• Title/Summary/Keyword: D-glucopyranose

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Computational Studies of the β-D Glucopyranose Structure (계산화학적 방법을 통한 β-D-glucopyranose 구조 연구)

  • Yang, Ji-Hyun;Kim, Jinah;Lee, Sangmin;Ahn, Ik-Sung;Mhin, ByungJin
    • Journal of the Korean Chemical Society
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    • v.57 no.5
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    • pp.554-559
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    • 2013
  • In this study, we have investigated potential energy of ${\beta}$-D-glucopyranose in vacuum and implicit water condition. By Comparing two conditions we find that how solvation energy influence ${\beta}$-D-glucopyranose structure. We use AMBER package program and GLYCAM_06 force field. Solvation model was used for the generalized Born model with Hawkins, Cramer, Truhlar has been proposed. We conclude that difference of contour map of two conditions is caused by solvation effect by reducing hydrogen bonding interaction.

Preparation of Sophorose - I. Chemical Synthesis of Sophorose from D-Glucose (Sophorose의 제조-I. D-Glucose로부터 sophorose의 화학적 합성)

  • Anufriev, Victor P.;Park, Jong-Dae;Lee, You-Hui;Kim, Shin-Il;Baek, Nam-In
    • Applied Biological Chemistry
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    • v.39 no.6
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    • pp.512-516
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    • 1996
  • Sophorose $(2-O-{\beta}-D-glucopyranosyl-D-glucopyranose)$ was chemically synthesized from D-glucopyranose through six steps of chemical reactions with the yield of 21%. The chemical structures of sophorose and some compounds obtained during reactions were confirmed by interpretations of spectral data, NMR, IR, etc.

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$^{1}$H-NMR spectroscopic evidence on the glycosidic linkages of the transglycosylated products of low-molecular-weight $\beta$-D-glucosidase from trichoderma koningii (Trichoderma koningii에서 분비되는 .$\beta$-D-glucosidase의 반응산물에 대한 핵자기공명분석)

  • 이헌주;정춘수;강사욱;하영칠
    • Korean Journal of Microbiology
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    • v.27 no.1
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    • pp.35-42
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    • 1989
  • The mode of transglycosylation reaction observed during the action of low-molecular-weigh $\beta$-D-glucosidase ($\beta$-D-glucoside glucohydrolase, EC3.2.1.21) purified from Trichoderma koningii ATCC 26113 was investigated using $^{1}H$-NMR spectroscopy. The enzyme was purified by the series of procedures including ammonium sulfate precipitation, and fractionations by column chromatographies on Bio-Gel P-150, DEAE-Sephadex A-50, and SP-Sephadex C-50. The final purification was performed by the band eluation after preparative polyacrylamide gel electrophoresis. The enzyme showed its molecular size of 78,000 through the analysis of sodium dodecyl sulfate-polyacrylamide gel electrophoresis and its isoelectric point of 5.80 through the analysis of analytical isoelectric focusing. The H-1 proton resonances were analyzed. After the reaction of the enzyme with cellobiose, the reaction products were separated by high performance liquid chromatography using refractive index detector. H-1 resonances of the products were consisted with those of gentiobiose [$\beta$-D-glucopyranosyl--(1,6)-D-glucopyranose], and cellotriose [$\beta$-D glucopyranosyl-(1,4)-$\beta$-D-glucopyranosyl]-(1,4)-D-glucopyranose] with minor resonances of sophorose [$\beta$-D-glucopyranosyl-(1,2)-D-glucopyranose], respectively.

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Selective Cleavage of 2,2,2-Trichloroethyl Group with Zinc Dust in the Presence of Phthalimido Function (Phthalimido기 존재하에서 Zinc Dust에 의한 2,2,2-Trichloroethyl 기의 선택적 환원분해)

  • Chung Bong Young;Kim Young-Hwan
    • Journal of the Korean Chemical Society
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    • v.23 no.3
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    • pp.175-179
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    • 1979
  • In acidic media such as aqueous acetic acid, phthalimide is reduced with zinc dust to give 3-hydroxyphthalimidine while the 2,2,2-trichloroethyl esters or glycosides are reductively cleaved. However, it has been discovered that, by employing a mixture of THF and pH 4.5 buffer solution as a solvent, 2,2,2-trichloroethyl group can be selectively removed with activated zinc dust in the presence of phthalimido function, provided that the reactant or the product does not have any free carboxylic acid function. By applying the above methods, reaction of $2,2,2-trichloroethyl 3,4,6-tri-O-acetyl-2-deoxy-2-phthalimido-{\beta}-D-glucopyranoside$ (1) with activated zinc dust gave a good yield of $3,4, 6-tri-O-acetyl-2-deoxy-2-phthalimido-{\beta}-D-glucopyranose$ (5) in THF-buffer solution, and $3,4,6-tri-O-acetyl-2-deoxy-2-(3-hydroxyphthalimidino)-{\beta}-D-glucopyranose$ (6) in aqueous acetic acid.

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Anticoagulant 1,2,3,4,6-Pentagalloyl-$\beta$-D-Glucopyranose Isolated from Geranium (Pelargonium inquinans Ait)

  • Ji Myeong-Sim;Piao Xiang-Lan;Jin Yu-Lan;Park Ro Dong
    • Archives of Pharmacal Research
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    • v.28 no.9
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    • pp.1037-1041
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    • 2005
  • Geranium (Pelargonium inquinans Ait) leaves were extracted with $80\%$ MeOH, and partitioned into n-hexane, ethyl acetate, BuOH and $H_2O$ to isolate the anticoagulant principles. The EtOAc fraction was found to be the most active, and was further purified using silica and octadecylisilane column chromatography employing a bioassay-guided fractionation method. The active compound was isolated and identified as $1,2,3,4,6-pentagalloyl-\beta-D-glucopyranose$(PGG) (compound I). The isolated anticoagulant significantly prolonged the activated partial thrombin time (APTT) and thrombin time (TT) using normal human plasma. One microgram of $1,2,3,4,6-pentagalloyl-\beta-D-glucopyranose$ showed 0.063 heparin units in the APTT and 2.73 heparin units in the TT for anti-thrombosis. This is the first report of the isolation of PGG from geranium plants.

