探索人类淋巴细胞对电离辐射反应时的差异表达基因：一种网络生物学方法。

Exploring the differentially expressed genes in human lymphocytes upon response to ionizing radiation: a network biology approach.

作者信息

Sekaran Tamizh Selvan Gnana, Kedilaya Vishakh R, Kumari Suchetha N, Shetty Praveenkumar, Gollapalli Pavan

机构信息

Central Research Laboratory, K. S. Hegde Medical Academy, Nitte (Deemed to be University), Mangalore, India.

出版信息

Radiat Oncol J. 2021 Mar;39(1):48-60. doi: 10.3857/roj.2021.00045. Epub 2021 Mar 24.

DOI:10.3857/roj.2021.00045

PMID:33794574

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8024183/

Abstract

PURPOSE

The integration of large-scale gene data and their functional analysis needs the effective application of various computational tools. Here we attempted to unravel the biological processes and cellular pathways in response to ionizing radiation using a systems biology approach.

MATERIALS AND METHODS

Analysis of gene ontology shows that 80, 42, 25, and 35 genes have roles in the biological process, molecular function, the cellular process, and immune system pathways, respectively. Therefore, our study emphasizes gene/protein network analysis on various differentially expressed genes (DEGs) to reveal the interactions between those proteins and their functional contribution upon radiation exposure.

RESULTS

A gene/protein interaction network was constructed, which comprises 79 interactors with 718 interactions and TP53, MAPK8, MAPK1, CASP3, MAPK14, ATM, NOTCH1, VEGFA, SIRT1, and PRKDC are the top 10 proteins in the network with high betweenness centrality values. Further, molecular complex detection was used to cluster these associated partners in the network, which produced three effective clusters based on the Molecular Complex Detection (MCODE) score. Interestingly, we found a high functional similarity from the associated genes/proteins in the network with known radiation response genes.

CONCLUSION

This network-based approach on DEGs of human lymphocytes upon response to ionizing radiation provides clues for an opportunity to improve therapeutic efficacy.

摘要

目的

大规模基因数据的整合及其功能分析需要有效应用各种计算工具。在此，我们尝试使用系统生物学方法揭示电离辐射响应中的生物学过程和细胞途径。

材料与方法

基因本体分析表明，分别有80、42、25和35个基因在生物学过程、分子功能、细胞过程和免疫系统途径中发挥作用。因此，我们的研究着重于对各种差异表达基因（DEG）进行基因/蛋白质网络分析，以揭示这些蛋白质之间的相互作用及其在辐射暴露后的功能贡献。

结果

构建了一个基因/蛋白质相互作用网络，该网络由79个相互作用子和718个相互作用组成，TP53、MAPK8、MAPK1、CASP3、MAPK14、ATM、NOTCH1、VEGFA、SIRT1和PRKDC是网络中具有高介数中心性值的前10种蛋白质。此外，使用分子复合物检测对网络中的这些相关伙伴进行聚类，根据分子复合物检测（MCODE）得分产生了三个有效聚类。有趣的是，我们发现网络中相关基因/蛋白质与已知辐射反应基因具有高度的功能相似性。

结论

这种基于网络的方法对人淋巴细胞响应电离辐射的DEG进行研究，为提高治疗效果提供了线索。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8bac/8024183/83bfeb7b33b6/roj-2021-00045f1.jpg

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探索人类淋巴细胞对电离辐射反应时的差异表达基因：一种网络生物学方法。

Exploring the differentially expressed genes in human lymphocytes upon response to ionizing radiation: a network biology approach.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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