Add to ORKGPseudomonas chlororaphis (aureofaciens) 30-84 is a biocontrol bacterium effective against take-all disease of wheat. Phenazine (PZ) production by strain 30-84 is the primary mechanism responsible for pathogen inhibition and the rhizosphere persistence of 30-84. The PhzR/PhzI system of strain 30-84 directly regulates PZ production and mutations in this QS system are defective in biofilm formation. Genetic complementation or direct addition of AHL signal restored biofilm formation to a phzI mutant. Mutations in PZ biosynthesis were equally defective in biofilm formation. Addition of PZ or genetic complementation of the PZ biosynthetic mutation restored biofilm formation. QS and PZ production also were involved in the establishment of populati...
Most bacteria in the environment exist in biofilms—structured, surface-attached multicellular commun...
The biological control bacterium Pseudomonas aureofaciens strain 30-84 produces three phenazine anti...
Difference with transcriptional regulators in bacterial quorum sensing systems containing a paired L...
Pseudomonas chlororaphis 30-84 is a biological control agent selected for its ability to suppress di...
Phenazines are bacterial secondary metabolites and play important roles in the antagonistic activity...
<div><p>Phenazines are bacterial secondary metabolites and play important roles in the antagonistic ...
Pseudomonas chlororaphis 30-84 is a plant growth-promoting rhizobacterium that was selected for its ...
Some pseudomonads produce phenazines, a group of small, redox-active compounds with diverse physiolo...
Pseudomonas aureofaciens 30-84 is a soilborne bacterium that colonizes the wheat rhizosphere. This s...
Pseudomonas sp. CMR12a was isolated from cocoyam roots in Cameroon, and has excellent biocontrol pro...
We have identified a gene that acts in trans to activate the expression of the phenazine biosyntheti...
Many bacteria secrete secondary metabolites, whose production is decoupled from active growth in lab...
colonization, phenazines, Pseudomonas, quorum sensing. Various rhizosphere bacteria are potential (m...
Microbiologists have historically been struck by both the beautiful pigmentation of phenazine-produc...
"This thesis is presented as a partial fulfillment to the requirements for the degree of Master of P...
Most bacteria in the environment exist in biofilms—structured, surface-attached multicellular commun...
The biological control bacterium Pseudomonas aureofaciens strain 30-84 produces three phenazine anti...
Difference with transcriptional regulators in bacterial quorum sensing systems containing a paired L...
Pseudomonas chlororaphis 30-84 is a biological control agent selected for its ability to suppress di...
Phenazines are bacterial secondary metabolites and play important roles in the antagonistic activity...
<div><p>Phenazines are bacterial secondary metabolites and play important roles in the antagonistic ...
Pseudomonas chlororaphis 30-84 is a plant growth-promoting rhizobacterium that was selected for its ...
Some pseudomonads produce phenazines, a group of small, redox-active compounds with diverse physiolo...
Pseudomonas aureofaciens 30-84 is a soilborne bacterium that colonizes the wheat rhizosphere. This s...
Pseudomonas sp. CMR12a was isolated from cocoyam roots in Cameroon, and has excellent biocontrol pro...
We have identified a gene that acts in trans to activate the expression of the phenazine biosyntheti...
Many bacteria secrete secondary metabolites, whose production is decoupled from active growth in lab...
colonization, phenazines, Pseudomonas, quorum sensing. Various rhizosphere bacteria are potential (m...
Microbiologists have historically been struck by both the beautiful pigmentation of phenazine-produc...
"This thesis is presented as a partial fulfillment to the requirements for the degree of Master of P...
Most bacteria in the environment exist in biofilms—structured, surface-attached multicellular commun...
The biological control bacterium Pseudomonas aureofaciens strain 30-84 produces three phenazine anti...
Difference with transcriptional regulators in bacterial quorum sensing systems containing a paired L...