Background: Promoters serve as key elements in the regulation of gene transcription. In mammals, loop interactions between promoters and enhancers increase the complexity of the promoter-based regulatory networks. However, the identification of enhancer-promoter or promoter-related loops in Arabidopsis remains incomplete.
Results: Here, we use promoter capture Hi-C to identify promoter-related loops in Arabidopsis, which shows that gene body, proximal promoter, and intergenic regions can interact with promoters, potentially functioning as distal regulatory elements or enhancers. We find that promoter-related loops mainly repress gene transcription and are associated with ordered chromatin structures, such as topologically associating domains and fountains-chromatin structures not previously identified in Arabidopsis. Cohesin binds to the center of fountains and is involved in their formation. Moreover, fountain strength is positively correlated with the number of promoter-related loops, and the maintenance of these loops is linked to H3K4me3. In atxr3 mutants, which lack the major H3K4me3 methyltransferases in Arabidopsis, the number of promoter-related loops at fountains is reduced, leading to upregulation of fountain-regulated genes.
Conclusions: We identify promoter-related loops associated with ordered chromatin structures and reveal the molecular mechanisms involved in fountain formation and maintenance.
© 2024. The Author(s).