Genome-Wide Identification and Expression Analysis of the YTH Domain-Containing RNA-Binding Protein Family in

Overview

Journal Int J Mol Sci

Publisher MDPI

Specialties Biochemistry
Chemistry
Molecular Biology

Date 2024 Jun 19

PMID 38892149

Authors

Jingjing Zhang

Sheng Yao

Xiang Cheng

Yulu Zhao

Wenya Yu

Xingyue Ren

Kongshu Ji

Qiong Yu

Affiliations

Soon will be listed here.

Abstract

-methyladenosine (mA) is one of the most abundant chemical modifications on mRNA in eukaryotes. RNA-binding proteins containing the YT521-B (YTH) domain play crucial roles in post-transcriptional regulation of plant growth, development, and stress response by reading the mA mark. However, the YTH domain-containing RNA-binding protein family has not been studied in a valuable and medicinal tree such as () yet. In this study, we identified 10 genes in , located on eight out of 12 chromosomes. Phylogenetic analysis revealed that these genes can be classified into two major classes, () and (). Closely related within the same class exhibited a similar distribution of conserved motifs and domain organization, suggesting functional similarities among these closely related . All CcYTH proteins possessed a highly conserved YTH domain, with containing an additional CCCH domain. The liquid-liquid phase separation (LLPS) predictions indicate that , , , , , and may undergo phase transitions. Quantitative expression analysis revealed that tissue-specific expression was observed fo . Notably, there were two genes, and ; both exhibited significantly higher expression levels in various tissues than other genes, indicating that the mA-YTH regulatory network in might be quite distinct from that in most plants such as () with only one abundant YTH protein. According to the analysis of the up-stream cis-regulatory elements of these genes, these genes could be closely related to stress, hormones, and development. The following stress response experiments further verified that their expression levels indeed changed under both PEG and NaCl treatments. These findings not only provide a foundation for future functional analysis of in , but also provide insights into the functions of epigenetic mark mA in forest trees.

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