Synthetic Studies on Sialoglycoconjugates 27: Synthesis of Sialyl-α(2→6)-Lewis X

ABSTRACT

Synthesis of a positional isomer of sialyl Lewis X with regard to the substitution of the terminal galactose residue of the pentasaccharide by N-acetylneuraminic acid is described. Dimethyl(methylthio)sulfonium triflate-promoted coupling of 2-(trimethylsilyl)ethyl O-(2,3,4-tri-O-benzyl-α-L-fucopyranosyl)-(1→3)-O-(2-acetamido-6-O-benzyl-2-deoxy-ß-D-glucopyranosyl)-(1→3)-O-(2,4,6-tri-O-benzyl-ß-D-galactopyranosyl)-(1→4)-2,3,6-tri-O-benzyl-ß-D-glucopyranoside (1) with methyl O-(methyl 5-acetamido-4,7,8,9-tetra-O-acetyl-3,5-dideoxy-D-glycero-α-D-galacto-2-nonulopyranosylonate)-(2→6)-2,4-di-O-benzoyl-3-O-benzyl-1-thio-ß-D-galactopyranoside (2) gave the desired hexasaccharide 3. Compound 3 was converted into the α-trichloro-acetimidate 6, via reductive removal of the benzyl groups, O-acetylation, removal of the 2-(trimethylsilyl)ethyl group, and treatment with trichloro-acetonitrile, which, on coupling with (2S, 3R, 4E)-2-azido-3-O-benzoyl-4-octadecene-1,3-diol (7), gave the ß-glycoside 8. Finally, 8 was transformed, via selective reduction of the azide group, coupling with octadecanoic acid, O-deacylation, and hydrolysis of the methyl ester group, into the title ganglioside 11 in good yield.     

α—钨钒硅酸钾(α—K_3H_2SiW_(11)VO_(40)·6H_2O)的晶体结构

α-K_H_3H_2SiW_(11)VO_(40)·6H_2O属六方晶系,空间群为P6_2,晶胞参数:α=b=19.084A,c=12.489A,V=3939.17A~3,Z=3;D_0=3.86gcm~(-3),Dm=3.81gcm~(-3)。晶体内含有分立的α-SiW_(11)VO_(40)~(5-)阴离子,其形状、大小类同于α-SiW_(12)O_(40)~(4-),仅是一个W原子为V原子所取代。一个V原子与十一个W原子呈无序分市,共占据十二个原子位置。三个K原子和六个结晶水的位置已经确定。     

α-H_6P_2W_(18)O_(62)·37H_2O的热稳定性

通过溶解性实验、变温红外、紫外光谱、X射线粉末衍射(XRD)和热重-差热分析(TG DTA)等手段,对Dawson结构钨磷酸的热稳定性进行了较系统的研究,结果表明,阴离子骨架在360℃左右开始分解,并提出了化合物热分解的可能机理.     

α-Ni(OH)2的研究进展

摘要本文综述了α-Ni（OH）：在碱液中稳定存在的影响因素,对保持Ni（OH）2的alpha型结构所需条件及解决措施做了阐述;介绍了国内外α-Ni（OH）2电极的最新研究进展,着重叙述了Al^3＋、Mn^3＋和Zn^2＋替代Ni^2＋的α-Ni（OH）2的制备、稳定性和电化学性能以及尿素热分解制备的α-Ni（OH）2的特性;展望了纳米级α-Ni（oH）2的研究及应用前景。     

α-Ni(OH)2的研究进展

本文综述了α-Ni(OH)2在碱液中稳定存在的影响因素,对保持Ni(OH)2的alpha型结构所需条件及解决措施做了阐述;介绍了国内外α-Ni(OH)2电极的最新研究进展,着重叙述了Al3 、Mn3 和Zn2 替代Ni2 的α-Ni(OH)2的制备、稳定性和电化学性能以及尿素热分解制备的α-Ni(OH)2的特性;展望了纳米级α-Ni(OH)2的研究及应用前景.     

