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本文引用的文献

1
Stabilization of reduced molybdenum-iron-sulfur single- and double-cubane clusters by cyanide ligation.通过氰化物配位作用稳定还原态的单立方烷和双立方烷钼-铁-硫簇合物
Inorg Chem. 2007 Jan 22;46(2):510-6. doi: 10.1021/ic061704y.
2
Thermodynamic scales for sulfur atom transfer and oxo-for-sulfido exchange reactions.
Chem Rev. 2006 Nov;106(11):4747-83. doi: 10.1021/cr050044w.
3
Edge-bridged Mo2Fe6S8 to pN-type Mo2Fe6S9 cluster conversion: structural fate of the attacking sulfide/selenide nucleophile.边缘桥连的Mo₂Fe₆S₈到pN型Mo₂Fe₆S₉团簇的转化:进攻性硫化物/硒化物亲核试剂的结构命运
J Am Chem Soc. 2006 Sep 13;128(36):11993-2000. doi: 10.1021/ja063604x.
4
Precursors to clusters with the topology of the P(N) cluster of nitrogenase: edge-bridged double cubane clusters [(Tp)2Mo2Fe6S8L4]z: synthesis, structures, and electron transfer series.具有固氮酶P(N)簇拓扑结构的簇合物前体:边桥连双立方烷簇合物[(Tp)2Mo2Fe6S8L4]z:合成、结构及电子转移系列
Inorg Chem. 2006 Mar 6;45(5):1997-2007. doi: 10.1021/ic051770k.
5
The clusters of nitrogenase: synthetic methodology in the construction of weak-field clusters.固氮酶簇合物:弱场簇合物构建中的合成方法
Chem Rev. 2004 Feb;104(2):1135-58. doi: 10.1021/cr0206216.
6
Structural conversions of molybdenum-iron-sulfur edge-bridged double cubanes and P(n)-type clusters topologically related to the nitrogenase P-cluster.钼铁硫边桥连双立方烷和与固氮酶P簇拓扑相关的P(n)型簇的结构转变
Inorg Chem. 2004 Jan 26;43(2):674-82. doi: 10.1021/ic030259t.
7
Vanadium-iron-sulfur clusters containing the cubane-type [VFe3S4] core unit: synthesis of a cluster with the topology of the PN cluster of nitrogenase.含有立方烷型[VFe3S4]核心单元的钒-铁-硫簇合物:一种具有固氮酶PN簇拓扑结构的簇合物的合成。
Inorg Chem. 2003 Jul 28;42(15):4624-31. doi: 10.1021/ic0301369.
8
Synthesis of the P-cluster inorganic core of nitrogenases.固氮酶的P簇无机核心的合成。
J Am Chem Soc. 2003 Apr 9;125(14):4052-3. doi: 10.1021/ja029383m.
9
Synthesis of a molecular Mo2Fe6S9 cluster with the topology of the PN cluster of nitrogenase by rearrangement of an edge-bridged Mo2Fe6S8 double cubane.通过边缘桥连的Mo2Fe6S8双立方烷重排合成具有固氮酶PN簇拓扑结构的分子Mo2Fe6S9簇。
J Am Chem Soc. 2003 Apr 2;125(13):3910-20. doi: 10.1021/ja0214633.
10
Speculative synthetic chemistry and the nitrogenase problem.推测性合成化学与固氮酶问题
Proc Natl Acad Sci U S A. 2003 Apr 1;100(7):3595-600. doi: 10.1073/pnas.0630028100. Epub 2003 Mar 17.

氢氧化物促进的钼-铁-硫边缘桥连双立方烷的核心转化:氧配位拓扑PN簇

Hydroxide-promoted core conversions of molybdenum-iron-sulfur edge-bridged double cubanes: oxygen-ligated topological PN clusters.

作者信息

Hlavinka Mark L, Miyaji Taichi, Staples Richard J, Holm R H

机构信息

Department of Chemistry and Chemical Biology, Harvard University, Cambridge, MA 02138, USA.

出版信息

Inorg Chem. 2007 Oct 29;46(22):9192-200. doi: 10.1021/ic701070w. Epub 2007 Sep 25.

