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Article type: Research Article
Authors: Sharma, Moolchand* | Deswal, Suman
Affiliations: Deenbandhu Chhotu Ram University of Science and Technology, Murthal (Sonipat), Haryana, India
Correspondence: [*] Corresponding author: Moolchand Sharma, Research Scholar, Deenbandhu Chhotu Ram University of Science and Technology, Murthal (Sonipat), Haryana, India. E-mail: [email protected].
Abstract: The greatest challenge for healthcare in drug repositioning and discovery is identifying interactions between known drugs and targets. Experimental methods can reveal some drug-target interactions (DTI) but identifying all of them is an expensive and time-consuming endeavor. Machine learning-based algorithms currently cover the DTI prediction problem as a binary classification problem. However, the performance of the DTI prediction is negatively impacted by the lack of experimentally validated negative samples due to an imbalanced class distribution. Hence recasting the DTI prediction task as a regression problem may be one way to solve this problem. This paper proposes a novel convolutional neural network with an attention-based bidirectional long short-term memory (CNN-AttBiLSTM), a new deep-learning hybrid model for predicting drug-target binding affinities. Secondly, it can be arduous and time-intensive to tune the hyperparameters of a CNN-AttBiLSTM hybrid model to augment its performance. To tackle this issue, we suggested a Memetic Particle Swarm Optimization (MPSOA) algorithm, for ascertaining the best settings for the proposed model. According to experimental results, the suggested MPSOA-based CNN- Att-BiLSTM model outperforms baseline techniques with a 0.90 concordance index and 0.228 mean square error in DAVIS dataset, and 0.97 concordance index and 0.010 mean square error in the KIBA dataset.
Keywords: Drug-target, healthcare, drug-target interaction, convolution neural network, attention mechanism, bidirectional LSTM, memetic particle swarm optimization algorithm, DAVIS and KIBA dataset
DOI: 10.3233/IDT-230145
Journal: Intelligent Decision Technologies, vol. 17, no. 4, pp. 1455-1474, 2023
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