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Retuningthe Catalytic Bias and Overpotential of aNiFe-Hydrogenase via a Single Amino Acid Exchange at the ElectronEntry/Exit Site

机译：重新调整的催化偏差和超电势NiFe -Hydrogenasease通过电子处的单个氨基酸交换出入境现场

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The redox chemistry of the electron entry/exit site in Escherichia coli hydrogenase-1 is shown to play a vital role in tuning biocatalysis. Inspired by nature, we generate a HyaA-R193L variant to disrupt a proposed Arg–His cation−π interaction in the secondary coordination sphere of the outermost, “distal”, iron–sulfur cluster. This rewires the enzyme, enhancing the relative rate of H2 production and the thermodynamic efficiency of H2 oxidation catalysis. On the basis of Fourier transformed alternating current voltammetry measurements, we relate these changes in catalysis to a shift in the distal [Fe4S4]^2+/1+ redox potential, a previously experimentally inaccessible parameter. Thus, metalloenzyme chemistry is shown to be tuned by the second coordination sphere of an electron transfer site distant from the catalytic center.

机译：已显示大肠杆菌氢化酶-1中电子进入/退出位点的氧化还原化学在调节生物催化中起着至关重要的作用。受自然界的启发，我们产生了一个HyaA-R193L变体，以破坏最外侧的“远端”铁-硫团簇的二级配位域中拟议的Arg-His阳离子-π相互作用。这使酶重新连接，从而提高了H2产生的相对速率和H2氧化催化的热力学效率。在傅立叶变换交流伏安法测量的基础上，我们将催化的这些变化与远端[Fe4S4] ^{2 + / 1 + 氧化还原电势的移动相关联，这是以前实验上无法达到的参数。因此，金属酶化学显示出是由远离催化中心的电子转移位点的第二配位球调节的。}

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期刊名称 ACS AuthorChoice
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Hope Adamson; #; Martin Robinson; John J. Wright; Lindsey A. Flanagan; Julia Walton; Darrell Elton; David J. Gavaghan; Alan M. Bond; Maxie M. Roessler; Alison Parkin; *;
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年(卷),期 -1(139),31
年度 -1
页码 10677–10686
总页数 10
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1. Retuning the Catalytic Bias and Overpotential of a [NiFe]-Hydrogenase via a Single Amino Acid Exchange at the Electron Entry/Exit Site [J] . Adamson Hope, Robinson Martin, Wright John J., Journal of the American Chemical Society . 2017,第31期

机译：通过电子进/出位处的单个氨基酸交换，重新调节[NiFe]-氢化酶的催化偏差和超电势
2. Distribution bias analysis of germline and somatic single-nucleotide variations that impact protein functional site and neighboring amino acids [J] . Yang Pan, Cheng Yan, Yu Hu, Scientific reports. . 2017,第1期

机译：种系的分布偏见分析，抗冲蛋白功能位点和邻近氨基酸的种系和体细胞单核苷酸变化
3. THE EFFECT OF DIFFERENT AMINO ACID SIDE CHAINS ON THE STEREOSPECIFICITY AND CATALYTIC EFFICIENCY OF THE TRYPTOPHAN SYNTHASE-CATALYSED EXCHANGE OF THE ALPHA-PROTONS OF AMINO ACIDS [J] . Milne JJ., Malthouse JPG. The Biochemical Journal . 1996,第Pta3期

机译：不同氨基酸侧链对胰蛋白酶合酶催化的氨基酸α-质子交换的立体比和催化效率的影响
4. Catalytic Asymmetric Synthesis of α-Amino Acid Derivatives: Approaches toward Green Sustainable Methodology for Preparation of Optically Active Amino Acids [C] . Yasuhiro Yamashita, Shu Kobayashi Asymmetric synthesis and application of α-amino acids . 2007

机译：催化不对称合成α-氨基酸衍生物：绿色可持续方法制备光学活性氨基酸的方法
5. Site specific introduction of unnatural amino acids at sites critical to insulin receptor recognition & biological activity. [D] . Quan, Beili. 2010

机译：在对胰岛素受体识别和生物活性至关重要的位点上引入非天然氨基酸的位点特定引入。
6. Distribution bias analysis of germline and somatic single-nucleotide variations that impact protein functional site and neighboring amino acids [O] . Yang Pan, Cheng Yan, Yu Hu, -1

机译：影响蛋白质功能位点和邻近氨基酸的种系和体细胞单核苷酸变异的分布偏差分析
7. Retuning the catalytic bias and overpotential of a [NiFe]-hydrogenase via a single amino acid exchange at the electron entry/exit site [O] . Adamson, H, Robinson, M, Wright, JJ, 2017

机译：通过电子进/出位点的单个氨基酸交换，重新调节[NiFe]-氢化酶的催化偏性和超电势

Retuningthe Catalytic Bias and Overpotential of aNiFe-Hydrogenase via a Single Amino Acid Exchange at the ElectronEntry/Exit Site

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