AI Article Synopsis
- N-methyladenosine (mA) is a key post-transcriptional marker that regulates biological functions in plants through various pathway components, including writers, erasers, and readers.
- A study identified over 4000 mA pathway components across 154 plant species and found that while the number of writers is conserved, the ALKBH and YTH families showed significant expansion.
- The research also explored the expression levels and roles of specific mA sites in gene regulation, revealing that certain conserved mA sites negatively impacted the expression of other genes, contributing to our understanding of plant evolution and function.
Article Abstract
As a dynamic and reversible post-transcriptional marker, N-methyladenosine (mA) plays an important role in the regulation of biological functions, which are mediated by mA pathway components including writers (MT-A70, FIP37, VIR and HAKAI family), erasers (ALKBH family) and readers (YTH family). There is an urgent need for a comprehensive analysis of mA pathway components across species at evolutionary levels. In this study, we identified 4062 mA pathway components from 154 plant species including green algae, utilizing large-scale phylogenetic to explore their origin and evolution. We discovered that the copy number of writers was conserved among different plant lineages, with notable expansions in the ALKBH and YTH families. Synteny network analysis revealed conserved genomic contexts and lineage-specific transpositions. Furthermore, we used Direct RNA Sequencing (DRS) to reveal the Poly(A) length (PAL) and mA ratio profiles in six angiosperms species, with a particular focus on the mA pathway components. The ECT1/2-Poeaece4 sub-branches (YTH family) with unique genomic contexts exhibited significantly higher expression level than genes of other ECT1/2 poeaece sub-branches (ECT1/2-Poeaece1-3), accompanied by lower mA modification and PAL. Besides, conserved mA sites distributed in CDS and 3'UTR were detected in the ECT1/2-Poaceae4, and the dual-luciferase assay further demonstrated that these conserved mA sites in the 3'UTR negatively regulated the expression of Firefly luciferase (LUC) gene. Finally, we developed transcription factor regulatory networks for mA pathway components, using yeast one-hybrid assay demonstrated that PheBPC1 could interact with the PheECT1/2-5 promoter. Overall, this study presents a comprehensive evolutionary and functional analysis of mA pathway components and their modifications in plants, providing a valuable resource for future functional analysis in this field.
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