Litcius/Paper detail

Large-scale k-mer-based analysis of the informational properties of genomes, comparative genomics and taxonomy

Yuval Bussi, Ruti Kapon, Ziv Reich

2021PLoS ONE55 citationsDOIOpen Access PDF

Abstract

Information theoretic approaches are ubiquitous and effective in a wide variety of bioinformatics applications. In comparative genomics, alignment-free methods, based on short DNA words, or k-mers, are particularly powerful. We evaluated the utility of varying k-mer lengths for genome comparisons by analyzing their sequence space coverage of 5805 genomes in the KEGG GENOME database. In subsequent analyses on four k-mer lengths spanning the relevant range (11, 21, 31, 41), hierarchical clustering of 1634 genus-level representative genomes using pairwise 21- and 31-mer Jaccard similarities best recapitulated a phylogenetic/taxonomic tree of life with clear boundaries for superkingdom domains and high subtree similarity for named taxons at lower levels (family through phylum). By analyzing ~14.2M prokaryotic genome comparisons by their lowest-common-ancestor taxon levels, we detected many potential misclassification errors in a curated database, further demonstrating the need for wide-scale adoption of quantitative taxonomic classifications based on whole-genome similarity.

Topics & Concepts

GenomeJaccard indexComparative genomicsPhylogenetic treeBiologyGenomicsComputational biologyPairwise comparisonPhylumEvolutionary biologyCluster analysisGeneticsComputer scienceGeneArtificial intelligenceGenomics and Phylogenetic StudiesChromosomal and Genetic VariationsGenetic diversity and population structure
Large-scale k-mer-based analysis of the informational properties of genomes, comparative genomics and taxonomy | Litcius