2021
DOI: 10.1101/2021.08.03.454976
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Genome-wide association studies across environmental and genetic contexts reveal complex genetic architecture of symbiotic extended phenotypes

Abstract: A goal of modern biology is to develop the genotype-phenotype (G-P) map, a predictive understanding of how genomic information generates the organismal trait variation that forms the basis of both natural and managed communities. As microbiome research advances, however, it has become clear that many of these traits are governed by genetic variation encoded not only by the host's own genome, but also by the genomes of myriad cryptic symbionts. Thus many ecologically-important traits are likely symbiotic extend… Show more

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Cited by 7 publications
(19 citation statements)
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References 203 publications
(299 reference statements)
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“…At the genomic-level, distinct variants underlying rhizobium fitness pleiotropy on each host genotype suggests that the genetic mechanisms (i.e., genes, pathways, metabolic processes) governing the relationship between fitness proxies are largely non-overlapping when rhizobia interact with different hosts. Such host genotype-dependent shifts in the rhizobium genetic architecture of these symbiotic extended phenotypes is supported by transcriptomics studies of G x G interactions (33, 44) and GWAS revealing distinct sets of candidate genes in different host backgrounds (34, 46). Similar genetic variation exists in hosts (86) and undoubtedly interacts with the variants we identify here, thus, should be accounted for if we are to build a reliable G→P map.…”
Section: Discussionmentioning
confidence: 89%
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“…At the genomic-level, distinct variants underlying rhizobium fitness pleiotropy on each host genotype suggests that the genetic mechanisms (i.e., genes, pathways, metabolic processes) governing the relationship between fitness proxies are largely non-overlapping when rhizobia interact with different hosts. Such host genotype-dependent shifts in the rhizobium genetic architecture of these symbiotic extended phenotypes is supported by transcriptomics studies of G x G interactions (33, 44) and GWAS revealing distinct sets of candidate genes in different host backgrounds (34, 46). Similar genetic variation exists in hosts (86) and undoubtedly interacts with the variants we identify here, thus, should be accounted for if we are to build a reliable G→P map.…”
Section: Discussionmentioning
confidence: 89%
“…Such LD results from multiple, non-mutually exclusive factors including epistatic interactions among individual variants that render discordant variants effectively neutral, and/or past selection favouring allelic combinations that increase both host and symbiont fitness (and disfavours discordant combinations; 79, 80). Overall, these findings highlight the polygenic nature of partner quality variation in nature -where the collective action of individual mutations, their additive and nonadditive effects (46), and a history of selection shapes the trait variation currently present in natural populations (81,82).…”
Section: Genomic Resolution Of Conflict and Alignment In Symbiosismentioning
confidence: 84%
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“…Rather than extensions of the microbial genome, MGEs instead represent distinct genomes nested within microbes, similar to how microbes are distinct from their plant hosts. Loci within MGEs not only have the potential to influence microbial traits, including antibiotic resistance (Förster et al ., 2015), but also plant traits via their interaction with microbes, including plant growth (Batstone et al ., 2021b). Therefore, genetic variation within MGEs, in addition to plants and microbes, must be explicitly accounted for if we want to understand how plant traits evolve (Box 1).…”
Section: Mobile Genetic Elements As Units Of Selectionmentioning
confidence: 99%