Your search keyword '"TONG Yunhui"' showing total 2 results

1. Role of Vfr in the regulation of antifungal compound production by Pseudomonas fluorescens FD6.

Author

Zhang Q, Ji Y, Xiao Q, Chng S, Tong Y, Chen X, and Liu F

Subjects

Antibiosis, Cyclic AMP Receptor Protein genetics, Gene Knockout Techniques, Humans, Pest Control, Biological, Phloroglucinol metabolism, Pseudomonas fluorescens genetics, Pseudomonas fluorescens physiology, Soil Microbiology, Triticum microbiology, Antifungal Agents metabolism, Cyclic AMP Receptor Protein metabolism, Gene Expression Regulation, Bacterial, Phenols metabolism, Phloroglucinol analogs & derivatives, Pseudomonas fluorescens metabolism, Pyrroles metabolism, Pyrrolnitrin metabolism

Abstract

Pseudomonas fluorescens FD6 has been shown to possess many beneficial traits involved in the biocontrol of fungal plant pathogens, such as Botrytis cinerea and Monilinia fructicola. Vfr (virulence factor regulator) a highly conserved global regulator of gram-negative bacteria, such as the human pathogen Pseudomonas aeruginosa, is required for the expression of many important virulence traits. The role of Vfr in the regulation of biocontrol traits, such as the production of antibiotics to control fungal pathogens by antagonistic bacteria, has not been elucidated. This study investigated the effect of a vfr mutant derived from P. fluorescens FD6 to better understand the regulation of some important biocontrol traits associated with the bacterium. Biochemical studies indicated that the production of the antibiotics 2,4-diacetylphloroglucinol, pyrrolnitrin and pyoluteorin, was markedly enhanced in the vfr mutant. The vfr mutation also increased biofilm production, swimming motility and the expression of exopolysaccharide-associated gene (pelA, pslA and pslB) transcripts, but reduced protease production. Wheat rhizosphere and root tip colonization by the vfr mutant was higher than that by the wild type at 7 and 21days after inoculation. These findings demonstrate that Vfr modulates the expression of several key traits and the production of important antibiotics involved in the biocontrol potential of P. fluorescens FD6., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2016

2. Effect of retS gene on antibiotics production in Pseudomonas fluorescens FD6.

Author

Zhang Q, Xiao Q, Xu J, Tong Y, Wen J, Chen X, and Wei L

Subjects

Bacterial Proteins genetics, Biofilms, Galactosidases metabolism, Gene Silencing, Meristem microbiology, Mutation, Phenols metabolism, Phloroglucinol analogs & derivatives, Phloroglucinol metabolism, Pyrroles metabolism, Pyrrolnitrin metabolism, Rhizosphere, Triticum microbiology, Anti-Bacterial Agents biosynthesis, Pseudomonas fluorescens genetics, Pseudomonas fluorescens metabolism, Virulence Factors genetics

Abstract

A hybrid sensor kinase termed RetS (regulator of exopolysaccharide and Type III secretion) controls expression of numerous genes in Pseudomonas aeruginosa. To investigate the function of RetS in P. fluorescens FD6, the retS gene was disrupted. Genetic inactivation of retS resulted in enhanced production of 2, 4-diacetylphloroglucinol, pyrrolnitrin, and pyoluteorin. The retS mutant also exhibited significant increase in phlA-lacZ, prnA-lacZ, and pltA-lacZ transcription levels, influencing expression levels of the small regulatory RNAs RsmX and RsmZ. In the gacSretS double mutant, all the phenotypic changes caused by the retS deletion were reversed to the level of gacS single mutant. Furthermore, the retS mutation drastically elevated biofilm formation and improved the colonization ability of strain FD6 on wheat rhizospheres. Based on these results, we proposed that RetS negatively controlled the production of antibiotics through the Gac/Rsm pathway in P. fluorescens FD6., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2015