A single-cell rice atlas integrates multi-species data to reveal cis-regulatory evolution

Cis-regulatory elements (CREs) are essential for regulating gene expression, yet their evolutionary dynamics in plants remain elusive. Here we constructed a single-cell chromatin accessibility atlas for Oryza sativa from 103,911 nuclei representing 126 cell states across nine organs. Comparative genomics between O. sativa and 57,552 nuclei from four additional grass species (Zea mays, Sorghum bicolor, Panicum miliaceum and Urochloa fusca) revealed that chromatin accessibility conservation varies with cell-type specificity. Epidermal accessible chromatin regions in the leaf were less conserved compared to other cell types, indicating accelerated regulatory evolution in the L1-derived epidermal layer of O. sativa relative to other species. Conserved accessible chromatin regions overlapping the repressive histone modification H3K27me3 were identified as potentially silencer-like CREs, as deleting these regions led to up-regulation of gene expression. This study provides a comprehensive epigenomic resource for the rice community, demonstrating the utility of a comparative genomics approach that highlights the dynamics of plant cell-type-specific CRE evolution.