Recent research on bacteria and other microorganisms has provided interesting insights into the nature of life, cooperation, evolution, individuality or species. In this paper, I focus on the capacity of bacteria to produce molecules that are usually classified as 'signals' and I defend two claims. First, I argue that certain interactions between bacteria should actually qualify as genuine forms of communication. Second, I use this case study to revise our general theories of signaling. Among other things, I argue that a plausible requirement for a state to qualify as a signal is that it is a minimal cause
A peculiar feature of all living beings is their capability to communicate. With the discovery of th...
An increasing body of empirical evidence suggests that cooperation among clone-mates is common in ba...
Quorum sensing (QS) is a cell–cell communication system that controls gene expression in many bacter...
Individual bacteria can alter their behaviour through chemical interactions between organisms in mic...
Bacteria use a variety of means to communicate with one another and with their eukaryotic hosts. In ...
The term quorum sensing (QS) is used to describe the communication between bacterial cells, whereby ...
Many bacteria use cell–cell communication mediated by diffusible signal molecules to monitor their p...
<p>Bacteria communicate, coordinate, and cooperate as a population and this `social' behavior is key...
For a long time, the ability to communicate has been considered as an exclusive property of multicel...
The scientific community has gathered an extremely detailed and sophisticated understanding of the g...
The recent findings clearly indicate that bacteria communicate with each other as well as with the s...
Communicative competences enable bacteria to develop, organise and coordinate rich social life with ...
The chemical signal molecules called autoinducers are produced and released by the quorum sensing ba...
Many bacteria use cell-cell communication mediated by diffusible signal molecules to monitor their p...
To date, microbial diversity is still the least well understood component of biodiversity. Bacteria ...
A peculiar feature of all living beings is their capability to communicate. With the discovery of th...
An increasing body of empirical evidence suggests that cooperation among clone-mates is common in ba...
Quorum sensing (QS) is a cell–cell communication system that controls gene expression in many bacter...
Individual bacteria can alter their behaviour through chemical interactions between organisms in mic...
Bacteria use a variety of means to communicate with one another and with their eukaryotic hosts. In ...
The term quorum sensing (QS) is used to describe the communication between bacterial cells, whereby ...
Many bacteria use cell–cell communication mediated by diffusible signal molecules to monitor their p...
<p>Bacteria communicate, coordinate, and cooperate as a population and this `social' behavior is key...
For a long time, the ability to communicate has been considered as an exclusive property of multicel...
The scientific community has gathered an extremely detailed and sophisticated understanding of the g...
The recent findings clearly indicate that bacteria communicate with each other as well as with the s...
Communicative competences enable bacteria to develop, organise and coordinate rich social life with ...
The chemical signal molecules called autoinducers are produced and released by the quorum sensing ba...
Many bacteria use cell-cell communication mediated by diffusible signal molecules to monitor their p...
To date, microbial diversity is still the least well understood component of biodiversity. Bacteria ...
A peculiar feature of all living beings is their capability to communicate. With the discovery of th...
An increasing body of empirical evidence suggests that cooperation among clone-mates is common in ba...
Quorum sensing (QS) is a cell–cell communication system that controls gene expression in many bacter...