Weighted gene co-expression network analysis reveals the hub genes and molecular mechanism of quiescence.

IF 2.6 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

3 Biotech Pub Date : 2025-02-01 Epub Date: 2025-01-15 DOI:10.1007/s13205-024-04203-3

J P Apoorvha, S Brindha, M Ganesan, Sujata Roy

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引用次数: 0

Abstract

The hematopoietic stem cell (HSC) continues their functional integrity and return to quiescence quickly even after inflammatory and other proliferative stress. The mechanism which is responsible for this highly regulatory process is not understood clearly. Previous results have shown that CD53 is noticeably upregulated in HSCs in response to a variety of stimuli. Gene expression profile using RNASeq data of HSCs from the bone marrow and spleen of CD53 knock out and their wild-type littermate had been deposited by Greenberg and co-authors, in GEO database, "GSE219050". They reported that knockout of CD53 promotes continued cell cycle. To identify key genes and specific processes are affected in absence of CD53, we applied weighted gene co-expression analysis. The results show that cyan module is correlated and dark red and light cyan are anti-correlated with CD53 loss. CDK1 is identified as more connected gene or hub gene in cyan module and it is upregulated in the absence of CD53. Likewise, hub genes from dark-red module are EP300, EGF, MCL1, LPL and IGF1R. The gene enrichment analysis depicts, two biological processes, MAPK cascade and Delta Notch signalling were suppressed. Similarly, the biological processes involved in light-cyan module are chromatin organisation and hub genes are Ehmt2, Ezh2, Kdm1a, Rbbp4, Esr1 and Mysm1. It uncovers the roles of CD53 in chromatin organisation, and MAPK cascade and Delta Notch signalling are the major contributors in quiescence mechanism. These findings might provide a new avenue in quiescence research.

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加权基因共表达网络分析揭示了中心基因和静默的分子机制。

造血干细胞（HSC）即使在炎症和其他增殖应激后也能保持其功能完整性并迅速恢复平静。造成这一高度管制过程的机制尚不清楚。先前的结果表明，CD53在造血干细胞中对各种刺激的反应明显上调。利用CD53敲除者及其野生型同伴的骨髓和脾脏造血干细胞的RNASeq数据的基因表达谱已由Greenberg及其合作者在GEO数据库“GSE219050”中保存。他们报告说，敲除CD53促进了持续的细胞周期。为了确定缺少CD53的关键基因和特定过程受到影响，我们应用了加权基因共表达分析。结果表明，青色模块与CD53损失相关，深红和浅青色模块与CD53损失抗相关。在青色模块中，CDK1被认为是连接更紧密的基因或枢纽基因，在缺乏CD53的情况下，CDK1被上调。同样，暗红色模块的枢纽基因为EP300、EGF、MCL1、LPL和IGF1R。基因富集分析表明，两个生物过程，MAPK级联和Delta Notch信号被抑制。同样，浅青色模块中涉及的生物过程是染色质组织，中心基因是Ehmt2、Ezh2、Kdm1a、Rbbp4、Esr1和Mysm1。它揭示了CD53在染色质组织中的作用，MAPK级联和Delta Notch信号是静止机制的主要参与者。这些发现可能为静息研究提供一条新的途径。

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

3 Biotech Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)

CiteScore

6.00

自引率

0.00%

发文量

314

期刊介绍： 3 Biotech publishes the results of the latest research related to the study and application of biotechnology to: - Medicine and Biomedical Sciences - Agriculture - The Environment The focus on these three technology sectors recognizes that complete Biotechnology applications often require a combination of techniques. 3 Biotech not only presents the latest developments in biotechnology but also addresses the problems and benefits of integrating a variety of techniques for a particular application. 3 Biotech will appeal to scientists and engineers in both academia and industry focused on the safe and efficient application of Biotechnology to Medicine, Agriculture and the Environment.