α′-(BEDT-TTF)2C6H4(SO3)2的合成、结构与导电性

用恒电流电化学结晶法合成了一种新的基于BEDT-TTF的电荷转移盐α′-(BEDT-TTF)2C6H4(SO3)2[BEDT-TTF=双亚乙基二硫四硫富瓦烯,C6H4(SO3)2 2 -=对苯二磺酸根].通过四圆X射线衍射方法测定了α′@(BEDT-TTF)2C6H4-(SO3)2的结构.晶体属于单斜晶系,P2/n空间群;晶胞参数:α=0.77937(17)nm,b=0.66989(11)nm,c=3.4422(7)nm,β＝91.135(12)°,V=1.7968(6)nm3.该晶体中BEDT-TTF+自由基沿α轴方向形成具有二聚体结构的交错排列型柱状堆积,沿b轴方向由肩并肩强分子间相互作用形成一维分子链.电荷补偿阴离子C6H4(SO3)2 2 -则在α方向存在较强的作用.沿c轴方向,BEDT-TTF+自由基层和阴离子层交替排列形成夹心式结构.α′-(BEDT-TTF)2C6H4-(SO3)2在ab面的某方向的室温电导率为0.5913 Q-1@m-1,电阻率-温度测定曲线表明它具有半导体导电行为.在150K附近,晶体发生了某种相变.     

Action of Base on Methyl 6-Thio- (and 6-Deoxy-) 2-O-Methanesulfonyl-α-d-Glucopyranoside Derivatives1

Abstract

Treatment of methyl 4-O-benzoyl-3-O-tert-butyldiphenylsilyl-2-O-methanesulfonyl-6-thio-α-d-glucopyranoside (8) and its 6-deoxy analogue (11) with methanolic sodium methoxide, afforded methyl 2,3-anhydro-mannopyranoside derivatives as a consequence of an O₃ → O₄ TBDPS rearrangement. When the protecting group at C-3 was 2-methoxyethoxy methyl ether only deacylation and methanolysis of the methanesulfonyl group occurred.     

Synthesis of 6-S-(5-Acetamido-3,5-Dideoxy-D-Glycero-α-D-Galacto-2-Nonulopyranosylonic Acid)-6-Thio-Hexopyranosides

The reaction of the sodium salt of methyl 5-acetamido-4,7,8,9-tetra-O-acetyl-3,5-dideoxy-2-thio-D-glycero-α-D-galacto-2-nonulo-pyranosonate with a variety of 6-bromo-6-deoxy-D-hexopyranosides, such as methyl 2,3,4-tri-O-acetyl-6-bromo-6-deoxy-α-D-glucopyranos-ide, -galactopyranoside, allyl 2,3,4-tri-O-acetyl-6-bromo-6-deoxy-β-D-glucopyranoside, and allyl 2-acetamido-3,4-di-O-acetyl-6-bromo-2,6-dideoxy-β-D-glucopyranoside, gave the corresponding (2→6)-linked disaccharides, α-glycosides of 2-thio-N-acetylneuraminic acid derivative in good yields. These disaccharides were converted, via O-deacetylation, followed by hydrolytic removal of the ester group, into the title compounds.     

THE CRYSTALLIZATION BEHAVIOR OF [cis-α-Co(trien)(OX)lCl 2H2O (I), [cis-α-Co(trien)(NO2)2]BF4 (II), [cis-α-Co(trien)(NO2)2]-(cis-α-Co(trien)(OX)]Cl l/2SiF6 (III)

Abstract

Three new compounds were synthesized and their crystal structures determined. For compound (I). [cis-α-Co(trien)(OX)]Cl 2H₂O, CoClO₆N₄C₈H₂₂, triclinic, space group P-l (No. 2) a = 6.980(5), b = 8.801(4), c = 12.554(8) Å, α = 89.07(5)°, ? = 75.74(4)°, γ = 81.44(5)°, V = 738.9(8) ų, cell dimensions were obtained from 24 reflections giving FW = 364.4, Z = 2, F[000) = 380.06, Dcalc=1.634mg m-³, μ = 1.36mm-¹. A total of 1907 data were collected over the range of 4° ≤ 2θ ≤ 45°; of these, 1647 (independent and I≥3σ(I)) were used in the structure analysis. Data were corrected for absorption; transmission coefficients ranged from 0.51754 to 0.73648. The final RF and Rw residuals were 0.033 and 0.042.

