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1.
《Carbohydrate research》1987,166(2):211-217
6-O-Benzyl-7,8-dideoxy-1,2:3,4-di-O-isopropylidene-l-glycero-α-d-galacto-oct-7-ynopyranose reacted with tributyltin hydride to afford (Z-6-O-benzyl-7,8-dideoxy-1,2:3,4-di-O-isopropylidene-8-(tributylstannyl)-l-glycero-α-d-galacto-oct-7-enopyranose, which was subsequently isomerized to the E-olefin 4. Replacement of the tributyltin moietey with lithium in 4 afforded the vinyl anion which reacted with 3-O-benzyl-1,2-O-isopropylidene-α-d-xylo-pentodialdo-1,4-furanose, furnishing 3-O-benzyl-6-C-[(E)-6-O-benzyl-7-deoxy-1,2:3,4-di-O-isopropylidene-l-glycero-α-d-galacto-heptopyranos-7-ylidene] -60-deoxy-1,2-O-isopropylidene-α-d-gluco- (6) and -β-l-ido-furanose (7) in yields of ∼70 or ∼87% (depending on the temperature of the reaction). The configurations of the new chiral centers in 6 and 7 were determined by their conversion into 3-O-benzyl-1,2-O-isopropylidene-α-d-gluco- and -β-l-ido-furanose, respectively. Oxidation of 6 and 7 gave the same enone, 3-O-benzyl-6-C-[(E)-6-O-benzyl-7-deoxy-1,2:3,4-di-O-isopropylidene-l-glycero-α-d-galacto- heoptopyranos-7-ylidene]-6-deoxy-1,2-O-isopropylidene-α-d-xylo-hexofuranos-5-ulose.  相似文献   

2.
Incubation of o-nitrophenyl 6-deoxy-β-d-xylo-hex-5-enopyranoside (1) with emulin β-d-glucosidase gave, instead of the expected 6-deoxy-d-xylo-hexos-5-ulose (3), o-nitrophenyl 6-deoxy-3-O-(6-deoxy-β-d-xylo-hex-5-enopyranosyl)-β-d-xylo-hex-5-enopyranoside (2) in high yield (≈90% under optimal conditions). The structure of 2 was established from spectroscopic data and by correlation with compounds synthesised definitively. The specificity of the transfer reaction is discussed as an argument for an acceptor or aglycon binding-site.  相似文献   

3.
《Carbohydrate research》1986,153(1):33-43
Dimeric 3,4,6-tri-O-acetyl-2-deoxy-2-nitro-α-d-galactopyranosyl chloride reacts with pyrazole in acetonitrile to give 1-(3,4,6-tri-O-acetyl-2-deoxy-2-hydroxyimino-α-d-lyxo-, -β-d-lyxo-, and -β-d-xylo-hexopyranosyl)pyrazole. The stereospecificity of the reaction depends on the temperature and its duration. Transformations of the type α-d-lyxo-←β-d-lyxoα β-d-xylo have been observed. The condensation products were modified at C-2 or C-3. The following derivatives have thus been obtained: 1-(α-d-galacto-, 2-acetamido-2-deoxy-α-d-galacto-, -α-d-talo-, and -α-d-xylo-hexo-pyranosyl)pyrazole, (Z)- and (E)-1-(3-azido-2,3-dideoxy-2-hydroxyimino-α- and -β-d-lyxo- and -α-d-xylo-hexopyranosyl)pyrazole, 1-(3-acetamido-2-acetoxyimino-4,6-di-O-acetyl-2,3-dideoxy-α- and -β-d-lyxo-hexopyranosyl)pyrazole, as well as (Z)- and (E)-1-(2,3-dideoxy-2-hydroxyimino-α-d-threo-hexopyranosyl)pyrazoles.  相似文献   

4.
Ethyl 6-O-benzyl-2,3-dideoxy-α-d-erythro-hex-2-enopyranoside (2) was converted, in three steps and in 73% overall yield, into ethyl 6-O-benzyl-2,3-dideoxy-3-C-(hydroxymethyl)-α-d-ribo-hex-2-enopyranoside. This transformation involved silylation of 2 with (bromomethyl)chlorodimethylsilane and application of the Nishiyama-Stork radical cyclisation, followed by Tamao oxidation of the sila cycle. Ethyl 6-O-benzyl-2,3-dideoxy-α-d-threo-hex-2-enopyranoside and benzyl 2,6-di-O-benzyl-α-l-threo-hex-4-enopyranoside were similarly transformed into, respectively, ethyl 6-O-benzyl-2,3-dideoxy-3-C-(hydroxymethyl)-α-d-lyxo-hex-2-enopyranoside (50%), and benzyl 2,6-di-O-benzyl-4-deoxy-4-C-(hydroxymethyl)-β-d-galactopyranoside (71%).  相似文献   

