Add to ORKGPea has lagged behind other model legumes in the molecular study of nodulation and mycorrhizae-formation because of the difficulty to transform its roots and its poor growth on agar plates. Here we describe for pea 1) a transformation technique which permits the complementation of two known non-nodulating pea mutants, 2) a rhizobial inoculation method which allows the study of early cellular events giving rise to nodule primordia, and 3) a targeted fungal inoculation method which allows us to study short segments of mycorrhizal roots assured to be infected. These tools are certain to advance our knowledge of pea root symbioses
Rhizobium leguminosarum bv. viciae, which nodulates pea and vetch, makes a mixture of secreted nodul...
In legumes, the formation of rhizobial and mycorrhizal root symbioses is a highly regulated process ...
Prod 2019-88u BAP EA GEAPSI Serres PPHDNational audienceThe root system is responsible for nitrogen ...
Pea has lagged behind other model legumes in the molecular study of nodulation and mycorrhizae-forma...
In this study, we demonstrated the successful transformation of two pea (Pisum sativum L.) cultivars...
Pseudomonas putida strain angstrom 313, a deleterious rhizosphere bacterium, reduced pea nitrogen co...
Genetic and molecular mechanisms of development are compared for two major plant}microbe endosymbios...
Plant exudates have been implicated as a driving force for rhizosphere interactions, the molecular m...
Soil-borne pathogens cause severe root rot of pea (Pisum sativum L.) and are a major constraint to p...
International audienceThe arbuscular mycorrhiza association results from a successful interaction be...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Endosymbiotic interactions form a fundament of life as we know it and are characterized by the form...
Eight symbiotic mutants of pea (Pisum sativum L.) induced by chemical mutagenesis have been studied ...
The symbiotic interaction between pea roots ('Pisum sativum' L.) and the endomycorrhizal fungus 'Glo...
Rhizobium leguminosarum bv. viciae, which nodulates pea and vetch, makes a mixture of secreted nodul...
In legumes, the formation of rhizobial and mycorrhizal root symbioses is a highly regulated process ...
Prod 2019-88u BAP EA GEAPSI Serres PPHDNational audienceThe root system is responsible for nitrogen ...
Pea has lagged behind other model legumes in the molecular study of nodulation and mycorrhizae-forma...
In this study, we demonstrated the successful transformation of two pea (Pisum sativum L.) cultivars...
Pseudomonas putida strain angstrom 313, a deleterious rhizosphere bacterium, reduced pea nitrogen co...
Genetic and molecular mechanisms of development are compared for two major plant}microbe endosymbios...
Plant exudates have been implicated as a driving force for rhizosphere interactions, the molecular m...
Soil-borne pathogens cause severe root rot of pea (Pisum sativum L.) and are a major constraint to p...
International audienceThe arbuscular mycorrhiza association results from a successful interaction be...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Leguminous plants are able to interact with bacteria of the genera Azorhizobium , Bradyrhizobium , R...
Endosymbiotic interactions form a fundament of life as we know it and are characterized by the form...
Eight symbiotic mutants of pea (Pisum sativum L.) induced by chemical mutagenesis have been studied ...
The symbiotic interaction between pea roots ('Pisum sativum' L.) and the endomycorrhizal fungus 'Glo...
Rhizobium leguminosarum bv. viciae, which nodulates pea and vetch, makes a mixture of secreted nodul...
In legumes, the formation of rhizobial and mycorrhizal root symbioses is a highly regulated process ...
Prod 2019-88u BAP EA GEAPSI Serres PPHDNational audienceThe root system is responsible for nitrogen ...