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. 2025 Aug;644(8077):722-730.
doi: 10.1038/s41586-025-09251-0. Epub 2025 Jul 9.

A single-cell multi-omics atlas of rice

Xiangyu Wang #  1 Huanwei Huang #  2   3 Sanjie Jiang #  4 Jingmin Kang #  5 Dongwei Li #  1 Kailai Wang #  2 Shang Xie  1 Cheng Tong  1 Chaofan Liu  1 Guihua Hu  1 Haoqian Li  1 Cong Li  1 Liwen Yang  1 Yike Ding  6 Shang-Tong Li  2 Faming Wang  7 Jan U Lohmann  8 Zhe Liang  9 Xiaofeng Gu  10
Affiliations

A single-cell multi-omics atlas of rice

Xiangyu Wang et al. Nature. 2025 Aug.

Abstract

Cell functions across eukaryotes are driven by specific gene expression programs, which are dependent on chromatin structure1-3. Here we report a single-cell multi-omics atlas of rice, one of the world's major crops. By simultaneously profiling chromatin accessibility and RNA expression in 116,564 cells from eight organs, we identified cell-type-specific gene regulatory networks and described novel cell states, such as a 'transitional state' in floral meristems. On the basis of our network analyses, we uncovered the function of the cell-type-specific regulatory hubs RSR1, F3H and LTPL120 during rice development. Our analysis revealed correlations between cell type and agronomic traits, as well as conserved and divergent cell-type functions during evolution. In summary, this study not only offers a unique single-cell multi-omics resource for a major crop but also advances our understanding of cell-type functions and the underlying molecular programs in rice.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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