第94回日本細菌学会総会

講演情報

オンデマンド口頭発表(ODP)

3 微生物の構造・生理

[ODP3B] b. 運動

[ODP-035] 両毛性磁性細菌Magnetospirillum Magneticum AMB-1のべん毛運動のイメージング

○江口 友佳子1,高岡 祐太2,川村 想2,福森 義宏3,田岡 東2,3 (1金沢大・キャリアデザインラボ,2金沢大・理工・生命理工,3金沢大・ナノ生命研)

Magnetotactic bacteria (MTB) swim along the geomagnetic field for facilitating their search for microaerobic environment. However, the detailed flagellar rotation of MTB during magneto-aerotaxis is not observed. In this study, we imaged individual polar flagellar rotations of swimming Magnetospirillum magneticum AMB-1, an amphitrichous magnetotactic spirillum, in microaerobic environment. We placed the cells in a chamber slide with an oxygen gradient and observed fluorescently labelled flagellar motility using HILO fluorescence microscopy. The lagging flagellum showed counter clockwise rotation during swimming, while the leading flagellum showed clockwise rotation. AMB-1 cells changed the swimming direction by reversing both flagellar rotation simultaneously at the edge of the oxyic-anoxyic transition zone. At first the leading flagellum was inversed then the lagging flagellum was. As the result, the cell switched the swimming direction. The lag time of between the leading and lagging flagella inversions was less than 200 ms. This means that AMB-1 has molecular mechanism that regulate asymmetric flagellar motility at both cell poles simultaneously.