• Title/Summary/Keyword: HPLC-chiral column

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Measurement of Optical Purity for Commercially Avialable Dexibuprofen and Ibuprofen Sold in 2013 (2013년도 시판된 Dexibuprofen과 Ibuprofen의 광학 순도 측정)

  • Ryoo, Sang Hyun;Lee, Sang Heon;Seo, Hae Chan;Song, Jung Suk;Ryoo, Dong Hyun;Yu, Jeong Jae;Kim, Hyun Young;Lee, Jae Hwan;Ryoo, Jae Jeong
    • Journal of the Korean Chemical Society
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    • v.58 no.3
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    • pp.277-282
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    • 2014
  • The optical purity of 11 commercial dexibuprofens and 7 ibuprofens sold in Korea in 2013 were examined by chiral HPLC. The Chiralcel OD-H column and LUX-Cellulose-1 column were used as chiral stationary phases and the mixed eluent of hexane:isopropanol:acetic acid as 100:1:0.1 was used as a mobile phase with a flow rate of 1.0 mL/min. Each data was obtained from an average value of at least three different experiments for each sample and the average value of relative standard deviation of them appeared very small, 0.19%. Average optical purity value (97.5%) of eleven commercial dexibuprofens used in this study were smaller than those of 9 years ago (99.2%), but larger than four years ago (95.6%). Enantiomeric ratios of (R)- and (S)-isomers of seven ibuprofen samples used in this experiment were achieved at about 50:50 which was different with the result (44:56) from four years ago.

Comparison of Higenamine Extraction from Unprocessed and Processed Aconite Roots

  • Lee, Sook-Yeon;Chang, Jung-In;Sung, Ki-Hyun;YunChoi, Hye-Sook
    • Natural Product Sciences
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    • v.5 no.4
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    • pp.181-185
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    • 1999
  • Higenamine is a cardiotonic constituent of Aconite root, one of the most important oriental traditional medicine. Since Aconite root contains toxic aconitine alkaloids, variously processed roots have been often used. Much works have been done with the chemical significances concerning with the toxic aconitine alkaloids during the processing periods. However, effects of processing on higenamine have not yet been previously studied. In this paper, the extract pattern and the amounts of higenamine extracted with water from unprocessed and processed Aconite roots were compared. R-(+)-isomer was the only higenamine enantiomer detected although racemic higenamine was reported to be separated from Aconitum spp. Sonication for 1 hour resulted in higher higenamine extraction $(12.3\;{\mu}g/g)$ than boiling water extraction for 3 hours $(6.7\;{\mu}g/g)$ of unprocessed Aconite root. Extraction of not only higenamine but also most of the other components of unprocessed Aconite roots were reduced with boiling in water. Similarly, reduced extraction was observed with extracts of all three processed Aconite roots (Kyung-Po-Aconite root, Dang-Po-Aconite root and Huk-Peon-Aconite root) by either sonicated extraction or boiling water extraction.

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Enantioselective Preparation of Metoprolol and Its Major Metabolites

  • Jung, Sang-Hun;Linh, Pham-Tuan;Lim, Hee-Kyun;Kim, Hyun-Ju;Kim, Kyeong-Ho;Kang, Jong-Seong
    • Archives of Pharmacal Research
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    • v.23 no.3
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    • pp.226-229
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    • 2000
  • To obtain the standard compounds of metoprolol for a pharmacokinetic study, a convenient synthetic procedure to prepare enantiomers of metoprolol (3a) and its major metaboites, 2-4-(2-hydroxy-3-isopropylamino)propoxyphenylathanol (3b) and 4-(2-hydroxy-3- isopropylamino) pro-poxyphenylacetic acid (4), was developed from their respective starting materials, 4-(2-methoxyethyl)phenol (1a), 4-(2-hydroxyethyl)phenol (1b) and methyl 4-hydroxyphenylacetate (1c). These phenolic compounds (1a, b, c) were converted in situ to their corresponding phenoxides with sodium hydroxide treatment followed by (R)- or (S)-epichlorohydrin treatment. The resulting epoxides 2 were transformed to 3 through reaction with isopropylamine. Ester 3c was hydrolyzed to the metabolite 4. Measured using the HPLC method on chiral column without any derivatization, the optical purity of enantiomers of metoprolol and o-demethylated metabolite 3b ranged between 96-99 % ee and that of enantiomers of carboxylic acid metabolite 4 ranged 91% ee.

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Enzymatic Formation of Guaiacylglycerol 8-O-4'-(Coniferyl Alcohol) Ether from Coniferyl Alcohol with Enzyme Preparations of Eucommia ulmoides

  • Alam, Md. Shameul;Katayama, Takeshi;Suzuki, Toshisada;Sultana, Deeder;Sultana, Saima;Hossain, Md. Daud
    • Journal of Crop Science and Biotechnology
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    • v.11 no.1
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    • pp.45-50
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    • 2008
  • Lignans and neolignans are optically active plant secondary metabolites. Research on biosynthesis of lignans has already been advanced especially for the formation of (+) pinoresinol but information on the biosynthesis of 8-O-4'- neolignans is still limited. Moreover, the chemical structure(position of substituents on aromatic rings) and stereochemistry of 8-O-4' neolignans is not clear. Katayama and Kado discovered that incubation of cell-free extracts from E. ulmoides with coniferyl alcohol in the presence of hydrogen peroxide gave (+)-erythro- and (-)-threo- guaiacylglycerol 8-O-4'-(coniferyl alcohol) ether (GGCE)(diastereomeric ratio, 3:2) which is the first report on enzymatic formation of optically active -8-O-4' neolignans from an achiral monolignol. In this aspect, enzymatic formation of guaiacyl 8-O-4' neolignan is noteworthy to clarify its stereochemistry from incubation of coniferyl alcohol with enzyme prepared from Eucommia ulmoides. In this experiment, soluble and insoluble enzymes prepared from E. ulmoides were incubated with 30 mM coniferyl alcohol(CA) for 60 min. The enzyme catalyzed GGCE, dehydrodiconiferyl alcohol(DHCA), and pinoresinol identified by reversed phase HPLC. Consequently, diastereomeric compositions of GGCE were determined as erythro and threo isomer. Enantiomeric composition was determined by the chiral column HPLC. Both enzyme preparations enantioselectively formed (-)-erythro, (+)-erythro and (+)-threo, (-)-threo-GGCEs respectively.

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