Preparation and Characterization of ${\alpha}$-D-Glucopyranosyl- ${\alpha}$-Acarviosinyl-D-Glucopyranose, a Novel Inhibitor Specific for Maltose-Producing Amylase

  • Kim, Myo-Jeong;Park, Kwan-Hwa
    • Proceedings of the Korean Society of Life Science Conference
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    • 2003.05a
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    • pp.23-37
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    • 2003
  • A novel inhibitor against maltose-producing a-amylase was prepared via stepwise degradation of a high molecular weight acarbose (HMWA) using Thermus maltogenic amylase (ThMA). The structure of the purified inhibitor was determined to be ${\alpha}$-D-glucopyranosyl-${\alpha}$-acarviosinyl-D-glucopyranose (GlcAcvGlc). Progress curves of p-nitrophenyl-${\alpha}$-D-maltoside (PNPG2) hydrolysis by various amylolytic enzymes, including maltogenase (MGase), ThMA, and cyclodextrinase(CDase) I-5, in the presence of acarbose or GlcAcvGlc indicated a slow-binding mode of inhibition. The inhibition potency of GlcAcvGlc for MGase, ThMA, and CDase I-5 was 3 orders of magnitude higher than that of acarbose.

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New Dimeric Phenolic Conjugates from the Wood of Tamarix tetragyna

  • Hussein, Sahar A.M.
    • Natural Product Sciences
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    • v.3 no.2
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    • pp.127-134
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    • 1997
  • Two new dimeric phenolic conjugates, 2,3-di-O-dehydrodigallicmonocarboxyl-$({\alpha},{\beta})$-$^4C_1$-glucopyranose and ellagic acid 3,3'-dimethylether-4-0-$SO_3K$ were isolated from the debarked heart wood of Tamarix tetragyna (Tamaricaceae) along with the known phenolic compounds, isoferulic acid, ferulic acid, gallic acid, gallic acid 4-methyl ether, syringic acid, ellagic acid 3,3'-dimethyl ether and ellagic acid. All structures were determined mostly by ESI-MS, ID and 2D-NMR spectroscopy.

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Structure Determination of the Extractives from the Taxus Cuspidata Fruits (주목열매 추출물 구조분석)

  • Park, Se-Yeong;Choi, In-Gyu;Bae, Young-Soo
    • Journal of the Korean Wood Science and Technology
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    • v.41 no.6
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    • pp.566-575
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    • 2013
  • The fruits of Taxus cuspidata were collected, divided into seeds and fruits, and extracted with 95% EtOH. The extracts were evaporated under the reduced vacuum pressure, concentrated, then successively fractionated with a series of n-hexane, dichloromethane, ethyl acetate and water on a separatory funnel to get some freeze dried samples. A portion of the EtOAc (arils:1.65 g, seeds:1.04 g) and $H_2O$ (arils:7 g, seeds:10 g) soluble samples were chromatographed on a Sephadex column using MeOH-$H_2O$ (1:1, 1:3, 1:5, v/v), EtOH-hexane (3:1, v/v) mixture and 100% $H_2O$ as eluting solvents to isolate pure compounds from the fractions. The isolates were developed by cellulose TLC using t-BuOH-HOAc-$H_2O$ (TBA; 3:1:1, v/v/v) and 6% aqueous HOAc. Visualization was done under ultraviolet light and by spraying the vanillin-HCl-EtOH reagent (4.8:12:480, v/v/v). followed by heating. The structures of the isolates were characterized by $^1H$- and $^{13}C$-NMR, DEPT, 2D-NMR, LC/MS and EI-MS spectra. In addition to the NMR and MS spectra, acid hydrolysis and permethylation were used to determine the correct structure of the isolated sugar compound. Their structures were elucidated as (+)-catechin (1), (-)-epicatechin (2), (+)-gallocatechin (3), (-)-epigallocatechin (4) and ${\beta}$-D-fructofuranose-($2{\rightarrow}4$)-O-${\beta}$-D-glucopyranose($1{\rightarrow}4$)-O-${\alpha}$-D-glucopyranose ($1{\rightarrow}2$)-O-${\beta}$-D-fructofuranose (5) on the basis of the above experimental evidences.

Phenolic Compounds from Leaves of Spiraea salicifolia (꼬리조팝나무 잎의 페놀성 화합물)

  • Ahn, Byung-Tae;Oh, Kap-Jin;Park, Si-Kyung;Chung, Sun-Gan;Cho, Eui-Hwan;Kim, Jae-Gil;Ro, Jai-Seup;Lee, Kyong-Soon
    • Korean Journal of Pharmacognosy
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    • v.27 no.3
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    • pp.178-183
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    • 1996
  • Seven phenolic compounds were isolated from the leaves of Spiraea salicifolia. Their structures were characterized as cinnamic acid, ${\rho}-hydroxy$ cinnamic acid, ${\rho}-methoxy$ cinnamic acid, $1-O-coumaroyl-{\beta}-D-glucopyranose$, $1-O-caffeoyl-{\beta}-D-glucopyranose$, hyperoside and quercetin $3-O-(6'-O-{\alpha}-L-arbinopyranosyl)-{\beta}-D-galactopyranoside$ by chemical and spectroscopic evidence.

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