Two Small GTPases Act in Concert with the Bactofilin Cytoskeleton to Regulate Dynamic Bacterial Cell Polarity

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• 作者：Iryna Bulyha¹ ; Steffi Lindow¹ ; Lin Lin¹ ; ² ; Kathrin Bolte³ ; Kristin Wuichet¹ ; Jö ; rg Kahnt¹ ; Chris van der Does¹ ; Martin Thanbichler¹ ; ² ; Lotte Sø ; gaard-Andersen¹ ; ^{sogaard@mpi-marburg.mpg.de}
• 刊名：Developmental Cell
• 出版年：2013
• 出版时间：29 April, 2013
• 年：2013
• 卷：25
• 期：2
• 页码：119-131
• 全文大小：7248 K

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Summary

Cell polarity is essential for many bacterial activities, but the mechanisms responsible for its establishment are poorly understood. In Myxococcus xanthus, the type IV pili (T4P) motor ATPases PilB and PilT localize to opposite cell poles and switch poles during cellular reversals. We demonstrate that polar localization of PilB and PilT depends on the small GTPase SofG and BacP, a bactofilin cytoskeletal protein. Polymeric BacP localizes in both subpolar regions. SofG interacts directly with polymeric BacP and associates with one of these patches, forming a cluster that shuttles to the pole to establish localization of PilB and PilT at the same pole. Next, the small GTPase MglA sorts PilB and PilT to opposite poles to establish their correct polarity. During reversals, the Frz chemosensory system induces the inversion of PilB and PilT polarity. Thus, three hierarchically organized systems function in a cascade to regulate dynamic bacterial cell polarity.