The landscape of promoter-centred RNA-DNA interactions in rice

Chromatin-associated RNAs play key roles in various biological processes. However, both their repository and conjugation genomic loci and potential functions remain largely unclear. Here, we develop an effective method for mapping of chromatin-associated RNA-DNA interactions, followed by paired-end-tag sequencing (ChRD-PET) in rice. We present a comprehensive interaction map between RNAs and H3K4me3-marked regions based on H3K4me3 ChRD-PET data, showing three types of RNA-DNA interactions-local, proximal and distal. We further characterize the origin and composition of the RNA strand in R-loop RNA-DNA hybrids and identify that extensive cis and trans RNAs, including trans-non-coding RNAs, are prevalently involved in the R-loop. Integrative analysis of rice epigenome and three-dimensional genome data suggests that both coding and non-coding RNAs engage extensively in the formation of chromatin loops and chromatin-interacting domains. In summary, ChRD-PET is an efficient method for studying the features of RNA-chromatin interactions, and the resulting datasets constitute a valuable resource for the study of RNAs and their biological functions. The bound loci and functions of chromatin-associated RNAs remain unclear in rice. This study develops an RNA-DNA mapping method to reveal the identity and interaction patterns around active promoters within hierarchical genome architecture.

Automated summary

This study develops an efficient RNA-DNA mapping method to reveal the identity and interaction patterns of RNA around active promoters. The results demonstrate the significant roles of both coding and non-coding RNAs in the formation of chromatin loops and interacting domains.