Abstract
Histone acetylation is involved in the regulation of seed germination. The transcription factor ABI5 plays an essential role in ABA- inhibited seed germination. However, the molecular mechanism of how ABI5 and histone acetylation coordinate to regulate gene expression during seed germination is still ambiguous. Here, we show that ENAP1 interacts with ABI5 and they co-bind to ABA responsive genes including ABI5 itself. The hypersensitivity to ABA of ENAP1ox seeds germination is recovered by the abi5 null mutation. ABA enhances H3K9Ac enrichment in the promoter regions as well as the transcription of target genes co-bound by ENAP1 and ABI5, which requires both ENAP1 and ABI5. ABI5 gene is directly regulated by ENAP1 and ABI5. In the enap1 deficient mutant, H3K9Ac enrichment and the binding activity of ABI5 in its own promoter region, along with ABI5 transcription and protein levels are all reduced; while in the abi5-1 mutant, the H3K9Ac enrichment and ENAP1 binding activity in ABI5 promoter are decreased, suggesting that ENAP1 and ABI5 function together to regulate ABI5- mediated positive feedback regulation. Overall, our research reveals a new molecular mechanism by which ENAP1 regulates H3K9 acetylation and mediates the positive feedback regulation of ABI5 to inhibit seed germination.
Highlights
Seed germination is critical in the life of a plant as it determines success of future growth and development
Epigenetic regulation has been known involved in abscisic acid (ABA) signaling in which the transcription factor ABI5 acts as a regulatory hub
ABA signaling is implemented by a number of AREB/ABF (ABA Responsive Elements- Binding Factors) transcription factors (TFs) including bZIP family proteins that bind to AREB (ABA Responsive Elements) to regulate downstream gene expression [3,4,5]
Summary
Seed germination is critical in the life of a plant as it determines success of future growth and development. The bZIP transcription factor ABI5 plays a critical role in the regulation of ABA- mediated seed germination and early seedlings growth. The expression of ABI5 is induced by ABA within a short developmental window post germination, during which plants evaluate environmental conditions before initiating vegetative growth [8]. In the presence of ABA, ABI5 is activated and prompted to bind to the promoters of a set of genes that contain AREB motifs [7,16]. The ABI5 binding motif is prominent in the promoter regions of certain LEA gene families that respond to ABA for seed desiccation tolerance establishment [17]. The expression of ABI5 is correlated with the ABA- mediated desiccation tolerance re-establishment in germinated seeds [18]
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