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NanoCaller for accurate detection of SNPs and indels in difficult-to-map regions from long-read sequencing by haplotype-aware deep neural networks

Mian Umair Ahsan, Qian Liu, Fang Li, Kai Wang

2021Genome biology92 citationsDOIOpen Access PDF

Abstract

Long-read sequencing enables variant detection in genomic regions that are considered difficult-to-map by short-read sequencing. To fully exploit the benefits of longer reads, here we present a deep learning method NanoCaller, which detects SNPs using long-range haplotype information, then phases long reads with called SNPs and calls indels with local realignment. Evaluation on 8 human genomes demonstrates that NanoCaller generally achieves better performance than competing approaches. We experimentally validate 41 novel variants in a widely used benchmarking genome, which could not be reliably detected previously. In summary, NanoCaller facilitates the discovery of novel variants in complex genomic regions from long-read sequencing.

Topics & Concepts

IndelBiologyHaplotypeComputational biologyGenomeSingle-nucleotide polymorphismDNA sequencingDeep sequencingGeneticsHuman genomeGenomics1000 Genomes ProjectDeep learningArtificial intelligenceComputer scienceGeneGenotypeGenomics and Phylogenetic StudiesRNA and protein synthesis mechanismsMachine Learning in Bioinformatics
NanoCaller for accurate detection of SNPs and indels in difficult-to-map regions from long-read sequencing by haplotype-aware deep neural networks | Litcius