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. 2021 Dec 23:9:821410.
doi: 10.3389/fpubh.2021.821410. eCollection 2021.

Hybrid Deep Neural Network for Handling Data Imbalance in Precursor MicroRNA

Elakkiya R  1 Deepak Kumar Jain  2 Ketan Kotecha  3 Sharnil Pandya  4 Sai Siddhartha Reddy  1 Rajalakshmi E  1 Vijayakumar Varadarajan  5 Aniket Mahanti  6 Subramaniyaswamy V  1
Affiliations

Hybrid Deep Neural Network for Handling Data Imbalance in Precursor MicroRNA

Elakkiya R et al. Front Public Health. .

Abstract

Over the last decade, the field of bioinformatics has been increasing rapidly. Robust bioinformatics tools are going to play a vital role in future progress. Scientists working in the field of bioinformatics conduct a large number of researches to extract knowledge from the biological data available. Several bioinformatics issues have evolved as a result of the creation of massive amounts of unbalanced data. The classification of precursor microRNA (pre miRNA) from the imbalanced RNA genome data is one such problem. The examinations proved that pre miRNAs (precursor microRNAs) could serve as oncogene or tumor suppressors in various cancer types. This paper introduces a Hybrid Deep Neural Network framework (H-DNN) for the classification of pre miRNA in imbalanced data. The proposed H-DNN framework is an integration of Deep Artificial Neural Networks (Deep ANN) and Deep Decision Tree Classifiers. The Deep ANN in the proposed H-DNN helps to extract the meaningful features and the Deep Decision Tree Classifier helps to classify the pre miRNA accurately. Experimentation of H-DNN was done with genomes of animals, plants, humans, and Arabidopsis with an imbalance ratio up to 1:5000 and virus with a ratio of 1:400. Experimental results showed an accuracy of more than 99% in all the cases and the time complexity of the proposed H-DNN is also very less when compared with the other existing approaches.

Keywords: bioinformatics; deep artificial neural network; deep decision tree classifier; hybrid deep neural network; precursor microRNA.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

Figure 1
Figure 1
Correlation matrix.
Figure 2
Figure 2
Structure of ANN in each node of Decision Tree in the proposed framework.
Figure 3
Figure 3
Proposed H-DNN framework.
Figure 4
Figure 4
Experimental results using (A) Animal, (B) Plant, (C) Human, (D) Arabidopsis and, (E) Virus genome datasets.
See this image and copyright information in PMC

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