通过在ε亚基中引入拟磷酸化突变来改善大肠杆菌ATP合酶催化复合物（F1）的结晶。

Improved crystallization of Escherichia coli ATP synthase catalytic complex (F1) by introducing a phosphomimetic mutation in subunit ε.

作者信息

Roy Ankoor, Hutcheon Marcus L, Duncan Thomas M, Cingolani Gino

机构信息

Department of Biochemistry and Molecular Biology, Thomas Jefferson University, Philadelphia, PA 19107, USA.

出版信息

Acta Crystallogr Sect F Struct Biol Cryst Commun. 2012 Oct 1;68(Pt 10):1229-33. doi: 10.1107/S1744309112036718. Epub 2012 Sep 28.

DOI:10.1107/S1744309112036718

PMID:23027754

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3490465/

Abstract

The bacterial ATP synthase (F(O)F(1)) of Escherichia coli has been the prominent model system for genetics, biochemical and more recently single-molecule studies on F-type ATP synthases. With 22 total polypeptide chains (total mass of ∼529 kDa), E. coli F(O)F(1) represents nature's smallest rotary motor, composed of a membrane-embedded proton transporter (F(O)) and a peripheral catalytic complex (F(1)). The ATPase activity of isolated F(1) is fully expressed by the α(3)β(3)γ 'core', whereas single δ and ε subunits are required for structural and functional coupling of E. coli F(1) to F(O). In contrast to mitochondrial F(1)-ATPases that have been determined to atomic resolution, the bacterial homologues have proven very difficult to crystallize. In this paper, we describe a biochemical strategy that led us to improve the crystallogenesis of the E. coli F(1)-ATPase catalytic core. Destabilizing the compact conformation of ε's C-terminal domain with a phosphomimetic mutation (εS65D) dramatically increased crystallization success and reproducibility, yielding crystals of E. coli F(1) that diffract to ∼3.15 Å resolution.

摘要

大肠杆菌的细菌ATP合酶（F₀F₁）一直是F型ATP合酶遗传学、生物化学以及最近单分子研究的重要模型系统。大肠杆菌F₀F₁共有22条多肽链（总质量约为529 kDa），代表了自然界中最小的旋转马达，由膜嵌入质子转运体（F₀）和外周催化复合物（F₁）组成。分离出的F₁的ATP酶活性由α₃β₃γ“核心”完全表达，而单个δ和ε亚基是大肠杆菌F₁与F₀结构和功能偶联所必需的。与已确定原子分辨率的线粒体F₁-ATP酶不同，细菌同源物已被证明极难结晶。在本文中，我们描述了一种生化策略，该策略使我们改进了大肠杆菌F₁-ATP酶催化核心的结晶生成。用模拟磷酸化突变（εS65D）破坏ε C末端结构域的紧密构象，显著提高了结晶成功率和可重复性，得到了衍射分辨率约为3.15 Å的大肠杆菌F₁晶体。

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