基于卡方和支持向量机的必需蛋白预测模型

Q4 Computer Science

International Journal of Open Source Software and Processes Pub Date : 2020-07-01 DOI:10.4018/ijossp.2020070103

S. R. M. Sekhar, G. Siddesh, S. Manvi

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引用次数: 0

摘要

蛋白质的鉴定和分析在药物设计和疾病预测中起着至关重要的作用。已经开发了几个开源应用程序，用于识别基于生物或拓扑特征的基本蛋白质。这些技术通过使用网络拓扑和特征选择来推断蛋白质是必不可少的可能性，这可以忽略一些特征来降低复杂性，从而导致准确性降低。在本文中，作者使用了selenium驱动程序来废弃数据集。随后，作者将卡方方法与支持向量机相结合，用于面包酵母中必需蛋白质的预测。这里，卡方是用于改变记录的不相似性测试，然后，支持向量机用于对测试数据集进行分类。结果表明，所提出的模型Chi-SVM的准确率为99.56%，而BC和CC的准确率分别为84.0%和86.0%。最后，使用PPA、NPA、SA和STA等统计性能度量来验证所提出的模型。

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Open-Source Essential Protein Prediction Model by Integrating Chi-Square and Support Vector Machine

Identification and analysis of protein play a vital role in drug design and disease prediction. There are several open-source applications that have been developed for identifying essential proteins which are based on biological or topological features. These techniques infer the possibility of proteins to be essential by using the network topology and feature selection, which can ignore some of the features to reduce the complexity and, subsequently, results in less accuracy. In the paper, the authors have used selenium driver to scrap the dataset. Later, the authors integrated the chi-square method with support vector machine for the prediction of essential proteins in baker yeast. Here, chi-square is a test of dissimilarity used for altering the record, and afterward, the support vector machine is used to classify the test dataset. The results show that the proposed model Chi-SVM model achieves an accuracy of 99.56%, whereas BC and CC achieved an accuracy of 84.0% and 86.0%. Finally, the proposed model is validated using Statistical performance measures such as PPA, NPA, SA, and STA.

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来源期刊

International Journal of Open Source Software and Processes Computer Science-Software

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The International Journal of Open Source Software and Processes (IJOSSP) publishes high-quality peer-reviewed and original research articles on the large field of open source software and processes. This wide area entails many intriguing question and facets, including the special development process performed by a large number of geographically dispersed programmers, community issues like coordination and communication, motivations of the participants, and also economic and legal issues. Beyond this topic, open source software is an example of a highly distributed innovation process led by the users. Therefore, many aspects have relevance beyond the realm of software and its development. In this tradition, IJOSSP also publishes papers on these topics. IJOSSP is a multi-disciplinary outlet, and welcomes submissions from all relevant fields of research and applying a multitude of research approaches.