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Large-scale network analysis captures biological features of bacterial plasmids

Mislav Acman, Lucy van Dorp, Joanne M. Santini, François Balloux

2020Nature Communications136 citationsDOIOpen Access PDF

Abstract

Many bacteria can exchange genetic material through horizontal gene transfer (HGT) mediated by plasmids and plasmid-borne transposable elements. Here, we study the population structure and dynamics of over 10,000 bacterial plasmids, by quantifying their genetic similarities and reconstructing a network based on their shared k-mer content. We use a community detection algorithm to assign plasmids into cliques, which correlate with plasmid gene content, bacterial host range, GC content, and existing classifications based on replicon and mobility (MOB) types. Further analysis of plasmid population structure allows us to uncover candidates for yet undescribed replicon genes, and to identify transposable elements as the main drivers of HGT at broad phylogenetic scales. Our work illustrates the potential of network-based analyses of the bacterial 'mobilome' and opens up the prospect of a natural, exhaustive classification framework for bacterial plasmids.

Topics & Concepts

RepliconPlasmidTransposable elementHorizontal gene transferBiologyGeneticsGenePopulationMobile genetic elementsPhylogenetic treeComputational biologyGenomeSociologyDemographyGenomics and Phylogenetic StudiesMicrobial Community Ecology and PhysiologyBacteriophages and microbial interactions
Large-scale network analysis captures biological features of bacterial plasmids | Litcius