Litcius/Paper detail

pSONIC: Ploidy-aware Syntenic Orthologous Networks Identified via Collinearity

Justin L. Conover, Joel Sharbrough, Jonathan F. Wendel

2021G3 Genes Genomes Genetics21 citationsDOIOpen Access PDF

Abstract

With the rapid rise in availability of high-quality genomes for closely related species, methods for orthology inference that incorporate synteny are increasingly useful. Polyploidy perturbs the 1:1 expected frequencies of orthologs between two species, complicating the identification of orthologs. Here we present a method of ortholog inference, Ploidy-aware Syntenic Orthologous Networks Identified via Collinearity (pSONIC). We demonstrate the utility of pSONIC using four species in the cotton tribe (Gossypieae), including one allopolyploid, and place between 75% and 90% of genes from each species into nearly 32,000 orthologous groups, 97% of which consist of at most singletons or tandemly duplicated genes-58.8% more than comparable methods that do not incorporate synteny. We show that 99% of singleton gene groups follow the expected tree topology and that our ploidy-aware algorithm recovers 97.5% identical groups when compared to splitting the allopolyploid into its two respective subgenomes, treating each as separate "species."

Topics & Concepts

SyntenyBiologyPloidyGenomeGeneticsGeneTribeEvolutionary biologyPolyploidPhylogeneticsCollinearityChromosomeOrthologous GeneComputational biologySociologyAnthropologyMathematicsGeometryChromosomal and Genetic VariationsGenomics and Phylogenetic StudiesPlant Virus Research Studies