%0 Journal Article %1 Samatey2001 %A Samatey, Fadel A. %A Imada, Katsumi %A Nagashima, Shigehiro %A Vonderviszt, Ferenc %A Kumasaka, Takashi %A Yamamoto, Masaki %A Namba, Keiichi %D 2001 %J Nature %K bacteria flagella structure %N 6826 %P 331--337 %T Structure of the bacterial flagellar protofilament and implications for a switch for supercoiling %U http://dx.doi.org/10.1038/35066504 %V 410 %X The bacterial flagellar filament is a helical propeller constructed from 11 protofilaments of a single protein, flagellin. The filament switches between left- and right-handed supercoiled forms when bacteria switch their swimming mode between running and tumbling. Supercoiling is produced by two different packing interactions of flagellin called L and R. In switching from L to R, the intersubunit distance (approx52 Å) along the protofilament decreases by 0.8 Å. Changes in the number of L and R protofilaments govern supercoiling of the filament. Here we report the 2.0 Å resolution crystal structure of a Salmonella flagellin fragment of relative molecular mass 41,300. The crystal contains pairs of antiparallel straight protofilaments with the R-type repeat. By simulated extension of the protofilament model, we have identified possible switch regions responsible for the bi-stable mechanical switch that generates the 0.8 Å difference in repeat distance.

@article{Samatey2001, abstract = {The bacterial flagellar filament is a helical propeller constructed from 11 protofilaments of a single protein, flagellin. The filament switches between left- and right-handed supercoiled forms when bacteria switch their swimming mode between running and tumbling. Supercoiling is produced by two different packing interactions of flagellin called L and R. In switching from L to R, the intersubunit distance (approx52 Å) along the protofilament decreases by 0.8 Å. Changes in the number of L and R protofilaments govern supercoiling of the filament. Here we report the 2.0 Å resolution crystal structure of a Salmonella flagellin fragment of relative molecular mass 41,300. The crystal contains pairs of antiparallel straight protofilaments with the R-type repeat. By simulated extension of the protofilament model, we have identified possible switch regions responsible for the bi-stable mechanical switch that generates the 0.8 Å difference in repeat distance.}, added-at = {2014-11-20T10:55:38.000+0100}, author = {Samatey, Fadel A. and Imada, Katsumi and Nagashima, Shigehiro and Vonderviszt, Ferenc and Kumasaka, Takashi and Yamamoto, Masaki and Namba, Keiichi}, biburl = {https://www.bibsonomy.org/bibtex/2b99fc44aff30e00cbce8a00c5c45cd4d/quantentunnel}, comment = {10.1038/35066504}, interhash = {5ccc873b5f413964b3bf8df3f42027ad}, intrahash = {b99fc44aff30e00cbce8a00c5c45cd4d}, issn = {00280836}, journal = {Nature}, keywords = {bacteria flagella structure}, month = mar, number = 6826, pages = {331--337}, timestamp = {2014-11-20T10:55:38.000+0100}, title = {Structure of the bacterial flagellar protofilament and implications for a switch for supercoiling}, url = {http://dx.doi.org/10.1038/35066504}, volume = 410, year = 2001 }