Pangenome-spanning epistasis and coselection analysis via de Bruijn graphs

Publication date

2024-07

Authors

Kuronen, Juri
Horsfield, Samuel T.
Pöntinen, Anna K.
Mallawaarachchi, Sudaraka
Arredondo-Alonso, Sergio
Thorpe, Harry
Gladstone, Rebecca A.
Willems, Rob J LISNI 0000000388459432
Bentley, Stephen D.
Croucher, Nicholas J.

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Supervisors

Document Type

Article

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cc_by

Abstract

Studies of bacterial adaptation and evolution are hampered by the difficulty of measuring traits such as virulence, drug resistance, and transmissibility in large populations. In contrast, it is now feasible to obtain high-quality complete assemblies of many bacterial genomes thanks to scalable high-accuracy long-read sequencing technologies. To exploit this opportunity, we introduce a phenotype- and alignment-free method for discovering coselected and epistatically interacting genomic variation from genome assemblies covering both core and accessory parts of genomes. Our approach uses a compact colored de Bruijn graph to approximate the intragenome distances between pairs of loci for a collection of bacterial genomes to account for the impacts of linkage disequilibrium (LD). We demonstrate the versatility of our approach to efficiently identify associations between loci linked with drug resistance and adaptation to the hospital niche in the major human bacterial pathogens Streptococcus pneumoniae and Enterococcus faecalis.

Keywords

Genetics, Genetics(clinical)

Citation

Kuronen, J, Horsfield, S T, Pöntinen, A K, Mallawaarachchi, S, Arredondo-Alonso, S, Thorpe, H, Gladstone, R A, Willems, R J L, Bentley, S D, Croucher, N J, Pensar, J, Lees, J A, Tonkin-Hill, G & Corander, J 2024, 'Pangenome-spanning epistasis and coselection analysis via de Bruijn graphs', Genome Research, vol. 34, no. 7, pp. 1081-1088. https://doi.org/10.1101/gr.278485.123