The bacterial plant pathogen Pseudomonas syringae causes economically important diseases of a wide variety of plant species and is used as a model organism to understand the molecular basis of plant disease. Much existing research into P. syringae-plant interactions has focused on the molecular basis of plant disease resistance and the role of secreted effector proteins in the suppression of plant defences. However, researchers have speculated that the diverse array of effectors, toxins and hormones produced by this pathogen also play an important role in manipulating plant metabolism to promote infection. Recent advances in metabolomics, genomics, transcriptomics and metabolic modelling offer new opportunities to address this question and ...
Plant roots communicate with microbes in a sophisticated manner through chemical communication withi...
Biotrophic plant-microbe interactions depend on the establishment of a nutritional interface allowin...
Metabolism is the set of biochemical reactions of an organism that enables it to assimilate nutrient...
Plant pathogenic pseudomonads such as Pseudomonas syringae colonize plant surfaces and tissues and h...
P>The outcome of bacterial infection in plants is determined by the ability of the pathogen to succe...
Pseudomonas syringae is a bacterial plant pathogen that can lead to heavy losses in crop production....
Phytopathogens are responsible of at least 30% of agricultural crop loss. Understanding fundamental ...
Bacterial pathogens adapt their metabolism to the plant environment to successfully colonize their h...
Plant diseases caused by pathogenic bacteria or fungi cause major economic damage every year and des...
The last decade has witnessed steady progress in deciphering the molecular basis of plant disease re...
In plants, potential pathogenic bacteria do not enter the host cell. Therefore, a large portion of t...
In plants, potential pathogenic bacteria do not enter the host cell. Therefore, a large portion of t...
The apoplast is the site of infection for many important bacterial crop pathogens, including the mod...
Intensive research during the last two decades has increasingly focused on the elucidation of the mo...
Metabolomics has been used in unraveling metabolites that play essential roles in plant–microbe (inc...
Plant roots communicate with microbes in a sophisticated manner through chemical communication withi...
Biotrophic plant-microbe interactions depend on the establishment of a nutritional interface allowin...
Metabolism is the set of biochemical reactions of an organism that enables it to assimilate nutrient...
Plant pathogenic pseudomonads such as Pseudomonas syringae colonize plant surfaces and tissues and h...
P>The outcome of bacterial infection in plants is determined by the ability of the pathogen to succe...
Pseudomonas syringae is a bacterial plant pathogen that can lead to heavy losses in crop production....
Phytopathogens are responsible of at least 30% of agricultural crop loss. Understanding fundamental ...
Bacterial pathogens adapt their metabolism to the plant environment to successfully colonize their h...
Plant diseases caused by pathogenic bacteria or fungi cause major economic damage every year and des...
The last decade has witnessed steady progress in deciphering the molecular basis of plant disease re...
In plants, potential pathogenic bacteria do not enter the host cell. Therefore, a large portion of t...
In plants, potential pathogenic bacteria do not enter the host cell. Therefore, a large portion of t...
The apoplast is the site of infection for many important bacterial crop pathogens, including the mod...
Intensive research during the last two decades has increasingly focused on the elucidation of the mo...
Metabolomics has been used in unraveling metabolites that play essential roles in plant–microbe (inc...
Plant roots communicate with microbes in a sophisticated manner through chemical communication withi...
Biotrophic plant-microbe interactions depend on the establishment of a nutritional interface allowin...
Metabolism is the set of biochemical reactions of an organism that enables it to assimilate nutrient...