Biochemical characterization of the flagellar stator-associated inner membrane protein FliL from Vibrio alginolyticus

Ananthanarayanan Kumar, M. Isumi, M. Sakuma, Shiwei Zhu, Yuuki Nishino, Yasuhiro Onoue, S. Kojima, Y. Miyanoiri, K. Imada, M. Homma
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引用次数: 10

Abstract

The flagellar motor is embedded in the cell envelope and rotates upon interaction between the stator and the rotor. The rotation is powered by ion flow through the stator. A single transmembrane protein named FliL is associated with torque generation in the flagellar motor. We established an Escherichia coli over-expression system for FliL of Vibrio alginolyticus, a marine bacterium that has a sodium-driven polar flagellum. We successfully expressed, purified, and crystallized the ca. 17 kDa full-length FliL protein and generated a construct that expresses only the ca. 14 kDa periplasmic region of FliL (ΔTM FliL). Biochemical characterization and NMR analysis revealed that ΔTM FliL weakly interacted with itself to form an oligomer. We speculate that the observed dynamic interaction may be involved in the role of FliL in flagellar motor function.
溶藻弧菌鞭毛定子相关内膜蛋白FliL的生化特性研究
鞭毛马达嵌入细胞包膜中,在定子和转子之间的相互作用下旋转。旋转是由通过定子的离子流驱动的。一种名为FliL的跨膜蛋白与鞭毛马达中的扭矩产生有关。我们建立了溶藻弧菌(一种具有钠驱动极性鞭毛的海洋细菌)FliL的大肠埃希氏过表达系统。我们成功地表达、纯化和结晶了约17 kDa的全长FliL蛋白,并生成了一个仅表达约14 kDa的FliL质周区域的构建体(ΔTM FliL)。生化表征和核磁共振分析表明ΔTM FliL与自身弱相互作用形成低聚物。我们推测观察到的动态相互作用可能与FliL在鞭毛运动功能中的作用有关。
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