flagellar การใช้

• The flagellae arise from parallel basal bodies in a flagellar pocket.
• Flagellar motility stops after " Bdellovibrio " penetrates its prey.
• The middle residues make up the outer surface of the flagellar filament.
• SPEF2 plays an important role in spermatogenesis and flagellar assembly.
• Gliding motility is the non-flagellar movement of bacteria on surfaces.
• Photoelectric signal transduction ultimately triggers changes in flagellar strokes and thus cell movement.
• It's a component of the flagellar motor.
• The flagellar hook is homologous to the T3SS needle
• It is a component of the flagellar motor.
• The helical nature of the individual flagellar filament is critical for this movement to occur.
• This suggested that the driving force behind counterclockwise flagellar rotation was the proton electrochemical potential.
• The protein is largely localized to small cytoplasmic vesicles between the flagellar pocket and the nucleus.
• The MKS1 protein along with flagellar apparatus basal body proteome and are required for cilium formation.
• The sulcus consists of several irregularly-shaped plates, and it contains the flagellar pore.
• The rotational direction of " E . coli " is controlled by the flagellar motor switch.
• They have a highly active metabolism, with feeding apparatus arranged longitudinally and connected with the flagellar apparatus.
• Underlying these behaviors are the somatic O and flagellar H antigens, so named based on Kauffman White classification.
• By the 1980s, it was determined that bacterial chemotaxis resulted from the regulation of flagellar rotation by chemoreceptors.
• Recent studies in Enterobacteriaceae have shown that " fis " positively regulates the flagellar movement of bacteria.
• The speed of the flagellar motor is dependent on the magnitude of the PMF acting on MotA and MotB.