Add to ORKGBacteria of many species rely on a simple molecule, the intracellular secondary messenger c-di-GMP (Bis-(3\u27-5\u27)-cyclic dimeric guanosine monophosphate), to make a vital choice: whether to stay in one place and form a biofilm, or to leave it in search of better conditions. The c-di-GMP network has a bow-tie shaped architecture that integrates many signals from the outside worldÐthe input stimuliÐinto intracellular c-di-GMP levels that then regulate genes for biofilm formation or for swarming motilityÐthe output phenotypes. How does the `uninformed\u27 process of evolution produce a network with the right input/output association and enable bacteria to make the right choice? Inspired by new data from 28 clinical isolates of Pseudomonas ...
Biofilm populations are known to harbor great diversity, but the importance of this diversity is not...
Many bacterial species use cyclic diguanylate (c-di-GMP) to control their physiology and behaviors i...
Bacteria have evolved various systems for the integration of environmental signals to rapidly coordi...
Bacteria of many species rely on a simple molecule, the intracellular secondary messenger c-di-GMP (...
Advances in biomolecular technology allow us to sequence entire genomes, but how genes and molecular...
Bacteria preferentially colonize surfaces and air-liquid interfaces as matrix embedded communities c...
Biofilms protect bacteria from environmental threats, such as predators, antibiotics, or attacks by ...
Cyclic di-GMP (c-di-GMP) has emerged as a bacterial second messenger that regulates a variety of cel...
The process of cellular differentiation is vital for the development of multicellular organisms and ...
Phenotype switching is commonly observed in nature. This prevalence has allowed the elucidation of a...
Living organisms persist by virtue of complex interactions among many components organized into dyna...
The signal-transduction network responsible for chemotaxis in Escherichia coli has been characterise...
To optimize survival and growth, bacteria have evolved adaptive behaviors that respond to relevant e...
Modulation of the intracellular cyclic di-GMP (c-di-GMP) pool is central to the formation of structu...
The capability to establish adaptive relationships with the environment is an essential characterist...
Biofilm populations are known to harbor great diversity, but the importance of this diversity is not...
Many bacterial species use cyclic diguanylate (c-di-GMP) to control their physiology and behaviors i...
Bacteria have evolved various systems for the integration of environmental signals to rapidly coordi...
Bacteria of many species rely on a simple molecule, the intracellular secondary messenger c-di-GMP (...
Advances in biomolecular technology allow us to sequence entire genomes, but how genes and molecular...
Bacteria preferentially colonize surfaces and air-liquid interfaces as matrix embedded communities c...
Biofilms protect bacteria from environmental threats, such as predators, antibiotics, or attacks by ...
Cyclic di-GMP (c-di-GMP) has emerged as a bacterial second messenger that regulates a variety of cel...
The process of cellular differentiation is vital for the development of multicellular organisms and ...
Phenotype switching is commonly observed in nature. This prevalence has allowed the elucidation of a...
Living organisms persist by virtue of complex interactions among many components organized into dyna...
The signal-transduction network responsible for chemotaxis in Escherichia coli has been characterise...
To optimize survival and growth, bacteria have evolved adaptive behaviors that respond to relevant e...
Modulation of the intracellular cyclic di-GMP (c-di-GMP) pool is central to the formation of structu...
The capability to establish adaptive relationships with the environment is an essential characterist...
Biofilm populations are known to harbor great diversity, but the importance of this diversity is not...
Many bacterial species use cyclic diguanylate (c-di-GMP) to control their physiology and behaviors i...
Bacteria have evolved various systems for the integration of environmental signals to rapidly coordi...