热球菌六聚体 AAA-ATP 酶 PilF 的锌和 ATP 结合：在复合物稳定性、菌毛形成、黏附、翻滚运动和自然转化中的作用。

Zinc and ATP binding of the hexameric AAA-ATPase PilF from Thermus thermophilus: role in complex stability, piliation, adhesion, twitching motility, and natural transformation.

机构信息

Molecular Microbiology and Bioenergetics, Institute of Molecular Biosciences, Goethe University Frankfurt, 60438 Frankfurt am Main, Germany.

Molecular Microbiology, Institute for Biology/Microbiology, Martin Luther University, 06120 Halle-Wittenberg, Germany.

出版信息

J Biol Chem. 2014 Oct 31;289(44):30343-30354. doi: 10.1074/jbc.M114.598656. Epub 2014 Sep 8.

DOI:10.1074/jbc.M114.598656

PMID:25202014

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4215219/

Abstract

The traffic AAA-ATPase PilF is essential for pilus biogenesis and natural transformation of Thermus thermophilus HB27. Recently, we showed that PilF forms hexameric complexes containing six zinc atoms coordinated by conserved tetracysteine motifs. Here we report that zinc binding is essential for complex stability. However, zinc binding is neither required for pilus biogenesis nor natural transformation. A number of the mutants did not exhibit any pili during growth at 64 °C but still were transformable. This leads to the conclusion that type 4 pili and the DNA translocator are distinct systems. At lower growth temperatures (55 °C) the zinc-depleted multiple cysteine mutants were hyperpiliated but defective in pilus-mediated twitching motility. This provides evidence that zinc binding is essential for the role of PilF in pilus dynamics. Moreover, we found that zinc binding is essential for complex stability but dispensable for ATPase activity. In contrast to many polymerization ATPases from mesophilic bacteria, ATP binding is not required for PilF complex formation; however, it significantly increases complex stability. These data suggest that zinc and ATP binding increase complex stability that is important for functionality of PilF under extreme environmental conditions.

摘要

AAA-ATP 酶 PilF 对于嗜热栖热菌 HB27 的菌毛生物发生和自然转化是必不可少的。最近，我们发现 PilF 形成六聚体复合物，其中包含六个锌原子，由保守的四半胱氨酸基序协调。在这里，我们报告说锌结合对于复合物稳定性至关重要。然而，锌结合既不是菌毛生物发生所必需的，也不是自然转化所必需的。许多突变体在 64°C 生长时没有表现出任何菌毛，但仍然可以转化。这得出结论，即类型 4 菌毛和 DNA 转位器是不同的系统。在较低的生长温度（55°C）下，锌耗竭的多个半胱氨酸突变体菌毛过度增生，但菌毛介导的蠕动运动缺陷。这提供了证据表明，锌结合对于 PilF 在菌毛动力学中的作用是必不可少的。此外，我们发现锌结合对于复合物稳定性是必不可少的，但对于 ATP 酶活性是可有可无的。与许多来自嗜温细菌的聚合 ATP 酶不同，ATP 结合对于 PilF 复合物的形成不是必需的；然而，它显著增加了复合物的稳定性。这些数据表明，锌和 ATP 结合增加了复合物的稳定性，这对于 PilF 在极端环境条件下的功能是重要的。

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