DeepmRNALoc: A Novel Predictor of Eukaryotic mRNA Subcellular Localization Based on Deep Learning

DeepmRNALoc: A Novel Predictor of Eukaryotic mRNA Subcellular Localization Based on Deep Learning

The subcellular localization of messenger RNA (mRNA) precisely controls where protein products are synthesized and where they function. However, obtaining an mRNA's subcellular localization through wet-lab experiments is time-consuming and expensive, and many existing mRNA subcellular localizat...

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Veröffentlicht in:Molecules (Basel, Switzerland) Switzerland), 2023-03, Vol.28 (5), p.2284
Hauptverfasser: Wang, Shihang, Shen, Zhehan, Liu, Taigang, Long, Wei, Jiang, Linhua, Peng, Sihua
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Algorithms
Alzheimer's disease
Analysis
artificial intelligence
chaos-game representation
Classification
Computational Biology - methods
Cytoplasm
Datasets
Deep Learning
Endoplasmic reticulum
Endoplasmic Reticulum - metabolism
Eukaryota - metabolism
Eukaryotes
Life sciences
Localization
Machine learning
Medical research
Messenger RNA
Mitochondria
mRNA
mRNA subcellular localization
Neural networks
Performance evaluation
Proteins - metabolism
RNA, Messenger
Sample size
Support vector machines
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Zusammenfassung:The subcellular localization of messenger RNA (mRNA) precisely controls where protein products are synthesized and where they function. However, obtaining an mRNA's subcellular localization through wet-lab experiments is time-consuming and expensive, and many existing mRNA subcellular localization prediction algorithms need to be improved. In this study, a deep neural network-based eukaryotic mRNA subcellular location prediction method, DeepmRNALoc, was proposed, utilizing a two-stage feature extraction strategy that featured bimodal information splitting and fusing for the first stage and a VGGNet-like CNN module for the second stage. The five-fold cross-validation accuracies of DeepmRNALoc in the cytoplasm, endoplasmic reticulum, extracellular region, mitochondria, and nucleus were 0.895, 0.594, 0.308, 0.944, and 0.865, respectively, demonstrating that it outperforms existing models and techniques.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules28052284