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. 2025 Sep;22(9):1954-1963.
doi: 10.1038/s41592-025-02781-5. Epub 2025 Aug 18.

High-throughput profiling of chemical-induced gene expression across 93,644 perturbations

Lei Xiang #  1 Yumei Wang #  1 Wei Shao #  2   3 Qingzhou Li  4 Xiankuo Yu  1 Mingming Wei  1 Yu Gui  4 Shengrong Li  4 Pan Qin  1 Chao Hu  1 Guochen Zhang  1 Xianwen Zhang  1 Jiawen Wang  2 Yingying Li  2 Jun An  1 Yan Luo  1 Yile Liao  1 Jinghong Deng  1 Xinran Tai  1 Richard Y Xu  5 Lijun Huang  1 Dale Guo  4 Guanbin Zhang  6 Zhi Xie  7 Yun Deng  8   9 Junquan Xu  10 Dong Wang  11
Affiliations

High-throughput profiling of chemical-induced gene expression across 93,644 perturbations

Lei Xiang et al. Nat Methods. 2025 Sep.

Abstract

In this Resource, we present an extensive dataset of chemical-induced gene signatures (CIGS), encompassing expression patterns of 3,407 genes regulating key biological processes in 2 human cell lines exposed to 13,221 compounds across 93,664 perturbations. This dataset encompasses 319,045,108 gene expression events, generated through 2 high-throughput technologies: the previously documented high-throughput sequencing-based high-throughput screening (HTS2) and the newly developed highly multiplexed and parallel sequencing (HiMAP-seq). Our results show that HiMAP-seq is comparable to RNA sequencing, but can profile the expression of thousands of genes across thousands of samples in one single test by utilizing a pooled-sample strategy. We further illustrate CIGS's utility in elucidating the mechanism of action of unannotated small molecules, like ligustroflavone and 2,4-dihydroxybenzaldehyde, and to identify perturbation-induced cell states, such as those resistant to ferroptosis. The full dataset is publicly accessible at https://cigs.iomicscloud.com/ .

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Conflict of interest statement

Competing interests: Patent applications were filed based on the results of this study. D.W. is a consultant for Iomics Biosciences. W.S., J.W., Y. Li and J.X. were employed by Iomics Biosciences during the time they contributed to this paper. The other authors declare no competing interests.

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