IV 型分泌系统中 VirB11 转运 ATP 酶与 VirB4 和 VirD4 分子马达的功能相互作用。
Functional interactions of VirB11 traffic ATPases with VirB4 and VirD4 molecular motors in type IV secretion systems.
机构信息
Departamento de Biología Molecular, Universidad de Cantabria, and Instituto de Biomedicina y Biotecnología de Cantabria (IBBTEC), UC-CSIC-SODERCAN, Santander, Spain.
出版信息
J Bacteriol. 2013 Sep;195(18):4195-201. doi: 10.1128/JB.00437-13. Epub 2013 Jul 12.
Abstract
Pilus biogenesis and substrate transport by type IV secretion systems require energy, which is provided by three molecular motors localized at the base of the secretion channel. One of these motors, VirB11, belongs to the superfamily of traffic ATPases, which includes members of the type II secretion system and the type IV pilus and archaeal flagellar assembly apparatus. Here, we report the functional interactions between TrwD, the VirB11 homolog of the conjugative plasmid R388, and TrwK and TrwB, the motors involved in pilus biogenesis and DNA transport, respectively. Although these interactions remained standing upon replacement of the traffic ATPase by a homolog from a phylogenetically related conjugative system, namely, TraG of plasmid pKM101, this homolog could not replace the TrwD function for DNA transfer. This result suggests that VirB11 works as a switch between pilus biogenesis and DNA transport and reinforces a mechanistic model in which VirB11 proteins act as traffic ATPases by regulating both events in type IV secretion systems.
摘要
IV 型分泌系统的菌毛生物发生和底物转运需要能量,这些能量由位于分泌通道底部的三个分子马达提供。这些马达之一,VirB11,属于交通 ATP 酶的超家族,其中包括 II 型分泌系统和 IV 型菌毛以及古细菌鞭毛组装装置的成员。在这里,我们报告了 R388 共轭质粒的 VirB11 同源物 TrwD 与分别参与菌毛生物发生和 DNA 转运的 TrwK 和 TrwB 之间的功能相互作用。尽管这些相互作用在通过来自系统发育上相关的共轭系统(即质粒 pKM101 的 TraG)的同源物替换交通 ATP 酶时仍然存在,但该同源物不能替代 TrwD 用于 DNA 转移的功能。这一结果表明,VirB11 作为菌毛生物发生和 DNA 转运之间的开关,加强了一种机械模型,即 VirB11 蛋白通过调节 IV 型分泌系统中的这两个事件作为交通 ATP 酶发挥作用。
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