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Crystal Structures of Mutant Forms of the Yeast F1 ATPase Reveal Two Modes of Uncoupling*

机译：酵母F1 ATPase突变形式的晶体结构揭示了两种解偶联模式*

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The mitochondrial ATP synthase couples the flow of protons with the phosphorylation of ADP. A class of mutations, the mitochondrial genome integrity (mgi) mutations, has been shown to uncouple this process in the yeast mitochondrial ATP synthase. Four mutant forms of the yeast F1 ATPase with mgi mutations were crystallized; the structures were solved and analyzed. The analysis identifies two mechanisms of structural uncoupling: one in which the empty catalytic site is altered and in doing so, apparently disrupts substrate (phosphate) binding, and a second where the steric hindrance predicted between γLeu83 and βDP residues, Leu-391 and Glu-395, located in Catch 2 region, is reduced allowing rotation of the γ-subunit with less impedance. Overall, the structures provide key insights into the critical interactions in the yeast ATP synthase involved in the coupling process.

机译：线粒体ATP合酶使质子流与ADP磷酸化偶联。一类突变，线粒体基因组完整性（mgi）突变，已显示出可以在酵母线粒体ATP合酶中解开此过程。结晶出具有mgi突变的四种酵母F1 ATPase突变形式；对结构进行了解析和分析。分析确定了两种结构解偶联的机制：一种是改变了空的催化位点，从而明显破坏了底物（磷酸盐）的结合；第二种是预测了γLeu83和βDP残基之间的空间位阻，Leu-391和Glu位于渔获物2区域中的-395被减少，从而允许以较小的阻抗旋转γ亚基。总体而言，该结构提供了关键的洞察力，以了解参与偶联过程的酵母ATP合酶中的关键相互作用。

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Arsenieva, Diana; Symersky, Jindrich; Wang, Yamin; Pagadala, Vijayakanth; Mueller, David M.;
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1. Crystal Structures of Mutant Forms of the Yeast F1 ATPase Reveal Two Modes of Uncoupling [J] . Diana Arsenieva, Jindrich Symersky, Yamin Wang, The Journal of biological chemistry . 2010,第47期

机译：酵母F1 ATPase的突变形式的晶体结构揭示了两种解耦
2. The characteristics of the (alpha(VC)-C-371)(3)(beta(RC)-C-337)(3 gamma) double mutant subcomplex of the TF1-ATPase indicate that the catalytic site at the alpha(TP)-beta(TP) interface with bound MgADP in crystal structures of MF1 represents a cataly [J] . Bandyopadhyay S, Muneyuki E, Allison WS Biochemistry . 2005,第7期

机译：（α（vc）-c-371）（3）（β（β（β）（β（rc）-c-337）（3γ）双突变体亚复合物的TF1-ATP酶的特征表明α（TP）处的催化位点 -beta（TP）与MF1晶体结构中的带有结合MGADP的界面表示催化
3. Conformational change in beef‐heart mitochondrial F1 ATPase to ATP synthesis mode induced by dimethylsulfoxide and ATP revealed by sulfhydryl group labeling [J] . Beharry Seelochan, Bragg Philip D. FEBS Letters . 1989,第1a2期

机译：巯基基团标记显示二甲基亚砜和ATP诱导牛肉心线粒体F1 ATP酶向ATP合成模式的构象变化
4. Structure, Function and Regulation of an Intact F-type ATPase as Revealed by Chemical Crosslinking and Native Mass Spectrometry [C] . Carla Schmidt, Carol V. Robinson American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2013

机译：由化学交联和天然质谱揭示的完整F型ATP酶的结构，功能和调节
5. Characterization of the Arabidopsis compact inflorescence (cif) mutant and isolation of CIF1 to ACA10, a P-type IIB calcium(2+)-ATPase gene. [D] . George, Lynn DeAnn. 2003

机译：拟南芥紧凑花序（cif）突变体的表征和CIF1分离到ACA10，P型IIB钙（2 +）-ATPase基因。
6. Crystal Structures of Mutant Forms of the Yeast F1 ATPase Reveal Two Modes of Uncoupling [O] . Diana Arsenieva, Jindrich Symersky, Yamin Wang, 2010

机译：酵母F1 ATPase突变形式的晶体结构揭示了两种解偶联模式。
7. Crystal Structures Of Yeast Mitochondrial ATPase with Uncoupling Mutations [O] . Arsenieva Diana, Wang Yamin, Symersky Jindrich, 2010

机译：具有解偶联突变的酵母线粒体ATPase的晶体结构。

Crystal Structures of Mutant Forms of the Yeast F1 ATPase Reveal Two Modes of Uncoupling*

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