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1
Increasing nitrogenase catalytic efficiency for MgATP by changing serine 16 of its Fe protein to threonine: use of Mn2+ to show interaction of serine 16 with Mg2+.通过将固氮酶铁蛋白的丝氨酸16替换为苏氨酸提高其对MgATP的催化效率:利用Mn²⁺揭示丝氨酸16与Mg²⁺的相互作用
Protein Sci. 1993 Jan;2(1):93-102. doi: 10.1002/pro.5560020110.
2
Nucleotide hydrolysis and protein conformational changes in Azotobacter vinelandii nitrogenase iron protein: defining the function of aspartate 129.棕色固氮菌固氮酶铁蛋白中的核苷酸水解与蛋白质构象变化:确定天冬氨酸129的功能
Biochemistry. 1995 Aug 29;34(34):10713-23. doi: 10.1021/bi00034a003.
3
Docking of nitrogenase iron- and molybdenum-iron proteins for electron transfer and MgATP hydrolysis: the role of arginine 140 and lysine 143 of the Azotobacter vinelandii iron protein.用于电子转移和MgATP水解的固氮酶铁蛋白和钼铁蛋白的对接:棕色固氮菌铁蛋白中精氨酸140和赖氨酸143的作用
Protein Sci. 1994 Nov;3(11):2073-81. doi: 10.1002/pro.5560031120.
4
Evidence for a central role of lysine 15 of Azotobacter vinelandii nitrogenase iron protein in nucleotide binding and protein conformational changes.
J Biol Chem. 1995 Jun 2;270(22):13112-7. doi: 10.1074/jbc.270.22.13112.
5
Mapping the site(s) of MgATP and MgADP interaction with the nitrogenase of Azotobacter vinelandii. Lysine 15 of the iron protein plays a major role in MgATP interaction.
J Biol Chem. 1992 Apr 5;267(10):6680-8.
6
Elucidating the mechanism of nucleotide-dependent changes in the redox potential of the [4Fe-4S] cluster in nitrogenase iron protein: the role of phenylalanine 135.阐明固氮酶铁蛋白中[4Fe-4S]簇氧化还原电位的核苷酸依赖性变化机制:苯丙氨酸135的作用。
Biochemistry. 1996 Jul 23;35(29):9424-34. doi: 10.1021/bi9608572.
7
Evidence for electron transfer from the nitrogenase iron protein to the molybdenum-iron protein without MgATP hydrolysis: characterization of a tight protein-protein complex.在不水解MgATP的情况下,固氮酶铁蛋白向钼铁蛋白进行电子转移的证据:一种紧密蛋白质-蛋白质复合物的特性
Biochemistry. 1996 Jun 4;35(22):7188-96. doi: 10.1021/bi9603985.
8
The [4Fe-4S] cluster domain of the nitrogenase iron protein facilitates conformational changes required for the cooperative binding of two nucleotides.固氮酶铁蛋白的[4Fe-4S]簇结构域促进了两个核苷酸协同结合所需的构象变化。
Biochemistry. 1996 Dec 10;35(49):15654-62. doi: 10.1021/bi961886f.
9
Elucidation of a MgATP signal transduction pathway in the nitrogenase iron protein: formation of a conformation resembling the MgATP-bound state by protein engineering.固氮酶铁蛋白中MgATP信号转导途径的阐明:通过蛋白质工程形成类似于MgATP结合状态的构象。
Biochemistry. 1996 Apr 16;35(15):4766-75. doi: 10.1021/bi960026w.
10
MgATP-Bound and nucleotide-free structures of a nitrogenase protein complex between the Leu 127 Delta-Fe-protein and the MoFe-protein.亮氨酸127位缺失的铁蛋白与钼铁蛋白之间的固氮酶蛋白复合物的镁离子三磷酸腺苷结合态和无核苷酸态结构。
Biochemistry. 2001 Jan 23;40(3):641-50. doi: 10.1021/bi001645e.

