AbstractForceful retraction of a bacterial pilus has been directly observed for the first time. As retraction clarifies the basic mechanochemistry of single cell twitching and gliding movements, so cell-to-cell signalling by contact clarifies the coordination of multicellular gliding movements
Twitching motility is a flagella-independent form of bacterial translocation over moist surfaces. It...
Neisseria gonorrheae bacteria are the causative agent of the second most common sexually transmitted...
Bacterial biofilms are structured multicellular communities that are responsible for a broad range o...
AbstractForceful retraction of a bacterial pilus has been directly observed for the first time. As r...
AbstractAlthough flagella are the best-understood means of locomotion in bacteria [1], other bacteri...
Prokaryotes have the ability to walk on surfaces using type IV pili (TFP), a motility mechanism know...
Prokaryotes have the ability to walk on surfaces using type IV pili (TFP), a motility mechanism know...
Many bacteria rely on active cell appendages, such as type IV pili, to move over substrates and inte...
AbstractType IV pili are major bacterial virulence factors supporting adhesion, surface motility, an...
Bacterial surface attachment is mediated by rotary flagella and filamentous appendages called pili. ...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
AbstractMany bacteria glide over surfaces without the aid of flagella. Gliding is still somewhat mys...
ABSTRACT Retraction of the type IV pilus (Tfp) mediates DNA uptake, motility, and social and infecti...
Surface attachment of bacteria is the first step of biofilm formation and biofilms are associated wi...
AbstractNeisseria gonorrheae bacteria are the causative agent of the second most common sexually tra...
Twitching motility is a flagella-independent form of bacterial translocation over moist surfaces. It...
Neisseria gonorrheae bacteria are the causative agent of the second most common sexually transmitted...
Bacterial biofilms are structured multicellular communities that are responsible for a broad range o...
AbstractForceful retraction of a bacterial pilus has been directly observed for the first time. As r...
AbstractAlthough flagella are the best-understood means of locomotion in bacteria [1], other bacteri...
Prokaryotes have the ability to walk on surfaces using type IV pili (TFP), a motility mechanism know...
Prokaryotes have the ability to walk on surfaces using type IV pili (TFP), a motility mechanism know...
Many bacteria rely on active cell appendages, such as type IV pili, to move over substrates and inte...
AbstractType IV pili are major bacterial virulence factors supporting adhesion, surface motility, an...
Bacterial surface attachment is mediated by rotary flagella and filamentous appendages called pili. ...
AbstractBacterial biofilms are structured multicellular communities that are responsible for a broad...
AbstractMany bacteria glide over surfaces without the aid of flagella. Gliding is still somewhat mys...
ABSTRACT Retraction of the type IV pilus (Tfp) mediates DNA uptake, motility, and social and infecti...
Surface attachment of bacteria is the first step of biofilm formation and biofilms are associated wi...
AbstractNeisseria gonorrheae bacteria are the causative agent of the second most common sexually tra...
Twitching motility is a flagella-independent form of bacterial translocation over moist surfaces. It...
Neisseria gonorrheae bacteria are the causative agent of the second most common sexually transmitted...
Bacterial biofilms are structured multicellular communities that are responsible for a broad range o...
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