基于注意力的图神经网络在单细胞组学中的标签传播。

Attention-Based Graph Neural Network for Label Propagation in Single-Cell Omics.

机构信息

Department of Electrical & Computer Engineering, The University of Arizona, Tucson, AZ 85721, USA.

Interdisciplinary Program in Statistics and Data Science, The University of Arizona, Tucson, AZ 85721, USA.

出版信息

Genes (Basel). 2023 Feb 16;14(2):506. doi: 10.3390/genes14020506.

DOI:10.3390/genes14020506

PMID:36833434

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9957137/

Abstract

Single-cell data analysis has been at forefront of development in biology and medicine since sequencing data have been made available. An important challenge in single-cell data analysis is the identification of cell types. Several methods have been proposed for cell-type identification. However, these methods do not capture the higher-order topological relationship between different samples. In this work, we propose an attention-based graph neural network that captures the higher-order topological relationship between different samples and performs transductive learning for predicting cell types. The evaluation of our method on both simulation and publicly available datasets demonstrates the superiority of our method, scAGN, in terms of prediction accuracy. In addition, our method works best for highly sparse datasets in terms of F1 score, precision score, recall score, and Matthew's correlation coefficients as well. Further, our method's runtime complexity is consistently faster compared to other methods.

摘要

单细胞数据分析自测序数据可用以来一直处于生物学和医学的前沿。单细胞数据分析的一个重要挑战是细胞类型的识别。已经提出了几种用于细胞类型识别的方法。然而，这些方法无法捕获不同样本之间的高阶拓扑关系。在这项工作中，我们提出了一种基于注意力的图神经网络，它可以捕获不同样本之间的高阶拓扑关系，并进行有向学习以预测细胞类型。我们的方法在模拟和公开可用数据集上的评估表明，我们的方法 scAGN 在预测准确性方面具有优势。此外，我们的方法在 F1 分数、精度分数、召回分数和马修斯相关系数方面，在高度稀疏数据集上的效果最好。此外，与其他方法相比，我们的方法的运行时复杂度始终更快。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/10a0/9957137/cf4c1b0c69a1/genes-14-00506-g001.jpg

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基于注意力的图神经网络在单细胞组学中的标签传播。

Attention-Based Graph Neural Network for Label Propagation in Single-Cell Omics.

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