Add to ORKGThe bacterial flagellum exemplifies a system where even small deviations from the highly regulated flagellar assembly process can abolish motility and cause negative physiological outcomes. Consequently, bacteria have evolved elegant and robust regulatory mechanisms to ensure that flagellar morphogenesis follows a defined path, with each component self-assembling to predetermined dimensions. The flagellar rod acts as a driveshaft to transmit torque from the cytoplasmic rotor to the external filament. The rod self-assembles to a defined length of ~25 nanometers. Here, we provide evidence that rod length is limited by the width of the periplasmic space between the inner and outer membranes. The length of Braun's lipoprotein determines peripla...
Salmonella flgG point mutations produce filamentous rod structures whose lengths are determined by F...
Our present capabilities to build nanomachines are very limited compared to the elegance and effi-ci...
Our present capabilities to build nanomachines are very limited compared to the elegance and efficie...
The bacterial flagellum exemplifies a system where even small deviations from the highly regulated f...
Bacteria propel themselves through liquid environments using rotation of a propeller like organelle,...
Most bacteria swim in liquid environments by rotating one or several flagella. The long external fi...
The bacterial flagellum is a self-assembling, nanomachine-like structure used for locomotion of many...
Most bacteria swim in liquid environments by rotating one or several flagella. The long external fil...
The evolution of molecular machines is fundamental to the development of pathogenesis in bacteria. T...
In Salmonella, the rod substructure of the flagellum is a periplasmic driveshaft that couples the to...
The bacterial flagellum is a self-assembling nanomachine. The external flagellar filament, several t...
The bacterial flagellum is one of nature’s most amazing and well-studied nanomachines. Its cell-wal...
The bacterial flagellar motor is an amazing nanomachine. Understanding how such complex structures a...
The self‐assembly of cellular macromolecular machines such as the bacterial flagellar motor requires...
The bacterial flagellum is a self-assembling nanomachine. The external flagellar filament, several t...
Salmonella flgG point mutations produce filamentous rod structures whose lengths are determined by F...
Our present capabilities to build nanomachines are very limited compared to the elegance and effi-ci...
Our present capabilities to build nanomachines are very limited compared to the elegance and efficie...
The bacterial flagellum exemplifies a system where even small deviations from the highly regulated f...
Bacteria propel themselves through liquid environments using rotation of a propeller like organelle,...
Most bacteria swim in liquid environments by rotating one or several flagella. The long external fi...
The bacterial flagellum is a self-assembling, nanomachine-like structure used for locomotion of many...
Most bacteria swim in liquid environments by rotating one or several flagella. The long external fil...
The evolution of molecular machines is fundamental to the development of pathogenesis in bacteria. T...
In Salmonella, the rod substructure of the flagellum is a periplasmic driveshaft that couples the to...
The bacterial flagellum is a self-assembling nanomachine. The external flagellar filament, several t...
The bacterial flagellum is one of nature’s most amazing and well-studied nanomachines. Its cell-wal...
The bacterial flagellar motor is an amazing nanomachine. Understanding how such complex structures a...
The self‐assembly of cellular macromolecular machines such as the bacterial flagellar motor requires...
The bacterial flagellum is a self-assembling nanomachine. The external flagellar filament, several t...
Salmonella flgG point mutations produce filamentous rod structures whose lengths are determined by F...
Our present capabilities to build nanomachines are very limited compared to the elegance and effi-ci...
Our present capabilities to build nanomachines are very limited compared to the elegance and efficie...