• Journal of Ginseng Research
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• 제18권3호
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• pp.204-211
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• 1994

Three unknown ninhydrin positive substances (UK-I, UK-II and UK-III) were detected with an amino acid analyzer in a water extract of Korean red ginseng. One of them (UK-II) was isolated and determined to be maltulosyl arginine (Arg-Fru-Glc) on the basis of chemical and spectroscopic evidence. Another one (VK-III) was identified as Arg-Fru. Maltulosyl arginine, but not Arg-Fru, is a newly identified amino acid derivative. The Korean red ginseng was shown to contain more amount of maltulosyl arginine than the white ginseng. Maltulosyl arginine was found to be produced by the Mallard reaction of maltose with arginine during the heating process involved in preparation of the red ginseng. Maltulosyl arginine was found to inhibit maltase activity. Based on these results, the physiological significance of this new compound is discussed.

• Food Science and Biotechnology
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• 제17권6호
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• pp.1310-1315
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• 2008

This study was to investigate the influence of pH on the antioxidant activity of melanoidins formed from glucose (Glc) and fructose (Fru) with lysine enantiomers in the Maillard reaction. Melanoidins formed from D-isomers were found to be effective antioxidants in different in vitro assays with regard to the ferrous ion chelating activity, 1, l-diphenyl-2-picryl-hydrazil (DPPH) radical scavenging activities, ferric reducing/antioxidant power (FRAP), and 2,2'-azinobis(3-ethylbenothiazoline-6-sulfonic acid) diammonium salt (ABTS) radical scavenging activity. In particular, the chelating activity of these melanoidins at a pH of 7.0 was greater than those with pH of 4.0 and 10.0. The chelating activity and DPPH radical scavenging activity of the melanoidins formed from the Glc systems were higher than those of the melanoidins formed from the Fru systems. However, the FRAP and ABTS radical scavenging activity of these melanoidins were not different according to pH level, with exceptions being the Fru systems.

• Molecules and Cells
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• 제46권6호
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• pp.337-344
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• 2023

N-glycosylation, a common post-translational modification, is widely acknowledged to have a significant effect on protein stability and folding. N-glycosylation is a complex process that occurs in the endoplasmic reticulum (ER) and requires the participation of multiple enzymes. GlcNAc-1-P-transferase (GPT) is essential for initiating N-glycosylation in the ER. Tunicamycin is a natural product that inhibits N-glycosylation and produces ER stress, and thus it is utilized in research. The molecular mechanism by which GPT triggers N-glycosylation is discussed in this review based on the GPT structure. Based on the structure of the GPT-tunicamycin complex, we also discuss how tunicamycin reduces GPT activity, which prevents N-glycosylation. This review will be highly useful for understanding the role of GPT in the N-glycosylation of proteins, as well as presents a potential for considering tunicamycin as an antibiotic treatment.

• 한국전자현미경학회:학술대회논문집
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• 한국현미경학회 1999년도 제30차 춘계학술대회
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• pp.25-25
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• 1999

• 한국당과학회:학술대회논문집
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• 한국당과학회 2006년도 제1회 연례학술대회
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• pp.45-45
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• 2006

• 한국당과학회:학술대회논문집
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• 한국당과학회 2006년도 제1회 연례학술대회
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• pp.46-46
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• 2006

• 약학회지
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• 제13권4호
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• pp.121-124
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• 1969

인삼의 "methanolic extract"을 분획하여 염기성 성분을 모으고 GLC-Mass on line, NMR spectrum에 의하여 $\alpha$-pyrrolidone과 수종의 염기성성질이 공존함을 증명하였다.

• Korean Chemical Engineering Research
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• 제47권5호
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• pp.624-629
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• 2009

분자진화방법을 이용하여 불용성 단백질을 가용성 단백질로 개량하고자 할 때 가장 중요한 과정은 발현 단백질의 세포 내 폴딩 및 용해도를 어떻게 측정하고 선별할 수 있는가에 있다. 본 연구에서는 ampicillin에 저항성을 가지는 beta-lactamase를 목적 단백질과 접합 형태로 발현하여 목적 단백질의 용해도를 측정 및 선별할 수 있는 방법을 구축하였다. 이를 위하여 먼저 beta-lactamase C-말단에 목적 단백질을 링커를 이용하여 접합단백질 형태로 발현시킬 수 있는 발현 시스템을 구축하였고, 구축된 발현시스템이 대장균의 ampicillin의 저항성을 향상시킴을 확인하였다. 구축된 발현시스템에 용해도가 비교적 높은 adenine deaminase와 aspartate aminotranseferase, 용해도가 매우 낮은 GlcNAc-2-epimerase 세가지 단백질의 유전자를 클로닝하여 Ampicillin 농도에 따라 목적 단백질의 용해도가 세포 성장에 미치는 영향을 조사하였다. Ampicillin 농도 $200{\mu}g/mL$에서 가용성 단백질인 adenine deaminase와 aspartate aminotranseferase의 접합 단백질 발현은 세포 성장을 보이는 반면, 불용성 단백질인 GlcNAc-2-epimerase 접합 단백질 발현은 세포 성장을 저해함을 확인하였다.

