Unit cell and space group of mercury tellurate Hg3TeO6

Auszug Gd2(MoO4);, hat die Gitterkonstanten a = 10,396 ± 0,006 Å, C = 10,697 ± 0,004 Å. Wahrscheinlichste Raumgruppen sind P4/mbm-D5 4h Ρ4/mbm-C2 4v oder P4b2-D7 2d Sc2(WO4)3 ist rhombisch, pseudotetragonal, mit a = 9,596 ± 0,004, b = 13,330 ± 0,003 und c = 9,512 ± 0,004 Å; Raumgruppe ist Pnca-D14 2h

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New crystal structures of adenylate kinase fromStreptococcus pneumoniaeD39 in two conformations

Acta Crystallographica Section F Structural Biology Communications ◽

10.1107/s2053230x14020718 ◽

2014 ◽

Vol 70 (11) ◽

pp. 1468-1471

Author(s):

Trung Thanh Thach ◽

Sangho Lee

Keyword(s):

Crystal Structures ◽

Adenylate Kinase ◽

Bound States ◽

Critical Role ◽

Unit Cell ◽

Unit Cell Parameters ◽

Space Group ◽

Cell Parameters ◽

Ligand Free ◽

Adenylate Kinases

Adenylate kinases (AdKs; EC 2.7.3.4) play a critical role in intercellular homeostasis by the interconversion of ATP and AMP to two ADP molecules. Crystal structures of adenylate kinase fromStreptococcus pneumoniaeD39 (SpAdK) have recently been determined using ligand-free and inhibitor-bound crystals belonging to space groupsP21andP1, respectively. Here, new crystal structures of SpAdK in ligand-free and inhibitor-bound states determined at 1.96 and 1.65 Å resolution, respectively, are reported. The new ligand-free crystal belonged to space groupC2, with unit-cell parametersa= 73.5,b= 54.3,c= 62.7 Å, β = 118.8°. The new ligand-free structure revealed an open conformation that differed from the previously determined conformation, with an r.m.s.d on Cαatoms of 1.4 Å. The new crystal of the complex with the two-substrate-mimicking inhibitorP1,P5-bis(adenosine-5′-)pentaphosphate (Ap5A) belonged to space groupP1, with unit-cell parametersa= 53.9,b= 62.3,c= 63.0 Å, α = 101.9, β = 112.6, γ = 89.9°. Despite belonging to the same space group as the previously reported crystal, the new Ap5A-bound crystal contains four molecules in the asymmetric unit, compared with two in the previous crystal, and shows slightly different lattice contacts. These results demonstrate that SpAdK can crystallize promiscuously in different forms and that the open structure is flexible in conformation.

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Monoclinic and Hexagonal Nepheline Structures of (Na3/4/K1/4)AlGeO4

Acta Crystallographica Section B Structural Science ◽

10.1107/s0108768197013177 ◽

1998 ◽

Vol 54 (3) ◽

pp. 211-220 ◽

Cited By ~ 3

Author(s):

R. P. Hammond ◽

J. Barbier

Keyword(s):

Large Family ◽

Unit Cell ◽

Unit Cell Parameters ◽

Silicate Mineral ◽

Tetrahedral Framework ◽

Space Group ◽

Cell Parameters ◽

Monoclinic Form ◽

Hexagonal Form ◽

Alkali Atoms

Hexagonal (Na3/4K1/4)AlGeO4 crystallizes in the space group P63 with unit-cell parameters a = 10.164 (2), c = 8.540 (2) Å and Z = 8 [wR(F 2) = 0.066 for all 3060 independent reflections]. Monoclinic (Na3/4K1/4)AlGeO4 crystallizes in the space group P21 with unit-cell parameters a = 10.0477 (4), b = 8.5764 (4), c = 10.2118 (4) Å, β = 119.035 (1)° and Z = 8 [wR(F 2) = 0.120 for all 3194 independent reflections measured on a twinned crystal]. Both structures belong to the large family of stuffed tridymites, with the Al and Ge atoms occupying tetrahedral sites, and the alkali atoms occupying the cavities of the tetrahedral framework. Hexagonal (Na3/4K1/4)AlGeO4 is isostructural with the silicate mineral nepheline (Na3/4K1/4)AlSiO4, while monoclinic (Na3/4K1/4)AlGeO4 corresponds to a minor distortion of the nepheline structure. Chemical analysis by electron microprobe and structure determination of flux-grown single crystals indicate that the hexagonal form with the chemical formula (Na0.78K0.19)Al0.97Ge1.03O4 may be stabilized by an alkali deficiency similar to that found in hexagonal natural nephelines. In contrast, all alkali sites are fully occupied in the monoclinic form of composition (Na0.75K0.25)AlGeO4 and the lower symmetry eliminates the oxygen disorder present in the hexagonal form.