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1
Molecular Biology in the Improvement of Biological Nitrogen Fixation by Rhizobia and Extending the Scope to Cereals.分子生物学在根瘤菌改善生物固氮及将其范围扩展至谷物方面的应用
Microorganisms. 2021 Jan 7;9(1):125. doi: 10.3390/microorganisms9010125.
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Hydride Conformers of the Nitrogenase FeMo-cofactor Two-Electron Reduced State E(2H), Assigned Using Cryogenic Intra Electron Paramagnetic Resonance Cavity Photolysis.使用低温电子顺磁共振腔内光解技术确定固氮酶 FeMo 辅因子双电子还原态 E(2H)的氢化物构象体。
Inorg Chem. 2018 Jun 18;57(12):6847-6852. doi: 10.1021/acs.inorgchem.8b00271. Epub 2018 Mar 24.
3
Unraveling the interactions of the physiological reductant flavodoxin with the different conformations of the Fe protein in the nitrogenase cycle.解析生理还原剂黄素氧还蛋白在固氮酶循环中与铁蛋白不同构象的相互作用。
J Biol Chem. 2017 Sep 22;292(38):15661-15669. doi: 10.1074/jbc.M117.801548. Epub 2017 Aug 7.
4
Determination of nucleoside triphosphatase activities from measurement of true inorganic phosphate in the presence of labile phosphate compounds.在存在不稳定磷酸盐化合物的情况下,通过测定真实无机磷酸盐来确定核苷三磷酸酶活性。
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5
A confirmation of the quench-cryoannealing relaxation protocol for identifying reduction states of freeze-trapped nitrogenase intermediates.用于确定冷冻捕获的固氮酶中间体还原状态的淬灭-低温退火弛豫方案的确认。
Inorg Chem. 2014 Apr 7;53(7):3688-93. doi: 10.1021/ic500013c. Epub 2014 Mar 18.
6
On reversible H2 loss upon N2 binding to FeMo-cofactor of nitrogenase.在氮气与固氮酶中铁钼辅因子结合时发生可逆的 H2 损失。
Proc Natl Acad Sci U S A. 2013 Oct 8;110(41):16327-32. doi: 10.1073/pnas.1315852110. Epub 2013 Sep 23.
7
Bacterial ApbC protein has two biochemical activities that are required for in vivo function.细菌ApbC蛋白具有体内功能所需的两种生化活性。
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8
Structural basis for VO(2+)-inhibition of nitrogenase activity: (B) pH-sensitive inner-sphere rearrangements in the 1H-environment of the metal coordination site of the nitrogenase Fe-protein identified by ENDOR spectroscopy.钒(VO(2+))抑制固氮酶活性的结构基础:(B)通过电子核双共振光谱法确定的固氮酶铁蛋白金属配位位点1H环境中的pH敏感内球重排。
J Biol Inorg Chem. 2008 May;13(4):637-50. doi: 10.1007/s00775-008-0364-9.
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Structural basis for VO2+ inhibition of nitrogenase activity (A): 31P and 23Na interactions with the metal at the nucleotide binding site of the nitrogenase Fe protein identified by ENDOR spectroscopy.VO₂⁺对固氮酶活性抑制的结构基础(A):通过电子核双共振光谱法确定的³¹P和²³Na与固氮酶铁蛋白核苷酸结合位点处金属的相互作用。
J Biol Inorg Chem. 2008 May;13(4):623-35. doi: 10.1007/s00775-008-0360-0.
10
Mn2+-adenosine nucleotide complexes in the presence of the nitrogenase iron-protein: detection of conformational rearrangements directly at the nucleotide binding site by EPR and 2D-ESEEM (two-dimensional electron spin-echo envelope modulation spectroscopy).在固氮酶铁蛋白存在下的Mn2+-腺苷核苷酸复合物:通过电子顺磁共振(EPR)和二维电子自旋回波包络调制光谱(2D-ESEEM)直接检测核苷酸结合位点处的构象重排
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本文引用的文献

