Recovering gene regulatory networks in single-cell multi-omics data with PRISM-GRN

基因调控网络 标杆管理 推论 计算生物学 生物 生物学数据 鉴定(生物学) 适应性 灵活性(工程) 计算机科学 人工智能 概率逻辑 机器学习 合成数据 过程(计算) 范畴变量 基因表达调控 数据挖掘 系统生物学 贝叶斯推理 贝叶斯概率 水准点(测量) 基因组学 贝叶斯定理 功能基因组学 基因相互作用 生物网络 因果关系(物理学) 因果推理 基因表达谱 稳健性(进化) 数据驱动 基因 统计模型 帧(网络) 数据类型 调节顺序 贝叶斯网络
作者
Wenhao Zhang,Lan Cao,Xiaoxuan Gu,Long Yi,Ying Wang
出处
期刊:Genome Research [Cold Spring Harbor Laboratory Press]
卷期号:36 (1): 142-158
标识
DOI:10.1101/gr.280757.125
摘要

Understanding gene regulatory networks (GRNs) is crucial for deciphering cellular heterogeneity and the mechanisms underlying development and disease. However, current GRN inference methods fail to utilize multi-omics data and prior knowledge from a biologically interpretable insight. Therefore, we propose PRISM-GRN, a Bayesian model that seamlessly incorporates known GRNs, along with scRNA-seq and scATAC-seq data, into a probabilistic framework to reconstruct cell type-specific GRNs. PRISM-GRN employs a biologically interpretable architecture firmly rooted in the established gene regulatory mechanism, which asserts that gene expression is influenced by TF expression levels and gene chromatin accessibility through GRNs. Accordingly, PRISM-GRN decomposes observable data into biologically meaningful latent variables through a mechanism-informed generation process and a prior-GRN-primed inference process, enabling precise and robust GRN reconstruction. We evaluate PRISM-GRN on four benchmarking data sets with paired scRNA-seq and scATAC-seq data, demonstrating its superior performance over seven baseline methods in GRN reconstruction, especially its higher precision under the inherently imbalanced scenario in which the true regulatory interaction is sparse. Furthermore, benchmarking on directed GRNs highlights PRISM-GRN's ability to capture causality in gene regulation derived from the biologically interpretable architecture. More importantly, PRISM-GRN performs well with unpaired omics data and limited prior GRN information, showcasing its flexibility and adaptability across various biological contexts. Finally, biological analyses on PBMC data sets demonstrate PRISM-GRN's potential to facilitate the identification of cell type-specific or context-specific GRNs across broader real-world biological research applications. Overall, PRISM-GRN provides a novel paradigm for precise, robust, and interpretable exploration of causal GRNs with prior knowledge and multi-omics data.
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