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Merqury: reference-free quality, completeness, and phasing assessment for genome assemblies

Arang Rhie, Brian P. Walenz, Sergey Koren, Adam M. Phillippy

2020Genome biology3,534 citationsDOIOpen Access PDF

Abstract

Recent long-read assemblies often exceed the quality and completeness of available reference genomes, making validation challenging. Here we present Merqury, a novel tool for reference-free assembly evaluation based on efficient k-mer set operations. By comparing k-mers in a de novo assembly to those found in unassembled high-accuracy reads, Merqury estimates base-level accuracy and completeness. For trios, Merqury can also evaluate haplotype-specific accuracy, completeness, phase block continuity, and switch errors. Multiple visualizations, such as k-mer spectrum plots, can be generated for evaluation. We demonstrate on both human and plant genomes that Merqury is a fast and robust method for assembly validation.

Topics & Concepts

Completeness (order theory)PhaserGenomek-merBiologySequence assemblyComputer scienceSet (abstract data type)Computational biologyReference genomeData miningGeneticsMathematicsEngineeringGeneProgramming languageTranscriptomeMathematical analysisElectrical engineeringGene expressionGenomics and Phylogenetic StudiesRNA and protein synthesis mechanismsGenomics and Chromatin Dynamics
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