Litcius/Paper detail

ClipKIT: A multiple sequence alignment trimming software for accurate phylogenomic inference

Jacob L. Steenwyk, Thomas J. Buida, Yuanning Li, Xing‐Xing Shen, Antonis Rokas

2020PLoS Biology741 citationsDOIOpen Access PDF

Abstract

Highly divergent sites in multiple sequence alignments (MSAs), which can stem from erroneous inference of homology and saturation of substitutions, are thought to negatively impact phylogenetic inference. Thus, several different trimming strategies have been developed for identifying and removing these sites prior to phylogenetic inference. However, a recent study reported that doing so can worsen inference, underscoring the need for alternative alignment trimming strategies. Here, we introduce ClipKIT, an alignment trimming software that, rather than identifying and removing putatively phylogenetically uninformative sites, instead aims to identify and retain parsimony-informative sites, which are known to be phylogenetically informative. To test the efficacy of ClipKIT, we examined the accuracy and support of phylogenies inferred from 14 different alignment trimming strategies, including those implemented in ClipKIT, across nearly 140,000 alignments from a broad sampling of evolutionary histories. Phylogenies inferred from ClipKIT-trimmed alignments are accurate, robust, and time saving. Furthermore, ClipKIT consistently outperformed other trimming methods across diverse datasets, suggesting that strategies based on identifying and retaining parsimony-informative sites provide a robust framework for alignment trimming.

Topics & Concepts

BiologyTrimmingInferencePhylogenetic treeMultiple sequence alignmentEvolutionary biologyPhylogeneticsSequence alignmentComputational biologyOccam's razorGeneticsComputer scienceArtificial intelligenceStatisticsMathematicsGeneOperating systemPeptide sequenceGenomics and Phylogenetic StudiesGenetic diversity and population structureEvolution and Paleontology Studies