scapGNN: A graph neural network –based framework for active pathway and gene module inference from single-cell multi-omics data

by Xudong Han, Bing Wang, Chenghao Situ, Yaling Qi, Hui Zhu, Yan Li, Xuejiang Guo Although advances in single-cell technologies have enabled the characterization of multiple omics profiles in individual cells, extracting functional and mechanistic insights from such information remains a major challenge. Here, we present scapGNN, a graph neural network (GNN)-based framework that creatively transforms sparse single-cell profile data into the stable gene –cell association network for inferring single-cell pathway activity scores and identifying cell phenotype–associated gene modules from single-cell multi-omics data. Systematic benchmarking demonstrated that scapGNN was more accurate, robust, and scalable than state-of-the-art methods in various downstream single-cell analyses such as cell denoising, batch effect removal, cell clustering, cell trajectory inference, and pathway or gene module identification. scapGNN was developed as a systematic R package that can be flexibly extended and enhanced for existing analysis processes. It provide s a new analytical platform for studying single cells at the pathway and network levels.
Source: PLoS Biology: Archived Table of Contents - Category: Biology Authors: Source Type: research
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