1
Nuclear magnetic resonance spectra of adenosine di- and triphosphate. II. Effect of complexing with divalent metal ions.二磷酸腺苷和三磷酸腺苷的核磁共振谱。II. 与二价金属离子络合的影响。
J Biol Chem. 1962 Jan;237:176-81.
2
A simple method for measuring nitrogen fixation by cell-free enzyme preparations of Clostridium pasteurianum.一种用于测定巴氏梭菌无细胞酶制剂固氮作用的简单方法。
Anal Biochem. 1961 Jun;2:216-20. doi: 10.1016/s0003-2697(61)80003-1.
3
In vivo energetics and control of nitrogen fixation: changes in the adenylate energy charge and adenosine 5'-diphosphate/adenosine 5'-triphosphate ratio of cells during growth on dinitrogen versus growth on ammonia.体内能量代谢与固氮作用的调控:细胞在以氮气为氮源生长与以氨为氮源生长过程中腺苷酸能荷及腺苷二磷酸/腺苷三磷酸比值的变化。
J Bacteriol. 1980 Jul;143(1):274-84. doi: 10.1128/jb.143.1.274-284.1980.
4
The mechanism of Klebsiella pneumoniae nitrogenase action. The determination of rate constants required for the simulation of the kinetics of N2 reduction and H2 evolution.肺炎克雷伯菌固氮酶作用机制。模拟N2还原和H2释放动力学所需速率常数的测定。
Biochem J. 1984 Dec 15;224(3):895-901. doi: 10.1042/bj2240895.
5
Distantly related sequences in the alpha- and beta-subunits of ATP synthase, myosin, kinases and other ATP-requiring enzymes and a common nucleotide binding fold.ATP合酶、肌球蛋白、激酶及其他需ATP的酶的α亚基和β亚基中关系较远的序列以及一个共同的核苷酸结合结构域。
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6
Acetylene reduction by nitrogen fixing extracts of Clostridium pasteurianum: ATP requirement and inhibition by ADP.巴氏梭菌固氮提取物的乙炔还原作用:ATP需求及ADP的抑制作用
Nature. 1967 Dec 23;216(5121):1241-2. doi: 10.1038/2161241a0.
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The nitrogenase system from Azotobacter: activation energy and divalent cation requirement.固氮菌的固氮酶系统:活化能与二价阳离子需求
Biochim Biophys Acta. 1969 Feb 11;171(2):253-9. doi: 10.1016/0005-2744(69)90158-2.
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Biochemistry of deoxyribonucleic acid-defective amber mutants of bacteriophage T4. 3. Nucleotide pools.噬菌体T4的脱氧核糖核酸缺陷型琥珀突变体的生物化学。3. 核苷酸库。
J Biol Chem. 1972 Nov 25;247(22):7430-8.
9
Electron-paramagnetic-resonance studies on nitrogenase. Investigation of the oxidation-reduction behaviour of azoferredoxin and molybdoferredoxin with potentiometric and rapid-freeze techniques.固氮酶的电子顺磁共振研究。用电位滴定法和快速冷冻技术研究偶氮铁氧化还原蛋白和钼铁氧化还原蛋白的氧化还原行为。
Eur J Biochem. 1974 Aug 1;46(3):525-35. doi: 10.1111/j.1432-1033.1974.tb03646.x.
10
Re-evaluation of EDTA-chelated biuret reagent.乙二胺四乙酸螯合双缩脲试剂的重新评估
Clin Chem. 1974 Oct;20(10):1362-3.

通过将固氮酶铁蛋白的丝氨酸16替换为苏氨酸提高其对MgATP的催化效率:利用Mn²⁺揭示丝氨酸16与Mg²⁺的相互作用

Increasing nitrogenase catalytic efficiency for MgATP by changing serine 16 of its Fe protein to threonine: use of Mn2+ to show interaction of serine 16 with Mg2+.

作者信息

Seefeldt L C, Mortenson L E

机构信息

Biochemistry Department, University of Georgia, Athens 30602.

出版信息

Protein Sci. 1993 Jan;2(1):93-102. doi: 10.1002/pro.5560020110.

