Combining GWAS and population genomic analyses to characterize coevolution in a legume‐rhizobia symbiosis

The mutualism between legumes and rhizobia is clearly the product of past coevolution. However, the nature of ongoing evolution between these partners is less clear. To characterize the nature of recent coevolution between legumes and rhizobia, we used population genomic analysis to characterize sel...

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Published in:Molecular ecology 2023-07, Vol.32 (14), p.3798-3811
Main Authors: Epstein, Brendan, Burghardt, Liana T., Heath, Katy D., Grillo, Michael A., Kostanecki, Adam, Hämälä, Tuomas, Young, Nevin D., Tiffin, Peter
Format: Article
Language:English
Subjects:
Alfalfa
Association analysis
bacteria
Coevolution
Fertilizers
Genes
Genome-Wide Association Study
Genomic analysis
Genotypes
Inoculation
Legumes
Medicago
Medicago truncatula - genetics
Metagenomics
microbes
Mutualism
Nodulation
Nodules
Plant growth
population genomics
Positive selection
Rhizobium - genetics
Signatures
Strains (organisms)
Symbiosis
Symbiosis - genetics
Variation
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Summary:The mutualism between legumes and rhizobia is clearly the product of past coevolution. However, the nature of ongoing evolution between these partners is less clear. To characterize the nature of recent coevolution between legumes and rhizobia, we used population genomic analysis to characterize selection on functionally annotated symbiosis genes as well as on symbiosis gene candidates identified through a two‐species association analysis. For the association analysis, we inoculated each of 202 accessions of the legume host Medicago truncatula with a community of 88 Sinorhizobia (Ensifer) meliloti strains. Multistrain inoculation, which better reflects the ecological reality of rhizobial selection in nature than single‐strain inoculation, allows strains to compete for nodulation opportunities and host resources and for hosts to preferentially form nodules and provide resources to some strains. We found extensive host by symbiont, that is, genotype‐by‐genotype, effects on rhizobial fitness and some annotated rhizobial genes bear signatures of recent positive selection. However, neither genes responsible for this variation nor annotated host symbiosis genes are enriched for signatures of either positive or balancing selection. This result suggests that stabilizing selection dominates selection acting on symbiotic traits and that variation in these traits is under mutation‐selection balance. Consistent with the lack of positive selection acting on host genes, we found that among‐host variation in growth was similar whether plants were grown with rhizobia or N‐fertilizer, suggesting that the symbiosis may not be a major driver of variation in plant growth in multistrain contexts. see also the Perspective by Christopher Carlson and Megan E. Frederickson
ISSN:0962-1083
1365-294X
DOI:10.1111/mec.16602