Arabidopsis seed stored mRNAs and translation regulation during post-harvest ripening and imbibition

Seed germination marks the critical transition from dormancy to active growth, driven by environmental cues and water availability. This study explores translational regulation during germination by comparing two Arabidopsis thaliana accessions with contrasting dormancy phenotypes: Columbia (Col), which germinates readily, and Cape Verde Islands (Cvi), which exhibits deep dormancy. Using sucrose gradient centrifugation, we isolated monosomal and polysomal fractions from freshly harvested (FH), after-ripened (AR), and imbibed (IM) seeds. RNA-seq analysis revealed stage- and genotype-specific gene expression, with Col IM seeds displaying the highest number of expressed genes. We identified ∼14,000 mRNAs in FH seeds, increasing to 19,000 in Col and 17,000 in Cvi upon imbibition. Of these, 9,000 were shared, while 3,000 were accession-specific in monosomes. Enrichment analysis highlighted molecular pathways associated with translation and dormancy release. Analysis of RNA modifications identified N1-methyladenosine (m1A) as the predominant modification, with Col seeds exhibiting higher m1A levels than Cvi, peaking at three months post-harvest. m6A sequencing revealed distinct modification patterns between accessions, with the highest abundance of m6A-modified transcripts in IM seeds. Positional analysis of m6A peaks suggested a link to differential gene expression between Col and Cvi. Proteomic analysis identified ∼15,000 proteins, with translation-related proteins enriched in IM seeds. Notable differences between Col and Cvi were observed in both monosomal and polysomal fractions. RNA-binding proteins exhibited similar profiles in FH and AR stages but diverged significantly in IM seeds. Col-specific proteins were enriched in 40S ribosomes, processing bodies, and RNA-binding complexes.

These findings provide new insights into the molecular and translational dynamics underlying seed germination, advancing our understanding of dormancy release and early seedling establishment.