5.
Fusion of 2-acetamido-3,4,6-tri-O-acetyl-1,5-anhydro-2-deoxy-d-arabino-hex-1-enitol with theophylline, in the presence of boron trifluoride etherate as the catalyst, caused condensation to occur. This reaction afforded a variety of products of nucleosidic character, which were successively separated by repeated chromatography on silica gel. The structures of the products were determined, on the basis of X-ray crystallographic analysis (for three compounds) and by means of n.m.r.-spectral data and mass spectrometry, as the following: 7-(2-acetamido-4,6-di-O-acetyl-2,3-dideoxy-β-d-erythro-hex-2-enopyranosyl)theophylline, the corresponding α- and β-d-threo derivatives, and 7-(2-acetamido-6-O-acetyl-2,3-dideoxy-α-d-threo-hex-2-enopyranosyl)theophylline and its β anomer.In addition to these 2′,3′-unsaturated nucleosides having the base linked at C-1′, three products of a new type, having the base attached at C-4′, were also isolated: 7-(methyl 2-acetamido-6-O-acetyl-2,3,4-trideoxy-β-d-erythro-hex-2-enopyranosid-4-yl)theophylline, and the corresponding α-d-threo and α-d-erythro isomers.The correlation of the data obtained by X-ray structure analysis and proton nuclear magnetic spectroscopy, together with their application for the determination of configuration and conformation of these compounds, are discussed. It appears that the 1H-n.m.r. data alone do not suffice for unambiguous and correct structure determination for these classes of compounds.  相似文献   

6.
《Carbohydrate research》1987,161(1):65-73
An improved procedure for the preparation of 1,2-O-isopropylidene-β-d-fructofuranose and its 6-pyruvoylation is described. Photolysis of this ester in benzene furnished 5,6-O-isopropylidene-β-d-lyxo-5-ulofuranose, characterised as the O-methyloxime diacetate. Similary, photochemical oxidation of 1 1,2-O-isopropylidene-6-O-pyruvoyl-α-d-glucofuranose gave 1,2-O-isopropylidene-α-d-lgluco-hexodialo1,4:6,3-difuranose in excellent yield.  相似文献   

7.
《Carbohydrate research》1986,148(2):279-285
2,3,4,6,1′,3′,4′-Hepta-O-benzylsucrose, obtained by acid-catalysed hydrolysis of the 6′-O-trityl derivative, was oxidised with the Pfitzner-Moffatt reagent and the product was alkylated with methylmagnesium iodide. Removal of the protecting groups then gave a mixture of diastereomers, namely 7-deoxy-β-d-altro and -α-l-galacto-hept-2-ulofuranosyl α-d-glucopyranoside. Application of this reaction sequence to 2,3,4,1′,3′,4′,6′-hepta-O-benzylsucrose afforded β-d-fructo-furanosyl 7-deoxy-dl-glycero-α-d-gluco-heptopyranoside.  相似文献   

8.
《Carbohydrate research》1987,171(1):289-300
tributylstannyllithium treatment of 3,4,6-tri-O-benzyl-2-deoxy-α-d-arabino-hexopyranosyl chloride (2) provided selectively tributyl (3,4,6-tri-O-benzyl-2-deoxy-β-d-arabino-hexopyranosyl)stannane (3) in 85% yield. Isomeric tributyl (3,4,6-tri-O-benzyl-2-deoxy-α-d-arabino-hexopyranosyl)stannane (6) could be prepared in 70% yield by reductive lithiation of 2 and reaction with tributyltin chloride. Tin—lithium exchange reaction, performed on 3 and 6 with butyllithium in oxolane at −78°, generated the corresponding, configurationally stable 2-deoxy-β- and -α-d-hexopyranosyllithium compounds which reacted with electrophilic compounds with retention of configuration. Addition to these glycosyllithium reagents to prochiral carbonyl compounds gave variable degrees of facial selectivity. A significant diastereofacial discrimination (10:1) was observed by condensation of 3,4,6-tri-O-benzyl-2-deoxy-α-d-arabino-hexopyranosyllithium reagent with hexanal and isobutyraldehyde. The structure of all C-glycopyranosyl compounds obtained was established by 1H-n.m.r. spectroscopy.  相似文献   

