Add to ORKGSpecific strains of nonpathogenic rhizobacteria can induce systemic resistance that is effective against a range of plant pathogens. To exploit induced systemic resistance, detailed knowledge of the triggering bacterial traits involved and on signal transduction pathways in the plant is necessary. Possibilities to improve effectiveness of induced resistance by rhizobacterial strains are discussed
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
To protect themselves from disease, plants have evolved sophisticated defense mechanisms in which t...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
Specific strains of nonpathogenic rhizobacteria can induce systemic resistance that is effective aga...
Understanding the involvement of rhizobacteria-mediated induction of systemic resistance in biocontr...
Nonpathogenic rhizobacteria can induce a systemic resistance in plants that is phenotypically simila...
Selected strains of plant growth-promoting rhizobacteria are able to induce a systemic resistance (...
Selected strains of plant growth-promoting rhizobacteria are able to induce a systemic resistance (I...
Plants have evolved a number of inducible defense mechanisms against pathogen attacks. Recognition o...
Non-pathogenic soilborne microorganisms can promote plant growth, as well as suppress diseases. Plan...
Selected strains of rhizosphere bacteria reduce disease by activating a resistance mechanism in the ...
Selected strains of rhizosphere bacteria reduce disease by activating a resistance mechanism in the ...
To protect themselves from disease, plants have evolved sophisticated defence mechanisms in which th...
The capacity of a plant to express a broad-spectrum systemic acquired resistance (SAR) after primar...
Some of non-pathogenic rhizosphere bacteria reduce disease by activating a resistance mechanism in ...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
To protect themselves from disease, plants have evolved sophisticated defense mechanisms in which t...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
Specific strains of nonpathogenic rhizobacteria can induce systemic resistance that is effective aga...
Understanding the involvement of rhizobacteria-mediated induction of systemic resistance in biocontr...
Nonpathogenic rhizobacteria can induce a systemic resistance in plants that is phenotypically simila...
Selected strains of plant growth-promoting rhizobacteria are able to induce a systemic resistance (...
Selected strains of plant growth-promoting rhizobacteria are able to induce a systemic resistance (I...
Plants have evolved a number of inducible defense mechanisms against pathogen attacks. Recognition o...
Non-pathogenic soilborne microorganisms can promote plant growth, as well as suppress diseases. Plan...
Selected strains of rhizosphere bacteria reduce disease by activating a resistance mechanism in the ...
Selected strains of rhizosphere bacteria reduce disease by activating a resistance mechanism in the ...
To protect themselves from disease, plants have evolved sophisticated defence mechanisms in which th...
The capacity of a plant to express a broad-spectrum systemic acquired resistance (SAR) after primar...
Some of non-pathogenic rhizosphere bacteria reduce disease by activating a resistance mechanism in ...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
To protect themselves from disease, plants have evolved sophisticated defense mechanisms in which t...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...