Comparative evolutionary dynamics of the 5’cis-regulatory elements (CREs) of miR167 genes in diploid and allopolyploid cotton species

IF 2.2 Q3 GENETICS & HEREDITY Plant Gene Pub Date : 2022-12-01 DOI:10.1016/j.plgene.2022.100380
Aradhana Aggarwal , Sakshi Arora , Aniruddhabhai Khuman , Kalpita Singh , Vijay Kumar , Bhupendra Chaudhary
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Abstract

Cotton fiber morphogenesis is tightly regulated by several microRNAs (miRNAs) including miR167 which regulates auxin-signaling through the transcriptional regulation of its target genes during fiber development. To emphasize the evolution of spatiotemporal regulatory attributes of miR167 genes during fiber development, a comparative analysis of 5′cis-regulatory elements (CREs) and coding sequences of miR167 genes from progenitor diploid A2 (G. arboreum), D5 (G. raimondii) species and decedent allopolyploid AD1 (G. hirsutum) and AD2 (G. barbadense) species were performed in an evolutionary framework. Interestingly, different miR167 genes were conserved both in A- and D-subgenomes of AD1 and AD2 species (>90% sequence similarities) and acquired the least variations in gene sequences during allopolyploidy followed by species diversification. However, substantial accumulation of structural variations in 1.5kb long upstream regions exhibited that the regulatory regions had undergone extensive evolutionary changes during cotton evolution in both diploid and allopolyploid species. Several unique CREs could be identified and further classified into development-, light-, organ-, stress- and hormone-responsive motifs with their varied frequencies. Co-expression analyses of miR167 genes and their respective CREs-binding transcription factors (TFs) showed tissue- and developmental stage-specific correlation, especially with bHLH transcription factor (R2 = 0.93) during fiber initiation and elongation stages of AD1 species. The reconstructed gene networks of the most significant predicted TFs with CREs underscored the possible genetic control mechanisms of these factors during fiber development. These observations highlighted that various regulatory motifs were preserved during cotton evolution and may be exploited for future crop improvement programs.

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二倍体和异源多倍体棉花miR167基因5′顺式调控元件(cre)的进化动力学比较
棉纤维的形态发生受到多种microrna (mirna)的严格调控,其中miR167在纤维发育过程中通过转录调控其靶基因调控生长素信号传导。为了强调miR167基因在纤维发育过程中的时空调控属性的进化,在进化框架下对二倍体A2 (G. arboreum)、D5 (G. raimondii)和后代异源多倍体AD1 (G. hirsutum)和AD2 (G. barbadense)的miR167基因的5′顺式调控元件(CREs)和编码序列进行了比较分析。有趣的是,不同的miR167基因在AD1和AD2物种的A-和d -亚基因组中都是保守的(>90%序列相似),并且在异源多倍体发生后的物种多样化过程中,基因序列的变化最小。然而,在1.5kb长的上游区域积累的大量结构变异表明,在棉花二倍体和异源多倍体物种的进化过程中,调控区域发生了广泛的进化变化。几种独特的cre可以被识别出来,并进一步分类为发育、光、器官、应激和激素响应基序,它们的频率各不相同。miR167基因及其各自的cres结合转录因子(TFs)的共表达分析显示,在AD1种的纤维起始和伸长阶段,miR167基因与bHLH转录因子(R2 = 0.93)存在组织和发育阶段特异性相关性。用cre重建的最重要的预测tf基因网络强调了这些因素在纤维发育过程中可能的遗传控制机制。这些观察结果强调,在棉花进化过程中保留了各种调控基序,并可用于未来的作物改良计划。
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来源期刊
Plant Gene
Plant Gene Agricultural and Biological Sciences-Plant Science
CiteScore
4.50
自引率
0.00%
发文量
42
审稿时长
51 days
期刊介绍: Plant Gene publishes papers that focus on the regulation, expression, function and evolution of genes in plants, algae and other photosynthesizing organisms (e.g., cyanobacteria), and plant-associated microorganisms. Plant Gene strives to be a diverse plant journal and topics in multiple fields will be considered for publication. Although not limited to the following, some general topics include: Gene discovery and characterization, Gene regulation in response to environmental stress (e.g., salinity, drought, etc.), Genetic effects of transposable elements, Genetic control of secondary metabolic pathways and metabolic enzymes. Herbal Medicine - regulation and medicinal properties of plant products, Plant hormonal signaling, Plant evolutionary genetics, molecular evolution, population genetics, and phylogenetics, Profiling of plant gene expression and genetic variation, Plant-microbe interactions (e.g., influence of endophytes on gene expression; horizontal gene transfer studies; etc.), Agricultural genetics - biotechnology and crop improvement.
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