SecA ATP 酶的蛋白质易位通过动力冲程机制发生。

Protein translocation by the SecA ATPase occurs by a power-stroke mechanism.

机构信息

Department of Cell Biology, Harvard Medical School, Boston, MA, USA.

Howard Hughes Medical Institute, Harvard Medical School, Boston, MA, USA.

出版信息

EMBO J. 2019 May 2;38(9). doi: 10.15252/embj.2018101140. Epub 2019 Mar 15.

DOI:10.15252/embj.2018101140

PMID:30877095

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6484406/

Abstract

SecA belongs to the large class of ATPases that use the energy of ATP hydrolysis to perform mechanical work resulting in protein translocation across membranes, protein degradation, and unfolding. SecA translocates polypeptides through the SecY membrane channel during protein secretion in bacteria, but how it achieves directed peptide movement is unclear. Here, we use single-molecule FRET to derive a model that couples ATP hydrolysis-dependent conformational changes of SecA with protein translocation. Upon ATP binding, the two-helix finger of SecA moves toward the SecY channel, pushing a segment of the polypeptide into the channel. The finger retracts during ATP hydrolysis, while the clamp domain of SecA tightens around the polypeptide, preserving progress of translocation. The clamp opens after phosphate release and allows passive sliding of the polypeptide chain through the SecA-SecY complex until the next ATP binding event. This power-stroke mechanism may be used by other ATPases that move polypeptides.

摘要

SecA 属于 ATP 酶的一个大类别，该酶利用 ATP 水解的能量来进行机械功，从而导致跨膜的蛋白质易位、蛋白质降解和展开。SecA 在细菌的蛋白质分泌过程中通过 SecY 膜通道转运多肽，但它如何实现定向肽运动尚不清楚。在这里，我们使用单分子 FRET 来推导出一个模型，该模型将 SecA 的 ATP 水解依赖性构象变化与蛋白质易位联系起来。当 ATP 结合时，SecA 的双螺旋指朝向 SecY 通道移动，将多肽的一段推入通道。在 ATP 水解过程中，指缩回，而 SecA 的夹钳结构域围绕多肽收紧，保持易位的进展。在磷酸盐释放后，夹钳打开，允许多肽链通过 SecA-SecY 复合物被动滑动，直到下一个 ATP 结合事件。这种动力冲程机制可能被其他转运多肽的 ATP 酶使用。

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