For compound (II), [cis-α-Co(trien)(NO₂)₂]BF₄, CoN₆C₆O₄BF₄H₁₈, orthorhombic space group Pbca (No. 61) α= 12.260(10), b=12.880(14), c= 17.940(14)A F=2833(4)A³, cell dimensions were obtained from 24 reflections with 2θ in the range of 4.00–45.00 degrees, FW = 383.98, Z = 8, F(000) = 1571.52, Dcalc= 1.801 mgirT³, μ=1.28mm^_1, λ = 0.70930 Å. A total of 1637 data were collected over the range of 4° ≤ 2θ ≤ 45°; of these, 883 (independent and I≥ 2.5σ(I)) were used in the structure analysis. The final RF and Rw residuals were 0.122 and 0.132.

For compound (III), [cis-α-Co(trien)(OX)][cis-α-Co(trien)(NO₂)₂]Cl-l/2SiF₆, Co₂ClSi-l/2N₁₀C₁₄F₃O₁₂H₃₆, orthorhombic, space group Pbca (No. 61) a = 12.804(10), b= 16.543(10), c = 27.419(23) A, V= 5808(7) ų, cell dimensions were obtained from 25 reflections, FW = 760.85, Z = 8, F(000) = 3136.06, Dcalc= 1.740mg m^?3, 4mU= 1.34 mm-¹, λ = 0.70930 Å. A total of 2657 data were collected over the range of 4° ≤ 2θ ≤ 40°; of these, 1902 (independent and I≥ 2.5σ(I)) were used in the structure analysis. The final RF and Rw residuals were 0.058 and 0.062.     

Cluster Complexes of Polythioether Macrocycles: The Synthesis and Molecular Structures of Ru6(CO)13(cis-SCH2 CHMe(CH2SCH2CHMe)2CH2)(μ6-C) and Ru6(CO)13(trans-SCH2 CHMe(CH2SCH2CHMe)2CH2)(μ6-C)

The reaction of a mixture of cis-3,7,11-trimethyl-1,5,9-trithiacyclododecane, cis-Me₃12S3, 1 and trans-3,7,11-trimethyl-l,5,9-trithiacyclododecane, trans-Me₃12S3, 2, with Ru₆(CO)₁₇(μ ₆-C), 3, yielded three new cluster compounds Ru₆(CO)₁₃(μ-η³-cis-SCH₂CHMe(CH₂SCH₂CHMe)₂CH₂)(μ ₆-C) 4, and two isomers of Ru₆(CO)₁₃(μ-η³-cis-SCH₂CHMe(CH₂SCH₂CHMe)₂CH₂)(μ ₆-C) 5a and 5b. The molecular structures of 4 and 5b were established by single crystal X-ray diffraction analyses. In both complexes, the macrocycles have adopted tridentate coordination with one of the sulfur atoms in a bridging position. Two carbonyl ligands occupy bridging positions in each compound. Crystal Data for 4·Me₂CO: space group=P2₁/n, a=11.295(1) Å, b=17.547(3) Å, c=20.318(3) Å, β=93.71(1)°, Z=4, 2900 reflections, R=0.025. Crystal Data for 5b·1.5 C₆H₆: space group=Pbca, a=31.8900(8) Å, b=23.4330(6) Å, c=21.6240(4) Å, Z=16, 12163 reflections, R=0.040.     

α'-(BEDT-TTF)_2C_6H_4(SO_3)_2的合成、结构与导电性

用恒电流电化学结晶法合成了一种新的基于BEDT-TIF的电荷转移盐α'-(BEDT- TIF)_2C_6H_4(SO_3)_2 [BEDT-TIF = 双亚乙基二硫四硫富瓦烯,C_6H_4(SO_3) _2~(2-) = 对苯二磺酸根]。通过四圆X射线衍射方法测定了α'-(BEDT-TTF) _2C_6H_4-(SO_3)_2的结构。晶体属于单斜晶系,P2/n空间群;晶胞参数：a = 0. 77937(17)nm, b = 0.66989(11) nm, c = 3.4422 (7) nm, β = 91.135(12) °, V = 1.7968(6) nm~3。该晶体中BEDT-TTF~+自由基沿a轴方向形成具有二聚体结构 的交错排列型柱状堆积,沿b轴方向由户并户强分子间相互作用形成一维分子链。 电荷补偿阴离子C_6H_4(SO_3)_2~(2-)则在a方向存在较强的作用。沿c轴方向, BEDT-TTF~+自由基层和阴离子层交替排列形成夹心式结构。α'-(BEDT-TTF) _2C_6H_4-(SO_3)_2在ab面的某方向的室温电导率为0.5913 Ω~(-1)·m~(-1),电 阻率-温度测定曲线表明它具有半导体导电行为。在150K附近,晶体发生了某种相 变。     

Cyclohexylamine) 2 M(CN) 4 ⋅2C 6 H 6 (M = Cd or Hg)

Two new title compounds have been prepared in powder form. Their spectral data are found to be consistent with the structure foundin Hofmann-T_d-type clathrates.     

