Host genetics has recently been shown to be a driver of plant microbiome composition. However, identifying the underlying genetic loci controlling microbial selection remains challenging. Genome-wide association studies (GWAS) represent a potentially powerful, unbiased method to identify microbes sensitive to the host genotype and to connect them with the genetic loci that influence their colonization. Here, we conducted a population-level microbiome analysis of the rhizospheres of 200 sorghum genotypes. Using 16S rRNA amplicon sequencing, we identify rhizosphere-associated bacteria exhibiting heritable associations with plant genotype, and identify significant overlap between these lineages and heritable taxa recently identified in maize. ...
Recent evidence suggests that root-colonizing microbes play a major role in nutrient use efficiency,...
Identifying the factors that influence the outcome of host–microbial interactions is critical to pro...
BackgroundGenome-wide association (GWA) is gaining popularity as a means to study the architecture o...
Host genetics has recently been shown to be a driver of plant microbiome composition. However, ident...
Host genetics has recently been shown to be a driver of plant microbiome composition. However, ident...
Recent work suggests that plants have a plethora of previously underappreciated microbial allies tha...
The root-associated microbiome (rhizobiome) affects plant health, stress tolerance, and nutrient use...
Soil microbes that colonize plant roots and are responsive to differences in plant genotype remain t...
Genome-wide association studies are used to identify genetic variants associated with a particular p...
Environmental sequencing shows that plants harbor complex communities of microbes that vary across e...
The rhizosphere microbiome, which is the microbial community living in close proximity to plant root...
The rhizosphere is a critical interface supporting the exchange of resources between plants and thei...
A goal of modern biology is to develop the genotype-phenotype (G→P) map, a predictive understanding ...
Recent evidence suggests that root-colonizing microbes play a major role in nutrient use efficiency,...
Identifying the factors that influence the outcome of host–microbial interactions is critical to pro...
BackgroundGenome-wide association (GWA) is gaining popularity as a means to study the architecture o...
Host genetics has recently been shown to be a driver of plant microbiome composition. However, ident...
Host genetics has recently been shown to be a driver of plant microbiome composition. However, ident...
Recent work suggests that plants have a plethora of previously underappreciated microbial allies tha...
The root-associated microbiome (rhizobiome) affects plant health, stress tolerance, and nutrient use...
Soil microbes that colonize plant roots and are responsive to differences in plant genotype remain t...
Genome-wide association studies are used to identify genetic variants associated with a particular p...
Environmental sequencing shows that plants harbor complex communities of microbes that vary across e...
The rhizosphere microbiome, which is the microbial community living in close proximity to plant root...
The rhizosphere is a critical interface supporting the exchange of resources between plants and thei...
A goal of modern biology is to develop the genotype-phenotype (G→P) map, a predictive understanding ...
Recent evidence suggests that root-colonizing microbes play a major role in nutrient use efficiency,...
Identifying the factors that influence the outcome of host–microbial interactions is critical to pro...
BackgroundGenome-wide association (GWA) is gaining popularity as a means to study the architecture o...