BMC Bioinformatics (Apr 2024)

Assessing the reliability of point mutation as data augmentation for deep learning with genomic data

  • Hyunjung Lee,
  • Utku Ozbulak,
  • Homin Park,
  • Stephen Depuydt,
  • Wesley De Neve,
  • Joris Vankerschaver

DOI
https://doi.org/10.1186/s12859-024-05787-6
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 19

Abstract

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Abstract Background Deep neural networks (DNNs) have the potential to revolutionize our understanding and treatment of genetic diseases. An inherent limitation of deep neural networks, however, is their high demand for data during training. To overcome this challenge, other fields, such as computer vision, use various data augmentation techniques to artificially increase the available training data for DNNs. Unfortunately, most data augmentation techniques used in other domains do not transfer well to genomic data. Results Most genomic data possesses peculiar properties and data augmentations may significantly alter the intrinsic properties of the data. In this work, we propose a novel data augmentation technique for genomic data inspired by biology: point mutations. By employing point mutations as substitutes for codons, we demonstrate that our newly proposed data augmentation technique enhances the performance of DNNs across various genomic tasks that involve coding regions, such as translation initiation and splice site detection. Conclusion Silent and missense mutations are found to positively influence effectiveness, while nonsense mutations and random mutations in non-coding regions generally lead to degradation. Overall, point mutation-based augmentations in genomic datasets present valuable opportunities for improving the accuracy and reliability of predictive models for DNA sequences.

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