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Studies on triple orthovanadates: synthesis and crystallographic data on triple orthovanadates, CdLnTh(VO4)3

Journal of Applied Crystallography ◽

10.1107/s0021889881009825 ◽

1981 ◽

Vol 14 (6) ◽

pp. 469-470 ◽

Cited By ~ 4

Author(s):

M. A. Nabar ◽

B. G. Mhatre ◽

A. P. Vasaikar

Keyword(s):

Unit Cell ◽

Crystallographic Data ◽

Space Group

The results of crystallographic studies of the thermally preparable orthovanadates, CdLnTh(VO4)3 are communicated. The data suggest that all these compounds are isomorphous, possessing zircon (ZrSiO4) structure with space group I41/amd and four molecules per unit cell.

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NQR and Crystal Structure of 4,5-Dichloroimidazole, C3H2N2Cl2

Zeitschrift für Naturforschung A ◽

10.1515/zna-1992-1-231 ◽

1992 ◽

Vol 47 (1-2) ◽

pp. 177-181 ◽

Cited By ~ 4

Author(s):

Shi-Qi Dou ◽

Alarich Weiss

Keyword(s):

Crystal Structure ◽

Phase Transition ◽

Temperature Dependence ◽

Room Temperature ◽

Unit Cell ◽

Space Group ◽

Temperature Range ◽

Temperature Coefficients ◽

Group D

AbstractThe two line 35Cl NQR spectrum of 4,5-dichloroimidazole was measured in the temperature range 77≦ T/K ≦ 389. The temperature dependence of the NQR frequencies conforms with the Bayer model and no phase transition is indicated in the curves v ( 35Cl)= f(T). Also the temperature coefficients of the 35Cl NQR frequencies are "normal". At 77 K the 35Cl NQR frequencies are 37.409 MHz and 36.172 MHz and at 389 K 35.758 MHz and 34.565 MHz. The compound crystallizes at room temperature with the tetragonal space group D44-P41212, Z = 8 molecules per unit cell; at 295 K : a = 684.2(5) pm, c = 2414.0(20) pm. The relations between the crystal structure and the NQR spectrum are discussed.

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The crystal and molecular structure of 1,1-bis(diphenylphosphino)-2,2-dimethylhydrazine

Canadian Journal of Chemistry ◽

10.1139/v76-107 ◽

1976 ◽

Vol 54 (5) ◽

pp. 738-743 ◽

Cited By ~ 4

Author(s):

J. Brian Faught

Keyword(s):

Molecular Structure ◽

Least Squares ◽

Crystal And Molecular Structure ◽

Unit Cell ◽

Space Group ◽

Block Diagonal

The structure of 1,1-bis(diphenylphosphino)-2,2-dimethylhydrazine, [(C6H5)2P]2NN(CH3)2 has been determined crystallographically. The compound crystallizes from n-heptane in the space group P21/c with a = 8.910(1), b = 9.686(1), c = 27.489(4) Å, and β = 102.94(2)° with four molecules per unit cell. The structure was solved from 2669 independent reflections with I > 3σ(I) and refined by block diagonal least squares methods to R = 0.032 and Rω = 0.048. Each diphenylphosphino group is bonded to the same hydrazine nitrogen and the geometry about this nitrogen is nearly planar. The average dimensions of the structure are P—C = 1.828 ± 0.005, P—N = 1.715 ± 0.014, N—N = 1.451, and N—C = 1.457 ± 0.003 Å, [Formula: see text], [Formula: see text], [Formula: see text], [Formula: see text], and [Formula: see text].

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Absolute configurations of Emycin D, E and F; mimicry of centrosymmetric space groups by mixtures of chiral stereoisomers

Acta Crystallographica Section B Structural Science ◽

10.1107/s0108768199003948 ◽

1999 ◽

Vol 55 (4) ◽

pp. 607-616 ◽

Cited By ~ 17

Author(s):

Martina Walker ◽

Ehmke Pohl ◽

Regine Herbst-Irmer ◽

Martin Gerlitz ◽

Jürgen Rohr ◽

...