9.
《Carbohydrate research》1988,172(1):11-25
Benzyl-3-O-benzyl-2-benzyloxycarbonylamino-6-O-[2-benzyloxycarbonyl-amino-2-deoxy-3,4-O-(tetraisopropyldisiloxane-1,3-diyl)- β-d-glucopyranosyl]-2-deoxy-α-d-glucopyranoside was coupled with methyl (4,5,7,8-tetra-O-acetyl-3-deoxy-α-d-manno-2-octulopyranosyl bromide)onate (13) to yield the α-glycosidically linked trisaccharide. After deacetylation and selective introduction of a second 7′,8′-O-tetraisopropyldisiloxane group, a further glycosidation reaction with 13 led regioselectively to the tetrasaccharide benzyl O-[methyl (4,5,7,8-tetra-O-acetyl-3-deoxy-α-d-manno-2-octulopyranosyl)onate]-(2→4)-O-{methyl [3-deoxy-7,8-O-(tetraisopropyldisiloxane-1,3-diyl)-α-d-manno-2-octulopyranosyl]-onate}-(2→6)-O- [2-benzyloxycarbonylamino-2-deoxy-3,4-O-(tetraisopropyldisiloxane-1,3-diyl)-β-d-glucopyranosyl]- (1→6)-3-O-benzyl-2-benzyloxycarbonyl-amino-2-deoxy-α-d-glucopyranoside. A series of deblocking steps gave O-(3-deoxy-α-d-manno-2-octulopyranosylonic acid)-(2→4)-O-(3-deoxy-α-d-manno-2-octulopyranosylonic acid)- (2→6)-O-(2-amino-2-deoxy-β-d-glucopyranosyl)-(1→6)-2-amino-2-deoxy-d-glucopyranose which was identical with a tetrasaccharide that had been isolated by hydrazinolysis of the lipopolysaccharide from Salmonella minnesota R 595. Hence, synthetic proof is provided for the linkages in this part of the inner core region of lipopolysaccharides.  相似文献   

10.
Novel methyl 4,6-O-benzylidenespiro[2-deoxy-α-d-arabino-hexopyranoside-2,2′-imidazolidine] and its homologue methyl 4,6-O-benzylidene-3′,4′,5′,6′-tetrahydro-1′H-spiro[2-deoxy-α-d-arabino-hexopyranoside-2,2′-pyrimidine] have been synthesized in good yields by reaction of methyl 4,6-O-benzylidene-α-d-arabino-hexopyranosid-2-ulose with 1,2-diaminoethane and 1,3-diaminopropane. The results are completely different from the reaction with arylamines or alkylamines. One-pot synthesis of novel (E)-methyl 4-[hydroxy (methoxy)methylene]-5-oxo-1-alkyl-(4,6-O-benzylidene-2-deoxy-α-d-glucopyranosido)[3,2-b]pyrrolidines has been achieved by the reaction of alkylamines with the butenolide-containing sugar, derived from the aldol condensation of methyl 4,6-O-benzylidene-α-d-arabino-hexopyranosid-2-ulose with diethyl malonate. These sugar-γ-butyrolactam derivatives are potential GABA receptor ligands.  相似文献   

11.
Glycosyl 1,2,3-triazoles with α-d-gluco, β-d-gluco, α-d-galacto, β-d-galacto and β-2-acetamido-2-deoxygluco (GlcNAc) stereochemistry were prepared by reaction of the corresponding azides with vinyl acetate under microwave irradiation. The deprotected glucosyl and galactosyl triazoles did not display inhibitory activity against the tested glycosidases at 1 mM. Of the four fungal glycosidases evaluated, GlcNAc-triazole was found to be hydrolyzed by Talaromyces flavus CCF 2686 β-N-acetylhexosaminidase. β-GlcNAc-triazole was furthermore established to act as a strong ligand of rat and human natural killer cell activating receptors.  相似文献   

12.
Oxidation with the dimethyl sulfoxide-acetic anhydride reagent of methyl 2-O-acetyl-4,6-O-benzylidene-α-d-mannopyranoside, obtained in quantitative yield from the corresponding 4,6-benzylidene acetal by stereoselective opening of a 2,3-orthoester, led in good yield to methyl 2-O-acetyl-4,6-O-benzylidene-α-d-arabino-hexopyranosid-3-ulose, which was reduced with either sodium borohydride or sodium borodeuteride into a methyl 4,6-O-benzylidene-α-d-altropyranoside or its 3-2H derivative. A sequence involving a C-6 halogenation-dehydrohalogenation followed by catalytic hydrogenation of the resulting methyl 6-deoxy-α-d-arabino-hex-5-enopyranoside gave methyl 6-deoxy-β-l-galactopyranoside (methyl β-l-fucopyranoside) and then α-l-fucose, with an overall yield of 24% with respect to the starting methyl α-d-mannopyranoside.  相似文献   

