Add to ORKGThe bacterial flagellar motor (BFM) is a rotary electric nanomachine that drives swimming in a wide variety of bacterial species. There have been many milestones, both theoretical and experimental, that have furthered our understanding of this tiny motor since the first swimming flagellated bacteria was observed. In this article, we review some of these key events, and illustrate how theory and experiment intertwine and inform each other towards a deeper understanding of the BFM’s mechanism. Experimental results have inspired theoreticians to build and update models, while model predictions have served to guide experimental design. This cooperative and mutually beneficial communication is a prime example of the interdisciplinary and open na...
The bacteria flagellar nanomotor is a nature marvel due to its structure and importance for bacteria...
International audienceThe bacterial flagellar motor (BFM) is a rotary molecular motor embedded in th...
The bacterial flagellum is probably the most complex organelle found in bacteria. Although the ribos...
The bacterial flagellar motor (BFM) is a rotary electric nanomachine that drives swimming in a wide ...
It has been known for some time that bacterial flagella are powered by remarkable rotary motors and...
The bacterial flagellar motor (BFM) is a molecular complex ca. 45 nm in diameter that rotates the pr...
Biological molecular motors show us how directed motion can be generated by nanometre-scale devices ...
The bacterial flagellar motor (BFM) is an ion-powered nanomachine that drives swimming in many bacte...
AbstractThe bacterial flagellar motor is a rotary molecular machine that rotates the helical filamen...
The bacterial flagellar motor (BFM) is a molecular complex ca. 45 nm in diameter that rotates the pr...
The bacterial flagellar motor is a rotary molecular machine that rotates the helical filaments that ...
The evolution of molecular machines is fundamental to the development of pathogenesis in bacteria. T...
The bacterial flagellum is a locomotive organelle that propels the bacterial cell body in liquid env...
The bacterial flagellum is a locomotive organelle that propels the bacterial cell body in liquid env...
The bacterial flagellar motor is one of the few rotary motors in nature. Only ∼50 nm in diameter, th...
The bacteria flagellar nanomotor is a nature marvel due to its structure and importance for bacteria...
International audienceThe bacterial flagellar motor (BFM) is a rotary molecular motor embedded in th...
The bacterial flagellum is probably the most complex organelle found in bacteria. Although the ribos...
The bacterial flagellar motor (BFM) is a rotary electric nanomachine that drives swimming in a wide ...
It has been known for some time that bacterial flagella are powered by remarkable rotary motors and...
The bacterial flagellar motor (BFM) is a molecular complex ca. 45 nm in diameter that rotates the pr...
Biological molecular motors show us how directed motion can be generated by nanometre-scale devices ...
The bacterial flagellar motor (BFM) is an ion-powered nanomachine that drives swimming in many bacte...
AbstractThe bacterial flagellar motor is a rotary molecular machine that rotates the helical filamen...
The bacterial flagellar motor (BFM) is a molecular complex ca. 45 nm in diameter that rotates the pr...
The bacterial flagellar motor is a rotary molecular machine that rotates the helical filaments that ...
The evolution of molecular machines is fundamental to the development of pathogenesis in bacteria. T...
The bacterial flagellum is a locomotive organelle that propels the bacterial cell body in liquid env...
The bacterial flagellum is a locomotive organelle that propels the bacterial cell body in liquid env...
The bacterial flagellar motor is one of the few rotary motors in nature. Only ∼50 nm in diameter, th...
The bacteria flagellar nanomotor is a nature marvel due to its structure and importance for bacteria...
International audienceThe bacterial flagellar motor (BFM) is a rotary molecular motor embedded in th...
The bacterial flagellum is probably the most complex organelle found in bacteria. Although the ribos...