α-Ni(OH)_2的研究进展

本文综述了-αNi(OH)2在碱液中稳定存在的影响因素,对保持Ni(OH)2的alpha型结构所需条件及解决措施做了阐述;介绍了国内外-αNi(OH)2电极的最新研究进展,着重叙述了Al3+、Mn3+和Zn2+替代Ni2+的-αNi(OH)2的制备、稳定性和电化学性能以及尿素热分解制备的-αNi(OH)2的特性;展望了纳米级α-Ni(OH)2的研究及应用前景。     

CHEMOENZYMATIC SYNTHESIS OF NeuAcα-(2→3)-Galβ-(1→3)-[NeuAcα-(2→6)]-GalNAcα1- O-(Z)-Serine (N-PROTECTED MUC II OLIGOSACCHARIDE–SERINE)

An efficient synthesis of NeuAcα-(2→3)-Galβ-(1→3)-[NeuAcα-(2→6)]-GalNAcα1- O-(Z)-Serine (N-protected MUC II oligosaccharide–serine, 14) by a chemoenzymatic strategy is described. The enzymatic reaction of GalNAcα1- O-(Z)-Ser- OAll 7 with pNP-β-Gal in the presence of recombinant β1,3-galactosidase from Bacillus circulans gave Galβ-(1→3)-GalNAcα1- O-(Z)-Ser- OAll 3 in 68%. The introduction of two sialic acids into 3 was accomplished by a stepwise method. The branched Galβ-(1→3)-[NeuAcα-(2→6)]-GalNAcα1- O-(Z)-Ser- OAll 11 was constructed by a chemical method. Sialylation at the C-3 position of the terminal Gal residue on Galβ-(1→3)-[NeuAcα-(2→6)]-GalNAcα1- O-(Z)-Serine 2 using α2,3-(O)-sialyltransferase from rat liver gave a target compound 14 in a practical yield.     

(CH2 )2 (C9 H6 )2 YbN(SiMe3 )2 的合成与催化活性研究

用1,2-二茚基乙烷[(CH2)2(C9H7)2]与四配位的三[三甲基硅基胺基]镱的络合物{[(Me3Si)2N]3Yb(Ⅲ)(μ-Cl)Li(THF),}反应,生成桥联二茚基镱的胺基配合物[(CH2)2(C9H6)2YbN(SiMe3)2],其结构经^1HNMR,IR,XFD),GPC和元素分析表征,并初步研究了其对甲基丙烯酸甲酯聚合反应的催化活性。     

Crystal Growth and Crystal Structures of Gold(V) Compounds: Cu(AuF6)2, Ag(AuF6)2, and O2(CuF)3(AuF6)4 ⋅ HF

Crystal growth from anhydrous hydrogen fluoride solutions of M²⁺ (M=Cu, Ag) and [AuF₆]⁻ gave M(AuF₆)₂ salts (M=Cu, Ag). Similar attempts to prepare single crystals of the corresponding nickel, zinc and magnesium salts failed. The crystal structure of Cu(AuF₆)₂ consists of layers of Cu²⁺ cations connected by [AuF₆]⁻ anions, thus forming slabs. Only van der Waals interactions exist between adjacent slabs. The crystal structure of Ag(AuF₆)₂ consists of a three-dimensional framework in which Ag⁺ cations are linked by [AuF₆]⁻ anions. Both structures are members of the M^II(X^VF₆)₂ family, in which seven different structure types have been observed to date. In the crystal structure of O₂(CuF)₃(AuF₆)₄ ⋅ HF, the bridging AuF₆ units connect [−Cu−F−Cu−F−]_∞ chains to form stacks between which O₂⁺ cations and HF molecules are located.     

