AI Article Synopsis
- The bacterial flagellar motor is a complex rotary structure made of proteins, featuring a central rod and ring-like components essential for its function.
- The 'T-ring' in Vibrio alginolyticus, consisting of MotX and MotY proteins, is crucial for assembling the motor's torque-generating unit.
- Mutations in the motX gene led to various motility issues, and the study suggests that MotX has additional roles in cell shape and growth regulation beyond just flagellar motor function.
Article Abstract
The bacterial flagellar motor is a rotary motor complex composed of various proteins. The motor contains a central rod, multiple ring-like structures and stators. The Na+-driven polar flagellar motor of the marine bacterium Vibrio alginolyticus has a specific ring, called the ‘T-ring’, which consists of two periplasmic proteins, MotX and MotY. The T-ring is essential for assembly of the torque-generating unit, the PomA/PomB stator complex, into the motor. To investigate the role of the T-ring for motor function, we performed random mutagenesis of the motX gene on a plasmid. The isolated MotX mutants showed nonmotile, slow-motile, and up-motile phenotypes by the expression from the plasmid. Deletion analysis indicated that the C-terminal region and the signal peptide in MotX are not always essential for flagellar motor function. We also found that overproduction of MotX caused the delay of growth and aberrant cell shape. MotX might have unexpected roles not only in flagellar motor function but also in cell morphology control.
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