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MegaPath: sensitive and rapid pathogen detection using metagenomic NGS data

Chi-Ming Leung, Dinghua Li, Xin Yan, Wai-Chun Law, Yifan Zhang, Hing‐Fung Ting, Ruibang Luo, Tak‐Wah Lam

2020BMC Genomics17 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Next-generation sequencing (NGS) enables unbiased detection of pathogens by mapping the sequencing reads of a patient sample to the known reference sequence of bacteria and viruses. However, for a new pathogen without a reference sequence of a close relative, or with a high load of mutations compared to its predecessors, read mapping fails due to a low similarity between the pathogen and reference sequence, which in turn leads to insensitive and inaccurate pathogen detection outcomes. RESULTS: We developed MegaPath, which runs fast and provides high sensitivity in detecting new pathogens. In MegaPath, we have implemented and tested a combination of polishing techniques to remove non-informative human reads and spurious alignments. MegaPath applies a global optimization to the read alignments and reassigns the reads incorrectly aligned to multiple species to a unique species. The reassignment not only significantly increased the number of reads aligned to distant pathogens, but also significantly reduced incorrect alignments. MegaPath implements an enhanced maximum-exact-match prefix seeding strategy and a SIMD-accelerated Smith-Waterman algorithm to run fast. CONCLUSIONS: In our benchmarks, MegaPath demonstrated superior sensitivity by detecting eight times more reads from a low-similarity pathogen than other tools. Meanwhile, MegaPath ran much faster than the other state-of-the-art alignment-based pathogen detection tools (and compariable with the less sensitivity profile-based pathogen detection tools). The running time of MegaPath is about 20 min on a typical 1 Gb dataset.

Topics & Concepts

MetagenomicsBiologyComputational biologySpurious relationshipPathogenSensitivity (control systems)Alignment-free sequence analysisReference genomeSimilarity (geometry)Sequence (biology)DNA sequencingSequence alignmentComputer scienceGeneticsArtificial intelligenceGeneMachine learningPeptide sequenceElectronic engineeringImage (mathematics)EngineeringGenomics and Phylogenetic StudiesBacteriophages and microbial interactionsBacterial Identification and Susceptibility Testing