• 대한의생명과학회지
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• 제12권1호
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• pp.17-22
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• 2006

The baculovirus expression system is a powerful method for producing large amounts of the human erythrocyte-type glucose transport protein, heterologously. Characterization of the expressed protein is expected to show its ability to transport sugars directly. To achieve this, it is a prerequisite to know the properties of the endogenous sugar transport system in Spodoptera frugiperda Clone 21 (Sf21) cells, which are commonly employed as a host permissive cell line to support the baculovirus replication. The Sf21 cells can grow well on TC-100 medium that contains 0.1% D-glucose as the major carbon source, strongly suggesting the presence of endogenous glucose transport system. However, unlike the human glucose transport protein that has a broad substrate and inhibitor specificity, very little is known about the nature of the endogenous sugar transport system in Sf21 cells. In order to characterize further the inhibitor recognition properties of the Sf21 cell transporter, the ability of phloretin, cytochalasin B and D-fructose to inhibit 2-deoxy-D-glucose (2dGlc) transport was examined by measuring inhibition constants $(K_i)$. The $K_i's$ for reversible inhibitors were determined from plots of uptake versus inhibitor concentration. The 2dGlc transport in the Sf21 cells was very potently inhibited by phloretin, the aglucone of phlorizin with a $K_i$ similar to the value of about $2{\mu}M$ reported for inhibition of glucose transport in human erythrocytes. However, the Sf21 cell transport system was found to differ from the human transport protein in being much less sensitive to inhibition by cytochalasin B (apparent $K_i$ approximately $10\;{\mu}M$). In contrast, It is reported that the inhibitor binds the human erythrocyte counterpart with a $K_d$ of approximately $0.12\;{\mu}M$. Interestingly, the Sf21 glucose transport system also appeared to have high affinity for D-fructose with a $K_i$ of approximately 5mM, contrasting the reported $K_m$ of the human erythrocyte transport protein for the ketose of 1.5M.

• Asian Pacific Journal of Cancer Prevention
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• 제17권2호
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• pp.691-695
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• 2016

Protein glycosylation is the most common posttranslational modification in mammalian cells. Aberrant protein glycosylation has been reported in various diseases, including cancer. We identified and quantified the glycan structures of O-linked glycoprotein from cholangiocarcinoma (CCA) cell lines from different histological types and compared their profiles by nanospray ionization-linear ion trap mass spectrometry (NSI-$MS^n$). Five human CCA cell lines, K100, M055, M139, M213 and M214 were characterized. The results showed that the O-linked glycans of the CCA cell lines comprised tri- to hexa-saccharides with terminal galactose and sialic acids: NeuAc1Gal1GalNAc1, Gal2GlcNAc1GalNAc1, NeuAc2Gal1GalNAc1 NeuAc1Gal2GlcNAc1GalNAc1 and NeuAc2Gal2GlcNAc1GalNAc1 All five CCA cell lines showed a similar glycan pattern, but with differences in their quantities. NeuAc1Gal1GalNAc1 proved to be the most abundant structure in poorly differentiated adenocarcinoma (K100; 57.1%), moderately differentiated adenocarcinoma (M055; 42.6%) and squamous cell carcinoma (M139; 43.0%), while moderately to poorly differentiated adenocarcinoma (M214; 40.1%) and adenosquamous cell carcinoma (M213; 34.7%) appeared dominated by $NeuA_{c2}Gal_1GalNA_{c1}$. These results demonstrate differential expression of the O-linked glycans in the different histological types of CCA. All five CCA cell lines have abundant terminal sialic acid (NeuAc) O-linked glycans, suggesting an important role for sialic acid in cancer cells. Our structural analyses of glycans may provide important information regarding physiology of disease-related glycoproteins in CCA.