Home  About us  Contact
 

Cubic Core (cubic + core)

Distribution by Scientific Domains
Chemistry100%

Selected Abstracts

Cubane-Like Bismuth-Iron Cluster: Synthesis, X-ray Crystal Structure and Theoretical Characterization of the [Bi4Fe8(CO)28]4, Anion

EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, Issue 20 2010
Kirill Yu.
Abstract The reaction of cyclo -Bi4[Si(SiMe3)3]4 (1) with Na2[Fe(CO)4] in the presence of nBu4NCl leads to the formation of the cage compound [nBu4N]4[Bi4Fe8(CO)28] (2). According to X-ray single-crystal structure analysis, the faces of the tetrahedral Bi4 core are capped by Fe(CO)3 moieties in a ,3 fashion to give a cubanoid Bi4Fe4 framework. The four Fe(CO)4 fragments are ,1 -coordinated to bismuth, each. With 12 skeletal electron pairs the [Bi4Fe8(CO)28]4, anion (2a) is a Bi4Fe4 cubane. The negative charge is localized within cluster 2a according to the NBO analysis of its derivatives. The strength of metal,ligand interactions Bi,,3 -Fe(CO)3 is responsible for the size of the cluster's cubic core. NICS computations at the cage centers of considered molecules show that 2a has paratropic character, whereas removal of four ,1 -Fe(CO)4 fragments from latter causes spherical aromaticity of the modified clusters [Bi4Fe4(CO)12]4, (2aa) and [Bi4Fe4(CO)12]2+ (2ab), mediated by a Bi4 cluster , orbital. [source]

Crystallization and preliminary X-ray analysis of the full-size cubic core of pig 2-oxoglutarate dehydrogenase complex

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 5 2002
Kaoru Suzuki
The full-length (untruncated) dihydrolipoamide succinyltransferase from pig heart was crystallized by the hanging-drop vapour-diffusion method. X-ray diffraction patterns indicate that the crystal belongs to space group I432, with unit-cell parameter a = 189.9,Å. The crystal structure has been preliminarily solved at 7,Å resolution by the molecular-replacement method. The unit cell contains two cubic cores, in each of which 24 subunits of E2 are associated according to crystallographic 432 symmetry. At the corners of each cubic core, the catalytic domains of E2s form a trimer through tight interactions around the crystallographic threefold axes. In the electron-density maps, many small broad peaks are observed in regions expected to contain the remaining N-terminal domains (the E1/E3-binding domain and the lipoyl domain), suggesting flexibility of these domains relative to the core. The architecture of the cubic core is similar to that of the other truncated E2s. In the unit cell, however, the core,core contact occurs in a different direction from that found for the truncated proteins. [source]

Novel Hypervalent Complexes of Main-Group Metals by Intramolecular Ligand,Metal Electron Transfer*

CHEMISTRY - A EUROPEAN JOURNAL, Issue 23 2004
Matthias Driess Prof. Dr.
Abstract New fascinating electronic features of the simple diketoamine chelate ligand HN[CH2C(tBu)O]2 (1) are described. Unexpectedly, the corresponding trianionic amido-dienolate form of 1 is capable of reducing main-group metal atoms M after initial coordination and intramolecular L,M two-electron transfer and of stabilizing main-group elements in unusual low oxidation states. This is impressively shown by the synthesis and structural characterization of the novel Ge and Sn complexes 4,6 by redox reactions of lithiated 1 with the corresponding metal halides GeCl4 and MCl2 (M=Ge, Sn). Surprisingly, conversion of tris-lithiated 1 with GeCl4 readily consumes two molar equivalents of GeCl4 and results in the formation of the neutral GeCl3 complex 4 and GeCl2. The former represents the second example of a structurally characterized neutral octahedrally coordinated germanium compound. Reaction of dilithiated 1 with GeCl2 does not lead to the expected ClGe(+2) complex but affords the novel dimeric germylene 5, whereas similar reaction using SnCl2 furnishes the monomeric stannylene (ClSn(+2) complex) 2 and elemental tin due to the higher oxidation potential of Sn(+2). Unexpectedly, a similar redox reaction of dilithiated 1 with PbCl2 furnishes the first air- and water-stable lithium 1,2-diketoimine,enolate 7 and elemental lead. Compound 7 is tetrameric in the solid state and consists of a strongly distorted Li4O4 cubic core with trigonal-bipyramidal coordinated Li+ ions. [source]

Crystallization and preliminary X-ray analysis of the full-size cubic core of pig 2-oxoglutarate dehydrogenase complex

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 5 2002
Kaoru Suzuki
The full-length (untruncated) dihydrolipoamide succinyltransferase from pig heart was crystallized by the hanging-drop vapour-diffusion method. X-ray diffraction patterns indicate that the crystal belongs to space group I432, with unit-cell parameter a = 189.9,Å. The crystal structure has been preliminarily solved at 7,Å resolution by the molecular-replacement method. The unit cell contains two cubic cores, in each of which 24 subunits of E2 are associated according to crystallographic 432 symmetry. At the corners of each cubic core, the catalytic domains of E2s form a trimer through tight interactions around the crystallographic threefold axes. In the electron-density maps, many small broad peaks are observed in regions expected to contain the remaining N-terminal domains (the E1/E3-binding domain and the lipoyl domain), suggesting flexibility of these domains relative to the core. The architecture of the cubic core is similar to that of the other truncated E2s. In the unit cell, however, the core,core contact occurs in a different direction from that found for the truncated proteins. [source]