研究对拟南芥水分充足和干旱处理样品的rna测序数据进行了分析,并鉴定了差异表达基因。对差异表达基因进行基因本体富集和蛋白-蛋白互作网络分析。然后,利用计算机技术研究了最重要的枢纽基因、基因本体富集、共表达网络以及枢纽基因相关mirna的预测。共有2462个基因表达差异,其中1926个转录本在干旱胁迫下表达上调,其余转录本表达下调。WRKY33、WRKY40、AT1G19020、STZ、SYP122、CNI1、CML37、BCS1、AT3G02840和AT5G54490是干旱胁迫中的枢纽基因。基因本体分析显示,hub基因在缺氧、几丁质、损伤和水杨酸介导的信号通路中显著富集。中心基因与WRKY46、WRKY60、CML38、ERF6、ERF104和ERF1A等重要干旱响应基因共表达。它们受到许多应激响应mirna的调控,如ath-miR5021、miR413、miR5998和miR162,这些mirna可以作为干旱胁迫下调控关键基因的候选mirna。这一调控网络似乎与干旱胁迫下的信号通路和蛋白质降解有关,它由几个重要的基因和mirna组成,这些基因和mirna是植物改良和育种计划的潜在候选者。
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来源期刊
Genetica
Genetica 生物-遗传学
CiteScore
2.70
自引率
0.00%
发文量
32
审稿时长
>12 weeks
期刊介绍: Genetica publishes papers dealing with genetics, genomics, and evolution. Our journal covers novel advances in the fields of genomics, conservation genetics, genotype-phenotype interactions, evo-devo, population and quantitative genetics, and biodiversity. Genetica publishes original research articles addressing novel conceptual, experimental, and theoretical issues in these areas, whatever the taxon considered. Biomedical papers and papers on breeding animal and plant genetics are not within the scope of Genetica, unless framed in an evolutionary context. Recent advances in genetics, genomics and evolution are also published in thematic issues and synthesis papers published by experts in the field.
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