13.
Nucleophilic Michael-type additions to aldohexofuranoid 3-C-methylene derivatives, namely, 3-deoxy-1,2:5,6-di-O-isopropylidene-3-C-nitromethylene-α-d-ribo-hexofuranose and 3-C-[cyano(ethoxycarbonyl)methylene]-3-deoxy-1,2:5,6-di-O-isopropylidene-α-d-ribo-hexofuranose employing phase-transfer catalysis, afforded novel gem-di-C-substituted sugars. The conversion of 3-deoxy-1,2:5,6-di-O-isopropylidene-3-C-methyl-3-C-nitromethyl-α-d-allo-hexofuranose into a 3-C-hydroxymethyl-3-C-methyl derivative with titanium trichloride, and that of the nitromethyl groups of 3-deoxy-1,2:5,6-di-O-isopropylidene-3,3-di-C-nitromethyl-α-d-ribo-hexofuranose, and 3-deoxy-1,2:5,6-di-O-isopropylidene-3-C-methyl-3-C-nitromethyl- and -3-C-nitromethyl-α-d-allo-hexofuranose into cyano groups with phosphorus trichloride in pyridine is also described.  相似文献   

14.
The title glycosides were synthesised from d-glucose, via the common intermediate methyl 2-acetamido-4-O-benzoyl-6-bromo-2,3,6-trideoxy-α-d-ribo-hexopyranoside.  相似文献   

15.
(O-Peracylated α-d-gluco- and -galacto-hept-2-ulopyranosylbromide)onamides gave the corresponding (alkyl β-d-glyco-hept-2-ulopyranoside)onamides under Koenigs-Knorr conditions, and similar aryl glycosides were obtained with sodium phenolates; (aryl and hetaryl 2-thio-β-d-gluco-hept-2-ulopyranoside)onamides were formed with thiophenols in the presence of K2CO3 in acetone, and reactions with aniline in CH2Cl2 furnished (N-phenyl β-d-glyco-hept-2-ulopyranosylamine)onamides. Some deprotected derivatives of d-gluco configuration obtained by the Zemplén protocol showed no significant inhibition against rabbit muscle glycogen phosphorylase b.  相似文献   

16.
Oxidative dimerization of 7,8-dideoxy-1,2:3,4-di-O-isopropylidene-d-glycero-α-d-galacto-oct-7-ynopyranoside (1) gave a high yield of the diyne 2, readily reduced by lithium aluminum hydride to the trans,trans-diene (4). The structures of 2 and 4 were established spectroscopically and by degradation of 4 to d-glycero-d-galacto-heptitol (perscitol). A mixture of the alkyne 1 and its 7-epimer 10 was readily oxidized by dimethyl sulfoxide-acetic anhydride to the 6-ketone 11, and the 8-alkene analog was similarly prepared from the alkenes derived from 1 and 10. Likewise, oxidation of 6,7-dideoxy-1,2-O-isopropylidene-α-d-gluco(and β-L-ido)-hept-6-enopyranose gave the corresponding 5-ketone. The acetylenic ketone 11 gave a crystalline oxime and (2,4-dinitrophenyl)hydrazone, the latter being accompanied by the product of attack of the reagent at the acetylene terminus (C-8). Previous work had shown that formyl-methylenetriphenylphosphorane did not convert 1,2:3,4-di-O-isopropylidene-6-aldehydo-α-d-galacto-hexodialdo-1,5-pyranose into the corresponding C8 unsaturated aldehyde, although the latter was obtainable via1 and 10 by an ethynylation-hydroboration sequence. The Wittig route with formylmethylenetriphenylphosphorane is shown to be satisfactory for obtaining C7 unsaturated aldehydes from 3-O-benzyl-1,2-O-isopropylidene-5-aldehydo-α-d-xylo-pentodialdo-1,4-furanose (22) and the 3-epimer of 22, respectively. These reactions provide convenient access to higher-carbon sugars and chiral dienes for synthesis of optically pure products of cyclo-addition reactions.  相似文献   

