Add to ORKGCyclic di-AMP (cdiA) is a second messenger predicted to be widespread in Gram-positive bacteria, some Gram-negative bacteria, and Archaea. In the human pathogen Listeria monocytogenes, cdiA is an essential molecule that regulates metabolic function and cell wall homeostasis, and decreased levels of cdiA result in increased antibiotic susceptibility. We have generated fluorescent biosensors for cdiA through fusion of the Spinach2 aptamer to ligand-binding domains of cdiA riboswitches. The biosensor was used to visualize intracellular cdiA levels in live L. monocytogenes strains and to determine the catalytic domain of the phosphodiesterase PdeA. Furthermore, a flow cytometry assay based on this biosensor was used to screen for diadenylate cy...
As cyclic dinucleotides’ impact on pathogenic bacteria and eukaryotic cells is gradually being recog...
The increased tolerance toward the host immune system and antibiotics displayed by biofilm-forming P...
Fluorescence imaging of intracellular small molecules in live cells is crucial to understanding vari...
Cyclic di-AMP (cdiA) is a second messenger predicted to be widespread in Gram-positive bacteria, som...
Second messengers are intracellular signaling molecules that enable cells to respond to environmenta...
Cyclic dinucleotides are an important class of signaling molecules that regulate a wide variety of p...
Cyclic dinucleotides are an important class of signaling molecules that regulate a wide variety of p...
Bacteria colonize highly diverse and complex environments, from gastrointestinal tracts to soil and ...
The bacterial second messenger cyclic di-GMP (c-di-GMP) holds a prominent position within the repert...
Bacteria colonize highly diverse and complex environments, from gastrointestinal tracts to soil and ...
Bacterial cyclic dinucleotides (CDNs) play important roles in regulating biofilm formation, motility...
Second-generation RNA-based fluorescent biosensors have been developed that enable flow cytometry ex...
Bacteria occupy a diverse set of environmental niches with differing oxygen availability. Anaerobic ...
c-di-GMP, a ubiquitous second messenger in bacterial domain, regulates various bacterial phenotypes ...
Cyclic‐di‐GMP is an important bacterial secondary messenger molecule that regulates motility, vir...
As cyclic dinucleotides’ impact on pathogenic bacteria and eukaryotic cells is gradually being recog...
The increased tolerance toward the host immune system and antibiotics displayed by biofilm-forming P...
Fluorescence imaging of intracellular small molecules in live cells is crucial to understanding vari...
Cyclic di-AMP (cdiA) is a second messenger predicted to be widespread in Gram-positive bacteria, som...
Second messengers are intracellular signaling molecules that enable cells to respond to environmenta...
Cyclic dinucleotides are an important class of signaling molecules that regulate a wide variety of p...
Cyclic dinucleotides are an important class of signaling molecules that regulate a wide variety of p...
Bacteria colonize highly diverse and complex environments, from gastrointestinal tracts to soil and ...
The bacterial second messenger cyclic di-GMP (c-di-GMP) holds a prominent position within the repert...
Bacteria colonize highly diverse and complex environments, from gastrointestinal tracts to soil and ...
Bacterial cyclic dinucleotides (CDNs) play important roles in regulating biofilm formation, motility...
Second-generation RNA-based fluorescent biosensors have been developed that enable flow cytometry ex...
Bacteria occupy a diverse set of environmental niches with differing oxygen availability. Anaerobic ...
c-di-GMP, a ubiquitous second messenger in bacterial domain, regulates various bacterial phenotypes ...
Cyclic‐di‐GMP is an important bacterial secondary messenger molecule that regulates motility, vir...
As cyclic dinucleotides’ impact on pathogenic bacteria and eukaryotic cells is gradually being recog...
The increased tolerance toward the host immune system and antibiotics displayed by biofilm-forming P...
Fluorescence imaging of intracellular small molecules in live cells is crucial to understanding vari...