Keyword(s):

Correct Choice ◽

Unit Cell ◽

Monoclinic Space Group ◽

Space Group ◽

Space Groups ◽

Centrosymmetric Space Group ◽

Distance Restraints ◽

Similar Distance ◽

Triclinic Unit Cell ◽

R Factors

The crystal structures of Emycin E (1), di-o-bromobenzoyl-Emycin F (2) and o-bromobenzoyl-Emycin D (3) have been determined by X-ray analysis at low temperature. Emycin E and o-bromobenzoyl-Emycin D both crystallize with two molecules in a triclinic unit cell. These two structures can be solved and refined either in the centrosymmetric space group P\bar 1, with apparent disorder localized at or around the expected chiral centre, or in the non-centrosymmetric space group P1 as mixtures of two diastereomers without disorder. Only the latter interpretation is consistent with the chemical and spectroscopic evidence. Refinements in the centrosymmetric and non-centrosymmetric space groups are compared in this paper and are shown to favour the chemically correct interpretation, more decisively so in the case of the bromo derivative as a result of the anomalous dispersion of bromine. Structures (1) and (3) provide a dramatic warning of the dangers inherent in the conventional wisdom that if a structure can be refined satisfactorarily in both centrosymmetric and non-centrosymmetric space groups, the former should always be chosen. In these two cases, despite apparently acceptable intensity statistics and R factors (5.87 and 3.55%), the choice of the centrosymmetric space group leads to the serious chemical error that the triclinic unit cell contains a racemate rather than two chiral diastereomers! The weakest reflections are shown to be most sensitive to the correct choice of space group, underlining the importance of refining against all data rather than against intensities greater than a specified threshold. The use of similar-distance restraints is shown to be beneficial in both P1 refinements. Di-o-bromobenzoyl-Emycin F crystallizes in the monoclinic space group P21 with one molecule in the asymmetric unit and so does not give rise to these problems of interpretation. The absolute configuration of the two bromo derivatives, and hence the Emycins in general, was determined unambiguously as S at the chiral centre C3.

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X-ray powder diffraction data for tetrazene nitrate monohydrate, C2H9N11O4

Powder Diffraction ◽

10.1017/s0885715621000579 ◽

2021 ◽

pp. 1-3

Author(s):

J. Maixner ◽

J. Ryšavý

Keyword(s):

Cell Volume ◽

Powder Diffraction ◽

Diffraction Data ◽

Unit Cell Volume ◽

Unit Cell ◽

Powder Diffraction Data ◽

Unit Cell Parameters ◽

Space Group ◽

X Ray ◽

Cell Parameters

X-ray powder diffraction data, unit-cell parameters, and space group for tetrazene nitrate monohydrate, C2H9N11O4, are reported [a = 5.205(1) Å, b = 13.932(3) Å, c = 14.196(4) Å, β = 97.826(3)°, unit-cell volume V = 1019.8(4) Å3, Z = 4, and space group P21/c]. All measured lines were indexed and are consistent with the P21/c space group. No detectable impurities were observed.

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High-temperature diffraction experiments and phase diagram of ZrO2 and ZrSiO4

Zeitschrift für Naturforschung B ◽

10.1515/znb-2021-0043 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Akira Yoshiasa ◽

Tsubasa Tobase ◽

Hiroshi Arima-Osonoi ◽

Ken-Ichi Funakoshi ◽

Osamu Ohtaka ◽

...

Keyword(s):

High Temperature ◽

Unit Cell ◽

Cubic Phase ◽

Imaging Plate ◽

X Ray Diffraction ◽

Space Group ◽

Cell Parameters ◽

Time Observation ◽

Short Time ◽

Clear Change

Abstract High-temperature X-ray diffraction (XRD) experiments up to T = 2710 °C have been performed on ZrSiO4 and ZrO2 powders, using the container-less levitation technique. A two-dimensional imaging plate (IP) detector was used for short-time observation. The diffraction data in a wide area was projected in one dimension. The unit cell parameters, thermal expansions, and c/a ratios for ZrSiO4 (space group I41/amd and Z = 4), tetragonal ZrO2 (space group P42/nmc and Z = 2) and cubic ZrO2 (space group F m 3 ‾ m $Fm3‾{}m$ and Z = 4) were measured to understand the high-temperature behaviors. The transition temperature between tetragonal and cubic ZrO2 was specified to be between 2430 and 2540 °C. The pre-transitional behavior was observed around 2200 °C. As no clear change in unit cell volume is evident, the phase boundary between the tetragonal and the cubic phase has been shown to be a positive slope. The ZrO2 and ZrO2–SiO2 phase diagrams are proposed based on the chemical composition and the crystal structure.

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