第37回 アイセムスセミナー / メゾバイオ1分子イメジングセンター (CeMI) セミナーシリーズ 11: 水内 清 博士

CeMICenter for Meso-Bio Single-Molecule Imaging

Min proteins of the Escherichia coli cell division system oscillate between the cell poles in vivo. The system involves MinC, MinD and MinE proteins. MinC is an inhibitor of FtsZ polymerization on the membrane, which initiates the assembly of the cell division septum. MinC distribution on the membrane is dictated by MinD to which it binds. MinD is an ATP-dependent membrane binding protein, and MinE stimulates MinD ATPase. Together, the oscillating system generates time-averaged distribution minima of MinC at mid-cell, assuring the cell division takes place at mid-cell. While MinC links the MinD distribution to the location of the septum, it is dispensable for the MinD/E oscillation.

In vitro, on a lipid bi-layer surface, MinD/E proteins exhibit a number of interconverting modes of collective ATP-driven dynamic pattern formation including not only the previously described propagating waves, but also near uniform-in-space surface concentration oscillation, propagating filament-like structures with a leading head and decaying tail, and moving and dividing amoeba-like structures with sharp edges. We demonstrate that the last behavior most closely resembles in vivo system behavior. The simple reaction-diffusion models previously proposed for the Min system fail to explain the results of in vitro self-organization experiments. We propose hypotheses that initiation of MinD binding to the surface is controlled by counteraction of initiation and dissociation complexes; the binding of MinD is stimulated by MinE and involves polymerization-depolymerization dynamics; polymerization of MinE over MinD oligomers triggers dynamic instability leading to detachment from the membrane.

講演者 水内 清 博士
アメリカ国立衛生研究所(NIH)
演題 Multiple Inter-Converting Modes of ATP-Driven Self-Organized Dynamic Pattern Formation by Bacterial Cell Division Proteins
日時 2009年11月30日(月)15:00-16:00
場所 京都大学 iCeMSコンプレックス2 研究棟1号館 1階 大会議室(119号室)
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主催 京都大学 物質-細胞統合システム拠点(iCeMS=アイセムス)
連絡先 京都大学iCeMS原田グループ
harada-g@icems.kyoto-u.ac.jp