Syntheses, X-ray structural characterizations, and thermal stabilities of two nonclassical trinuclear vanadium(IV) complexes, (V3(μ3-O)O2)(μ2-O2P(CH2C6H5)2)6(H2O) and (V3(μ3-O)O2)(μ2-O2P(CH2C6H5)2)6(py), and polymeric complexes of stoichiometry (VO(O2PR2)2)∞, R2 = Ph2 and o-(CH2)2(C6H4)

The preparation and structural characterization of two trinuclear vanadium complexes, (V(3)(μ(3)-O)O(2))(μ(2)-O(2)P(CH(2)C(6)H(5))(2))(6)(H(2)O), 1, and (V(3)(μ(3)-O)O(2))(μ(2)-O(2)P(CH(2)C(6)H(5))(2))(6)(py), 2, are reported. In these nonclassical structures, the planar central core consists of the three vanadium atoms arranged in the form of an acute quasi-isosceles triangle with the central oxygen atom multiply bonded to the vanadium atom at the center of the vertex angle and weakly interacting with the two other vanadium atoms on the base sites, each of which contain one external multiply bonded oxygen atom. Reacting VO(acac)(2)in the presence of diphenylphosphinic acid affords (VO(O(2)PPh(2))(2))(∞), 3, while 2-hydroxyisophosphindoline-2-oxide at room temperature in CH(2)Cl(2) affords ((H(2)O)VO(O(2)Po-(CH(2))(2)C(6)H(4))(2))(∞), 4, and at 120 °C in EtOH yields (VO(O(2)P(o-(CH(2))(2)(C(6)H(4)))(∞), 5 on the basis of elemental analyses. The thermal and chemical stability of the complexes were assessed by thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC) measurements. The bond strengths of the vanadium atoms to the OH(2) ligand in 1 and to the NC(5)H(5) ligand in 2 were assessed at 10.7 and 42.0 kJ/mol respectively. Room temperature magnetic susceptibility measurements reveal magnetic moments for trinuclear 1 and 2 at 3.02(1) and 3.05(1) μ(B/mol), and also close to spin only values (1.73 μ(B)) values for 3, 4, and 5 at 1.77(2), 1.758(7), and 1.77(3) μ(B), respectively. Variable-temperature, solid-state magnetic susceptibility measurements were conducted on complex 2 in the temperature range of 2.0-298 K and at an applied field of 0.5 T. Magnetization measurements at 2 and 4 K confirmed a very weak magnetic interaction between the vanadyl centers.     

有机锡配合物[(o-Cl-PhCH2)2Sn(OCOC9H6N)2]·2(C6H6)的合成和晶体结构研究

0引言某些有机锡羧酸酯化合物具有杀虫、杀菌和抗癌活性,引起人们极大的兴趣[1~3]。近年来的研究结果表明,该类化合物中心锡原子的配位形式既决定于与锡原子直接相连的烃基的结构,也与配体的类型有关,尤其是含有孤电子对的杂环酸的引入,导致了许多新型结构有机锡化合物的产生[4     

Peptide Bond Hydrolysis Catalyzed by the Wells-Dawson Zr(α(2)-P(2)W(17)O(61))(2) Polyoxometalate

In this paper we report the first example of peptide hydrolysis catalyzed by a polyoxometalate complex. A series of metal-substituted Wells-Dawson polyoxometalates were synthesized, and their hydrolytic activity toward the peptide bond in glycylglycine (GG) was examined. Among these, the Zr(IV)- and Hf(IV)-substituted ones were the most reactive. Detailed kinetic studies were performed with the Zr(IV)-substituted Wells-Dawson type polyoxometalate K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O which was shown to act as a catalyst for the hydrolysis of the peptide bond in GG. The speciation of K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O which is highly dependent on the pD, concentration, and temperature of the solution, was fully determined with the help of (31)P NMR spectroscopy and its influence on the GG hydrolysis rate was examined. The highest reaction rate (k(obs) = 9.2 (±0.2) × 10(-5) min(-1)) was observed at pD 5.0 and 60 °C. A 10-fold excess of GG was hydrolyzed in the presence of K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O proving the principles of catalysis. (13)C NMR data suggested the coordination of GG to the Zr(IV) center in K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O via its N-terminal amine group and amide carbonyl oxygen. These findings were confirmed by the inactivity of K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O toward the N-blocked analogue acetamidoglycylglycinate and the inhibitory effect of oxalic, malic, and citric acid. Triglycine, tetraglycine, and pentaglycine were also fully hydrolyzed in the presence of K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O yielding glycine as the final product of hydrolysis. K(15)H[Zr(α(2)-P(2)W(17)O(61))(2)]·25H(2)O also exhibited hydrolytic activity toward a series of other dipeptides.