scFED:基于特征工程去噪的scRNA-Seq数据的细胞类型聚类识别。

IF 3.9 2区 生物学 Q1 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Yang Liu, Feng Li, Junliang Shang, Jinxing Liu, Juan Wang, Daohui Ge
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引用次数: 1

摘要

最近开发的单细胞RNA-seq(scRNA-seq)技术为研究人员提供了研究单细胞水平疾病发展的机会。聚类是分析scRNA-seq数据的最基本策略之一。选择高质量的特征集可以显著提高单细胞聚类和分类的结果。但是,由于技术原因,计算繁重和高度表达的基因无法提供稳定和预测的特征集。在本研究中,我们介绍了一种功能工程基因选择框架scFED。scFED识别预期特征集以消除噪声波动。并将其与来自组织特异性细胞分类学参考数据库(CellMatch)的现有知识融合,以避免主观因素的影响。然后提出了一种用于降噪和关键信息放大的重建方法。我们将scFED应用于四个真正的单细胞数据集,并将其与其他技术进行比较。结果表明,scFED改进了聚类,降低了scRNA-seq数据的维数,与聚类算法相结合时改进了细胞类型识别,并且比其他方法具有更高的性能。因此,scFED在scRNA-seq数据基因选择方面具有一定的优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

scFED: Clustering Identifying Cell Types of scRNA-Seq Data Based on Feature Engineering Denoising.

scFED: Clustering Identifying Cell Types of scRNA-Seq Data Based on Feature Engineering Denoising.

Recently developed single-cell RNA-seq (scRNA-seq) technology has given researchers the chance to investigate single-cell level of disease development. Clustering is one of the most essential strategies for analyzing scRNA-seq data. Choosing high-quality feature sets can significantly enhance the outcomes of single-cell clustering and classification. But computationally burdensome and highly expressed genes cannot afford a stabilized and predictive feature set for technical reasons. In this study, we introduce scFED, a feature-engineered gene selection framework. scFED identifies prospective feature sets to eliminate the noise fluctuation. And fuse them with existing knowledge from the tissue-specific cellular taxonomy reference database (CellMatch) to avoid the influence of subjective factors. Then present a reconstruction approach for noise reduction and crucial information amplification. We apply scFED on four genuine single-cell datasets and compare it with other techniques. According to the results, scFED improves clustering, decreases dimension of the scRNA-seq data, improves cell type identification when combined with clustering algorithms, and has higher performance than other methods. Therefore, scFED offers certain benefits in scRNA-seq data gene selection.

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来源期刊
Interdisciplinary Sciences: Computational Life Sciences
Interdisciplinary Sciences: Computational Life Sciences MATHEMATICAL & COMPUTATIONAL BIOLOGY-
CiteScore
8.60
自引率
4.20%
发文量
55
期刊介绍: Interdisciplinary Sciences--Computational Life Sciences aims to cover the most recent and outstanding developments in interdisciplinary areas of sciences, especially focusing on computational life sciences, an area that is enjoying rapid development at the forefront of scientific research and technology. The journal publishes original papers of significant general interest covering recent research and developments. Articles will be published rapidly by taking full advantage of internet technology for online submission and peer-reviewing of manuscripts, and then by publishing OnlineFirstTM through SpringerLink even before the issue is built or sent to the printer. The editorial board consists of many leading scientists with international reputation, among others, Luc Montagnier (UNESCO, France), Dennis Salahub (University of Calgary, Canada), Weitao Yang (Duke University, USA). Prof. Dongqing Wei at the Shanghai Jiatong University is appointed as the editor-in-chief; he made important contributions in bioinformatics and computational physics and is best known for his ground-breaking works on the theory of ferroelectric liquids. With the help from a team of associate editors and the editorial board, an international journal with sound reputation shall be created.
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