• Title/Summary/Keyword: high performance liguid chromatography

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Kluyveromyces marxianus var. marxianus IFO 1735에 의한 Inulin Fructotransferase의 생산 및 이용에 관한 연구

  • 김재근;판정척부
    • Microbiology and Biotechnology Letters
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    • v.25 no.3
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    • pp.277-285
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    • 1997
  • Kluyveromyces marxianus var. marxianus isolated as an inulin-assimilating microorganism produces inulin fructotransferase (inulaseII) which catalyses the conversion of inulin into di-D-fructofuranose 1, 2' : 2, 3' dianhydrde (DFAIII). The DFA produced by the organism was isolated by using active carbon column, and identified as DFAIII by high performance liguid chromatography. The culture medium giving maximum inulaseII production was found to consist of 1% sucrose and 0.75% yeast nitrogen base (YNB). The inulasell production was induced by inulin or sucrose as a carbon source and increased by addition of YNB as a nitrogen source. Optimal initial pH of the culture medium, culture temperature and medium volume for the enzyme production were pH 4.7, 30$\circ$C and 140 ml, respectively. Under the optimal conditions described above, the enzyme activity in the culture supematant reached 4.2 units/ml after cultivation for 36 h. The DFAIII was accumulated at 13.25 mg/ml after 48 h of culture in the Jerusalem artichoke tuber medium.

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Debittering of Enzymatic Hydrolysate Using Exopeptidase Active Fractions from the Argentina Shortfin Squid Illex argentinus Hepatopancreas (원양산 오징어(Illex argentinus) 간췌장 유래 Exopeptidase 분획물의 쓴맛개선 효과)

  • Kim, Jin-Soo;Kim, Min Ji;Kim, Ki Hyun;Kang, Sang In;Park, Sung Hwan;Lee, Hyun Ji;Heu, Min Soo
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.47 no.2
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    • pp.135-143
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    • 2014
  • Exopeptidase active fractions from the hepatopancreas of the Argentina shortfin squid Illex argentinus, were obtained with acetone (AC 30-40%), ammonium sulfate (AS 60-70% saturation), anion exchange chromatography (AE-II, 0.2 M NaCl) and gel filtration chromatography (GF-I, 30-50 kDa) fractionation methods. A bitter peptide solution that has a bitterness equivalent to that of 2% glycylphenylalanine and prepared by tryptic hydrolysis of milk casein, was treated with the exopeptidase active fractions. The GF-I fraction was the best based on aminopeptidase activity (35.3 U/mg), percentage of recovery (30.7%) and a sensory evaluation (1.7). The amount of released amino acids increased as incubation time increased, and the bitterness of the enzyme reaction mixtures decreased. Incubation with the GF-I fraction for 24 h resulted in the hydrolysis of several peptides as revealed by the reverse-phase high performance liguid chromatography profile, with three peaks (3, 5 and 6) decreasing in area (%) and three peaks (1, 2 and 4) increasing in area (%). Therefore, the GF-I fraction appeared to be ideally suited to reduce bitterness in protein hydrolysates by catalyzing the hydrolysis of bitter peptides.

Isolation of 20(S)-Ginsenoside Rg3 and Rg5 from the Puffed Red Ginseng (팽화 홍삼으로부터 20(S)-Ginsenoside Rg3와 Rg5의 분리 및 구조동정)

  • An, Young-Eun;Cho, Jin-Gyeong;Baik, Nam-In;Choi, Sung-Won;Hur, Nam-Yoon;Park, Seok-Jun;Kim, Byung-Yong;Baik, Moo-Yeol
    • Food Engineering Progress
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    • v.14 no.2
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    • pp.159-165
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    • 2010
  • Red ginseng tail roots (9.8 g water/100 g sample) were puffed at 7, 8, 9, and 10 $kg_{f}/cm^{2}$ using a rotational puffing gun. Puffed red ginseng was extracted with 70% ethanol, and the concentrated extract was successively partitioned with diethyl ether, n-butanol and $H_{2}O$. Two unknown ginsenosides from puffed red ginseng were found at 63 and 65 min of retention time in HPLC chromatogram suggesting that chemical structure of some ginsenosides might be altered during the puffing process. Identification of two unknown compounds was carried out using TLC, HPLC and NMR. Two major compounds were isolated from TLC. According to TLC result, compound I was expected to be the mixture of ginsenosides Rk1 and Rg5, and compound II was expected to be a 20(S)-ginsenoside $Rg_{3}$. Three compounds were isolated from n-butanol fraction through repeated silica gel and octadecyl silica gel column chromatographies. From the result of $^{1}H$- and $^{13}C$-NMR data, the chemical structures of unknown compounds were determined as ginsenoside $Rg_{5}$ and 20(S)-ginsenoside $Rg_{3}$. Unfortunately, ginsenoside $Rk_{1}$ could not be separated from ginsenoside-$Rg_{5}$ in the compound I. It was carefully reexamined using HPLC and confirmed that the last unknown compound was ginsenoside-$Rk_{1}$.

A Survey of the Presence of Aflatoxins in Herb Medicines (한약재중의 아플라톡신 오염도 조사)

  • Park, Sung-Kyu;Jang, Jung-Im;Ha, Kwang-Tae;Kim, Sung-Dan;Kim, Ouk-Hee;Choi, Younh-Hee;Seung, Hyun-Jeung;Kim, Si-Jung;Lee, Kyeong-Ah;Jo, Han-Bin;Choi, Byung-Hyum;Kim, Min-Young
    • Journal of Food Hygiene and Safety
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    • v.24 no.2
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    • pp.169-173
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    • 2009
  • A survey of total aflatoxin levels was conducted on 145 samples(carthamiflos, thujae semen, giycyrrhizae radix et rhizoma) collected in Yakyeang markets in Seoul. Aflatoxin levels were quantified by the immunoaffinity column clean-up method followed by performance liguid chromatography(HPLC)-fluorescence detector(FLD). Aflatoxins were found in 10(6.9%)samples including 5 Arecae semen, 4 Thujae semen, 1 Zizyphi semen with a range of $0.45{\sim}79.15\;{\mu}g/kg$. Generally These results show that the contamination level of aflatoxins in Herb Medicines consumed in Korea is high compared with the standard in Korea Herb Medicine Code($10\;{\mu}g/kg$ as aflatoxin B1). It is considered that aflatoxin concentration was increased in herb medicines during a storage and drying in herb medicines examined