Add to ORKGBacteria form surface-attached communities, known as biofilms, which are central to bacterial biology and how they affect us. While surface attached bacteria often experience strong chemical gradients, it remains unclear whether single cells can effectively perform chemotaxis on surfaces. Here we use microfluidic chemical gradients and massively-parallel automated tracking to study the behavior of the pathogen Pseudomonas aeruginosa during early biofilm development. We show that individual cells can efficiently move towards chemoattractants using pili-based “twitching” motility and the Chp chemosensory system. Moreover, we have discovered the behavioral mechanism underlying this surface chemotaxis: cells reverse direction more frequently wh...
Segregation of bacteria based on their metabolic activities in biofilms plays an important role in t...
Segregation of bacteria based on their metabolic activities in biofilms plays an important role in t...
Swimming bacteria explore their environment by performing a random walk, which is biased in response...
Bacteria form surface-attached communities, known as biofilms, which are central to bacterial biolog...
Bacteria form surface-attached communities, known as biofilms, which are central to bacterial biolog...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
Bacterial biofilms are structured multicellular communities that are responsible for a broad range o...
Bacterial biofilms are multicellular surface-bound communities with important hu-man health impacts ...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
Pseudomonas aeruginosa is an opportunistic human pathogen that has long been known to chemotax. More...
Most swimming bacteria are capable of following gradients of nutrients, signaling molecules and othe...
Twitching motility is a mode of surface translocation that is mediated by the extension and retracti...
Segregation of bacteria based on their metabolic activities in biofilms plays an important role in t...
Segregation of bacteria based on their metabolic activities in biofilms plays an important role in t...
Swimming bacteria explore their environment by performing a random walk, which is biased in response...
Bacteria form surface-attached communities, known as biofilms, which are central to bacterial biolog...
Bacteria form surface-attached communities, known as biofilms, which are central to bacterial biolog...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Bacterial biofilms are structured microbial communities which are widespread both in nature and in c...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
Bacterial biofilms are structured multicellular communities that are responsible for a broad range o...
Bacterial biofilms are multicellular surface-bound communities with important hu-man health impacts ...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
Pseudomonas aeruginosa is an opportunistic human pathogen that has long been known to chemotax. More...
Most swimming bacteria are capable of following gradients of nutrients, signaling molecules and othe...
Twitching motility is a mode of surface translocation that is mediated by the extension and retracti...
Segregation of bacteria based on their metabolic activities in biofilms plays an important role in t...
Segregation of bacteria based on their metabolic activities in biofilms plays an important role in t...
Swimming bacteria explore their environment by performing a random walk, which is biased in response...