Add to ORKGThe bacterial flagellum is an amazing nanomachine. Understanding how such complex structures arose is crucial to our understanding of cellular evolution. We and others recently reported that in several Gammaproteobacterial species, a relic subcomplex comprising the decorated P and L rings persists in the outer membrane after flagellum disassembly. Imaging nine additional species with cryo-electron tomography, here, we show that this subcomplex persists after flagellum disassembly in other phyla as well. Bioinformatic analyses fail to show evidence of any recent horizontal transfers of the P- and L-ring genes, suggesting that this subcomplex and its persistence is an ancient and conserved feature of the flagellar motor. We hypothesize that o...
ABSTRACT Bacterial flagella are reversible rotary motors that rotate external filaments for bacteria...
The bacterial flagellar motor is a cell-envelope-embedded macromolecular machine that functions as a...
The bacterial flagellum consists of a long extracellular filament that is rotated by a motor embedde...
The bacterial flagellar motor is an amazing nanomachine. Understanding how such complex structures a...
The bacterial flagellar motor is an amazing nanomachine. Understanding how such complex structures a...
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 one of nature’s most amazing and well-studied nanomachines. Its cell-wall...
The self‐assembly of cellular macromolecular machines such as the bacterial flagellar motor requires...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellum is a complex self-assembling nanomachine that confers motility to the cell. ...
The conserved core of bacterial flagellar motors reflects a shared evolutionary history that preserv...
ABSTRACT Bacterial flagella are reversible rotary motors that rotate external filaments for bacteria...
The bacterial flagellar motor is a cell-envelope-embedded macromolecular machine that functions as a...
The bacterial flagellum consists of a long extracellular filament that is rotated by a motor embedde...
The bacterial flagellar motor is an amazing nanomachine. Understanding how such complex structures a...
The bacterial flagellar motor is an amazing nanomachine. Understanding how such complex structures a...
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 one of nature’s most amazing and well-studied nanomachines. Its cell-wall...
The self‐assembly of cellular macromolecular machines such as the bacterial flagellar motor requires...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellar motor, a cell-envelope-embedded macromolecular machine that functions as a c...
The bacterial flagellum is a complex self-assembling nanomachine that confers motility to the cell. ...
The conserved core of bacterial flagellar motors reflects a shared evolutionary history that preserv...
ABSTRACT Bacterial flagella are reversible rotary motors that rotate external filaments for bacteria...
The bacterial flagellar motor is a cell-envelope-embedded macromolecular machine that functions as a...
The bacterial flagellum consists of a long extracellular filament that is rotated by a motor embedde...