DOI:10.1002/pro.5560020110
PMID:8443593
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2142304/
Abstract

MgATP-binding and hydrolysis are an integral part of the nitrogenase catalytic mechanism. We are exploring the function of MgATP hydrolysis in this reaction by analyzing the properties of the Fe protein (FeP) component of Azotobacter vinelandii nitrogenase altered by site-directed mutagenesis. We have previously (Seefeldt, L.C., Morgan, T.V., Dean, D.R., & Mortenson, L.E., 1992, J. Biol. Chem. 267, 6680-6688) identified a region near the N-terminus of FeP that is involved in interaction with MgATP. This region of FeP is homologous to the well-known nucleotide-binding motif GXXXXGKS/T. In the present work, we examined the function of the four hydroxyl-containing amino acids immediately C-terminal to the conserved lysine 15 that is involved in interaction with the gamma-phosphate of MgATP. We have established, by altering independently Thr 17, Thr 18, and Thr 19 to alanine, that a hydroxyl-containing residue is not needed at these positions for FeP to function. In contrast, an hydroxyl-containing amino acid at position 16 was found to be critical for FeP function. When the strictly conserved Ser 16 was altered to Ala, Cys, Asp, or Gly, the FeP did not support N2 fixation when expressed in place of the wild-type FeP in A. vinelandii. Altering Ser 16 to Thr (S16T), however, resulted in the expression of an FeP that was partially active. This S16T FeP was purified to homogeneity, and its biochemical examination allowed us to assign a catalytic function to this hydroxyl group in the nitrogenase mechanism. Of particular importance was the finding that the S16T FeP had a significantly higher affinity for MgATP than the wild-type FeP, with a measured Km of 20 microM compared to the wild-type FeP Km of 220 microM. This increased kinetic affinity for MgATP was reflected in a significantly stronger binding of the S16T FeP for MgATP. In contrast, the affinity for MgADP, which binds at the same site as MgATP, was unchanged. The catalytic efficiency (kcat/Km) of S16T FeP was found to be 5.3-fold higher than for the wild-type FeP, with the S16T FeP supporting up to 10 times greater nitrogenase activity at low MgATP concentrations. This indicates a role for the hydroxyl group at position 16 in interaction with MgATP but not MgADP. The site of interaction of this residue was further defined by examining the properties of wild-type and S16T FePs in utilizing MnATP compared with MgATP.(ABSTRACT TRUNCATED AT 400 WORDS)

摘要

MgATP结合与水解是固氮酶催化机制不可或缺的一部分。我们正在通过分析经定点诱变改变的棕色固氮菌固氮酶铁蛋白(FeP)组分的特性,来探究MgATP水解在此反应中的功能。我们之前(Seefeldt, L.C., Morgan, T.V., Dean, D.R., & Mortenson, L.E., 1992, J. Biol. Chem. 267, 6680 - 6688)已鉴定出FeP N端附近一个与MgATP相互作用有关的区域。FeP的这一区域与著名的核苷酸结合基序GXXXXGKS/T同源。在本研究中,我们研究了紧邻与MgATPγ - 磷酸基团相互作用的保守赖氨酸15 C端的四个含羟基氨基酸的功能。我们通过将苏氨酸17、苏氨酸18和苏氨酸19分别独立地替换为丙氨酸,确定这些位置不需要含羟基残基FeP也能发挥功能。相比之下,发现16位的含羟基氨基酸对FeP功能至关重要。当严格保守的丝氨酸16被替换为丙氨酸、半胱氨酸、天冬氨酸或甘氨酸时,在棕色固氮菌中表达该FeP来替代野生型FeP时,它不能支持N2固定。然而,将丝氨酸16替换为苏氨酸(S16T),则产生了一种部分活性的FeP。将这种S16T FeP纯化至同质,对其进行生化检测使我们能够在固氮酶机制中为这个羟基赋予催化功能。特别重要的是发现S16T FeP对MgATP的亲和力明显高于野生型FeP,测得的Km为20微摩尔,而野生型FeP的Km为220微摩尔。对MgATP这种增加的动力学亲和力反映在S16T FeP与MgATP的结合明显更强。相比之下,对与MgATP结合在同一位置的MgADP的亲和力没有变化。发现S16T FeP的催化效率(kcat/Km)比野生型FeP高5.3倍,在低MgATP浓度下,S16T FeP支持的固氮酶活性高达野生型的10倍。这表明16位的羟基在与MgATP而非MgADP的相互作用中起作用。通过比较野生型和S16T FeP在利用MnATP与MgATP方面的特性,进一步确定了该残基的相互作用位点。(摘要截短至400字)