- Source: Flagellar motor switch protein
In molecular biology, the flagellar motor switch protein (Flig) is one of three proteins in certain bacteria coded for by the gene fliG. The other two proteins are FliN coded for by fliN, and FliM coded for by fliM. The protein complex regulates the direction of flagellar rotation and hence controls swimming behaviour. The switch is a complex apparatus that responds to signals transduced by the chemotaxis sensory signalling system during chemotactic behaviour. CheY, the chemotaxis response regulator, is believed to act directly on the switch to induce a switch in the flagellar motor direction of rotation.
Fli proteins
The switch complex comprises at least three proteins: FliG, FliM and FliN. It has been shown that FliG interacts with FliM, FliM interacts with itself, and FliM interacts with FliN. Several amino acids within the middle third of FliG appear to be strongly involved in the FliG–FliM interaction, with residues near the N- or C-termini being less important. Such clustering suggests that FliG-FliM interaction plays a central role in switching.
Analysis of the FliG, FliM and FliN sequences shows that none are especially hydrophobic or appear to be integral membrane proteins. This result is consistent with other evidence suggesting that the proteins may be peripheral to the membrane, possibly mounted on the basal body M ring. FliG is present in about 25 copies per flagellum. The structure of the C-terminal domain of FliG is known, this domain functions specifically in motor rotation.
References
Kata Kunci Pencarian:
- Flagellar motor switch protein
- Flagellum
- Bacterial motility
- Monica Gandhi
- ATP synthase
- Chemotaxis
- Michael Eisenbach
- Ultrasensitivity
- PilZ domain
- Quorum sensing
