Fine construction of gene coexpression network analysis using GTOM and RECODE detected a critical module of neuroblastoma stages 4 and 4S.

IF 2.7 3区生物学

Hereditas Pub Date : 2024-11-14 DOI:10.1186/s41065-024-00342-y

Fumihiko Nakamura, Yushi Nakano, Shiro Yamada

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引用次数: 0

Abstract

Background: Stage 4 neuroblastoma (NBL), a solid tumor of childhood, has a poor prognosis. Despite intensive molecular genetic studies, no targetable gene abnormalities have been identified. Stage 4S NBL has a characteristic of spontaneous regression, and elucidation of the mechanistic differences between stages 4 and 4S may improve treatment. Conventional NBL studies have mainly focused on the detection of abnormalities in individual genes and have rarely examined abnormalities in gene networks. While the gene coexpression network is expected to contribute to the detection of network abnormalities, the fragility of the network due to data noise and the extraction of arbitrary topological structures for the high-dimensional network are issues.

Results: The present paper concerns the classification method of stages 4 and 4S NBL patients using highly accurate gene coexpression network analysis based on RNA-sequencing data of transcription factors (TFs). In particular, after applying a noise reduction method RECODE, generalized topological overlapping measure (GTOM), which weighs the connections of nodes in the network structure, succeeded in extracting a cluster of TFs that showed high classification performance for stages 4 and 4S. In addition, we investigated how these clusters correspond to clinical information and to TFs which control the normal adrenal tissue and NBL characters.

Conclusions: A clustering method is presented for finding intermediate-scale clusters of TFs that give considerable separation performance for distinguishing between stages 4 and 4S. It is suggested that this method is useful as a way to extract factors that contribute to the separation of groups from multiple pieces of information such as gene expression levels.

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利用 GTOM 和 RECODE 精细构建基因共表达网络分析，发现了神经母细胞瘤 4 期和 4S 期的关键模块。

背景：4期神经母细胞瘤（NBL）是一种儿童实体瘤，预后较差。尽管进行了深入的分子遗传学研究，但仍未发现可靶向的基因异常。4S期NBL具有自发消退的特点，阐明4期和4S期的机理差异可改善治疗。传统的 NBL 研究主要集中于检测单个基因的异常，很少研究基因网络的异常。虽然基因共表达网络有望促进网络异常的检测，但数据噪声导致的网络脆弱性以及高维网络任意拓扑结构的提取都是问题所在：本文基于转录因子（TFs）的RNA测序数据，利用高精度的基因共表达网络分析对4期和4S期NBL患者进行分类。具体而言，在应用降噪方法 RECODE 之后，通过权衡网络结构中节点之间的连接关系的广义拓扑重叠度量（GTOM），成功提取出了一个 TFs 簇，该 TFs 簇在 4 期和 4S 期中表现出了较高的分类性能。此外，我们还研究了这些聚类如何与临床信息以及控制正常肾上腺组织和 NBL 特征的 TF 相对应：结论：本文提出了一种聚类方法，用于寻找中等规模的 TFs 簇，这些 TFs 簇在区分 4 期和 4S 期方面具有相当高的分离性能。结论：本文提出了一种聚类方法，用于发现中等规模的 TFs 聚类，这种聚类在区分 4 期和 4S 期方面具有相当高的分离性能。本文认为，这种方法可以从基因表达水平等多种信息中提取有助于群体分离的因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Hereditas Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

3.80

自引率

3.70%

发文量

期刊介绍： For almost a century, Hereditas has published original cutting-edge research and reviews. As the Official journal of the Mendelian Society of Lund, the journal welcomes research from across all areas of genetics and genomics. Topics of interest include human and medical genetics, animal and plant genetics, microbial genetics, agriculture and bioinformatics.