The three-dimensional shapes of chromosomes regulate gene expression and genome function. Our knowledge of the role of chromatin interaction is evolving rapidly. Here, we present a study of global chromatin interaction patterns in Arabidopsis thaliana. High-throughput experimental techniques have been developed to map long-range interactions within chromatin. We have integrated data from multiple experimental sources including Hi-C, BS-seq, ChIP-chip and ChIP-seq data for 17 epigenetic marks and 35 transcription factors. We identified seven groups of interacting loci, which can be distinguished by their epigenetic profiles. Furthermore, the seven groups of interacting loci can be divided into three types of chromatin linkages based on expression status. We observed that two interacting loci sometimes share common epigenetic and transcription factor-binding profiles. Different groups of loci display very different relationships between epigenetic marks and the binding of transcription factors. Distinctive types of chromatin linkages exhibit different gene expression profiles. Our study unveils an entirely unexplored regulatory interaction, linking epigenetic profiles, transcription factor binding and the three-dimensional spatial organization of the Arabidopsis nuclear genome.
Keywords: Chromatin interactions; Epigenetic regulation; Hi-C; Long-range interactions; Three-dimensional organization; Transcription factors.
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