stMCDI:用于空间转录组学数据推算的屏蔽条件扩散模型与图神经网络

Xiaoyu Li, Wenwen Min, Shunfang Wang, Changmiao Wang, Taosheng Xu
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引用次数: 0

摘要

空间解析转录组学提供了基因表达数据及其相应的物理位置,是单细胞分析的一大进步。然而,这种高度的空间分辨率也有缺点,因为由此产生的细胞水平的空间转录组数据明显受到缺失值发生率高的困扰。此外,大多数现有的估算方法要么忽略了点之间的空间信息,要么损害了整体基因表达数据分布。为了应对这些挑战,我们的主要重点是有效利用空间转录组数据中的空间位置信息来估算缺失值,同时保留整体数据分布。我们引入了一种用于空间转录组学数据估算的新型条件扩散模型--textbf{stMCDI},该模型采用了以随机屏蔽的数据部分为指导、以未屏蔽的数据为条件训练而成的去噪网络。此外,它还利用 GNN 编码器整合空间位置信息,从而提高了模型性能。从空间转录组学数据集获得的结果阐明了我们的方法相对于现有方法的性能。
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stMCDI: Masked Conditional Diffusion Model with Graph Neural Network for Spatial Transcriptomics Data Imputation
Spatially resolved transcriptomics represents a significant advancement in single-cell analysis by offering both gene expression data and their corresponding physical locations. However, this high degree of spatial resolution entails a drawback, as the resulting spatial transcriptomic data at the cellular level is notably plagued by a high incidence of missing values. Furthermore, most existing imputation methods either overlook the spatial information between spots or compromise the overall gene expression data distribution. To address these challenges, our primary focus is on effectively utilizing the spatial location information within spatial transcriptomic data to impute missing values, while preserving the overall data distribution. We introduce \textbf{stMCDI}, a novel conditional diffusion model for spatial transcriptomics data imputation, which employs a denoising network trained using randomly masked data portions as guidance, with the unmasked data serving as conditions. Additionally, it utilizes a GNN encoder to integrate the spatial position information, thereby enhancing model performance. The results obtained from spatial transcriptomics datasets elucidate the performance of our methods relative to existing approaches.
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