Authors: Wanqi Li, Hao Dong, Zihan Zhou, Wenlin Fan, Yutong Zhou, Xiaochun Yang, Gang Xue, Zhiyuan Li.
Journal: bioRxiv
DOI: 10.1101/2025.10.21.683820
Link: https://www.biorxiv.org/content/biorxiv/early/2025/10/23/2025.10.21.683820.full.pdf
Published: Oct, 23, 2025
Document Type: Research Article
Abstract:
Transcription factor (TF) regulatory networks govern complex cellular processes, yet their inference from single-cell transcriptomes is hindered by TFs’ low abundance, tissue-specific functions, and isoform diversity. We evaluated the utility of transcription factor activity (TFA) to infer TF–TF interactions, demonstrating its superiority over expression-based methods in capturing tissue-specific, high-fidelity regulatory relationships. Using simulated and real-world transcriptomes across human hematopoiesis and early embryonic development, we validated TFA’s ability to render regulatory relationships. Through utilizing the concept of propagated regulome, we uncovered TFA’s utility in retrospectively resolving dynamic regulatory circuits. To address regulome limitations, we developed an embryonic stem cell-specific Consensus REgulome Database (CRED) with isoform resolution, revealing functional heterogeneity among TF isoforms. Applied to human preimplantation single-cell datasets, CRED outperformed existing regulomes, identifying isoform-specific regulators and tracing regulatory modules despite severe dropouts. Our work unleashes TFA as a robust tool for reconstructing TF networks and highlights the importance of transited, isoform-level, cell-type-specific analysis in unraveling transcriptional regulatory circuits.