FliL Functions in Diverse Microbes to Negatively Modulate Motor Output via Its N-Terminal Region.

The flagellar motor protein FliL is conserved across many microbes, but its exact role has been obscured by varying mutant phenotypes. We reanalyzed results from studies and found they utilized alleles that differed in the amount of N- and C-terminal regions that were retained. Alleles that retain the N-terminal cytoplasmic and transmembrane helix (TM) regions in the absence of the C-terminal periplasmic domain result in loss of motility, while alleles that completely lack the N-terminal region, independent of the periplasmic domain, retain motility. We then tested this prediction in Helicobacter pylori and found support for the idea. This analysis suggests that FliL function may be more conserved across bacteria than previously thought, that it is not essential for motility, and that the N-terminal region has the negative ability to regulate motor function. FliL is a protein found in the flagellar motor of bacteria, but what it does was not clear. To study FliL function, scientists often remove it and see what happens. Loss of FliL was thought to have different effects depending on the microbe. We uncovered, however, that part of the confusion arose because scientists inadvertently removed different parts of the protein. Our analysis and data suggest that leaving the N-terminal regions blocks motility, while fully removing FliL allows normal motility. This finding will help scientists understand FliL because it clarifies what needs to be removed to fully eliminate the protein, and also that the N-terminal region can block motility.