Genome-Wide Identification and Expression Pattern Analysis of the DNA Methyltransferase Gene Family Revealed the DNA Methylation Response to Tapping in Rubber Tree
Yuanyuan Hao, Bin Hu, Yongkang Xue, Xuelian Li, Kun Wang, Xuemei Dai, Zhifu Guo, Xiangyu Long

TL;DR
This study explores how DNA methylation in rubber trees responds to tapping stress by analyzing the DNA methyltransferase gene family and its expression patterns.
Contribution
The study identifies and characterizes DNA methyltransferase genes in rubber trees, revealing their response to tapping stress and potential roles in rubber biosynthesis.
Findings
Rubber trees have an expanded DNA methyltransferase gene family, particularly in the DRM subfamily.
HbMET1-1 and HbDRM2-1 show increased expression in response to tapping stress.
HbCMT3-1 and HbCMT3-2 expression increases progressively during tapping, correlating with enzyme activity changes.
Abstract
DNA methylation is an epigenetic modification that plays a crucial role in the regulation of gene expression, genome defense, and numerous biological processes. DNA methyltransferase (MTase) is the pivotal enzyme catalyzing the DNA methylation reaction. To explore the regulation mechanism of DNA methylation in rubber trees (Hevea brasiliensis), we identified 13 genome-wide MTase genes containing conserved structural domains of DNA methyltransferase based on the rubber tree reference genome. Through phylogenetic analysis, these genes were classified into four subfamilies: MET1, CMT, DRM, and DNMT2. A significant expansion of DNA methyltransferase genes was found in rubber trees, especially in the DRM subfamily. Notably, among the four members of the MET1 subfamily, only HbMET1-1 contains the complete UBA and RFD domains, suggesting its critical role in the function of MET1 in plants,…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant biochemistry and biosynthesis · Plant Gene Expression Analysis
