Selected nonpathogenic rhizobacteria are able to elicit induced systemic resistance (ISR) in plants. Different ecotypes of Arabidopsis thaliana were screened for expression of ISR against infection by Pseudomonas syringae pv. tomato, after treatment of the roots with the nonpathogenic P. fluorescens strain WCS417r. From the seven ecotypes tested, two ecotypes (RLD and Ws-0) did not develop ISR after treatment with P. fluorescens strain WCS417r. This ISR-nonresponsive phenotype was correlated with a remarkably low level of basal resistance, suggesting that the ability to express ISR is dependent on a threshold level of basal resistance. Subsequently, a cross was made between an ISRresponsive (Col-0) and an ISR-nonresponsive ecotype (R...
Systemic acquired resistance is e pathogen-inducible defense mechanism in plants. The resistant stat...
Upon primary pathogen attack, plants activate resistance mechanisms at the site of infection. Beside...
Plants develop an enhanced defensive capacity against a broad spectrum of plant pathogens after colo...
Selected nonpathogenic rhizobacteria with biological disease control activity are able to elicit an ...
Selected nonpathogenic rhizobacteria with biological disease control activity are able to elicit an ...
Selected strains of non-pathogenic rhizobacteria have the ability to trigger an induced systemic res...
Selected strains of non-pathogenic rhizobacteria have the ability to trigger an induced systemic res...
Upon primary pathogen attack, plants activate a diverse array of defense mechanisms at the site of p...
Selected nonpathogenic, root-colonizing bacteria are able to elicit induced systemic resistance (ISR...
Different forms of biologically induced disease resistance have been identified in plants. Followin...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
Systemic acquired resistance (SAR) is a pathogen-inducible defense mechanism in plants effective aga...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
Nonpathogenic rhizobacteria can induce a systemic resistance in plants that is phenotypically simila...
Systemic acquired resistance is e pathogen-inducible defense mechanism in plants. The resistant stat...
Upon primary pathogen attack, plants activate resistance mechanisms at the site of infection. Beside...
Plants develop an enhanced defensive capacity against a broad spectrum of plant pathogens after colo...
Selected nonpathogenic rhizobacteria with biological disease control activity are able to elicit an ...
Selected nonpathogenic rhizobacteria with biological disease control activity are able to elicit an ...
Selected strains of non-pathogenic rhizobacteria have the ability to trigger an induced systemic res...
Selected strains of non-pathogenic rhizobacteria have the ability to trigger an induced systemic res...
Upon primary pathogen attack, plants activate a diverse array of defense mechanisms at the site of p...
Selected nonpathogenic, root-colonizing bacteria are able to elicit induced systemic resistance (ISR...
Different forms of biologically induced disease resistance have been identified in plants. Followin...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
Systemic acquired resistance (SAR) is a pathogen-inducible defense mechanism in plants effective aga...
Rhizobacteria are present in large numbers on the root surface, where plant exudates and lysates pro...
Nonpathogenic rhizobacteria can induce a systemic resistance in plants that is phenotypically simila...
Systemic acquired resistance is e pathogen-inducible defense mechanism in plants. The resistant stat...
Upon primary pathogen attack, plants activate resistance mechanisms at the site of infection. Beside...
Plants develop an enhanced defensive capacity against a broad spectrum of plant pathogens after colo...