DOI:10.1021/ic701070w
PMID:17892284
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2527064/
Abstract

The occurrence of a heteroatom X (C, N, or O) in the MoFe7S9X core of the iron-molybdenum cofactor of nitrogenase has encouraged synthetic attempts to prepare high-nuclearity M-Fe-S-X clusters containing such atoms. We have previously shown that reaction of the edge-bridged double cubane [(Tp)2Mo2Fe6S8(PEt3)4] (1) with nucleophiles HQ- affords the clusters (Tp)2Mo2Fe6S8Q(QH)2 (Q = S, Se) in which HQ- is a terminal ligand and Q(2-) is a mu2-bridging atom in the core. Reactions with OH- used as such or oxygen nucleophiles generated in acetonitrile from (Bu3Sn)2O or Me3SnOH and fluoride were examined. Reaction of 1 with Et4NOH in acetonitrile/water generates [(Tp)2Mo2Fe6S9(OH)2]3- (3), isolated as (Tp)2Mo2Fe6S9(OH)(OC(=NH)Me)(H2O) and shown to have the [Mo2Fe6(mu2-S)2(mu3-S)6(mu6-S)] core topology very similar to the P(N) cluster of nitrogenase. The reaction system 1/Et4NOH in acetonitrile/methanol yields the P(N)-type cluster (Tp)2Mo2Fe6S9(OMe)2(H2O) (5). The system 1/Me3SnOH/F- affords the oxo-bridged double P(N)-type cluster {[(Tp)2Mo2Fe6S9(mu2-O)]2}5- (7), convertible to the oxidized cluster {[(Tp)2Mo2Fe6S9(mu2-O)]2}4- (6), which is prepared independently from (Tp)2Mo2Fe6S9F2(H2O)/(Bu3Sn)2O. In the preparations of 3-5 and 7, hydroxide liberates sulfide from 1 leading to the formation of P(N)-type clusters. Unlike reactions with HQ-, no oxygen atoms are integrated into the core structures of the products. However, the half-dimer composition [Mo2Fe6S9O] relates to the MoFe7S9 constitution of the putative native cluster with X = O. (Tp = hydrotris(pyrazolyl) borate(1-)).

摘要

固氮酶铁钼辅因子的MoFe₇S₉X核心中杂原子X(C、N或O)的存在激发了合成含有此类原子的高核M-Fe-S-X簇的尝试。我们之前已经表明,边桥连双立方烷[(Tp)₂Mo₂Fe₆S₈(PEt₃)₄](1)与亲核试剂HQ⁻反应生成簇(Tp)₂Mo₂Fe₆S₈Q(QH)₂(Q = S,Se),其中HQ⁻是末端配体,Q(2⁻)是核心中的μ₂桥连原子。研究了用OH⁻本身或由(Bu₃Sn)₂O或Me₃SnOH和氟化物在乙腈中生成的氧亲核试剂进行的反应。1与Et₄NOH在乙腈/水中反应生成[(Tp)₂Mo₂Fe₆S₉(OH)₂]³⁻(3),以(Tp)₂Mo₂Fe₆S₉(OH)(OC(=NH)Me)(H₂O)形式分离得到,并且显示具有与固氮酶的P(N)簇非常相似的[Mo₂Fe₆(μ₂-S)₂(μ₃-S)₆(μ₆-S)]核心拓扑结构。1与Et₄NOH在乙腈/甲醇中的反应体系生成P(N)型簇(Tp)₂Mo₂Fe₆S₉(OMe)₂(H₂O)(5)。1/Me₃SnOH/F⁻体系得到氧桥连双P(N)型簇{[(Tp)₂Mo₂Fe₆S₉(μ₂-O)]₂}⁵⁻(7),可转化为氧化簇{[(Tp)₂Mo₂Fe₆S₉(μ₂-O)]₂}⁴⁻(6),后者由(Tp)₂Mo₂Fe₆S₉F₂(H₂O)/(Bu₃Sn)₂O独立制备。在3 - 5和7的制备中,氢氧化物从1中释放出硫化物,导致形成P(N)型簇。与与HQ⁻的反应不同,没有氧原子整合到产物的核心结构中。然而,半二聚体组成[Mo₂Fe₆S₉O]与假定天然簇X = O时的MoFe₇S₉组成相关。(Tp = 氢三(吡唑基)硼酸根(1⁻))