Berthelmann Felix, Mehner Denise, Richter Silke, Lindenstrauss Ute, Lünsdorf Heinrich, Hause Gerd, Brüser Thomas
Institute of Biology/Microbiology, Martin Luther University of Halle-Wittenberg, Kurt-Mothes-Str. 3, D-06120 Halle, Germany.
Division of Vaccinology, Helmholtz-Centre for Infection Research, Inhoffenstr. 7, D-38124 Braunschweig, Germany.
J Biol Chem. 2008 Sep 12;283(37):25281-25289. doi: 10.1074/jbc.M707757200. Epub 2008 Jul 21.
The twin-arginine translocation (Tat) system of bacteria and plant plastids serves to translocate folded proteins across energized biological membranes. In Escherichia coli, the three components TatA, TatB, and TatC mediate this membrane passage. Here we demonstrate that TatA can assemble to form clusters of tube-like structures in vivo. While the presence of TatC is essential for their formation, TatB is not required. The TatA tubes have uniform outer and inner diameters of about 11.5 nm and 6.7 nm, respectively. They align to form a crystalline-like structure in which each tube is surrounded by six TatA tubes. The tube structures become easily detectable even at only a 15-fold overexpression of the tatABC genes. The TatA tubes could also be visualized by fluorescence when untagged TatA was mixed with low amounts of TatA-GFP. The structures were often found in contact with the cell poles. Because TatC is most likely polar in E. coli, as demonstrated by a RR-dependent targeting of translocation-incompatible Tat substrates to the cell poles, and because TatC is required for the formation of aligned TatA tubes, it is proposed that the TatA tubes are initiated at polarly localized TatC.
细菌和植物质体中的双精氨酸转运(Tat)系统用于将折叠的蛋白质转运穿过有能量的生物膜。在大肠杆菌中,TatA、TatB和TatC这三个组分介导这种膜通道。在这里,我们证明TatA能够在体内组装形成管状结构簇。虽然TatC的存在对其形成至关重要,但TatB并非必需。TatA管的外径和内径分别约为11.5纳米和6.7纳米,较为均匀。它们排列形成一种类似晶体的结构,其中每个管被六个TatA管包围。即使tatABC基因仅过表达15倍,这些管状结构也很容易被检测到。当未标记的TatA与少量TatA - GFP混合时,TatA管也可以通过荧光观察到。这些结构经常被发现与细胞两极接触。由于正如通过RR依赖的转运不相容Tat底物靶向细胞两极所证明的那样,TatC在大肠杆菌中很可能位于两极,并且由于TatC是排列的TatA管形成所必需的,因此有人提出TatA管是在极性定位的TatC处起始的。
