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Translational and epitranscriptomic regulation of seed germination in Arabidopsis thaliana genotypes with contrasting dormancy phenotypes.
Klčová, Barbora Raabe, Karel
Klčová, Barbora
Raabe, Karel
Abstract
Seed germination represents the crucial transition from dormancy to active growth, orchestrated by environmental signals and endogenous regulatory networks. This study investigates translational regulation during germination in two Arabidopsis thaliana accessions with contrasting dormancy phenotypes: Columbia (Col-0), which germinates readily, and Cape Verde Islands (Cvi-0), which exhibits deep dormancy. Hormonal profiling revealed dynamic changes in abscisic acid and gibberellins, central regulators of seed dormancy. We isolated monosomal and polysomal RNA from seeds at three stages: freshly harvested (FH), after-ripened (AR), and imbibed (IM), followed by RNA sequencing. Transcriptome analysis identified ~ 14,000 mRNAs in FH seeds, increasing to 19,000 in Col and 17,000 in Cvi after imbibition. Approximately 9,000 transcripts were shared, while ~ 3,000 were genotype-specific in the monosomal fraction. Enrichment analyses indicated differential activation of translation and dormancy-related pathways. RNA modification profiling revealed N1-methyladenosine (m1A) as the most abundant mark, with higher levels in Col peaking three months post-harvest. m⁶A sequencing uncovered distinct modification landscapes, with IM seeds showing the greatest abundance and genotypic divergence in m⁶A-enriched transcripts. m⁶A peak localization correlated with genes showing differential expression between Col and Cvi. Proteomic analysis identified ~ 15,000 proteins, with components of the translational machinery enriched in IM seeds. Genotype-specific differences emerged in both monosomal and polysomal fractions. RNA-binding proteins were similar in FH and AR stages but diverged significantly upon imbibition, with Col showing enrichment in 40S ribosomal subunits, processing bodies, and RNA-associated complexes. These results reveal key translational and post-transcriptional mechanisms underpinning dormancy release and germination.
Description
Keywords
Arabidopsis, Dormancy, Germination, Polysomal profiling, Seeds, Translation
Funding
Grant Agency of the Czech Republic (21-15856S) and TowArds Next GENeration Crops, reg. no. CZ.02.01.01/00/22_008/0004581 of the ERDF Programme Johannes Amos Comenius project. CEITEC Proteomics Core Facility of CIISB, Instruct-CZ Centre was supported by MEYS CR (LM2023042).
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Type
Article
License
Attribution 4.0 International
Date
2025-12-04
Publisher
Springer Nature
Book
Journal
Plant Molecular Biology
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DOI
10.1007/s11103-025-01659-6
Citation
Balarynová, J., Klčová, B., Čegan, R., Raabe, K., Krejčí, P., Bednář, P., Potěšil, D., Pustka, V., Tarkowská, D., Turečková, V., Zdráhal, Z., Honys, D., & Smýkal, P. (2025). Translational and epitranscriptomic regulation of seed germination in Arabidopsis thaliana genotypes with contrasting dormancy phenotypes. Plant Molecular Biology, 115(6), 135. https://doi.org/10.1007/s11103-025-01659-6