ABSTRACT The persistence of genetic variation in master regulators of gene expression, such as quorum-sensing systems, is hard to explain. Here, we investigated two alternative hypotheses for the prevalence of polymorphic quorum sensing in Gram-positive bacteria, i.e., the use of different signal/receptor pairs (‘pherotypes’) to regulate the same functions. First, social interactions between pherotypes or ‘facultative cheating’ may favor rare variants that exploit the signals of others. Second, different pherotypes may increase fitness in different environments. We evaluated these hypotheses in the invertebrate pathogen Bacillus thuringiensis, using three pherotypes expressed in a common genetic background. Facultative cheating could occur ...
Quorum sensing (QS) is a cell–cell communication system that controls gene expression in many bacter...
In a detailed spatially explicit simulation study (Czárán & Hoekstra, 2009) we have shown that quoru...
Bacteria communicate with each other through a plethora of small, diffusible organic molecules calle...
International audienceThe persistence of genetic variation in master regulators of gene expression, ...
This is the final version. Available on open access from the American Society for Microbiology via t...
SummaryThe ability of pathogenic bacteria to exploit their hosts depends upon various virulence fact...
SummaryMany microorganisms cooperate by secreting products that are commonly available to neighborin...
Quorum sensing is a process of chemical communication that bacteria use to monitor cell density and ...
It has been suggested that bacterial cells communicate by releasing and sensing small diffusible sig...
The ability of pathogenic bacteria to exploit their hosts depends upon various virulence factors, re...
Bacteria regulate many phenotypes via quorum sensing systems. Quorum sensing is typically thought to...
Quorum sensing is usually thought of as a collective behavior in which all members of a population p...
Many bacterial pathogens rely on quorum sensing to control virulence gene expression. Based on numer...
The scientific community has gathered an extremely detailed and sophisticated understanding of the g...
ABSTRACT Many bacteria use a cell-cell communication system called quorum sensing to coordinate popu...
Quorum sensing (QS) is a cell–cell communication system that controls gene expression in many bacter...
In a detailed spatially explicit simulation study (Czárán & Hoekstra, 2009) we have shown that quoru...
Bacteria communicate with each other through a plethora of small, diffusible organic molecules calle...
International audienceThe persistence of genetic variation in master regulators of gene expression, ...
This is the final version. Available on open access from the American Society for Microbiology via t...
SummaryThe ability of pathogenic bacteria to exploit their hosts depends upon various virulence fact...
SummaryMany microorganisms cooperate by secreting products that are commonly available to neighborin...
Quorum sensing is a process of chemical communication that bacteria use to monitor cell density and ...
It has been suggested that bacterial cells communicate by releasing and sensing small diffusible sig...
The ability of pathogenic bacteria to exploit their hosts depends upon various virulence factors, re...
Bacteria regulate many phenotypes via quorum sensing systems. Quorum sensing is typically thought to...
Quorum sensing is usually thought of as a collective behavior in which all members of a population p...
Many bacterial pathogens rely on quorum sensing to control virulence gene expression. Based on numer...
The scientific community has gathered an extremely detailed and sophisticated understanding of the g...
ABSTRACT Many bacteria use a cell-cell communication system called quorum sensing to coordinate popu...
Quorum sensing (QS) is a cell–cell communication system that controls gene expression in many bacter...
In a detailed spatially explicit simulation study (Czárán & Hoekstra, 2009) we have shown that quoru...
Bacteria communicate with each other through a plethora of small, diffusible organic molecules calle...