Transcription Factors Are Involved in Wizened Bud Occurrence During the Growing Season in the Pyrus pyrifolia Cultivar 'Sucui 1'.

IF 2.5 Q3 GENETICS & HEREDITY Epigenomes Pub Date : 2024-10-25 DOI:10.3390/epigenomes8040040

Hui Li, Jialiang Kan, Chunxiao Liu, Qingsong Yang, Jing Lin, Xiaogang Li

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Abstract

Background: Flowers are important plant organs, and their development is correlated with yield in woody fruit trees. For Pyrus pyrifolia cultivar 'Sucui 1', the research on how DNA methylation accurately regulates the expression of TFs and affects the specific regulatory mechanism of flower bud wizening will help reduce wizened buds.

Methods: Here, the DNA methylomes and transcriptomes of two types of flower buds from the Pyrus pyrifolia cultivar 'Sucui 1' were compared.

Results: 320 differentially expressed transcription factors (TFs), in 43 families, were obtained from the wizened bud transcriptome versus the normal bud transcriptome. Most were members of the AP2/ERF, bHLH, C2H2, CO-like, MADS, MYB, and WRKY families, which are involved in flower development. As a whole, the methylation level of TFs in the 'Sucui 1' genome increased once flower bud wizening occurred. A cytosine methylation analysis revealed that the methylation levels of the same gene regions in TFs from two kinds of buds were similar. However, differentially methylated regions were found in gene promoter sequences. The combined whole-genome bisulfite sequencing and RNA-Seq analyses revealed 162 TF genes (including 164 differentially methylated regions) with both differential expression and methylation differences between the two flower bud types. Among them, 126 were classified as ^mCHH-type methylation genes. Furthermore, the transcriptional down regulation of PpbHLH40, PpERF4, PpERF061, PpLHW, PpMADS6, PpZF-HD11, and PpZFP90 was accompanied by increased DNA methylation. However, PpbHLH130, PpERF011, and PpMYB308 displayed the opposite trend. The expression changes for these TFs were negatively correlated with their methylation states.

Conclusions: Overall, our results offer initial experimental evidence of a correlation between DNA methylation and TF transcription in P. pyrifolia in response to bud wizening. This enriched our understanding of epigenetic modulations in woody trees during flower development.

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转录因子参与了梨树栽培品种 "苏翠 1 号 "生长季节枯萎芽的发生。

背景：花是植物的重要器官，其发育与木本果树的产量息息相关。方法：本文比较了黄柏栽培品种 "苏翠 1 号 "两种花蕾的 DNA 甲基化组和转录组：结果：从凋萎花蕾转录组与正常花蕾转录组中获得了43个科320个不同表达的转录因子（TFs）。其中大部分是参与花发育的 AP2/ERF、bHLH、C2H2、CO-like、MADS、MYB 和 WRKY 家族的成员。从整体上看，'苏翠 1 号'基因组中 TFs 的甲基化水平在花芽凋萎后有所增加。胞嘧啶甲基化分析表明，两种花蕾的 TFs 中相同基因区域的甲基化水平相似。然而，在基因启动子序列中发现了不同的甲基化区域。结合全基因组亚硫酸氢盐测序和 RNA-Seq 分析发现，162 个 TF 基因（包括 164 个不同甲基化区域）在两种花蕾间存在表达差异和甲基化差异。其中，126 个基因被归类为 mCHH 型甲基化基因。此外，PpbHLH40、PpERF4、PpERF061、PpLHW、PpMADS6、PpZF-HD11 和 PpZFP90 的转录下调伴随着 DNA 甲基化的增加。然而，PpbHLH130、PpERF011 和 PpMYB308 则表现出相反的趋势。这些TFs的表达变化与其甲基化状态呈负相关：总之，我们的研究结果提供了初步的实验证据，证明了吡喃金花对花蕾枯萎的反应中 DNA 甲基化与 TF 转录之间的相关性。这丰富了我们对花朵发育过程中木本植物表观遗传调控的认识。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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