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High-throughput deep learning variant effect prediction with Sequence UNET

Alistair S. Dunham, Pedro Beltrão, Mohammed AlQuraishi

2023Genome biology33 citationsDOIOpen Access PDF

Abstract

Understanding coding mutations is important for many applications in biology and medicine but the vast mutation space makes comprehensive experimental characterisation impossible. Current predictors are often computationally intensive and difficult to scale, including recent deep learning models. We introduce Sequence UNET, a highly scalable deep learning architecture that classifies and predicts variant frequency from sequence alone using multi-scale representations from a fully convolutional compression/expansion architecture. It achieves comparable pathogenicity prediction to recent methods. We demonstrate scalability by analysing 8.3B variants in 904,134 proteins detected through large-scale proteomics. Sequence UNET runs on modest hardware with a simple Python package.

Topics & Concepts

BiologyHuman geneticsGenome BiologySequence (biology)Computational biologyThroughputComputational genomicsDeep learningEvolutionary biologyGeneticsSequence learningGenomicsArtificial intelligenceGenomeComputer scienceGeneNeuroscienceTelecommunicationsWirelessMachine Learning in BioinformaticsGenomics and Phylogenetic StudiesMolecular Biology Techniques and Applications
High-throughput deep learning variant effect prediction with Sequence UNET | Litcius