Add to ORKGBacterial type IV pili perform important functions in such disparate biological processes as surface adhesion, cell–cell interactions, autoaggregation, conjugation, and twitching motility. Unlike bacteria, archaea use a type IV pilus related structure to drive swimming motility. While this unique flagellum is the best-studied example of an archaeal IV pilus-like structure, recent in silico, in vivo and structural analyses have revealed a highly diverse set of archaeal non-flagellar type IV pilus-like structures. Accumulating evidence suggests that these structures play important diverse roles in archaea
Pili are crucial virulence factors for many Gram-negative pathogens. These surface structures provid...
Type IV pili are flexible filaments on the surface of bacteria, consisting of a helical assembly of ...
AbstractAlthough flagella are the best-understood means of locomotion in bacteria [1], other bacteri...
Bacterial type IV pili perform important functions in such disparate biological processes as surface...
Prokaryotes possess various kinds of cell surface organelles serving versatile biological roles depe...
Archaeal type IV pili (T4P) mediate adhesion to surfaces and are receptors for hyperthermophilic arc...
Archaea are ubiquitously present in nature and colonize environments with broadly varying growth con...
The bacterial flagellar apparatus, which involves similar to 40 different proteins, has been a model...
Type IV pili play important roles in a wide array of processes, including surface adhesion and twitc...
Type IV pili are long appendages found at the surface of many bacteria, composed of an oligomerized ...
Archaea, like bacteria, use type IV pili to facilitate surface adhesion. Moreover, archaeal flagella...
This is the final version of the article. Available from the publisher via the DOI in this record.Ba...
Type IV pili (TFP) are very unique appendages on the bacterial surface. They are not only required f...
Type IV pili are part of a widespread superfamily of bacterial and archaeal cell surface structures ...
Prokaryotes use a wide variety of structures to facilitate motility. The majority of research to dat...
Pili are crucial virulence factors for many Gram-negative pathogens. These surface structures provid...
Type IV pili are flexible filaments on the surface of bacteria, consisting of a helical assembly of ...
AbstractAlthough flagella are the best-understood means of locomotion in bacteria [1], other bacteri...
Bacterial type IV pili perform important functions in such disparate biological processes as surface...
Prokaryotes possess various kinds of cell surface organelles serving versatile biological roles depe...
Archaeal type IV pili (T4P) mediate adhesion to surfaces and are receptors for hyperthermophilic arc...
Archaea are ubiquitously present in nature and colonize environments with broadly varying growth con...
The bacterial flagellar apparatus, which involves similar to 40 different proteins, has been a model...
Type IV pili play important roles in a wide array of processes, including surface adhesion and twitc...
Type IV pili are long appendages found at the surface of many bacteria, composed of an oligomerized ...
Archaea, like bacteria, use type IV pili to facilitate surface adhesion. Moreover, archaeal flagella...
This is the final version of the article. Available from the publisher via the DOI in this record.Ba...
Type IV pili (TFP) are very unique appendages on the bacterial surface. They are not only required f...
Type IV pili are part of a widespread superfamily of bacterial and archaeal cell surface structures ...
Prokaryotes use a wide variety of structures to facilitate motility. The majority of research to dat...
Pili are crucial virulence factors for many Gram-negative pathogens. These surface structures provid...
Type IV pili are flexible filaments on the surface of bacteria, consisting of a helical assembly of ...
AbstractAlthough flagella are the best-understood means of locomotion in bacteria [1], other bacteri...