17.
The first example of a nucleoside analogue bearing a 5′-deoxy-β-d-allo-septanose as a seven-membered ring sugar moiety, namely 9-(5-deoxy-β-d-allo-septanosyl)-adenine, is reported. This compound was synthesized in 14 steps from the commercially available d-glycero-d-gulo-1,4-lactone. When evaluated in cell culture experiments against a broad range of viruses, it did not exhibit any significant antiviral effect or cytotoxicity.  相似文献   

18.
《Carbohydrate research》1986,146(1):63-72
Partial oxyamination of 4,6-di-O-acetyl-2,3-dideoxy-α-d-erythro-hex-2-enopyranosyl 4,6-di-O-acetyl-2,3-dideoxy-α-d-erythro-hex-2-enopyranoside with chloramine-T and osmium tetraoxide gave 4,6-di-O-acetyl-2-deoxy-2-(p-toluene-sulfonamido)-α-d-mannopyranosyl 4,6-di-O-acetyl-2,3-dideoxy-α-d-erythro-hex-2-enopyranoside and its 3-deoxy-3-(p-toluenesulfonamido) regioisomer, each in 18–19% isolated yield. Osmium tetraoxide-catalyzed cis-hydroxylation of the remaining alkenic residue in these products led in high yields to the corresponding triols having the α-d-manno, α-d-manno configuration. These were N-desulfonylated (and simultaneously O-deacetylated) by the action of sodium in liquid ammonia to furnish 2-amino-2-deoxy-α-d-mannopyranosyl α-d-mannopyranoside and 3-amino-3-deoxy-α-d-mannopyranosyl α-d-mannopyranoside as new, trehalose-type amino sugars.  相似文献   

19.
《Carbohydrate research》1987,162(2):199-207
The 2,1′-O-isopropylidene derivative (1) of 3-O-acetyl-4,6-O-isopropylidene-α-d-glucopyranosyl 6-O-acetyl-3,4-anhydro-β-d-lyxo-hexulofuranoside and 2,3,4-tri-O-acetyl-6-O-trityl-α-d-glucopyranosyl 3,4-anhydro-1,6-di-O-trityl-β-d-lyxo-hexulofuranoside have been synthesised and 1 has been converted into 2,3,4,6-tetra-O-acetyl-α-d-glucopyranosyl 1,6-di-O-acetyl-3,4-anhydro-β-d-lyxo-hexulofuranoside (2). The SN2 reactions of 2 with azide and chloride nucleophiles gave the corresponding 2,3,4,6-tetra-O-acetyl-α-d-glucopyranosyl 1,3,6-tri-O-acetyl-4-azido-4-deoxy-β-d-fructofuranoside (6) and 2,3,4,6-tetra-O-acetyl-α-d-glucopyranosyl 1,3,6-tri-O-acetyl-4-chloro-4-deoxy-β-d-fructofuranoside (8), respectively. The azide 6 was catalytically hydrogenated and the resulting amine was isolated as 2,3,4,6-tetra-O-acetyl-α-d-glucopyranosyl 4-acetamido-1,3,6-tri-O-acetyl-4-deoxy-β-d-fructofuranoside. Treatment of 5 with hydrogen bromide in glacial acetic acid followed by conventional acetylation gave 2,3,4,6-tetra-O-acetyl-α-d-glucopyranosyl 1,3,6-tri-O-acetyl-4-bromo-4-deoxy-β-d-fructofuranoside. Similar SN2 reactions with 2,3,4,6-tetra-O-acetyl-α-d-glucopyranosyl 1,6-di-O-acetyl-3,4-anhydro-β-d-ribo-hexulofuranoside (12) resulted in a number of 4′-derivatives of α-d-glucopyranosyl β-d-sorbofuranoside. The regiospecific nucleophilic substitution at position 4′ in 2 and 12 has been explained on the basis of steric and polar factors.  相似文献   

20.
Neu5Ac-Gal-containing neoglycoside 1 was convergently synthesized through Cu(I)-catalyzed 1,3-dipolar cycloaddition of methyl (6-azidohexyl 5-acetamido-4,7,8,9-tetra-O-acetyl-3,5-dideoxy-2-O-α-d-glycero-d-galacto-2-nonulopyranosyl)uronate and 11-thioacetylundecyl 2,4,6-tri-O-benzoyl-3-O-propargyl-β-d-galactopyranoside. The stable and water-soluble gold glyconanoparticle 2 (d = 3.4 nm) has been successfully prepared from neoglycoside 1 and characterized by NMR, IR, and TEM techniques.  相似文献   

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