Add to ORKGGrowth–defense tradeoffs are a major constraint on plant evolution. While the genetics of resource allocation is well established, the regulatory role of plant-associated microorganisms is still unclear. Here, we demonstrate that plant-associated microorganisms can reposition the plant phenotype along the same growth–defense tradeoff that determines phenotypic effects of plant mutations. We grew plants with microorganisms altering ethylene balance, a key hormone regulating plant investment into growth and stress tolerance. Microbial ethylene reduction had a similar effect to mutations disrupting ethylene signaling: both increased plant growth but at the cost of a strong stress hypersensitivity. We conclude that microbial impact on phenotype...
ABSTRACT Plant root-associated microbes promote plant growth and elicit induced systemic resistance ...
Heavy metal contamination is a threat to global food safety. Reducing heavy metal uptake in plants i...
Plants grow within a complex web of species that interact with each other and with the plant1–10. Th...
Growth–defense tradeoffs are a major constraint on plant evolution. While the genetics of resource a...
The plant hormone ethylene is one of the central regulators of plant development and stress resistan...
The plant hormone ethylene is one of the central regulators of plant development and stress resistan...
We are living on a hungry planet and securing food supply for the steadily increasing human populati...
Plants continuously adjust their physiology and phenotype to stressors. Plant hormones and modulator...
International audienceThe classic understanding of organisms focuses on genes as the main source of ...
Breeding better crops is a cornerstone of global food security. While efforts in plant genetic impro...
Although complex interactions between hosts and microbial associates are increasingly well documente...
Ethylene is a key hormone in plant development, mediating plant responses to abiotic environmental s...
Beneficial plant root-associated microorganisms carry out a range of functions that are essential fo...
Covering: 1981-2017Plants are colonized by an astounding number of microorganisms that can reach cel...
ABSTRACT Plant root-associated microbes promote plant growth and elicit induced systemic resistance ...
Heavy metal contamination is a threat to global food safety. Reducing heavy metal uptake in plants i...
Plants grow within a complex web of species that interact with each other and with the plant1–10. Th...
Growth–defense tradeoffs are a major constraint on plant evolution. While the genetics of resource a...
The plant hormone ethylene is one of the central regulators of plant development and stress resistan...
The plant hormone ethylene is one of the central regulators of plant development and stress resistan...
We are living on a hungry planet and securing food supply for the steadily increasing human populati...
Plants continuously adjust their physiology and phenotype to stressors. Plant hormones and modulator...
International audienceThe classic understanding of organisms focuses on genes as the main source of ...
Breeding better crops is a cornerstone of global food security. While efforts in plant genetic impro...
Although complex interactions between hosts and microbial associates are increasingly well documente...
Ethylene is a key hormone in plant development, mediating plant responses to abiotic environmental s...
Beneficial plant root-associated microorganisms carry out a range of functions that are essential fo...
Covering: 1981-2017Plants are colonized by an astounding number of microorganisms that can reach cel...
ABSTRACT Plant root-associated microbes promote plant growth and elicit induced systemic resistance ...
Heavy metal contamination is a threat to global food safety. Reducing heavy metal uptake in plants i...
Plants grow within a complex web of species that interact with each other and with the plant1–10. Th...