Generative adversarial networks applied to gene expression analysis: An interdisciplinary perspective

Computational and systems oncology Pub Date : 2023-08-03 DOI:10.1002/cso2.1050

Xusheng Ai, Melissa C Smith, Frank Alex Feltus

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Abstract

The remarkable flexibility and adaptability of generative adversarial networks (GANs) have led to the proliferation of its models in bioinformatics research. Proteomic and transcriptomic profiles have been shown to be promising methods for discovering and identifying disease biomarkers. However, those analyses were performed by trained human examiners making the process tedious, time consuming, and hard to standardize. With the development of GANs, it is now possible to reduce computational costs and human time for bioinformatics analysis to produce effective biomarkers. Moreover, GANs help address the lack of phenotypic state transitional gene expression data as well as avoid protected human data constraints by generating RNA sequencing (RNA-seq) data from random vectors. The purpose of this review is to summarize the use of GAN approaches and techniques to augment RNA-seq expression data and identify clinically useful biomarkers. We compare different studies that use different types of GAN models to examine the biomarkers. Also, we identify research gaps and challenges that apply GANs to bio-informatics. Finally, we propose potential directions for future research.

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生成对抗网络应用于基因表达分析:跨学科的观点

生成对抗网络(GANs)具有显著的灵活性和适应性，其模型在生物信息学研究中得到了广泛应用。蛋白质组学和转录组学已被证明是发现和鉴定疾病生物标志物的有前途的方法。然而，这些分析是由训练有素的人工审查员执行的，这使得这个过程乏味、耗时，而且很难标准化。随着gan的发展，现在有可能减少计算成本和人工时间用于生物信息学分析，以产生有效的生物标志物。此外，GANs有助于解决表型状态过渡基因表达数据的缺乏问题，并通过从随机载体生成RNA测序(RNA‐seq)数据来避免受保护的人类数据约束。本综述的目的是总结GAN方法和技术在增加RNA - seq表达数据和鉴定临床有用的生物标志物方面的应用。我们比较了使用不同类型GAN模型来检查生物标志物的不同研究。此外，我们还指出了将gan应用于生物信息学的研究差距和挑战。最后，提出了今后的研究方向。

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